1 ////////////////////////////////////////////////////////////////////////////
2 $Cambridge: exim/doc/doc-docbook/spec.ascd,v 1.3 2005/11/15 16:10:50 ph10 Exp $
4 This is the primary source of the Exim Manual. It is an AsciiDoc document
5 that is converted into DocBook XML for subsequent conversion into printing
6 and online formats. The markup used herein is traditional AsciiDoc markup,
7 with some extras. The markup is summarized in a file called AdMarkup.txt. A
8 private AsciiDoc configuration file specifies how the extra markup is to be
9 translated into DocBook XML. You MUST use this private AsciiDoc markup if you
10 want to get sensible results from processing this document.
11 ////////////////////////////////////////////////////////////////////////////
15 ////////////////////////////////////////////////////////////////////////////
16 I am abusing the <abstract> DocBook element as the only trivial way of getting
17 this information onto the title verso page in the printed renditions. A better
18 title page would be a useful improvement. The <abstract> element is removed by
19 preprocessing for the HTML renditions, and the whole <docbookinfo> element is
20 removed for ascii output formats.
21 ////////////////////////////////////////////////////////////////////////////
23 Specification of the Exim Mail Transfer Agent
24 =============================================
25 :abstract: University of Cambridge Computing Service, New Museums Site, Pembroke Street, Cambridge CB2 3QH, England
27 :copyright: University of Cambridge
29 :date: 01 November 2005
30 :doctitleabbrev: The Exim MTA
34 //////////////////////////////////////////////////////////////////////////////
35 ***WARNING*** Do not put anything, not even a titleabbrev, setting before
36 the first chapter (luckily it does not need one) because if you do, AsciiDoc
37 creates an empty <preface> element, which we do not want.
38 //////////////////////////////////////////////////////////////////////////////
43 ////////////////////////////////////////////////////////////////////////////
44 These are definitions of AsciiDoc "attributes" that are in effect "variables"
45 whose values can be substituted. The first makes index entries shorter. The
46 second avoids problems with literal asterisks getting tangled up with bold
47 emphasis quotes. The others are here for convenience of editing.
49 ***WARNING*** The positioning of these definitions, after the first Chapter
50 title, seems to be important. If they are placed earlier, they give rise to
52 ////////////////////////////////////////////////////////////////////////////
54 :ACL: access control lists (ACLs)
56 :previousversion: 4.50
60 ////////////////////////////////////////////////////////////////////////////
61 This chunk of literal XML implements index entries of the form "x, see y" and
62 "x, see also y". It didn't seem worth inventing AsciiDoc markup for this,
63 because is it not something that is likely to change often.
64 ////////////////////////////////////////////////////////////////////////////
66 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
67 <indexterm role="concept">
68 <primary>$1, $2, etc.</primary>
69 <see><emphasis>numerical variables</emphasis></see>
71 <indexterm role="concept">
72 <primary>address</primary>
73 <secondary>rewriting</secondary>
74 <see><emphasis>rewriting</emphasis></see>
76 <indexterm role="concept">
77 <primary>Bounce Address Tag Validation</primary>
78 <see><emphasis>BATV</emphasis></see>
80 <indexterm role="concept">
81 <primary>Client SMTP Authorization</primary>
82 <see><emphasis>CSA</emphasis></see>
84 <indexterm role="concept">
85 <primary>CR character</primary>
86 <see><emphasis>carriage return</emphasis></see>
88 <indexterm role="concept">
89 <primary>CRL</primary>
90 <see><emphasis>certificate revocation list</emphasis></see>
92 <indexterm role="concept">
93 <primary>delivery</primary>
94 <secondary>failure report</secondary>
95 <see><emphasis>bounce message</emphasis></see>
97 <indexterm role="concept">
98 <primary>dialup</primary>
99 <see><emphasis>intermittently connected hosts</emphasis></see>
101 <indexterm role="concept">
102 <primary>exiscan</primary>
103 <see><emphasis>content scanning</emphasis></see>
105 <indexterm role="concept">
106 <primary>failover</primary>
107 <see><emphasis>fallback</emphasis></see>
109 <indexterm role="concept">
110 <primary>fallover</primary>
111 <see><emphasis>fallback</emphasis></see>
113 <indexterm role="concept">
114 <primary>filter</primary>
115 <secondary>Sieve</secondary>
116 <see><emphasis>Sieve filter</emphasis></see>
118 <indexterm role="concept">
119 <primary>ident</primary>
120 <see><emphasis>RFC 1413</emphasis></see>
122 <indexterm role="concept">
123 <primary>LF character</primary>
124 <see><emphasis>linefeed</emphasis></see>
126 <indexterm role="concept">
127 <primary>maximum</primary>
128 <see><emphasis>limit</emphasis></see>
130 <indexterm role="concept">
131 <primary>monitor</primary>
132 <see><emphasis>Exim monitor</emphasis></see>
134 <indexterm role="concept">
135 <primary>no_<emphasis>xxx</emphasis></primary>
136 <see>entry for xxx</see>
138 <indexterm role="concept">
139 <primary>NUL</primary>
140 <see><emphasis>binary zero</emphasis></see>
142 <indexterm role="concept">
143 <primary>passwd file</primary>
144 <see><emphasis>/etc/passwd</emphasis></see>
146 <indexterm role="concept">
147 <primary>process id</primary>
148 <see><emphasis>pid</emphasis></see>
150 <indexterm role="concept">
151 <primary>RBL</primary>
152 <see><emphasis>DNS list</emphasis></see>
154 <indexterm role="concept">
155 <primary>redirection</primary>
156 <see><emphasis>address redirection</emphasis></see>
158 <indexterm role="concept">
159 <primary>return path</primary>
160 <seealso><emphasis>envelope sender</emphasis></seealso>
162 <indexterm role="concept">
163 <primary>scanning</primary>
164 <see><emphasis>content scanning</emphasis></see>
166 <indexterm role="concept">
167 <primary>SSL</primary>
168 <see><emphasis>TLS</emphasis></see>
170 <indexterm role="concept">
171 <primary>string</primary>
172 <secondary>expansion</secondary>
173 <see><emphasis>expansion</emphasis></see>
175 <indexterm role="concept">
176 <primary>top bit</primary>
177 <see><emphasis>8-bit characters</emphasis></see>
179 <indexterm role="concept">
180 <primary>variables</primary>
181 <see><emphasis>expansion, variables</emphasis></see>
183 <indexterm role="concept">
184 <primary>zero, binary</primary>
185 <see><emphasis>binary zero</emphasis></see>
187 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
190 ////////////////////////////////////////////////////////////////////////////
191 OK, now we start with the real data for this first chapter.
192 ////////////////////////////////////////////////////////////////////////////
194 Exim is a mail transfer agent (MTA) for hosts that are running Unix or
195 Unix-like operating systems. It was designed on the assumption that it would be
196 run on hosts that are permanently connected to the Internet. However, it can be
197 used on intermittently connected hosts with suitable configuration adjustments.
199 Configuration files currently exist for the following operating systems: AIX,
200 BSD/OS (aka BSDI), Darwin (Mac OS X), DGUX, Dragonfly, FreeBSD, GNU/Hurd,
201 GNU/Linux, HI-OSF (Hitachi), HI-UX, HP-UX, IRIX, MIPS RISCOS, NetBSD, OpenBSD,
202 OpenUNIX, QNX, SCO, SCO SVR4.2 (aka UNIX-SV), Solaris (aka SunOS5), SunOS4,
203 Tru64-Unix (formerly Digital UNIX, formerly DEC-OSF1), Ultrix, and Unixware.
204 Some of these operating systems are no longer current and cannot easily be
205 tested, so the configuration files may no longer work in practice.
207 There are also configuration files for compiling Exim in the Cygwin environment
208 that can be installed on systems running Windows. However, this document does
209 not contain any information about running Exim in the Cygwin environment.
211 The terms and conditions for the use and distribution of Exim are contained in
212 the file _NOTICE_. Exim is distributed under the terms of the GNU General
213 Public Licence, a copy of which may be found in the file _LICENCE_.
215 The use, supply or promotion of Exim for the purpose of sending bulk,
216 unsolicited electronic mail is incompatible with the basic aims of the program,
217 which revolve around the free provision of a service that enhances the quality
218 of personal communications. The author of Exim regards indiscriminate
219 mass-mailing as an antisocial, irresponsible abuse of the Internet.
221 Exim owes a great deal to Smail 3 and its author, Ron Karr. Without the
222 experience of running and working on the Smail 3 code, I could never have
223 contemplated starting to write a new MTA. Many of the ideas and user interfaces
224 were originally taken from Smail 3, though the actual code of Exim is entirely
225 new, and has developed far beyond the initial concept.
227 Many people, both in Cambridge and around the world, have contributed to the
228 development and the testing of Exim, and to porting it to various operating
229 systems. I am grateful to them all. The distribution now contains a file called
230 _ACKNOWLEDGMENTS_, in which I have started recording the names of
237 [revisionflag="changed"]
238 cindex:[documentation]
239 This edition of the Exim specification applies to version {version} of Exim.
240 Substantive changes from the {previousversion} edition are marked in some
241 renditions of the document; this paragraph is so marked if the rendition is
242 capable of showing a change indicator.
244 This document is very much a reference manual; it is not a tutorial. The reader
245 is expected to have some familiarity with the SMTP mail transfer protocol and
246 with general Unix system administration. Although there are some discussions
247 and examples in places, the information is mostly organized in a way that makes
248 it easy to look up, rather than in a natural order for sequential reading.
249 Furthermore, the manual aims to cover every aspect of Exim in detail, including
250 a number of rarely-used, special-purpose features that are unlikely to be of
253 cindex:[books about Exim]
254 An ``easier'' discussion of Exim which provides more in-depth explanatory,
255 introductory, and tutorial material can be found in a book entitled
256 'The Exim SMTP Mail Server', published by UIT Cambridge
257 (*http://www.uit.co.uk/exim-book/[]*).
259 This book also contains a chapter that gives a general introduction to SMTP and
260 Internet mail. Inevitably, however, the book is unlikely to be fully up-to-date
261 with the latest release of Exim. (Note that the earlier book about Exim,
262 published by O'Reilly, covers Exim 3, and many things have changed in Exim 4.)
264 [revisionflag="changed"]
265 cindex:[Debian,information sources]
266 If you are using a Debian distribution of Exim, you will find information about
267 Debian-specific features in the file
269 _/usr/share/doc/exim4-base/README.Debian_
271 The command ^man update-exim.conf^ is another source of Debian-specific
274 cindex:[_doc/NewStuff_]
275 cindex:[_doc/ChangeLog_]
277 As the program develops, there may be features in newer versions that have not
278 yet made it into this document, which is updated only when the most significant
279 digit of the fractional part of the version number changes. Specifications of
280 new features that are not yet in this manual are placed in the file
281 _doc/NewStuff_ in the Exim distribution.
283 Some features may be classified as ``experimental''. These may change
284 incompatibly while they are developing, or even be withdrawn. For this reason,
285 they are not documented in this manual. Information about experimental features
286 can be found in the file _doc/experimental.txt_.
288 All changes to the program (whether new features, bug fixes, or other kinds of
289 change) are noted briefly in the file called _doc/ChangeLog_.
291 cindex:[_doc/spec.txt_]
292 This specification itself is available as an ASCII file in _doc/spec.txt_ so
293 that it can easily be searched with a text editor. Other files in the _doc_
297 `--------------------`------------------------------------------
298 _OptionLists.txt_ list of all options in alphabetical order
299 _dbm.discuss.txt_ discussion about DBM libraries
300 _exim.8_ a man page of Exim's command line options
301 _experimental.txt_ documentation of experimental features
302 _filter.txt_ specification of the filter language
303 _pcrepattern.txt_ specification of PCRE regular expressions
304 _pcretest.txt_ specification of the PCRE testing program
305 _Exim3.upgrade_ upgrade notes from release 2 to release 3
306 _Exim4.upgrade_ upgrade notes from release 3 to release 4
307 ----------------------------------------------------------------
309 The main specification and the specification of the filtering language are also
310 available in other formats (HTML, PostScript, PDF, and Texinfo). Section
311 <<SECTavail>> below tells you how to get hold of these.
319 The primary site for Exim source distributions is currently the University of
320 Cambridge's FTP site, whose contents are described in 'Where to find the Exim
321 distribution' below. In addition, there is a web site and an FTP site at
322 %exim.org%. These are now also hosted at the University of Cambridge. The
323 %exim.org% site was previously hosted for a number of years by Energis Squared,
324 formerly Planet Online Ltd, whose support I gratefully acknowledge.
326 As well as Exim distribution tar files, the Exim web site contains a number of
327 differently formatted versions of the documentation, including the
328 cindex:[FAQ] FAQ in both text and HTML formats. The HTML version comes with
329 a keyword-in-context index. A recent addition to the online information is the
331 Exim wiki (*http://www.exim.org/eximwiki/[]*).
332 We hope that this will make it easier for Exim users to contribute examples,
333 tips, and know-how for the benefit of others.
339 cindex:[mailing lists,for Exim users]
340 The following are the three main Exim mailing lists:
343 `-------------------------------`----------------------------------------
344 'exim-users@exim.org' general discussion list
345 'exim-dev@exim.org' discussion of bugs, enhancements, etc.
346 'exim-announce@exim.org' moderated, low volume announcements list
347 -------------------------------------------------------------------------
349 You can subscribe to these lists, change your existing subscriptions, and view
350 or search the archives via the mailing lists link on the Exim home page. The
351 'exim-users' mailing list is also forwarded to
352 *http://www.egroups.com/list/exim-users[]*, an archiving system with searching
355 [revisionflag="changed"]
356 cindex:[Debian,mailing list for]
357 If you are using a Debian distribution of Exim, you may wish to subscribe to
358 the Debian-specific mailing list, which is
359 'pkg-exim4-users@lists.alioth.debian.org'.
364 cindex:[training courses]
365 From time to time (approximately annually at the time of writing), training
366 courses are run by the author of Exim in Cambridge, UK. Details can be found on
367 the web site *http://www-tus.csx.cam.ac.uk/courses/exim/[]*.
373 cindex:[reporting bugs]
374 Reports of obvious bugs should be emailed to 'bugs@exim.org'. However, if
375 you are unsure whether some behaviour is a bug or not, the best thing to do is
376 to post a message to the 'exim-dev' mailing list and have it discussed.
381 Where to find the Exim distribution
382 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
384 cindex:[distribution,ftp site]
385 The master ftp site for the Exim distribution is
388 *ftp://ftp.csx.cam.ac.uk/pub/software/email/exim[]*
394 *ftp://ftp.exim.org/pub/exim[]*
397 The file references that follow are relative to the _exim_ directories at these
398 sites. There are now quite a number of independent mirror sites around the
399 world. Those that I know about are listed in the file called _Mirrors_.
401 Within the _exim_ directory there are subdirectories called _exim3_ (for
402 previous Exim 3 distributions), _exim4_ (for the latest Exim 4
403 distributions), and _Testing_ for testing versions. In the _exim4_
404 subdirectory, the current release can always be found in files called
411 where 'n.nn' is the highest such version number in the directory. The two
412 files contain identical data; the only difference is the type of compression.
413 The _.bz2_ file is usually a lot smaller than the _.gz_ file.
415 cindex:[distribution,signing details]
416 cindex:[distribution,public key]
417 cindex:[public key for signed distribution]
418 The distributions are currently signed with Philip Hazel's GPG key. The
419 corresponding public key is available from a number of keyservers, and there is
420 also a copy in the file _Public-Key_. The signatures for the tar bundles are
424 _exim-n.nn.tar.gz.sig_
425 _exim-n.nn.tar.bz2.sig_
428 For each released version, the log of changes is made separately available in a
429 separate file in the directory _ChangeLogs_ so that it is possible to
430 find out what has changed without having to download the entire distribution.
432 cindex:[documentation,available formats]
433 The main distribution contains ASCII versions of this specification and other
434 documentation; other formats of the documents are available in separate files
435 inside the _exim4_ directory of the FTP site:
438 _exim-html-n.nn.tar.gz_
439 _exim-pdf-n.nn.tar.gz_
440 _exim-postscript-n.nn.tar.gz_
441 _exim-texinfo-n.nn.tar.gz_
444 These tar files contain only the _doc_ directory, not the complete
445 distribution, and are also available in _.bz2_ as well as _.gz_ forms.
447 The FAQ is available for downloading in two different formats in these files:
451 _exim4/FAQ.html.tar.gz_
454 The first of these is a single ASCII file that can be searched with a text
455 editor. The second is a directory of HTML files, normally accessed by starting
456 at _index.html_. The HTML version of the FAQ (which is also included in the
457 HTML documentation tarbundle) includes a keyword-in-context index, which is
458 often the most convenient way of finding your way around.
464 A wish list is maintained, containing ideas for new features that have been
465 submitted. From time to time the file is exported to the ftp site into the file
466 _exim4/WishList_. Items are removed from the list if they get implemented.
472 cindex:[contributed material]
473 At the ftp site, there is a directory called _Contrib_ that contains
474 miscellaneous files contributed to the Exim community by Exim users. There is
475 also a collection of contributed configuration examples in
476 _exim4/config.samples.tar.gz_. These samples are referenced from the FAQ.
482 - cindex:[limitations of Exim]
483 Exim is designed for use as an Internet MTA, and therefore handles addresses
484 in RFC 2822 domain format only.
485 cindex:[bang paths,not handled by Exim]
486 It cannot handle UUCP ``bang paths'', though simple two-component bang paths can
487 be converted by a straightforward rewriting configuration. This restriction
488 does not prevent Exim from being interfaced to UUCP as a transport mechanism,
489 provided that domain addresses are used.
491 - cindex:[domainless addresses]
492 cindex:[address,without domain]
493 Exim insists that every address it handles has a domain attached. For incoming
494 local messages, domainless addresses are automatically qualified with a
495 configured domain value. Configuration options specify from which remote
496 systems unqualified addresses are acceptable. These are then qualified on
499 - cindex:[transport,external]
500 cindex:[external transports]
501 The only external transport currently implemented is an SMTP transport over a
502 TCP/IP network (using sockets, including support for IPv6). However, a pipe
503 transport is available, and there are facilities for writing messages to files
504 and pipes, optionally in 'batched SMTP' format; these facilities can be used
505 to send messages to some other transport mechanism such as UUCP, provided it
506 can handle domain-style addresses. Batched SMTP input is also catered for.
508 - Exim is not designed for storing mail for dial-in hosts. When the volumes of
509 such mail are large, it is better to get the messages ``delivered'' into files
510 (that is, off Exim's queue) and subsequently passed on to the dial-in hosts by
513 - Although Exim does have basic facilities for scanning incoming messages, these
514 are not comprehensive enough to do full virus or spam scanning. Such operations
515 are best carried out using additional specialized software packages. If you
516 compile Exim with the content-scanning extension, straightforward interfaces to
517 a number of common scanners are provided.
523 Run time configuration
524 ~~~~~~~~~~~~~~~~~~~~~~
525 Exim's run time configuration is held in a single text file that is divided
526 into a number of sections. The entries in this file consist of keywords and
527 values, in the style of Smail 3 configuration files. A default configuration
528 file which is suitable for simple online installations is provided in the
529 distribution, and is described in chapter <<CHAPdefconfil>> below.
535 cindex:[Sendmail compatibility,command line interface]
536 Like many MTAs, Exim has adopted the Sendmail command line interface so that it
537 can be a straight replacement for _/usr/lib/sendmail_ or
538 _/usr/sbin/sendmail_ when sending mail, but you do not need to know anything
539 about Sendmail in order to run Exim. For actions other than sending messages,
540 Sendmail-compatible options also exist, but those that produce output (for
541 example, %-bp%, which lists the messages on the queue) do so in Exim's own
542 format. There are also some additional options that are compatible with Smail
543 3, and some further options that are new to Exim. Chapter <<CHAPcommandline>>
544 documents all Exim's command line options. This information is automatically
545 made into the man page that forms part of the Exim distribution.
547 Control of messages on the queue can be done via certain privileged command
548 line options. There is also an optional monitor program called 'eximon', which
549 displays current information in an X window, and which contains a menu
550 interface to Exim's command line administration options.
556 cindex:[terminology definitions]
557 cindex:[body of message,definition of]
558 The 'body' of a message is the actual data that the sender wants to transmit.
559 It is the last part of a message, and is separated from the 'header' (see
560 below) by a blank line.
562 cindex:[bounce message,definition of]
563 When a message cannot be delivered, it is normally returned to the sender in a
564 delivery failure message or a ``non-delivery report'' (NDR). The term 'bounce'
565 is commonly used for this action, and the error reports are often called
566 'bounce messages'. This is a convenient shorthand for ``delivery failure error
567 report''. Such messages have an empty sender address in the message's
568 'envelope' (see below) to ensure that they cannot themselves give rise to
569 further bounce messages.
571 The term 'default' appears frequently in this manual. It is used to qualify a
572 value which is used in the absence of any setting in the configuration. It may
573 also qualify an action which is taken unless a configuration setting specifies
576 The term 'defer' is used when the delivery of a message to a specific
577 destination cannot immediately take place for some reason (a remote host may be
578 down, or a user's local mailbox may be full). Such deliveries are 'deferred'
581 The word 'domain' is sometimes used to mean all but the first component of a
582 host's name. It is 'not' used in that sense here, where it normally
583 refers to the part of an email address following the @ sign.
585 cindex:[envelope, definition of]
586 cindex:[sender,definition of]
587 A message in transit has an associated 'envelope', as well as a header and a
588 body. The envelope contains a sender address (to which bounce messages should
589 be delivered), and any number of recipient addresses. References to the
590 sender or the recipients of a message usually mean the addresses in the
591 envelope. An MTA uses these addresses for delivery, and for returning bounce
592 messages, not the addresses that appear in the header lines.
594 cindex:[message header, definition of]
595 cindex:[header section,definition of]
596 The 'header' of a message is the first part of a message's text, consisting
597 of a number of lines, each of which has a name such as 'From:', 'To:',
598 'Subject:', etc. Long header lines can be split over several text lines by
599 indenting the continuations. The header is separated from the body by a blank
602 cindex:[local part,definition of]
603 cindex:[domain,definition of]
604 The term 'local part', which is taken from RFC 2822, is used to refer to that
605 part of an email address that precedes the @ sign. The part that follows the
606 @ sign is called the 'domain' or 'mail domain'.
608 cindex:[local delivery,definition of]
609 cindex:[remote delivery, definition of]
610 The terms 'local delivery' and 'remote delivery' are used to distinguish
611 delivery to a file or a pipe on the local host from delivery by SMTP over
612 TCP/IP to another host. As far as Exim is concerned, all hosts other than the
613 host it is running on are 'remote'.
615 cindex:[return path,definition of]
616 'Return path' is another name that is used for the sender address in a
619 cindex:[queue,definition of]
620 The term 'queue' is used to refer to the set of messages awaiting delivery,
621 because this term is in widespread use in the context of MTAs. However, in
622 Exim's case the reality is more like a pool than a queue, because there is
623 normally no ordering of waiting messages.
625 cindex:[queue runner,definition of]
626 The term 'queue runner' is used to describe a process that scans the queue
627 and attempts to deliver those messages whose retry times have come. This term
628 is used by other MTAs, and also relates to the command %runq%, but in Exim
629 the waiting messages are normally processed in an unpredictable order.
631 cindex:[spool directory,definition of]
632 The term 'spool directory' is used for a directory in which Exim keeps the
633 messages on its queue -- that is, those that it is in the process of
634 delivering. This should not be confused with the directory in which local
635 mailboxes are stored, which is called a ``spool directory'' by some people. In
636 the Exim documentation, ``spool'' is always used in the first sense.
643 ////////////////////////////////////////////////////////////////////////////
644 ////////////////////////////////////////////////////////////////////////////
648 cindex:[incorporated code]
649 cindex:[regular expressions,library]
651 A number of pieces of external code are included in the Exim distribution.
653 - Regular expressions are supported in the main Exim program and in the Exim
654 monitor using the freely-distributable PCRE library, copyright (c) University
655 of Cambridge. The source is distributed in the directory _src/pcre_. However,
656 this is a cut-down version of PCRE. If you want to use the PCRE library in
657 other programs, you should obtain and install the full version from
658 *ftp://ftp.csx.cam.ac.uk/pub/software/programming/pcre[]*.
660 - cindex:[cdb,acknowledgement]
661 Support for the cdb (Constant DataBase) lookup method is provided by code
662 contributed by Nigel Metheringham of (at the time he contributed it) Planet
663 Online Ltd. which contains the following statements:
665 ++++++++++++++++++++++
667 ++++++++++++++++++++++
669 Copyright (c) 1998 Nigel Metheringham, Planet Online Ltd
671 This program is free software; you can redistribute it and/or modify it under
672 the terms of the GNU General Public License as published by the Free Software
673 Foundation; either version 2 of the License, or (at your option) any later
676 This code implements Dan Bernstein's Constant DataBase (cdb) spec. Information,
677 the spec and sample code for cdb can be obtained from
678 *http://www.pobox.com/{tl}djb/cdb.html[]*. This implementation borrows some code
679 from Dan Bernstein's implementation (which has no license restrictions applied
682 ++++++++++++++++++++++
684 ++++++++++++++++++++++
686 The implementation is completely contained within the code of Exim.
687 It does not link against an external cdb library.
689 - cindex:[SPA authentication]
690 cindex:[Samba project]
691 cindex:[Microsoft Secure Password Authentication]
692 Client support for Microsoft's 'Secure Password Authentication' is provided
693 by code contributed by Marc Prud'hommeaux. Server support was contributed by
694 Tom Kistner. This includes code taken from the Samba project, which is released
698 cindex:['pwcheck' daemon]
699 cindex:['pwauthd' daemon]
700 Support for calling the Cyrus 'pwcheck' and 'saslauthd' daemons is provided
701 by code taken from the Cyrus-SASL library and adapted by Alexander S.
702 Sabourenkov. The permission notice appears below, in accordance with the
703 conditions expressed therein.
705 ++++++++++++++++++++++
707 ++++++++++++++++++++++
709 Copyright (c) 2001 Carnegie Mellon University. All rights reserved.
711 Redistribution and use in source and binary forms, with or without
712 modification, are permitted provided that the following conditions
715 . Redistributions of source code must retain the above copyright
716 notice, this list of conditions and the following disclaimer.
718 . Redistributions in binary form must reproduce the above copyright
719 notice, this list of conditions and the following disclaimer in
720 the documentation and/or other materials provided with the
723 . The name ``Carnegie Mellon University'' must not be used to
724 endorse or promote products derived from this software without
725 prior written permission. For permission or any other legal
726 details, please contact
729 Office of Technology Transfer
730 Carnegie Mellon University
732 Pittsburgh, PA 15213-3890
733 (412) 268-4387, fax: (412) 268-7395
734 tech-transfer@andrew.cmu.edu
737 The need to indent that block explicitly is a pain.
740 . Redistributions of any form whatsoever must retain the following
743 ``This product includes software developed by Computing Services
744 at Carnegie Mellon University (*http://www.cmu.edu/computing/[]*).''
746 CARNEGIE MELLON UNIVERSITY DISCLAIMS ALL WARRANTIES WITH REGARD TO
747 THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
748 AND FITNESS, IN NO EVENT SHALL CARNEGIE MELLON UNIVERSITY BE LIABLE
749 FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
750 WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN
751 AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
752 OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
755 Note, no "+" line there, because we want to terminate the inner list item
756 before ending the block quote.
759 ++++++++++++++++++++++
761 ++++++++++++++++++++++
763 - cindex:[Exim monitor,acknowledgement]
766 The Exim Monitor program, which is an X-Window application, includes
767 modified versions of the Athena StripChart and TextPop widgets.
768 This code is copyright by DEC and MIT, and their permission notice appears
769 below, in accordance with the conditions expressed therein.
771 ++++++++++++++++++++++
773 ++++++++++++++++++++++
775 Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts,
776 and the Massachusetts Institute of Technology, Cambridge, Massachusetts.
780 Permission to use, copy, modify, and distribute this software and its
781 documentation for any purpose and without fee is hereby granted,
782 provided that the above copyright notice appear in all copies and that
783 both that copyright notice and this permission notice appear in
784 supporting documentation, and that the names of Digital or MIT not be
785 used in advertising or publicity pertaining to distribution of the
786 software without specific, written prior permission.
788 DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
789 ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
790 DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
791 ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
792 WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
793 ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
796 ++++++++++++++++++++++
798 ++++++++++++++++++++++
800 - Many people have contributed code fragments, some large, some small, that were
801 not covered by any specific licence requirements. It is assumed that the
802 contributors are happy to see their code incoporated into Exim under the GPL.
808 ////////////////////////////////////////////////////////////////////////////
809 ////////////////////////////////////////////////////////////////////////////
811 [titleabbrev="Receiving and delivering mail"]
812 How Exim receives and delivers mail
813 -----------------------------------
818 cindex:[design philosophy]
819 Exim is designed to work efficiently on systems that are permanently connected
820 to the Internet and are handling a general mix of mail. In such circumstances,
821 most messages can be delivered immediately. Consequently, Exim does not
822 maintain independent queues of messages for specific domains or hosts, though
823 it does try to send several messages in a single SMTP connection after a host
824 has been down, and it also maintains per-host retry information.
830 cindex:[policy control,overview]
831 Policy controls are now an important feature of MTAs that are connected to the
832 Internet. Perhaps their most important job is to stop MTAs being abused as
833 ``open relays'' by misguided individuals who send out vast amounts of unsolicited
834 junk, and want to disguise its source. Exim provides flexible facilities for
835 specifying policy controls on incoming mail:
837 - cindex:[{ACL},introduction]
838 Exim 4 (unlike previous versions of Exim) implements policy controls on
839 incoming mail by means of 'Access Control Lists' (ACLs). Each list is a
840 series of statements that may either grant or deny access. ACLs can be used at
841 several places in the SMTP dialogue while receiving a message from a remote
842 host. However, the most common places are after each RCPT command, and at
843 the very end of the message. The sysadmin can specify conditions for accepting
844 or rejecting individual recipients or the entire message, respectively, at
845 these two points (see chapter <<CHAPACL>>). Denial of access results in an SMTP
848 - An ACL is also available for locally generated, non-SMTP messages. In this
849 case, the only available actions are to accept or deny the entire message.
851 - When Exim is compiled with the content-scanning extension, facilities are
852 provided in the ACL mechanism for passing the message to external virus and/or
853 spam scanning software. The result of such a scan is passed back to the ACL,
854 which can then use it to decide what to do with the message.
856 - When a message has been received, either from a remote host or from the local
857 host, but before the final acknowledgement has been sent, a locally supplied C
858 function called 'local_scan()' can be run to inspect the message and decide
859 whether to accept it or not (see chapter <<CHAPlocalscan>>). If the message is
860 accepted, the list of recipients can be modified by the function.
862 - Using the 'local_scan()' mechanism is another way of calling external
863 scanner software. The %SA-Exim% add-on package works this way. It does not
864 require Exim to be compiled with the content-scanning extension.
866 - After a message has been accepted, a further checking mechanism is available in
867 the form of the 'system filter' (see chapter <<CHAPsystemfilter>>). This runs
868 at the start of every delivery process.
874 cindex:[filter,introduction]
875 cindex:[Sieve filter]
876 In a conventional Exim configuration, users are able to run private filters by
877 setting up appropriate _.forward_ files in their home directories. See
878 chapter <<CHAPredirect>> (about the ^redirect^ router) for the configuration
879 needed to support this, and the separate document entitled 'Exim's interfaces
880 to mail filtering' for user details. Two different kinds of filtering are
883 - Sieve filters are written in the standard filtering language that is defined
886 - Exim filters are written in a syntax that is unique to Exim, but which is more
887 powerful than Sieve, which it pre-dates.
889 User filters are run as part of the routing process, described below.
894 Message identification
895 ~~~~~~~~~~~~~~~~~~~~~~
896 cindex:[message ids, details of format]
897 cindex:[format,of message id]
898 cindex:[id of message]
903 Every message handled by Exim is given a 'message id' which is sixteen
904 characters long. It is divided into three parts, separated by hyphens, for
905 example `16VDhn-0001bo-D3`. Each part is a sequence of letters and digits,
906 normally encoding numbers in base 62. However, in the Darwin operating
907 system (Mac OS X) and when Exim is compiled to run under Cygwin, base 36
908 (avoiding the use of lower case letters) is used instead, because the message
909 id is used to construct file names, and the names of files in those systems are
910 not always case-sensitive.
912 cindex:[pid (process id),re-use of]
913 The detail of the contents of the message id have changed as Exim has evolved.
914 Earlier versions relied on the operating system not re-using a process id (pid)
915 within one second. On modern operating systems, this assumption can no longer
916 be made, so the algorithm had to be changed. To retain backward compatibility,
917 the format of the message id was retained, which is why the following rules are
920 - The first six characters of the message id are the time at which the message
921 started to be received, to a granularity of one second. That is, this field
922 contains the number of seconds since the start of the epoch (the normal Unix
923 way of representing the date and time of day).
925 - After the first hyphen, the next six characters are the id of the process that
926 received the message.
928 - There are two different possibilities for the final two characters:
930 . cindex:[%localhost_number%]
931 If %localhost_number% is not set, this value is the fractional part of the
932 time of reception, normally in units of 1/2000 of a second, but for systems
933 that must use base 36 instead of base 62 (because of case-insensitive file
934 systems), the units are 1/1000 of a second.
936 . If %localhost_number% is set, it is multiplied by 200 (100) and added to
937 the fractional part of the time, which in this case is in units of 1/200
940 After a message has been received, Exim waits for the clock to tick at the
941 appropriate resolution before proceeding, so that if another message is
942 received by the same process, or by another process with the same (re-used)
943 pid, it is guaranteed that the time will be different. In most cases, the clock
944 will already have ticked while the message was being received.
949 cindex:[receiving mail]
950 cindex:[message,reception]
951 The only way Exim can receive mail from another host is using SMTP over
952 TCP/IP, in which case the sender and recipient addresses are transferred using
953 SMTP commands. However, from a locally running process (such as a user's MUA),
954 there are several possibilities:
956 - If the process runs Exim with the %-bm% option, the message is read
957 non-interactively (usually via a pipe), with the recipients taken from the
958 command line, or from the body of the message if %-t% is also used.
960 - If the process runs Exim with the %-bS% option, the message is also read
961 non-interactively, but in this case the recipients are listed at the start of
962 the message in a series of SMTP RCPT commands, terminated by a DATA
963 command. This is so-called ``batch SMTP'' format,
964 but it isn't really SMTP. The SMTP commands are just another way of passing
965 envelope addresses in a non-interactive submission.
967 - If the process runs Exim with the %-bs% option, the message is read
968 interactively, using the SMTP protocol. A two-way pipe is normally used for
969 passing data between the local process and the Exim process.
970 This is ``real'' SMTP and is handled in the same way as SMTP over TCP/IP. For
971 example, the ACLs for SMTP commands are used for this form of submission.
973 - A local process may also make a TCP/IP call to the host's loopback address
974 (127.0.0.1) or any other of its IP addresses. When receiving messages, Exim
975 does not treat the loopback address specially. It treats all such connections
976 in the same way as connections from other hosts.
979 cindex:[message sender, constructed by Exim]
980 cindex:[sender,constructed by Exim]
981 In the three cases that do not involve TCP/IP, the sender address is
982 constructed from the login name of the user that called Exim and a default
983 qualification domain (which can be set by the %qualify_domain% configuration
984 option). For local or batch SMTP, a sender address that is passed using the
985 SMTP MAIL command is ignored. However, the system administrator may allow
986 certain users (``trusted users'') to specify a different sender address
987 unconditionally, or all users to specify certain forms of different sender
988 address. The %-f% option or the SMTP MAIL command is used to specify these
989 different addresses. See section <<SECTtrustedadmin>> for details of trusted
990 users, and the %untrusted_set_sender% option for a way of allowing untrusted
991 users to change sender addresses.
993 Messages received by either of the non-interactive mechanisms are subject to
994 checking by the non-SMTP ACL, if one is defined. Messages received using SMTP
995 (either over TCP/IP, or interacting with a local process) can be checked by a
996 number of ACLs that operate at different times during the SMTP session. Either
997 individual recipients, or the entire message, can be rejected if local policy
998 requirements are not met. The 'local_scan()' function (see chapter
999 <<CHAPlocalscan>>) is run for all incoming messages.
1001 Exim can be configured not to start a delivery process when a message is
1002 received; this can be unconditional, or depend on the number of incoming SMTP
1003 connections or the system load. In these situations, new messages wait on the
1004 queue until a queue runner process picks them up. However, in standard
1005 configurations under normal conditions, delivery is started as soon as a
1006 message is received.
1012 Handling an incoming message
1013 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1014 cindex:[spool directory,files that hold a message]
1015 cindex:[file,how a message is held]
1016 When Exim accepts a message, it writes two files in its spool directory. The
1017 first contains the envelope information, the current status of the message, and
1018 the header lines, and the second contains the body of the message. The names of
1019 the two spool files consist of the message id, followed by `-H` for the
1020 file containing the envelope and header, and `-D` for the data file.
1022 cindex:[spool directory,_input_ sub-directory]
1023 By default all these message files are held in a single directory called
1024 _input_ inside the general Exim spool directory. Some operating systems do
1025 not perform very well if the number of files in a directory gets very large; to
1026 improve performance in such cases, the %split_spool_directory% option can be
1027 used. This causes Exim to split up the input files into 62 sub-directories
1028 whose names are single letters or digits.
1030 The envelope information consists of the address of the message's sender and
1031 the addresses of the recipients. This information is entirely separate from
1032 any addresses contained in the header lines. The status of the message includes
1033 a list of recipients who have already received the message. The format of the
1034 first spool file is described in chapter <<CHAPspool>>.
1036 cindex:[rewriting,addresses]
1037 Address rewriting that is specified in the rewrite section of the configuration
1038 (see chapter <<CHAPrewrite>>) is done once and for all on incoming addresses,
1039 both in the header lines and the envelope, at the time the message is accepted.
1040 If during the course of delivery additional addresses are generated (for
1041 example, via aliasing), these new addresses are rewritten as soon as they are
1042 generated. At the time a message is actually delivered (transported) further
1043 rewriting can take place; because this is a transport option, it can be
1044 different for different forms of delivery. It is also possible to specify the
1045 addition or removal of certain header lines at the time the message is
1046 delivered (see chapters <<CHAProutergeneric>> and <<CHAPtransportgeneric>>).
1052 cindex:[message,life of]
1053 cindex:[message,frozen]
1054 A message remains in the spool directory until it is completely delivered to
1055 its recipients or to an error address, or until it is deleted by an
1056 administrator or by the user who originally created it. In cases when delivery
1057 cannot proceed -- for example, when a message can neither be delivered to its
1058 recipients nor returned to its sender, the message is marked ``frozen'' on the
1059 spool, and no more deliveries are attempted.
1061 cindex:[frozen messages,thawing]
1062 cindex:[message,thawing frozen]
1063 An administrator can ``thaw'' such messages when the problem has been corrected,
1064 and can also freeze individual messages by hand if necessary. In addition, an
1065 administrator can force a delivery error, causing a bounce message to be sent.
1067 [revisionflag="changed"]
1068 cindex:[%timeout_frozen_after%]
1069 cindex:[%ignore_bounce_errors_after%]
1070 There are options called %ignore_bounce_errors_after% and
1071 %timeout_frozen_after%, which discard frozen messages after a certain time.
1072 The first applies only to frozen bounces, the second to any frozen messages.
1074 cindex:[message,log file for]
1075 cindex:[log,file for each message]
1076 While Exim is working on a message, it writes information about each delivery
1077 attempt to its main log file. This includes successful, unsuccessful, and
1078 delayed deliveries for each recipient (see chapter <<CHAPlog>>). The log lines
1079 are also written to a separate 'message log' file for each message. These
1080 logs are solely for the benefit of the administrator, and are normally deleted
1081 along with the spool files when processing of a message is complete.
1082 The use of individual message logs can be disabled by setting
1083 %no_message_logs%; this might give an improvement in performance on very
1086 cindex:[journal file]
1087 cindex:[file,journal]
1088 All the information Exim itself needs to set up a delivery is kept in the first
1089 spool file, along with the header lines. When a successful delivery occurs, the
1090 address is immediately written at the end of a journal file, whose name is the
1091 message id followed by `-J`. At the end of a delivery run, if there are some
1092 addresses left to be tried again later, the first spool file (the `-H` file)
1093 is updated to indicate which these are, and the journal file is then deleted.
1094 Updating the spool file is done by writing a new file and renaming it, to
1095 minimize the possibility of data loss.
1097 Should the system or the program crash after a successful delivery but before
1098 the spool file has been updated, the journal is left lying around. The next
1099 time Exim attempts to deliver the message, it reads the journal file and
1100 updates the spool file before proceeding. This minimizes the chances of double
1101 deliveries caused by crashes.
1106 Processing an address for delivery
1107 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1108 cindex:[drivers,definition of]
1109 cindex:[router,definition of]
1110 cindex:[transport,definition of]
1111 The main delivery processing elements of Exim are called 'routers' and
1112 'transports', and collectively these are known as 'drivers'. Code for a
1113 number of them is provided in the source distribution, and compile-time options
1114 specify which ones are included in the binary. Run time options specify which
1115 ones are actually used for delivering messages.
1117 cindex:[drivers,instance definition]
1118 Each driver that is specified in the run time configuration is an 'instance'
1119 of that particular driver type. Multiple instances are allowed; for example,
1120 you can set up several different ^smtp^ transports, each with different
1121 option values that might specify different ports or different timeouts. Each
1122 instance has its own identifying name. In what follows we will normally use the
1123 instance name when discussing one particular instance (that is, one specific
1124 configuration of the driver), and the generic driver name when discussing
1125 the driver's features in general.
1127 A 'router' is a driver that operates on an address, either determining how
1128 its delivery should happen, by assigning it to a specific transport, or
1129 converting the address into one or more new addresses (for example, via an
1130 alias file). A router may also explicitly choose to fail an address, causing it
1133 A 'transport' is a driver that transmits a copy of the message from Exim's
1134 spool to some destination. There are two kinds of transport: for a 'local'
1135 transport, the destination is a file or a pipe on the local host, whereas for a
1136 'remote' transport the destination is some other host. A message is passed
1137 to a specific transport as a result of successful routing. If a message has
1138 several recipients, it may be passed to a number of different transports.
1140 cindex:[preconditions,definition of]
1141 An address is processed by passing it to each configured router instance in
1142 turn, subject to certain preconditions, until a router accepts the address or
1143 specifies that it should be bounced. We will describe this process in more
1144 detail shortly. First, as a simple example, we consider how each recipient
1145 address in a message is processed in a small configuration of three routers.
1147 To make this a more concrete example, it is described in terms of some actual
1148 routers, but remember, this is only an example. You can configure Exim's
1149 routers in many different ways, and there may be any number of routers in a
1152 The first router that is specified in a configuration is often one that handles
1153 addresses in domains that are not recognized specially by the local host. These
1154 are typically addresses for arbitrary domains on the Internet. A precondition
1155 is set up which looks for the special domains known to the host (for example,
1156 its own domain name), and the router is run for addresses that do 'not'
1157 match. Typically, this is a router that looks up domains in the DNS in order to
1158 find the hosts to which this address routes. If it succeeds, the address is
1159 assigned to a suitable SMTP transport; if it does not succeed, the router is
1160 configured to fail the address.
1162 The second router is reached only when the domain is recognized as one that
1163 ``belongs'' to the local host. This router does redirection -- also known as
1164 aliasing and forwarding. When it generates one or more new addresses from the
1165 original, each of them is routed independently from the start. Otherwise, the
1166 router may cause an address to fail, or it may simply decline to handle the
1167 address, in which case the address is passed to the next router.
1169 The final router in many configurations is one that checks to see if the
1170 address belongs to a local mailbox. The precondition may involve a check to
1171 see if the local part is the name of a login account, or it may look up the
1172 local part in a file or a database. If its preconditions are not met, or if
1173 the router declines, we have reached the end of the routers. When this happens,
1174 the address is bounced.
1178 Processing an address for verification
1179 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1180 cindex:[router,for verification]
1181 cindex:[verifying address, overview]
1182 As well as being used to decide how to deliver to an address, Exim's routers
1183 are also used for 'address verification'. Verification can be requested as
1184 one of the checks to be performed in an ACL for incoming messages, on both
1185 sender and recipient addresses, and it can be tested using the %-bv% and
1186 %-bvs% command line options.
1188 When an address is being verified, the routers are run in ``verify mode''. This
1189 does not affect the way the routers work, but it is a state that can be
1190 detected. By this means, a router can be skipped or made to behave differently
1191 when verifying. A common example is a configuration in which the first router
1192 sends all messages to a message-scanning program, unless they have been
1193 previously scanned. Thus, the first router accepts all addresses without any
1194 checking, making it useless for verifying. Normally, the %no_verify% option
1195 would be set for such a router, causing it to be skipped in verify mode.
1201 Running an individual router
1202 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1203 cindex:[router,running details]
1204 cindex:[preconditions,checking]
1205 cindex:[router,result of running]
1206 As explained in the example above, a number of preconditions are checked before
1207 running a router. If any are not met, the router is skipped, and the address is
1208 passed to the next router. When all the preconditions on a router 'are' met,
1209 the router is run. What happens next depends on the outcome, which is one of
1212 - 'accept': The router accepts the address, and either assigns it to a
1213 transport, or generates one or more ``child'' addresses. Processing the original
1215 cindex:[%unseen% option]
1216 unless the %unseen% option is set on the router. This option
1217 can be used to set up multiple deliveries with different routing (for example,
1218 for keeping archive copies of messages). When %unseen% is set, the address is
1219 passed to the next router. Normally, however, an 'accept' return marks the
1222 Any child addresses generated by the router are processed independently,
1223 starting with the first router by default. It is possible to change this by
1224 setting the %redirect_router% option to specify which router to start at for
1225 child addresses. Unlike %pass_router% (see below) the router specified by
1226 %redirect_router% may be anywhere in the router configuration.
1228 - 'pass': The router recognizes the address, but cannot handle it itself. It
1229 requests that the address be passed to another router. By default the address
1230 is passed to the next router, but this can be changed by setting the
1231 %pass_router% option. However, (unlike %redirect_router%) the named router
1232 must be below the current router (to avoid loops).
1234 - 'decline': The router declines to accept the address because it does not
1235 recognize it at all. By default, the address is passed to the next router, but
1236 this can be prevented by setting the %no_more% option. When %no_more% is set,
1237 all the remaining routers are skipped. In effect, %no_more% converts 'decline'
1240 - 'fail': The router determines that the address should fail, and queues it for
1241 the generation of a bounce message. There is no further processing of the
1242 original address unless %unseen% is set on the router.
1244 - 'defer': The router cannot handle the address at the present time. (A
1245 database may be offline, or a DNS lookup may have timed out.) No further
1246 processing of the address happens in this delivery attempt. It is tried again
1247 next time the message is considered for delivery.
1249 - 'error': There is some error in the router (for example, a syntax error in
1250 its configuration). The action is as for defer.
1252 If an address reaches the end of the routers without having been accepted by
1253 any of them, it is bounced as unrouteable. The default error message in this
1254 situation is ``unrouteable address'', but you can set your own message by
1255 making use of the %cannot_route_message% option. This can be set for any
1256 router; the value from the last router that ``saw'' the address is used.
1258 Sometimes while routing you want to fail a delivery when some conditions are
1259 met but others are not, instead of passing the address on for further routing.
1260 You can do this by having a second router that explicitly fails the delivery
1261 when the relevant conditions are met. The ^redirect^ router has a ``fail''
1262 facility for this purpose.
1268 [revisionflag="changed"]
1269 cindex:[case of local parts]
1270 cindex:[address duplicate, discarding]
1271 Once routing is complete, Exim scans the addresses that are assigned to local
1272 and remote transports, and discards any duplicates that it finds. During this
1273 check, local parts are treated as case-sensitive.
1278 Router preconditions
1279 ~~~~~~~~~~~~~~~~~~~~
1280 cindex:[router preconditions, order of processing]
1281 cindex:[preconditions,order of processing]
1282 The preconditions that are tested for each router are listed below, in the
1283 order in which they are tested. The individual configuration options are
1284 described in more detail in chapter <<CHAProutergeneric>>.
1286 - The %local_part_prefix% and %local_part_suffix% options can specify that
1287 the local parts handled by the router may or must have certain prefixes and/or
1288 suffixes. If a mandatory affix (prefix or suffix) is not present, the router is
1289 skipped. These conditions are tested first. When an affix is present, it is
1290 removed from the local part before further processing, including the evaluation
1291 of any other conditions.
1293 - Routers can be designated for use only when not verifying an address, that is,
1294 only when routing it for delivery (or testing its delivery routing). If the
1295 %verify% option is set false, the router is skipped when Exim is verifying an
1297 Setting the %verify% option actually sets two options, %verify_sender% and
1298 %verify_recipient%, which independently control the use of the router for
1299 sender and recipient verification. You can set these options directly if
1300 you want a router to be used for only one type of verification.
1302 - If the %address_test% option is set false, the router is skipped when Exim is
1303 run with the %-bt% option to test an address routing. This can be helpful when
1304 the first router sends all new messages to a scanner of some sort; it makes it
1305 possible to use %-bt% to test subsequent delivery routing without having to
1306 simulate the effect of the scanner.
1308 - Routers can be designated for use only when verifying an address, as
1309 opposed to routing it for delivery. The %verify_only% option controls this.
1311 - Individual routers can be explicitly skipped when running the routers to
1312 check an address given in the SMTP EXPN command (see the %expn% option).
1314 - If the %domains% option is set, the domain of the address must be in the set
1315 of domains that it defines.
1317 - cindex:[$local_part_prefix$]
1318 cindex:[$local_part$]
1319 cindex:[$local_part_suffix$]
1320 If the %local_parts% option is set, the local part of the address must be in
1321 the set of local parts that it defines. If %local_part_prefix% or
1322 %local_part_suffix% is in use, the prefix or suffix is removed from the local
1323 part before this check. If you want to do precondition tests on local parts
1324 that include affixes, you can do so by using a %condition% option (see below)
1325 that uses the variables $local_part$, $local_part_prefix$, and
1326 $local_part_suffix$ as necessary.
1328 - cindex:[$local_user_uid$]
1329 cindex:[$local_user_gid$]
1331 If the %check_local_user% option is set, the local part must be the name of
1332 an account on the local host. If this check succeeds, the uid and gid of the
1333 local user are placed in $local_user_uid$ and $local_user_gid$ and the user's
1334 home directory is placed in $home$; these values can be used in the remaining
1337 - If the %router_home_directory% option is set, it is expanded at this point,
1338 because it overrides the value of $home$. If this expansion were left till
1339 later, the value of $home$ as set by %check_local_user% would be used in
1340 subsequent tests. Having two different values of $home$ in the same router
1341 could lead to confusion.
1343 - If the %senders% option is set, the envelope sender address must be in the set
1344 of addresses that it defines.
1346 - If the %require_files% option is set, the existence or non-existence of
1347 specified files is tested.
1349 - cindex:[customizing,precondition]
1350 If the %condition% option is set, it is evaluated and tested. This option uses
1351 an expanded string to allow you to set up your own custom preconditions.
1352 Expanded strings are described in chapter <<CHAPexpand>>.
1355 Note that %require_files% comes near the end of the list, so you cannot use it
1356 to check for the existence of a file in which to lookup up a domain, local
1357 part, or sender. However, as these options are all expanded, you can use the
1358 %exists% expansion condition to make such tests within each condition. The
1359 %require_files% option is intended for checking files that the router may be
1360 going to use internally, or which are needed by a specific transport (for
1361 example, _.procmailrc_).
1367 cindex:[delivery,in detail]
1368 When a message is to be delivered, the sequence of events is as follows:
1370 - If a system-wide filter file is specified, the message is passed to it. The
1371 filter may add recipients to the message, replace the recipients, discard the
1372 message, cause a new message to be generated, or cause the message delivery to
1373 fail. The format of the system filter file is the same as for Exim user filter
1374 files, described in the separate document entitled
1375 'Exim's interfaces to mail filtering'.
1376 cindex:[Sieve filter,not available for system filter]
1377 (*Note*: Sieve cannot be used for system filter files.)
1379 Some additional features are available in system filters -- see chapter
1380 <<CHAPsystemfilter>> for details. Note that a message is passed to the system
1381 filter only once per delivery attempt, however many recipients it has. However,
1382 if there are several delivery attempts because one or more addresses could not
1383 be immediately delivered, the system filter is run each time. The filter
1384 condition %first_delivery% can be used to detect the first run of the system
1387 - Each recipient address is offered to each configured router in turn, subject
1388 to its preconditions, until one is able to handle it. If no router can handle
1389 the address, that is, if they all decline, the address is failed. Because
1390 routers can be targeted at particular domains, several locally handled domains
1391 can be processed entirely independently of each other.
1393 - cindex:[routing,loops in]
1394 cindex:[loop,while routing]
1395 A router that accepts an address may assign it to a local or a remote transport. However, the transport is not run at this time. Instead, the address is
1396 placed on a list for the particular transport, which will be run later.
1397 Alternatively, the router may generate one or more new addresses (typically
1398 from alias, forward, or filter files). New addresses are fed back into this
1399 process from the top, but in order to avoid loops, a router ignores any address
1400 which has an identically-named ancestor that was processed by itself.
1402 - When all the routing has been done, addresses that have been successfully
1403 handled are passed to their assigned transports. When local transports are
1404 doing real local deliveries, they handle only one address at a time, but if a
1405 local transport is being used as a pseudo-remote transport (for example, to
1406 collect batched SMTP messages for transmission by some other means) multiple
1407 addresses can be handled. Remote transports can always handle more than one
1408 address at a time, but can be configured not to do so, or to restrict multiple
1409 addresses to the same domain.
1411 - Each local delivery to a file or a pipe runs in a separate process under a
1412 non-privileged uid, and these deliveries are run one at a time. Remote
1413 deliveries also run in separate processes, normally under a uid that is private
1414 to Exim (``the Exim user''), but in this case, several remote deliveries can be
1415 run in parallel. The maximum number of simultaneous remote deliveries for any
1416 one message is set by the %remote_max_parallel% option.
1417 The order in which deliveries are done is not defined, except that all local
1418 deliveries happen before any remote deliveries.
1420 - cindex:[queue runner]
1421 When it encounters a local delivery during a queue run, Exim checks its retry
1422 database to see if there has been a previous temporary delivery failure for the
1423 address before running the local transport. If there was a previous failure,
1424 Exim does not attempt a new delivery until the retry time for the address is
1425 reached. However, this happens only for delivery attempts that are part of a
1426 queue run. Local deliveries are always attempted when delivery immediately
1427 follows message reception, even if retry times are set for them. This makes for
1428 better behaviour if one particular message is causing problems (for example,
1429 causing quota overflow, or provoking an error in a filter file).
1431 - cindex:[delivery,retry in remote transports]
1432 Remote transports do their own retry handling, since an address may be
1433 deliverable to one of a number of hosts, each of which may have a different
1434 retry time. If there have been previous temporary failures and no host has
1435 reached its retry time, no delivery is attempted, whether in a queue run or
1436 not. See chapter <<CHAPretry>> for details of retry strategies.
1438 - If there were any permanent errors, a bounce message is returned to an
1439 appropriate address (the sender in the common case), with details of the error
1440 for each failing address. Exim can be configured to send copies of bounce
1441 messages to other addresses.
1443 - cindex:[delivery,deferral]
1444 If one or more addresses suffered a temporary failure, the message is left on
1445 the queue, to be tried again later. Delivery of these addresses is said to be
1448 - When all the recipient addresses have either been delivered or bounced,
1449 handling of the message is complete. The spool files and message log are
1450 deleted, though the message log can optionally be preserved if required.
1457 cindex:[delivery,retry mechanism]
1458 cindex:[retry,description of mechanism]
1459 cindex:[queue runner]
1460 Exim's mechanism for retrying messages that fail to get delivered at the first
1461 attempt is the queue runner process. You must either run an Exim daemon that
1462 uses the %-q% option with a time interval to start queue runners at regular
1463 intervals, or use some other means (such as 'cron') to start them. If you do
1464 not arrange for queue runners to be run, messages that fail temporarily at the
1465 first attempt will remain on your queue for ever. A queue runner process works
1466 its way through the queue, one message at a time, trying each delivery that has
1467 passed its retry time.
1468 You can run several queue runners at once.
1470 Exim uses a set of configured rules to determine when next to retry the failing
1471 address (see chapter <<CHAPretry>>). These rules also specify when Exim should
1472 give up trying to deliver to the address, at which point it generates a bounce
1473 message. If no retry rules are set for a particular host, address, and error
1474 combination, no retries are attempted, and temporary errors are treated as
1479 Temporary delivery failure
1480 ~~~~~~~~~~~~~~~~~~~~~~~~~~
1481 cindex:[delivery,temporary failure]
1482 There are many reasons why a message may not be immediately deliverable to a
1483 particular address. Failure to connect to a remote machine (because it, or the
1484 connection to it, is down) is one of the most common. Temporary failures may be
1485 detected during routing as well as during the transport stage of delivery.
1486 Local deliveries may be delayed if NFS files are unavailable, or if a mailbox
1487 is on a file system where the user is over quota. Exim can be configured to
1488 impose its own quotas on local mailboxes; where system quotas are set they will
1491 If a host is unreachable for a period of time, a number of messages may be
1492 waiting for it by the time it recovers, and sending them in a single SMTP
1493 connection is clearly beneficial. Whenever a delivery to a remote host is
1496 cindex:[hints database]
1497 Exim makes a note in its hints database, and whenever a successful
1498 SMTP delivery has happened, it looks to see if any other messages are waiting
1499 for the same host. If any are found, they are sent over the same SMTP
1500 connection, subject to a configuration limit as to the maximum number in any
1506 Permanent delivery failure
1507 ~~~~~~~~~~~~~~~~~~~~~~~~~~
1508 cindex:[delivery,permanent failure]
1509 cindex:[bounce message,when generated]
1510 When a message cannot be delivered to some or all of its intended recipients, a
1511 bounce message is generated. Temporary delivery failures turn into permanent
1512 errors when their timeout expires. All the addresses that fail in a given
1513 delivery attempt are listed in a single message. If the original message has
1514 many recipients, it is possible for some addresses to fail in one delivery
1515 attempt and others to fail subsequently, giving rise to more than one bounce
1516 message. The wording of bounce messages can be customized by the administrator.
1517 See chapter <<CHAPemsgcust>> for details.
1519 cindex:['X-Failed-Recipients:' header line]
1520 Bounce messages contain an 'X-Failed-Recipients:' header line that lists the
1521 failed addresses, for the benefit of programs that try to analyse such messages
1524 cindex:[bounce message,recipient of]
1525 A bounce message is normally sent to the sender of the original message, as
1526 obtained from the message's envelope. For incoming SMTP messages, this is the
1527 address given in the MAIL command. However, when an address is
1528 expanded via a forward or alias file, an alternative address can be specified
1529 for delivery failures of the generated addresses. For a mailing list expansion
1530 (see section <<SECTmailinglists>>) it is common to direct bounce messages to the
1531 manager of the list.
1536 Failures to deliver bounce messages
1537 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1538 cindex:[bounce message,failure to deliver]
1539 If a bounce message (either locally generated or received from a remote host)
1540 itself suffers a permanent delivery failure, the message is left on the queue,
1541 but it is frozen, awaiting the attention of an administrator. There are options
1542 that can be used to make Exim discard such failed messages, or to keep them
1543 for only a short time (see %timeout_frozen_after% and
1544 %ignore_bounce_errors_after%).
1550 ////////////////////////////////////////////////////////////////////////////
1551 ////////////////////////////////////////////////////////////////////////////
1553 Building and installing Exim
1554 ----------------------------
1556 cindex:[building Exim]
1560 Exim is distributed as a gzipped or bzipped tar file which, when upacked,
1561 creates a directory with the name of the current release (for example,
1562 _exim-{version}_) into which the following files are placed:
1565 `--------------------`--------------------------------------------------------
1566 _ACKNOWLEDGMENTS_ contains some acknowledgments
1567 _CHANGES_ contains a reference to where changes are documented
1568 _LICENCE_ the GNU General Public Licence
1569 _Makefile_ top-level make file
1570 _NOTICE_ conditions for the use of Exim
1571 _README_ list of files, directories and simple build instructions
1572 ------------------------------------------------------------------------------
1574 Other files whose names begin with _README_ may also be present. The
1575 following subdirectories are created:
1578 `--------------------`------------------------------------------------
1579 _Local_ an empty directory for local configuration files
1580 _OS_ OS-specific files
1581 _doc_ documentation files
1582 _exim_monitor_ source files for the Exim monitor
1583 _scripts_ scripts used in the build process
1584 _src_ remaining source files
1585 _util_ independent utilities
1586 ----------------------------------------------------------------------
1588 The main utility programs are contained in the _src_ directory, and are built
1589 with the Exim binary. The _util_ directory contains a few optional scripts
1590 that may be useful to some sites.
1593 Multiple machine architectures and operating systems
1594 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1595 cindex:[building Exim,multiple OS/architectures]
1596 The building process for Exim is arranged to make it easy to build binaries for
1597 a number of different architectures and operating systems from the same set of
1598 source files. Compilation does not take place in the _src_ directory. Instead,
1599 a 'build directory' is created for each architecture and operating system.
1601 cindex:[symbolic link,to build directory]
1602 Symbolic links to the sources are installed in this directory, which is where
1603 the actual building takes place.
1605 In most cases, Exim can discover the machine architecture and operating system
1606 for itself, but the defaults can be overridden if necessary.
1612 cindex:[DBM libraries, discussion of]
1613 cindex:[hints database,DBM files used for]
1614 Even if you do not use any DBM files in your configuration, Exim still needs a
1615 DBM library in order to operate, because it uses indexed files for its hints
1616 databases. Unfortunately, there are a number of DBM libraries in existence, and
1617 different operating systems often have different ones installed.
1619 cindex:[Solaris,DBM library for]
1620 cindex:[IRIX, DBM library for]
1621 cindex:[BSD, DBM library for]
1622 cindex:[Linux, DBM library for]
1623 If you are using Solaris, IRIX, one of the modern BSD systems, or a modern
1624 Linux distribution, the DBM configuration should happen automatically, and you
1625 may be able to ignore this section. Otherwise, you may have to learn more than
1626 you would like about DBM libraries from what follows.
1628 cindex:['ndbm' DBM library]
1629 Licensed versions of Unix normally contain a library of DBM functions operating
1630 via the 'ndbm' interface, and this is what Exim expects by default. Free
1631 versions of Unix seem to vary in what they contain as standard. In particular,
1632 some early versions of Linux have no default DBM library, and different
1633 distributors have chosen to bundle different libraries with their packaged
1634 versions. However, the more recent releases seem to have standardised on the
1635 Berkeley DB library.
1637 Different DBM libraries have different conventions for naming the files they
1638 use. When a program opens a file called _dbmfile_, there are four
1641 . A traditional 'ndbm' implementation, such as that supplied as part of
1642 Solaris, operates on two files called _dbmfile.dir_ and _dbmfile.pag_.
1644 . cindex:['gdbm' DBM library]
1645 The GNU library, 'gdbm', operates on a single file. If used via its 'ndbm'
1646 compatibility interface it makes two different hard links to it with names
1647 _dbmfile.dir_ and _dbmfile.pag_, but if used via its native interface, the
1648 file name is used unmodified.
1650 . cindex:[Berkeley DB library]
1651 The Berkeley DB package, if called via its 'ndbm' compatibility interface,
1652 operates on a single file called _dbmfile.db_, but otherwise looks to the
1653 programmer exactly the same as the traditional 'ndbm' implementation.
1655 . If the Berkeley package is used in its native mode, it operates on a single
1656 file called _dbmfile_; the programmer's interface is somewhat different to
1657 the traditional 'ndbm' interface.
1659 . To complicate things further, there are several very different versions of the
1660 Berkeley DB package. Version 1.85 was stable for a very long time, releases
1661 2.'x' and 3.'x' were current for a while, but the latest versions are now
1662 numbered 4.'x'. Maintenance of some of the earlier releases has ceased. All
1663 versions of Berkeley DB can be obtained from
1666 *http://www.sleepycat.com/[]*
1669 . cindex:['tdb' DBM library]
1670 Yet another DBM library, called 'tdb', has become available from
1673 *http://download.sourceforge.net/tdb[]*
1676 It has its own interface, and also operates on a single file.
1679 cindex:[DBM libraries, configuration for building]
1680 Exim and its utilities can be compiled to use any of these interfaces. In order
1681 to use any version of the Berkeley DB package in native mode, you must set
1682 USE_DB in an appropriate configuration file (typically
1683 _Local/Makefile_). For example:
1687 Similarly, for gdbm you set USE_GDBM, and for tdb you set USE_TDB. An
1688 error is diagnosed if you set more than one of these.
1690 At the lowest level, the build-time configuration sets none of these options,
1691 thereby assuming an interface of type (1). However, some operating system
1692 configuration files (for example, those for the BSD operating systems and
1693 Linux) assume type (4) by setting USE_DB as their default, and the
1694 configuration files for Cygwin set USE_GDBM. Anything you set in
1695 _Local/Makefile_, however, overrides these system defaults.
1697 As well as setting USE_DB, USE_GDBM, or USE_TDB, it may also be
1698 necessary to set DBMLIB, to cause inclusion of the appropriate library, as
1699 in one of these lines:
1704 Settings like that will work if the DBM library is installed in the standard
1705 place. Sometimes it is not, and the library's header file may also not be in
1706 the default path. You may need to set INCLUDE to specify where the header
1707 file is, and to specify the path to the library more fully in DBMLIB, as in
1710 INCLUDE=-I/usr/local/include/db-4.1
1711 DBMLIB=/usr/local/lib/db-4.1/libdb.a
1714 There is further detailed discussion about the various DBM libraries in the
1715 file _doc/dbm.discuss.txt_ in the Exim distribution.
1719 Pre-building configuration
1720 ~~~~~~~~~~~~~~~~~~~~~~~~~~
1721 cindex:[building Exim,pre-building configuration]
1722 cindex:[configuration for building Exim]
1723 cindex:[_Local/Makefile_]
1724 cindex:[_src/EDITME_]
1725 Before building Exim, a local configuration file that specifies options
1726 independent of any operating system has to be created with the name
1727 _Local/Makefile_. A template for this file is supplied as the file
1728 _src/EDITME_, and it contains full descriptions of all the option settings
1729 therein. These descriptions are therefore not repeated here. If you are
1730 building Exim for the first time, the simplest thing to do is to copy
1731 _src/EDITME_ to _Local/Makefile_, then read it and edit it appropriately.
1733 There are three settings that you must supply, because Exim will not build
1734 without them. They are the location of the run time configuration file
1735 (CONFIGURE_FILE), the directory in which Exim binaries will be installed
1736 (BIN_DIRECTORY), and the identity of the Exim user (EXIM_USER and
1737 maybe EXIM_GROUP as well). The value of CONFIGURE_FILE can in fact be
1738 a colon-separated list of file names; Exim uses the first of them that exists.
1740 There are a few other parameters that can be specified either at build time or
1741 at run time, to enable the same binary to be used on a number of different
1742 machines. However, if the locations of Exim's spool directory and log file
1743 directory (if not within the spool directory) are fixed, it is recommended that
1744 you specify them in _Local/Makefile_ instead of at run time, so that errors
1745 detected early in Exim's execution (such as a malformed configuration file) can
1748 cindex:[content scanning,specifying at build time]
1749 Exim's interfaces for calling virus and spam scanning software directly from
1750 access control lists are not compiled by default. If you want to include these
1751 facilities, you need to set
1753 WITH_CONTENT_SCAN=yes
1755 in your _Local/Makefile_. For details of the facilities themselves, see
1756 chapter <<CHAPexiscan>>.
1759 cindex:[_Local/eximon.conf_]
1760 cindex:[_exim_monitor/EDITME_]
1761 If you are going to build the Exim monitor, a similar configuration process is
1762 required. The file _exim_monitor/EDITME_ must be edited appropriately for
1763 your installation and saved under the name _Local/eximon.conf_. If you are
1764 happy with the default settings described in _exim_monitor/EDITME_,
1765 _Local/eximon.conf_ can be empty, but it must exist.
1767 This is all the configuration that is needed in straightforward cases for known
1768 operating systems. However, the building process is set up so that it is easy
1769 to override options that are set by default or by operating-system-specific
1770 configuration files, for example to change the name of the C compiler, which
1771 defaults to %gcc%. See section <<SECToverride>> below for details of how to do
1778 cindex:['iconv()' support]
1780 The contents of header lines in messages may be encoded according to the rules
1781 described RFC 2047. This makes it possible to transmit characters that are not
1782 in the ASCII character set, and to label them as being in a particular
1783 character set. When Exim is inspecting header lines by means of the %\$h_%
1784 mechanism, it decodes them, and translates them into a specified character set
1785 (default ISO-8859-1). The translation is possible only if the operating system
1786 supports the 'iconv()' function.
1788 However, some of the operating systems that supply 'iconv()' do not support
1789 very many conversions. The GNU %libiconv% library (available from
1790 *http://www.gnu.org/software/libiconv/[]*) can be installed on such systems to
1791 remedy this deficiency, as well as on systems that do not supply 'iconv()' at
1792 all. After installing %libiconv%, you should add
1796 to your _Local/Makefile_ and rebuild Exim.
1801 Including TLS/SSL encryption support
1802 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1803 cindex:[TLS,including support for TLS]
1804 cindex:[encryption,including support for]
1805 cindex:[SUPPORT_TLS]
1806 cindex:[OpenSSL,building Exim with]
1807 cindex:[GnuTLS,building Exim with]
1808 Exim can be built to support encrypted SMTP connections, using the STARTTLS
1809 command as per RFC 2487. It can also support legacy clients that expect to
1810 start a TLS session immediately on connection to a non-standard port (see the
1811 %tls_on_connect_ports% runtime option and the %-tls-on-connect% command
1814 If you want to build Exim with TLS support, you must first install either the
1815 OpenSSL or GnuTLS library. There is no cryptographic code in Exim itself for
1818 If OpenSSL is installed, you should set
1821 TLS_LIBS=-lssl -lcrypto
1823 in _Local/Makefile_. You may also need to specify the locations of the
1824 OpenSSL library and include files. For example:
1827 TLS_LIBS=-L/usr/local/openssl/lib -lssl -lcrypto
1828 TLS_INCLUDE=-I/usr/local/openssl/include/
1831 If GnuTLS is installed, you should set
1835 TLS_LIBS=-lgnutls -ltasn1 -lgcrypt
1837 in _Local/Makefile_, and again you may need to specify the locations of the
1838 library and include files. For example:
1842 TLS_LIBS=-L/usr/gnu/lib -lgnutls -ltasn1 -lgcrypt
1843 TLS_INCLUDE=-I/usr/gnu/include
1845 You do not need to set TLS_INCLUDE if the relevant directory is already
1846 specified in INCLUDE. Details of how to configure Exim to make use of TLS
1847 are given in chapter <<CHAPTLS>>.
1854 cindex:[tcpwrappers, building Exim to support]
1855 cindex:[USE_TCP_WRAPPERS]
1856 Exim can be linked with the 'tcpwrappers' library in order to check incoming
1857 SMTP calls using the 'tcpwrappers' control files. This may be a convenient
1858 alternative to Exim's own checking facilities for installations that are
1859 already making use of 'tcpwrappers' for other purposes. To do this, you should
1860 set USE_TCP_WRAPPERS in _Local/Makefile_, arrange for the file
1861 _tcpd.h_ to be available at compile time, and also ensure that the library
1862 _libwrap.a_ is available at link time, typically by including %-lwrap% in
1863 EXTRALIBS_EXIM. For example, if 'tcpwrappers' is installed in
1864 _/usr/local_, you might have
1866 USE_TCP_WRAPPERS=yes
1867 CFLAGS=-O -I/usr/local/include
1868 EXTRALIBS_EXIM=-L/usr/local/lib -lwrap
1870 in _Local/Makefile_. The name to use in the 'tcpwrappers' control files is
1871 ``exim''. For example, the line
1873 exim : LOCAL 192.168.1. .friendly.domain.example
1875 in your _/etc/hosts.allow_ file allows connections from the local host, from
1876 the subnet 192.168.1.0/24, and from all hosts in 'friendly.domain.example'.
1877 All other connections are denied. Consult the 'tcpwrappers' documentation for
1882 Including support for IPv6
1883 ~~~~~~~~~~~~~~~~~~~~~~~~~~
1884 cindex:[IPv6,including support for]
1885 Exim contains code for use on systems that have IPv6 support. Setting
1886 `HAVE_IPV6=YES` in _Local/Makefile_ causes the IPv6 code to be included;
1887 it may also be necessary to set IPV6_INCLUDE and IPV6_LIBS on systems
1888 where the IPv6 support is not fully integrated into the normal include and
1891 Two different types of DNS record for handling IPv6 addresses have been
1892 defined. AAAA records (analagous to A records for IPv4) are in use, and are
1893 currently seen as the mainstream. Another record type called A6 was proposed
1894 as better than AAAA because it had more flexibility. However, it was felt to be
1895 over-complex, and its status was reduced to ``experimental''. It is not known
1896 if anyone is actually using A6 records. Exim has support for A6 records, but
1897 this is included only if you set `SUPPORT_A6=YES` in _Local/Makefile_. The
1898 support has not been tested for some time.
1902 The building process
1903 ~~~~~~~~~~~~~~~~~~~~
1904 cindex:[build directory]
1905 Once _Local/Makefile_ (and _Local/eximon.conf_, if required) have been
1906 created, run 'make' at the top level. It determines the architecture and
1907 operating system types, and creates a build directory if one does not exist.
1908 For example, on a Sun system running Solaris 8, the directory
1909 _build-SunOS5-5.8-sparc_ is created.
1910 cindex:[symbolic link,to source files]
1911 Symbolic links to relevant source files are installed in the build directory.
1913 *Warning*: The %-j% (parallel) flag must not be used with 'make'; the
1914 building process fails if it is set.
1916 If this is the first time 'make' has been run, it calls a script that builds
1917 a make file inside the build directory, using the configuration files from the
1918 _Local_ directory. The new make file is then passed to another instance of
1919 'make'. This does the real work, building a number of utility scripts, and
1920 then compiling and linking the binaries for the Exim monitor (if configured), a
1921 number of utility programs, and finally Exim itself. The command 'make
1922 makefile' can be used to force a rebuild of the make file in the build
1923 directory, should this ever be necessary.
1925 If you have problems building Exim, check for any comments there may be in the
1926 _README_ file concerning your operating system, and also take a look at the
1927 FAQ, where some common problems are covered.
1931 Output from ``make''
1932 ~~~~~~~~~~~~~~~~~~~~
1934 [revisionflag="changed"]
1935 The output produced by the 'make' process for compile lines is often very
1936 unreadable, because these lines can be very long. For this reason, the normal
1937 output is suppressed by default, and instead output similar to that which
1938 appears when compiling the 2.6 Linux kernel is generated: just a short line for
1939 each module that is being compiled or linked. However, it is still possible to
1940 get the full output, by calling 'make' like this:
1944 The value of FULLECHO defaults to ``@'', the flag character that suppresses
1945 command reflection in 'make'. When you ask for the full output, it is
1946 given in addition to the the short output.
1952 Overriding build-time options for Exim
1953 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1954 cindex:[build-time options, overriding]
1955 The main make file that is created at the beginning of the building process
1956 consists of the concatenation of a number of files which set configuration
1957 values, followed by a fixed set of 'make' instructions. If a value is set
1958 more than once, the last setting overrides any previous ones. This provides a
1959 convenient way of overriding defaults. The files that are concatenated are, in
1963 _OS/Makefile-Default_
1964 _OS/Makefile-_<'ostype'>
1966 _Local/Makefile-_<'ostype'>
1967 _Local/Makefile-_<'archtype'>
1968 _Local/Makefile-_<'ostype'>-<'archtype'>
1972 cindex:[_Local/Makefile_]
1973 cindex:[building Exim,operating system type]
1974 cindex:[building Exim,architecture type]
1975 where <'ostype'> is the operating system type and <'archtype'> is the
1976 architecture type. _Local/Makefile_ is required to exist, and the building
1977 process fails if it is absent. The other three _Local_ files are optional,
1978 and are often not needed.
1980 The values used for <'ostype'> and <'archtype'> are obtained from scripts
1981 called _scripts/os-type_ and _scripts/arch-type_ respectively. If either of
1982 the environment variables EXIM_OSTYPE or EXIM_ARCHTYPE is set, their
1983 values are used, thereby providing a means of forcing particular settings.
1984 Otherwise, the scripts try to get values from the %uname% command. If this
1985 fails, the shell variables OSTYPE and ARCHTYPE are inspected. A number
1986 of 'ad hoc' transformations are then applied, to produce the standard names
1987 that Exim expects. You can run these scripts directly from the shell in order
1988 to find out what values are being used on your system.
1991 _OS/Makefile-Default_ contains comments about the variables that are set
1992 therein. Some (but not all) are mentioned below. If there is something that
1993 needs changing, review the contents of this file and the contents of the make
1994 file for your operating system (_OS/Makefile-<ostype>_) to see what the
1998 cindex:[building Exim,overriding default settings]
1999 If you need to change any of the values that are set in _OS/Makefile-Default_
2000 or in _OS/Makefile-<ostype>_, or to add any new definitions, you do not
2001 need to change the original files. Instead, you should make the changes by
2002 putting the new values in an appropriate _Local_ file. For example,
2003 cindex:[Tru64-Unix build-time settings]
2004 when building Exim in many releases of the Tru64-Unix (formerly Digital UNIX,
2005 formerly DEC-OSF1) operating system, it is necessary to specify that the C
2006 compiler is called 'cc' rather than 'gcc'. Also, the compiler must be
2007 called with the option %-std1%, to make it recognize some of the features of
2008 Standard C that Exim uses. (Most other compilers recognize Standard C by
2009 default.) To do this, you should create a file called _Local/Makefile-OSF1_
2010 containing the lines
2015 If you are compiling for just one operating system, it may be easier to put
2016 these lines directly into _Local/Makefile_.
2018 Keeping all your local configuration settings separate from the distributed
2019 files makes it easy to transfer them to new versions of Exim simply by copying
2020 the contents of the _Local_ directory.
2023 cindex:[NIS lookup type,including support for]
2024 cindex:[NIS+ lookup type,including support for]
2025 cindex:[LDAP,including support for]
2026 cindex:[lookup,inclusion in binary]
2027 Exim contains support for doing LDAP, NIS, NIS+, and other kinds of file
2028 lookup, but not all systems have these components installed, so the default is
2029 not to include the relevant code in the binary. All the different kinds of file
2030 and database lookup that Exim supports are implemented as separate code modules
2031 which are included only if the relevant compile-time options are set. In the
2032 case of LDAP, NIS, and NIS+, the settings for _Local/Makefile_ are:
2038 and similar settings apply to the other lookup types. They are all listed in
2039 _src/EDITME_. In many cases the relevant include files and interface
2040 libraries need to be installed before compiling Exim.
2041 cindex:[cdb,including support for]
2042 However, there are some optional lookup types (such as cdb) for which
2043 the code is entirely contained within Exim, and no external include
2044 files or libraries are required. When a lookup type is not included in the
2045 binary, attempts to configure Exim to use it cause run time configuration
2048 cindex:[Perl,including support for]
2049 Exim can be linked with an embedded Perl interpreter, allowing Perl
2050 subroutines to be called during string expansion. To enable this facility,
2054 must be defined in _Local/Makefile_. Details of this facility are given in
2055 chapter <<CHAPperl>>.
2057 cindex:[X11 libraries, location of]
2058 The location of the X11 libraries is something that varies a lot between
2059 operating systems, and there may be different versions of X11 to cope
2060 with. Exim itself makes no use of X11, but if you are compiling the Exim
2061 monitor, the X11 libraries must be available.
2062 The following three variables are set in _OS/Makefile-Default_:
2065 XINCLUDE=-I$(X11)/include
2066 XLFLAGS=-L$(X11)/lib
2068 These are overridden in some of the operating-system configuration files. For
2069 example, in _OS/Makefile-SunOS5_ there is
2072 XINCLUDE=-I$(X11)/include
2073 XLFLAGS=-L$(X11)/lib -R$(X11)/lib
2075 If you need to override the default setting for your operating system, place a
2076 definition of all three of these variables into your
2077 _Local/Makefile-<ostype>_ file.
2080 If you need to add any extra libraries to the link steps, these can be put in a
2081 variable called EXTRALIBS, which appears in all the link commands, but by
2082 default is not defined. In contrast, EXTRALIBS_EXIM is used only on the
2083 command for linking the main Exim binary, and not for any associated utilities.
2085 cindex:[DBM libraries, configuration for building]
2086 There is also DBMLIB, which appears in the link commands for binaries that
2087 use DBM functions (see also section <<SECTdb>>). Finally, there is
2088 EXTRALIBS_EXIMON, which appears only in the link step for the Exim monitor
2089 binary, and which can be used, for example, to include additional X11
2092 cindex:[configuration file,editing]
2093 The make file copes with rebuilding Exim correctly if any of the configuration
2094 files are edited. However, if an optional configuration file is deleted, it is
2095 necessary to touch the associated non-optional file (that is, _Local/Makefile_
2096 or _Local/eximon.conf_) before rebuilding.
2099 OS-specific header files
2100 ~~~~~~~~~~~~~~~~~~~~~~~~
2102 cindex:[building Exim,OS-specific C header files]
2103 The _OS_ directory contains a number of files with names of the form
2104 _os.h-<ostype>_. These are system-specific C header files that should not
2105 normally need to be changed. There is a list of macro settings that are
2106 recognized in the file _OS/os.configuring_, which should be consulted if you
2107 are porting Exim to a new operating system.
2111 Overriding build-time options for the monitor
2112 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2113 cindex:[building Eximon,overriding default options]
2114 A similar process is used for overriding things when building the Exim monitor,
2115 where the files that are involved are
2118 _OS/eximon.conf-Default_
2119 _OS/eximon.conf-_<'ostype'>
2121 _Local/eximon.conf-_<'ostype'>
2122 _Local/eximon.conf-_<'archtype'>
2123 _Local/eximon.conf-_<'ostype'>-<'archtype'>
2126 cindex:[_Local/eximon.conf_]
2127 As with Exim itself, the final three files need not exist, and in this case the
2128 _OS/eximon.conf-<ostype>_ file is also optional. The default values in
2129 _OS/eximon.conf-Default_ can be overridden dynamically by setting environment
2130 variables of the same name, preceded by EXIMON_. For example, setting
2131 EXIMON_LOG_DEPTH in the environment overrides the value of
2132 LOG_DEPTH at run time.
2137 Installing Exim binaries and scripts
2138 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2139 cindex:[installing Exim]
2140 cindex:[BIN_DIRECTORY]
2141 The command 'make install' runs the 'exim_install' script with no arguments.
2142 The script copies binaries and utility scripts into the directory whose name is
2143 specified by the BIN_DIRECTORY setting in _Local/Makefile_.
2144 cindex:[setuid,installing Exim with]
2145 The install script copies files only if they are newer than the files they are
2146 going to replace. The Exim binary is required to be owned by root and have the
2147 'setuid' bit set, for normal configurations. Therefore, you must run 'make
2148 install' as root so that it can set up the Exim binary in this way. However, in
2149 some special situations (for example, if a host is doing no local deliveries)
2150 it may be possible to run Exim without making the binary setuid root (see
2151 chapter <<CHAPsecurity>> for details).
2153 cindex:[CONFIGURE_FILE]
2154 Exim's run time configuration file is named by the CONFIGURE_FILE setting
2155 in _Local/Makefile_. If this names a single file, and the file does not
2156 exist, the default configuration file _src/configure.default_ is copied there
2157 by the installation script. If a run time configuration file already exists, it
2158 is left alone. If CONFIGURE_FILE is a colon-separated list, naming several
2159 alternative files, no default is installed.
2161 cindex:[system aliases file]
2162 cindex:[_/etc/aliases_]
2163 One change is made to the default configuration file when it is installed: the
2164 default configuration contains a router that references a system aliases file.
2165 The path to this file is set to the value specified by
2166 SYSTEM_ALIASES_FILE in _Local/Makefile_ (_/etc/aliases_ by default).
2167 If the system aliases file does not exist, the installation script creates it,
2168 and outputs a comment to the user.
2170 The created file contains no aliases, but it does contain comments about the
2171 aliases a site should normally have. Mail aliases have traditionally been
2172 kept in _/etc/aliases_. However, some operating systems are now using
2173 _/etc/mail/aliases_. You should check if yours is one of these, and change
2174 Exim's configuration if necessary.
2176 The default configuration uses the local host's name as the only local domain,
2177 and is set up to do local deliveries into the shared directory _/var/mail_,
2178 running as the local user. System aliases and _.forward_ files in users' home
2179 directories are supported, but no NIS or NIS+ support is configured. Domains
2180 other than the name of the local host are routed using the DNS, with delivery
2183 It is possible to install Exim for special purposes (such as building a binary
2184 distribution) in a private part of the file system. You can do this by a
2187 make DESTDIR=/some/directory/ install
2189 This has the effect of pre-pending the specified directory to all the file
2190 paths, except the name of the system aliases file that appears in the default
2191 configuration. (If a default alias file is created, its name 'is' modified.)
2192 For backwards compatibility, ROOT is used if DESTDIR is not set,
2193 but this usage is deprecated.
2195 cindex:[installing Exim,what is not installed]
2196 Running 'make install' does not copy the Exim 4 conversion script
2197 'convert4r4', or the 'pcretest' test program. You will probably run the
2198 first of these only once (if you are upgrading from Exim 3), and the second
2199 isn't really part of Exim. None of the documentation files in the _doc_
2200 directory are copied, except for the info files when you have set
2201 INFO_DIRECTORY, as described in section <<SECTinsinfdoc>> below.
2203 For the utility programs, old versions are renamed by adding the suffix _.O_
2204 to their names. The Exim binary itself, however, is handled differently. It is
2205 installed under a name that includes the version number and the compile number,
2206 for example _exim-{version}-1_. The script then arranges for a symbolic link
2207 called _exim_ to point to the binary. If you are updating a previous version
2208 of Exim, the script takes care to ensure that the name _exim_ is never absent
2209 from the directory (as seen by other processes).
2211 cindex:[installing Exim,testing the script]
2212 If you want to see what the 'make install' will do before running it for
2213 real, you can pass the %-n% option to the installation script by this command:
2215 make INSTALL_ARG=-n install
2217 The contents of the variable INSTALL_ARG are passed to the installation
2218 script. You do not need to be root to run this test. Alternatively, you can run
2219 the installation script directly, but this must be from within the build
2220 directory. For example, from the top-level Exim directory you could use this
2223 (cd build-SunOS5-5.5.1-sparc; ../scripts/exim_install -n)
2225 cindex:[installing Exim,install script options]
2226 There are two other options that can be supplied to the installation script.
2228 - %-no_chown% bypasses the call to change the owner of the installed binary
2229 to root, and the call to make it a setuid binary.
2231 - %-no_symlink% bypasses the setting up of the symbolic link _exim_ to the
2234 INSTALL_ARG can be used to pass these options to the script. For example:
2236 make INSTALL_ARG=-no_symlink install
2239 The installation script can also be given arguments specifying which files are
2240 to be copied. For example, to install just the Exim binary, and nothing else,
2241 without creating the symbolic link, you could use:
2243 make INSTALL_ARG='-no_symlink exim' install
2249 Installing info documentation
2250 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2251 cindex:[installing Exim,'info' documentation]
2252 Not all systems use the GNU 'info' system for documentation, and for this
2253 reason, the Texinfo source of Exim's documentation is not included in the main
2254 distribution. Instead it is available separately from the ftp site (see section
2257 If you have defined INFO_DIRECTORY in _Local/Makefile_ and the Texinfo
2258 source of the documentation is found in the source tree, running 'make
2259 install' automatically builds the info files and installs them.
2263 Setting up the spool directory
2264 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2265 cindex:[spool directory,creating]
2266 When it starts up, Exim tries to create its spool directory if it does not
2267 exist. The Exim uid and gid are used for the owner and group of the spool
2268 directory. Sub-directories are automatically created in the spool directory as
2276 cindex:[testing,installation]
2277 Having installed Exim, you can check that the run time configuration file is
2278 syntactically valid by running the following command, which assumes that the
2279 Exim binary directory is within your PATH environment variable:
2283 If there are any errors in the configuration file, Exim outputs error messages.
2284 Otherwise it outputs the version number and build date,
2285 the DBM library that is being used, and information about which drivers and
2286 other optional code modules are included in the binary.
2287 Some simple routing tests can be done by using the address testing option. For
2290 exim -bt <local username>
2292 should verify that it recognizes a local mailbox, and
2294 exim -bt <remote address>
2296 a remote one. Then try getting it to deliver mail, both locally and remotely.
2297 This can be done by passing messages directly to Exim, without going through a
2298 user agent. For example:
2301 exim -v postmaster@your.domain.example
2302 From: user@your.domain.example
2303 To: postmaster@your.domain.example
2304 Subject: Testing Exim
2306 This is a test message.
2310 The %-v% option causes Exim to output some verification of what it is doing.
2311 In this case you should see copies of three log lines, one for the message's
2312 arrival, one for its delivery, and one containing ``Completed''.
2314 cindex:[delivery,problems with]
2315 If you encounter problems, look at Exim's log files ('mainlog' and
2316 'paniclog') to see if there is any relevant information there. Another source
2317 of information is running Exim with debugging turned on, by specifying the
2318 %-d% option. If a message is stuck on Exim's spool, you can force a delivery
2319 with debugging turned on by a command of the form
2321 exim -d -M <message-id>
2323 You must be root or an ``admin user'' in order to do this. The %-d% option
2324 produces rather a lot of output, but you can cut this down to specific areas.
2325 For example, if you use %-d-all+route% only the debugging information relevant
2326 to routing is included. (See the %-d% option in chapter <<CHAPcommandline>> for
2329 cindex:[``sticky'' bit]
2331 One specific problem that has shown up on some sites is the inability to do
2332 local deliveries into a shared mailbox directory, because it does not have the
2333 ``sticky bit'' set on it. By default, Exim tries to create a lock file before
2334 writing to a mailbox file, and if it cannot create the lock file, the delivery
2335 is deferred. You can get round this either by setting the ``sticky bit'' on the
2336 directory, or by setting a specific group for local deliveries and allowing
2337 that group to create files in the directory (see the comments above the
2338 ^local_delivery^ transport in the default configuration file). Another
2339 approach is to configure Exim not to use lock files, but just to rely on
2340 'fcntl()' locking instead. However, you should do this only if all user
2341 agents also use 'fcntl()' locking. For further discussion of locking issues,
2342 see chapter <<CHAPappendfile>>.
2344 One thing that cannot be tested on a system that is already running an MTA is
2345 the receipt of incoming SMTP mail on the standard SMTP port. However, the
2346 %-oX% option can be used to run an Exim daemon that listens on some other
2347 port, or 'inetd' can be used to do this. The %-bh% option and the
2348 'exim_checkaccess' utility can be used to check out policy controls on
2351 Testing a new version on a system that is already running Exim can most easily
2352 be done by building a binary with a different CONFIGURE_FILE setting. From
2353 within the run time configuration, all other file and directory names
2354 that Exim uses can be altered, in order to keep it entirely clear of the
2358 Replacing another MTA with Exim
2359 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2360 cindex:[replacing another MTA]
2361 Building and installing Exim for the first time does not of itself put it in
2362 general use. The name by which the system's MTA is called by mail user agents
2363 is either _/usr/sbin/sendmail_, or _/usr/lib/sendmail_ (depending on the
2364 operating system), and it is necessary to make this name point to the 'exim'
2365 binary in order to get the user agents to pass messages to Exim. This is
2366 normally done by renaming any existing file and making _/usr/sbin/sendmail_
2367 or _/usr/lib/sendmail_
2369 cindex:[symbolic link,to 'exim' binary]
2370 a symbolic link to the 'exim' binary. It is a good idea to remove any setuid
2371 privilege and executable status from the old MTA. It is then necessary to stop
2372 and restart the mailer daemon, if one is running.
2374 cindex:[FreeBSD, MTA indirection]
2375 cindex:[_/etc/mail/mailer.conf_]
2376 Some operating systems have introduced alternative ways of switching MTAs. For
2377 example, if you are running FreeBSD, you need to edit the file
2378 _/etc/mail/mailer.conf_ instead of setting up a symbolic link as just
2379 described. A typical example of the contents of this file for running Exim is
2382 sendmail /usr/exim/bin/exim
2383 send-mail /usr/exim/bin/exim
2384 mailq /usr/exim/bin/exim -bp
2385 newaliases /usr/bin/true
2388 Once you have set up the symbolic link, or edited _/etc/mail/mailer.conf_,
2389 your Exim installation is ``live''. Check it by sending a message from your
2390 favourite user agent.
2392 You should consider what to tell your users about the change of MTA. Exim may
2393 have different capabilities to what was previously running, and there are
2394 various operational differences such as the text of messages produced by
2395 command line options and in bounce messages. If you allow your users to make
2396 use of Exim's filtering capabilities, you should make the document entitled
2397 'Exim's interface to mail filtering'
2404 cindex:[upgrading Exim]
2405 If you are already running Exim on your host, building and installing a new
2406 version automatically makes it available to MUAs, or any other programs that
2407 call the MTA directly. However, if you are running an Exim daemon, you do need
2408 to send it a HUP signal, to make it re-exec itself, and thereby pick up the new
2409 binary. You do not need to stop processing mail in order to install a new
2410 version of Exim. The install script does not modify an existing runtime
2416 Stopping the Exim daemon on Solaris
2417 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2418 cindex:[Solaris,stopping Exim on]
2419 The standard command for stopping the mailer daemon on Solaris is
2421 /etc/init.d/sendmail stop
2423 If _/usr/lib/sendmail_ has been turned into a symbolic link, this script
2424 fails to stop Exim because it uses the command 'ps -e' and greps the output
2425 for the text ``sendmail''; this is not present because the actual program name
2426 (that is, ``exim'') is given by the 'ps' command with these options. A solution
2427 is to replace the line that finds the process id with something like
2429 pid=`cat /var/spool/exim/exim-daemon.pid`
2431 to obtain the daemon's pid directly from the file that Exim saves it in.
2433 Note, however, that stopping the daemon does not ``stop Exim''. Messages can
2434 still be received from local processes, and if automatic delivery is configured
2435 (the normal case), deliveries will still occur.
2440 ////////////////////////////////////////////////////////////////////////////
2441 ////////////////////////////////////////////////////////////////////////////
2444 The Exim command line
2445 ---------------------
2446 cindex:[command line,options]
2447 cindex:[options,command line]
2448 Exim's command line takes the standard Unix form of a sequence of options,
2449 each starting with a hyphen character, followed by a number of arguments. The
2450 options are compatible with the main options of Sendmail, and there are also
2451 some additional options, some of which are compatible with Smail 3. Certain
2452 combinations of options do not make sense, and provoke an error if used.
2453 The form of the arguments depends on which options are set.
2456 Setting options by program name
2457 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2459 If Exim is called under the name 'mailq', it behaves as if the option %-bp%
2460 were present before any other options.
2461 The %-bp% option requests a listing of the contents of the mail queue on the
2463 This feature is for compatibility with some systems that contain a command of
2464 that name in one of the standard libraries, symbolically linked to
2465 _/usr/sbin/sendmail_ or _/usr/lib/sendmail_.
2468 If Exim is called under the name 'rsmtp' it behaves as if the option %-bS%
2469 were present before any other options, for compatibility with Smail. The %-bS%
2470 option is used for reading in a number of messages in batched SMTP format.
2473 If Exim is called under the name 'rmail' it behaves as if the %-i% and
2474 %-oee% options were present before any other options, for compatibility with
2475 Smail. The name 'rmail' is used as an interface by some UUCP systems.
2478 cindex:[queue runner]
2479 If Exim is called under the name 'runq' it behaves as if the option %-q% were
2480 present before any other options, for compatibility with Smail. The %-q%
2481 option causes a single queue runner process to be started.
2483 cindex:['newaliases']
2484 cindex:[alias file,building]
2485 cindex:[Sendmail compatibility,calling Exim as 'newaliases']
2486 If Exim is called under the name 'newaliases' it behaves as if the option
2487 %-bi% were present before any other options, for compatibility with Sendmail.
2488 This option is used for rebuilding Sendmail's alias file. Exim does not have
2489 the concept of a single alias file, but can be configured to run a given
2490 command if called with the %-bi% option.
2493 [[SECTtrustedadmin]]
2494 Trusted and admin users
2495 ~~~~~~~~~~~~~~~~~~~~~~~
2496 Some Exim options are available only to 'trusted users' and others are
2497 available only to 'admin users'. In the description below, the phrases ``Exim
2498 user'' and ``Exim group'' mean the user and group defined by EXIM_USER and
2499 EXIM_GROUP in _Local/Makefile_ or set by the %exim_user% and
2500 %exim_group% options. These do not necessarily have to use the name ``exim''.
2502 - cindex:[trusted user,definition of]
2503 cindex:[user, trusted definition of]
2504 The trusted users are root, the Exim user, any user listed in the
2505 %trusted_users% configuration option, and any user whose current group or any
2506 supplementary group is one of those listed in the %trusted_groups%
2507 configuration option. Note that the Exim group is not automatically trusted.
2509 cindex:[``From'' line]
2510 cindex:[envelope sender]
2511 Trusted users are always permitted to use the %-f% option or a leading ``From ''
2512 line to specify the envelope sender of a message that is passed to Exim through
2513 the local interface (see the %-bm% and %-f% options below). See the
2514 %untrusted_set_sender% option for a way of permitting non-trusted users to
2515 set envelope senders.
2517 cindex:['From:' header line]
2518 cindex:['Sender:' header line]
2519 For a trusted user, there is never any check on the contents of the 'From:'
2520 header line, and a 'Sender:' line is never added. Furthermore, any existing
2521 'Sender:' line in incoming local (non-TCP/IP) messages is not removed.
2523 Trusted users may also specify a host name, host address, interface address,
2524 protocol name, ident value, and authentication data when submitting a message
2525 locally. Thus, they are able to insert messages into Exim's queue locally that
2526 have the characteristics of messages received from a remote host. Untrusted
2527 users may in some circumstances use %-f%, but can never set the other values
2528 that are available to trusted users.
2530 - cindex:[user, admin definition of]
2531 cindex:[admin user,definition of]
2532 The admin users are root, the Exim user, and any user that is a member of the
2533 Exim group or of any group listed in the %admin_groups% configuration option.
2534 The current group does not have to be one of these groups.
2536 Admin users are permitted to list the queue, and to carry out certain
2537 operations on messages, for example, to force delivery failures. It is also
2538 necessary to be an admin user in order to see the full information provided by
2539 the Exim monitor, and full debugging output.
2541 By default, the use of the %-M%, %-q%, %-R%, and %-S% options to cause Exim
2542 to attempt delivery of messages on its queue is restricted to admin users.
2543 However, this restriction can be relaxed by setting the %prod_requires_admin%
2544 option false (that is, specifying %no_prod_requires_admin%).
2546 Similarly, the use of the %-bp% option to list all the messages in the queue
2547 is restricted to admin users unless %queue_list_requires_admin% is set
2551 *Warning*: If you configure your system so that admin users are able to
2552 edit Exim's configuration file, you are giving those users an easy way of
2553 getting root. There is further discussion of this issue at the start of chapter
2559 Command line options
2560 ~~~~~~~~~~~~~~~~~~~~
2561 The command options are described in alphabetical order below.
2564 We insert a stylized DocBook comment here, to identify the start of the command
2565 line options. This is for the benefit of the Perl script that automatically
2566 creates a man page for the options.
2570 <!-- === Start of command line options === -->
2576 cindex:[options, command line; terminating]
2577 This is a pseudo-option whose only purpose is to terminate the options and
2578 therefore to cause subsequent command line items to be treated as arguments
2579 rather than options, even if they begin with hyphens.
2583 This option causes Exim to output a few sentences stating what it is.
2584 The same output is generated if the Exim binary is called with no options and
2589 cindex:[8-bit characters]
2590 cindex:[Sendmail compatibility,8-bit characters]
2591 This is a Sendmail option for selecting 7 or 8 bit processing. Exim is 8-bit
2592 clean; it ignores this option.
2597 cindex:[SMTP listener]
2598 cindex:[queue runner]
2599 This option runs Exim as a daemon, awaiting incoming SMTP connections. Usually
2600 the %-bd% option is combined with the %-q%<'time'> option, to specify that
2601 the daemon should also initiate periodic queue runs.
2603 The %-bd% option can be used only by an admin user. If either of the %-d%
2604 (debugging) or %-v% (verifying) options are set, the daemon does not
2605 disconnect from the controlling terminal. When running this way, it can be
2606 stopped by pressing ctrl-C.
2608 By default, Exim listens for incoming connections to the standard SMTP port on
2609 all the host's running interfaces. However, it is possible to listen on other
2610 ports, on multiple ports, and only on specific interfaces. Chapter
2611 <<CHAPinterfaces>> contains a description of the options that control this.
2613 When a listening daemon
2614 cindex:[daemon,process id (pid)]
2615 cindex:[pid (process id),of daemon]
2616 is started without the use of %-oX% (that is, without overriding the normal
2617 configuration), it writes its process id to a file called _exim-daemon.pid_ in
2618 Exim's spool directory. This location can be overridden by setting
2619 PID_FILE_PATH in _Local/Makefile_. The file is written while Exim is still
2622 When %-oX% is used on the command line to start a listening daemon, the
2623 process id is not written to the normal pid file path. However, %-oP% can be
2624 used to specify a path on the command line if a pid file is required.
2628 can be used to cause the daemon to re-exec itself. This should be done whenever
2629 Exim's configuration file, or any file that is incorporated into it by means of
2630 the %.include% facility, is changed, and also whenever a new version of Exim is
2631 installed. It is not necessary to do this when other files that are referenced
2632 from the configuration (for example, alias files) are changed, because these
2633 are reread each time they are used.
2637 This option has the same effect as %-bd% except that it never disconnects from
2638 the controlling terminal, even when no debugging is specified.
2642 cindex:[testing,string expansion]
2643 cindex:[expansion,testing]
2644 Run Exim in expansion testing mode. Exim discards its root privilege, to
2645 prevent ordinary users from using this mode to read otherwise inaccessible
2646 files. If no arguments are given, Exim runs interactively, prompting for lines
2649 If Exim was built with USE_READLINE=yes in _Local/Makefile_, it tries
2650 to load the %libreadline% library dynamically whenever the %-be% option is
2651 used without command line arguments. If successful, it uses the 'readline()'
2652 function, which provides extensive line-editing facilities, for reading the
2653 test data. A line history is supported.
2655 Long expansion expressions can be split over several lines by using backslash
2656 continuations. As in Exim's run time configuration, white space at the start of
2657 continuation lines is ignored. Each argument or data line is passed through the
2658 string expansion mechanism, and the result is output. Variable values from the
2659 configuration file (for example, $qualify_domain$) are available, but no
2660 message-specific values (such as $domain$) are set, because no message is
2663 *-bF*~<'filename'>::
2665 cindex:[system filter,testing]
2666 cindex:[testing,system filter]
2667 This option is the same as %-bf% except that it assumes that the filter being
2668 tested is a system filter. The additional commands that are available only in
2669 system filters are recognized.
2671 *-bf*~<'filename'>::
2673 cindex:[filter,testing]
2674 cindex:[testing,filter file]
2675 cindex:[forward file,testing]
2676 cindex:[testing,forward file]
2677 cindex:[Sieve filter,testing]
2678 This option runs Exim in user filter testing mode; the file is the filter file
2679 to be tested, and a test message must be supplied on the standard input. If
2680 there are no message-dependent tests in the filter, an empty file can be
2683 If you want to test a system filter file, use %-bF% instead of %-bf%. You can
2684 use both %-bF% and %-bf% on the same command, in order to
2685 test a system filter and a user filter in the same run. For example:
2687 exim -bF /system/filter -bf /user/filter </test/message
2689 This is helpful when the system filter adds header lines or sets filter
2690 variables that are used by the user filter.
2692 If the test filter file does not begin with one of the special lines
2697 it is taken to be a normal _.forward_ file, and is tested for validity under
2698 that interpretation. See sections <<SECTitenonfilred>> to <<SECTspecitredli>> for a
2699 description of the possible contents of non-filter redirection lists.
2701 The result of an Exim command that uses %-bf%, provided no errors are
2702 detected, is a list of the actions that Exim would try to take if presented
2703 with the message for real. More details of filter testing are given in the
2704 separate document entitled 'Exim's interfaces to mail filtering'.
2706 When testing a filter file,
2707 cindex:[``From'' line]
2708 cindex:[envelope sender]
2709 cindex:[%-f% option,for filter testing]
2710 the envelope sender can be set by the %-f% option,
2711 or by a ``From '' line at the start of the test message. Various parameters that
2712 would normally be taken from the envelope recipient address of the message can
2713 be set by means of additional command line options (see the next four options).
2717 cindex:[$qualify_domain$]
2718 This sets the domain of the recipient address when a filter file is being
2719 tested by means of the %-bf% option. The default is the value of
2722 *-bfl*~<'local~part'>::
2724 This sets the local part of the recipient address when a filter file is being
2725 tested by means of the %-bf% option. The default is the username of the
2726 process that calls Exim. A local part should be specified with any prefix or
2727 suffix stripped, because that is how it appears to the filter when a message is
2728 actually being delivered.
2732 This sets the prefix of the local part of the recipient address when a filter
2733 file is being tested by means of the %-bf% option. The default is an empty
2738 This sets the suffix of the local part of the recipient address when a filter
2739 file is being tested by means of the %-bf% option. The default is an empty
2742 *-bh*~<'IP~address'>::
2744 cindex:[testing,incoming SMTP]
2745 cindex:[SMTP,testing incoming]
2746 cindex:[testing,relay control]
2747 cindex:[relaying,testing configuration]
2748 cindex:[policy control,testing]
2749 cindex:[debugging,%-bh% option]
2750 This option runs a fake SMTP session as if from the given IP address, using the
2751 standard input and output. The IP address may include a port number at the end,
2752 after a full stop. For example:
2754 exim -bh 10.9.8.7.1234
2755 exim -bh fe80::a00:20ff:fe86:a061.5678
2757 When an IPv6 address is given, it is converted into canonical form. In the case
2758 of the second example above, the value of $sender_host_address$ after
2759 conversion to the canonical form is `fe80:0000:0000:0a00:20ff:fe86:a061.5678`.
2761 Comments as to what is going on are written to the standard error file. These
2762 include lines beginning with ``LOG'' for anything that would have been logged.
2763 This facility is provided for testing configuration options for incoming
2764 messages, to make sure they implement the required policy. For example, you can
2765 test your relay controls using %-bh%.
2769 You cannot test features of the configuration that rely on
2770 ident (RFC 1413) callouts. These cannot be done when testing using
2771 %-bh% because there is no incoming SMTP connection.
2773 *Warning 2*: Address verification callouts (see section <<SECTcallver>>) are
2774 also skipped when testing using %-bh%. If you want these callouts to occur,
2777 Messages supplied during the testing session are discarded, and nothing is
2778 written to any of the real log files. There may be pauses when DNS (and other)
2779 lookups are taking place, and of course these may time out. The %-oMi% option
2780 can be used to specify a specific IP interface and port if this is important.
2782 The 'exim_checkaccess' utility is a ``packaged'' version of %-bh% whose
2783 output just states whether a given recipient address from a given host is
2784 acceptable or not. See section <<SECTcheckaccess>>.
2786 *-bhc*~<'IP~address'>::
2788 This option operates in the same way as %-bh%, except that address
2789 verification callouts are performed if required. This includes consulting and
2790 updating the callout cache database.
2794 cindex:[alias file,building]
2795 cindex:[building alias file]
2796 cindex:[Sendmail compatibility,%-bi% option]
2797 Sendmail interprets the %-bi% option as a request to rebuild its alias file.
2798 Exim does not have the concept of a single alias file, and so it cannot mimic
2799 this behaviour. However, calls to _/usr/lib/sendmail_ with the %-bi% option
2800 tend to appear in various scripts such as NIS make files, so the option must be
2803 If %-bi% is encountered, the command specified by the %bi_command%
2804 configuration option is run, under the uid and gid of the caller of Exim. If
2805 the %-oA% option is used, its value is passed to the command as an argument.
2806 The command set by %bi_command% may not contain arguments. The command can use
2807 the 'exim_dbmbuild' utility, or some other means, to rebuild alias files if
2808 this is required. If the %bi_command% option is not set, calling Exim with
2813 cindex:[local message reception]
2814 This option runs an Exim receiving process that accepts an incoming,
2815 locally-generated message on the current input. The recipients are given as the
2816 command arguments (except when %-t% is also present -- see below). Each
2817 argument can be a comma-separated list of RFC 2822 addresses. This is the
2818 default option for selecting the overall action of an Exim call; it is assumed
2819 if no other conflicting option is present.
2821 If any addresses in the message are unqualified (have no domain), they are
2822 qualified by the values of the %qualify_domain% or %qualify_recipient%
2823 options, as appropriate. The %-bnq% option (see below) provides a way of
2824 suppressing this for special cases.
2826 Policy checks on the contents of local messages can be enforced by means of
2827 the non-SMTP ACL. See chapter <<CHAPACL>> for details.
2830 cindex:[return code,for %-bm%]
2831 is zero if the message is successfully accepted. Otherwise, the
2832 action is controlled by the %-oe'x'% option setting -- see below.
2835 cindex:[message,format]
2836 cindex:[format,message]
2837 cindex:[``From'' line]
2838 cindex:[UUCP,``From'' line]
2839 cindex:[Sendmail compatibility,``From'' line]
2840 of the message must be as defined in RFC 2822, except that, for
2841 compatibility with Sendmail and Smail, a line in one of the forms
2843 From sender Fri Jan 5 12:55 GMT 1997
2844 From sender Fri, 5 Jan 97 12:55:01
2846 (with the weekday optional, and possibly with additional text after the date)
2847 is permitted to appear at the start of the message. There appears to be no
2848 authoritative specification of the format of this line. Exim recognizes it by
2849 matching against the regular expression defined by the %uucp_from_pattern%
2850 option, which can be changed if necessary.
2853 cindex:[%-f% option,overriding ``From'' line]
2854 specified sender is treated as if it were given as the argument to the
2855 %-f% option, but if a %-f% option is also present, its argument is used in
2856 preference to the address taken from the message. The caller of Exim must be a
2857 trusted user for the sender of a message to be set in this way.
2861 cindex:[address qualification, suppressing]
2862 By default, Exim automatically qualifies unqualified addresses (those
2863 without domains) that appear in messages that are submitted locally (that
2864 is, not over TCP/IP). This qualification applies both to addresses in
2865 envelopes, and addresses in header lines. Sender addresses are qualified using
2866 %qualify_domain%, and recipient addresses using %qualify_recipient% (which
2867 defaults to the value of %qualify_domain%).
2869 Sometimes, qualification is not wanted. For example, if %-bS% (batch SMTP) is
2870 being used to re-submit messages that originally came from remote hosts after
2871 content scanning, you probably do not want to qualify unqualified addresses in
2872 header lines. (Such lines will be present only if you have not enabled a header
2873 syntax check in the appropriate ACL.)
2875 The %-bnq% option suppresses all qualification of unqualified addresses in
2876 messages that originate on the local host. When this is used, unqualified
2877 addresses in the envelope provoke errors (causing message rejection) and
2878 unqualified addresses in header lines are left alone.
2883 cindex:[configuration options, extracting]
2884 cindex:[options,configuration -- extracting]
2885 If this option is given with no arguments, it causes the values of all Exim's
2886 main configuration options to be written to the standard output. The values
2887 of one or more specific options can be requested by giving their names as
2888 arguments, for example:
2890 exim -bP qualify_domain hold_domains
2892 However, any option setting that is preceded by the word ``hide'' in the
2893 configuration file is not shown in full, except to an admin user. For other
2894 users, the output is as in this example:
2896 mysql_servers = <value not displayable>
2898 If %configure_file% is given as an argument, the name of the run time
2899 configuration file is output.
2900 If a list of configuration files was supplied, the value that is output here
2901 is the name of the file that was actually used.
2903 cindex:[daemon,process id (pid)]
2904 cindex:[pid (process id),of daemon]
2905 If %log_file_path% or %pid_file_path% are given, the names of the directories
2906 where log files and daemon pid files are written are output, respectively. If
2907 these values are unset, log files are written in a sub-directory of the spool
2908 directory called %log%, and the pid file is written directly into the spool
2911 If %-bP% is followed by a name preceded by `+`, for example,
2913 exim -bP +local_domains
2915 it searches for a matching named list of any type (domain, host, address, or
2916 local part) and outputs what it finds.
2919 cindex:[options,router -- extracting]
2920 cindex:[options,transport -- extracting]
2921 one of the words %router%, %transport%, or %authenticator% is given,
2922 followed by the name of an appropriate driver instance, the option settings for
2923 that driver are output. For example:
2925 exim -bP transport local_delivery
2927 The generic driver options are output first, followed by the driver's private
2928 options. A list of the names of drivers of a particular type can be obtained by
2929 using one of the words %router_list%, %transport_list%, or
2930 %authenticator_list%, and a complete list of all drivers with their option
2931 settings can be obtained by using %routers%, %transports%, or %authenticators%.
2936 cindex:[queue,listing messages on]
2937 cindex:[listing,messages on the queue]
2938 This option requests a listing of the contents of the mail queue on the
2939 standard output. If the %-bp% option is followed by a list of message ids,
2940 just those messages are listed. By default, this option can be used only by an
2941 admin user. However, the %queue_list_requires_admin% option can be set false
2942 to allow any user to see the queue.
2944 Each message on the queue is displayed as in the following example:
2946 25m 2.9K 0t5C6f-0000c8-00 <alice@wonderland.fict.example>
2947 red.king@looking-glass.fict.example
2951 cindex:[message,size in queue listing]
2952 cindex:[size,of message]
2953 first line contains the length of time the message has been on the queue
2954 (in this case 25 minutes), the size of the message (2.9K), the unique local
2955 identifier for the message, and the message sender, as contained in the
2956 envelope. For bounce messages, the sender address is empty, and appears as
2957 ``<>''. If the message was submitted locally by an untrusted user who overrode
2958 the default sender address, the user's login name is shown in parentheses
2959 before the sender address.
2962 cindex:[frozen messages,in queue listing]
2963 the message is frozen (attempts to deliver it are suspended) then the text
2964 ``\*\*\* frozen \*\*\*'' is displayed at the end of this line.
2966 The recipients of the message (taken from the envelope, not the headers) are
2967 displayed on subsequent lines. Those addresses to which the message has already
2968 been delivered are marked with the letter D. If an original address gets
2969 expanded into several addresses via an alias or forward file, the original is
2970 displayed with a D only when deliveries for all of its child addresses are
2976 This option operates like %-bp%, but in addition it shows delivered addresses
2977 that were generated from the original top level address(es) in each message by
2978 alias or forwarding operations. These addresses are flagged with ``+D'' instead
2984 cindex:[queue,count of messages on]
2985 This option counts the number of messages on the queue, and writes the total
2986 to the standard output. It is restricted to admin users, unless
2987 %queue_list_requires_admin% is set false.
2992 This option operates like %-bp%, but the output is not sorted into
2993 chronological order of message arrival. This can speed it up when there are
2994 lots of messages on the queue, and is particularly useful if the output is
2995 going to be post-processed in a way that doesn't need the sorting.
2999 This option is a combination of %-bpr% and %-bpa%.
3003 This option is a combination of %-bpr% and %-bpu%.
3008 This option operates like %-bp% but shows only undelivered top-level addresses
3009 for each message displayed. Addresses generated by aliasing or forwarding are
3010 not shown, unless the message was deferred after processing by a router with
3011 the %one_time% option set.
3016 cindex:[testing,retry configuration]
3017 cindex:[retry,configuration testing]
3018 This option is for testing retry rules, and it must be followed by up to three
3019 arguments. It causes Exim to look for a retry rule that matches the values
3020 and to write it to the standard output. For example:
3022 exim -brt bach.comp.mus.example
3023 Retry rule: *.comp.mus.example F,2h,15m; F,4d,30m;
3025 See chapter <<CHAPretry>> for a description of Exim's retry rules. The first
3026 argument, which is required, can be a complete address in the form
3027 'local_part@domain', or it can be just a domain name. The second argument is
3028 an optional second domain name; if no retry rule is found for the first
3029 argument, the second is tried. This ties in with Exim's behaviour when looking
3030 for retry rules for remote hosts -- if no rule is found that matches the host,
3031 one that matches the mail domain is sought. The final argument is the name of a
3032 specific delivery error, as used in setting up retry rules, for example
3037 cindex:[testing,rewriting]
3038 cindex:[rewriting,testing]
3039 This option is for testing address rewriting rules, and it must be followed by
3040 a single argument, consisting of either a local part without a domain, or a
3041 complete address with a fully qualified domain. Exim outputs how this address
3042 would be rewritten for each possible place it might appear. See chapter
3043 <<CHAPrewrite>> for further details.
3047 cindex:[SMTP,batched incoming]
3048 cindex:[batched SMTP input]
3049 This option is used for batched SMTP input, which is an alternative interface
3050 for non-interactive local message submission. A number of messages can be
3051 submitted in a single run. However, despite its name, this is not really SMTP
3052 input. Exim reads each message's envelope from SMTP commands on the standard
3053 input, but generates no responses. If the caller is trusted, or
3054 %untrusted_set_sender% is set, the senders in the SMTP MAIL commands are
3055 believed; otherwise the sender is always the caller of Exim.
3057 The message itself is read from the standard input, in SMTP format (leading
3058 dots doubled), terminated by a line containing just a single dot. An error is
3059 provoked if the terminating dot is missing. A further message may then follow.
3061 As for other local message submissions, the contents of incoming batch SMTP
3062 messages can be checked using the non-SMTP ACL (see chapter <<CHAPACL>>).
3063 Unqualified addresses are automatically qualified using %qualify_domain% and
3064 %qualify_recipient%, as appropriate, unless the %-bnq% option is used.
3066 Some other SMTP commands are recognized in the input. HELO and EHLO act
3067 as RSET; VRFY, EXPN, ETRN, and HELP act as NOOP;
3068 QUIT quits, ignoring the rest of the standard input.
3070 cindex:[return code,for %-bS%]
3071 If any error is encountered, reports are written to the standard output and
3072 error streams, and Exim gives up immediately. The return code is 0 if no error
3073 was detected; it is 1 if one or more messages were accepted before the error
3074 was detected; otherwise it is 2.
3076 More details of input using batched SMTP are given in section
3077 <<SECTincomingbatchedSMTP>>.
3081 cindex:[SMTP,local input]
3082 cindex:[local SMTP input]
3083 This option causes Exim to accept one or more messages by reading SMTP commands
3084 on the standard input, and producing SMTP replies on the standard output. SMTP
3085 policy controls, as defined in ACLs (see chapter <<CHAPACL>>) are applied.
3086 Some user agents use this interface as a way of passing locally-generated
3087 messages to the MTA.
3090 cindex:[sender,source of]
3091 this usage, if the caller of Exim is trusted, or %untrusted_set_sender% is
3092 set, the senders of messages are taken from the SMTP MAIL commands.
3093 Otherwise the content of these commands is ignored and the sender is set up as
3094 the calling user. Unqualified addresses are automatically qualified using
3095 %qualify_domain% and %qualify_recipient%, as appropriate, unless the %-bnq%
3100 %-bs% option is also used to run Exim from 'inetd', as an alternative to using
3101 a listening daemon. Exim can distinguish the two cases by checking whether the
3102 standard input is a TCP/IP socket. When Exim is called from 'inetd', the source
3103 of the mail is assumed to be remote, and the comments above concerning senders
3104 and qualification do not apply. In this situation, Exim behaves in exactly the
3105 same way as it does when receiving a message via the listening daemon.
3109 cindex:[testing,addresses]
3110 cindex:[address,testing]
3111 This option runs Exim in address testing mode, in which each argument is taken
3112 as an address to be tested for deliverability. The results are written to the
3113 standard output. If a test fails, and the caller is not an admin user, no
3114 details of the failure are output, because these might contain sensitive
3115 information such as usernames and passwords for database lookups.
3117 If no arguments are given, Exim runs in an interactive manner, prompting with a
3118 right angle bracket for addresses to be tested.
3120 Unlike the %-be% test option, you cannot arrange for Exim to use the
3121 'readline()' function, because it is running as 'root' and there are
3124 Each address is handled as if it were the recipient address of a message
3125 (compare the %-bv% option). It is passed to the routers and the result is
3126 written to the standard output. However, any router that has
3127 %no_address_test% set is bypassed. This can make %-bt% easier to use for
3128 genuine routing tests if your first router passes everything to a scanner
3132 cindex:[return code,for %-bt%]
3133 return code is 2 if any address failed outright; it is 1 if no address
3134 failed outright but at least one could not be resolved for some reason. Return
3135 code 0 is given only when all addresses succeed.
3137 *Warning*: %-bt% can only do relatively simple testing. If any of the
3138 routers in the configuration makes any tests on the sender address of a
3140 cindex:[%-f% option,for address testing]
3141 you can use the %-f% option to set an appropriate sender when running
3142 %-bt% tests. Without it, the sender is assumed to be the calling user at the
3143 default qualifying domain. However, if you have set up (for example) routers
3144 whose behaviour depends on the contents of an incoming message, you cannot test
3145 those conditions using %-bt%. The %-N% option provides a possible way of
3150 cindex:[version number of Exim, verifying]
3151 This option causes Exim to write the current version number, compilation
3152 number, and compilation date of the 'exim' binary to the standard output.
3153 It also lists the DBM library this is being used, the optional modules (such as
3154 specific lookup types), the drivers that are included in the binary, and the
3155 name of the run time configuration file that is in use.
3157 As part of its operation, %-bV% causes Exim to read and syntax check its
3158 configuration file. However, this is a static check only. It cannot check
3159 values that are to be expanded. For example, although a misspelt ACL verb is
3160 detected, an error in the verb's arguments is not. You cannot rely on %-bV%
3161 alone to discover (for example) all the typos in the configuration; some
3162 realistic testing is needed. The %-bh% and %-N% options provide more dynamic
3167 cindex:[verifying address, using %-bv%]
3168 cindex:[address,verification]
3169 This option runs Exim in address verification mode, in which each argument is
3170 taken as an address to be verified. During normal operation, verification
3171 happens mostly as a consequence processing a %verify% condition in an ACL (see
3172 chapter <<CHAPACL>>). If you want to test an entire ACL, see the %-bh% option.
3174 If verification fails, and the caller is not an admin user, no details of the
3175 failure are output, because these might contain sensitive information such as
3176 usernames and passwords for database lookups.
3178 If no arguments are given, Exim runs in an interactive manner, prompting with a
3179 right angle bracket for addresses to be verified.
3181 Unlike the %-be% test option, you cannot arrange for Exim to use the
3182 'readline()' function, because it is running as 'exim' and there are
3185 Verification differs from address testing (the %-bt% option) in that routers
3186 that have %no_verify% set are skipped, and if the address is accepted by a
3187 router that has %fail_verify% set, verification fails. The address is verified
3188 as a recipient if %-bv% is used; to test verification for a sender address,
3189 %-bvs% should be used.
3191 If the %-v% option is not set, the output consists of a single line for each
3192 address, stating whether it was verified or not, and giving a reason in the
3193 latter case. Otherwise, more details are given of how the address has been
3194 handled, and in the case of address redirection, all the generated addresses
3195 are also considered. Without %-v%, generating more than one address by
3196 redirection causes verification to end sucessfully.
3199 cindex:[return code,for %-bv%]
3200 return code is 2 if any address failed outright; it is 1 if no address
3201 failed outright but at least one could not be resolved for some reason. Return
3202 code 0 is given only when all addresses succeed.
3204 If any of the routers in the configuration makes any tests on the sender
3205 address of a message, you should use the %-f% option to set an appropriate
3206 sender when running %-bv% tests. Without it, the sender is assumed to be the
3207 calling user at the default qualifying domain.
3211 This option acts like %-bv%, but verifies the address as a sender rather
3212 than a recipient address. This affects any rewriting and qualification that
3217 cindex:[configuration file,alternate]
3218 cindex:[CONFIGURE_FILE]
3219 cindex:[alternate configuration file]
3220 This option causes Exim to find the run time configuration file from the given
3221 list instead of from the list specified by the CONFIGURE_FILE
3222 compile-time setting. Usually, the list will consist of just a single file
3223 name, but it can be a colon-separated list of names. In this case, the first
3224 file that exists is used. Failure to open an existing file stops Exim from
3225 proceeding any further along the list, and an error is generated.
3227 When this option is used by a caller other than root or the Exim user, and the
3228 list is different from the compiled-in list, Exim gives up its root privilege
3229 immediately, and runs with the real and effective uid and gid set to those of
3230 the caller. However, if ALT_CONFIG_ROOT_ONLY is defined in
3231 _Local/Makefile_, root privilege is retained for %-C% only if the caller of
3234 That is, the Exim user is no longer privileged in this regard. This build-time
3235 option is not set by default in the Exim source distribution tarbundle.
3236 However, if you are using a ``packaged'' version of Exim (source or binary), the
3237 packagers might have enabled it.
3239 Setting ALT_CONFIG_ROOT_ONLY locks out the possibility of testing a
3240 configuration using %-C% right through message reception and delivery, even if
3241 the caller is root. The reception works, but by that time, Exim is running as
3242 the Exim user, so when it re-execs to regain privilege for the delivery, the
3243 use of %-C% causes privilege to be lost. However, root can test reception and
3244 delivery using two separate commands (one to put a message on the queue, using
3245 %-odq%, and another to do the delivery, using %-M%).
3247 If ALT_CONFIG_PREFIX is defined _in Local/Makefile_, it specifies a
3248 prefix string with which any file named in a %-C% command line option
3249 must start. In addition, the file name must not contain the sequence `/../`.
3250 However, if the value of the %-C% option is identical to the value of
3251 CONFIGURE_FILE in _Local/Makefile_, Exim ignores %-C% and proceeds as
3252 usual. There is no default setting for ALT_CONFIG_PREFIX; when it is
3253 unset, any file name can be used with %-C%.
3255 ALT_CONFIG_PREFIX can be used to confine alternative configuration files
3256 to a directory to which only root has access. This prevents someone who has
3257 broken into the Exim account from running a privileged Exim with an arbitrary
3260 The %-C% facility is useful for ensuring that configuration files are
3261 syntactically correct, but cannot be used for test deliveries, unless the
3262 caller is privileged, or unless it is an exotic configuration that does not
3263 require privilege. No check is made on the owner or group of the files
3264 specified by this option.
3266 *-D*<'macro'>=<'value'>::
3268 cindex:[macro,setting on command line]
3269 This option can be used to override macro definitions in the configuration file
3270 (see section <<SECTmacrodefs>>). However, like %-C%, if it is used by an
3271 unprivileged caller, it causes Exim to give up its root privilege.
3272 If DISABLE_D_OPTION is defined in _Local/Makefile_, the use of %-D% is
3273 completely disabled, and its use causes an immediate error exit.
3275 The entire option (including equals sign if present) must all be within one
3276 command line item. %-D% can be used to set the value of a macro to the empty
3277 string, in which case the equals sign is optional. These two commands are
3283 To include spaces in a macro definition item, quotes must be used. If you use
3284 quotes, spaces are permitted around the macro name and the equals sign. For
3287 exim '-D ABC = something' ...
3289 %-D% may be repeated up to 10 times on a command line.
3291 *-d*<'debug~options'>::
3293 cindex:[debugging,list of selectors]
3294 cindex:[debugging,%-d% option]
3295 This option causes debugging information to be written to the standard
3296 error stream. It is restricted to admin users because debugging output may show
3297 database queries that contain password information. Also, the details of users'
3298 filter files should be protected. When %-d% is used, %-v% is assumed. If %-d%
3299 is given on its own, a lot of standard debugging data is output. This can be
3300 reduced, or increased to include some more rarely needed information, by
3301 directly following %-d% with a string made up of names preceded by plus or
3302 minus characters. These add or remove sets of debugging data, respectively. For
3303 example, %-d+filter% adds filter debugging, whereas %-d-all+filter% selects
3304 only filter debugging. Note that no spaces are allowed in the debug setting.
3305 The available debugging categories are:
3308 `acl ` ACL interpretation
3309 `auth ` authenticators
3310 `deliver ` general delivery logic
3311 `dns ` DNS lookups (see also resolver)
3312 `dnsbl ` DNS black list (aka RBL) code
3313 `exec ` arguments for ^^execv()^^ calls
3314 `expand ` detailed debugging for string expansions
3315 `filter ` filter handling
3316 `hints_lookup ` hints data lookups
3317 `host_lookup ` all types of name-to-IP address handling
3318 `ident ` ident lookup
3319 `interface ` lists of local interfaces
3320 `lists ` matching things in lists
3321 `load ` system load checks
3322 `local_scan ` can be used by ^^local_scan()^^ (see chapter <<CHAPlocalscan>>)
3323 `lookup ` general lookup code and all lookups
3324 `memory ` memory handling
3325 `pid ` add pid to debug output lines
3326 `process_info ` setting info for the process log
3327 `queue_run ` queue runs
3328 `receive ` general message reception logic
3329 `resolver ` turn on the DNS resolver's debugging output
3330 `retry ` retry handling
3331 `rewrite ` address rewriting
3332 `route ` address routing
3333 `timestamp ` add timestamp to debug output lines
3335 `transport ` transports
3336 `uid ` changes of uid/gid and looking up uid/gid
3337 `verify ` address verification logic
3338 `all ` almost all of the above (see below), and also %-v%
3341 [revisionflag="changed"]
3342 The `all` option excludes `memory` when used as `+all`, but includes it for
3343 `-all`. The reason for this is that `+all` is something that people tend to use
3344 when generating debug output for Exim maintainers. If `+memory` is included, an
3345 awful lot of output that is very rarely of interest is generated, so it now has
3346 to be explicitly requested. However, `-all` does turn everything off.
3349 cindex:[resolver, debugging output]
3350 cindex:[DNS resolver, debugging output]
3351 `resolver` option produces output only if the DNS resolver was compiled
3352 with DEBUG enabled. This is not the case in some operating systems. Also,
3353 unfortunately, debugging output from the DNS resolver is written to stdout
3356 The default (%-d% with no argument) omits `expand`, `filter`,
3357 `interface`, `load`, `memory`, `pid`, `resolver`, and `timestamp`.
3358 However, the `pid` selector is forced when debugging is turned on for a
3359 daemon, which then passes it on to any re-executed Exims. Exim also
3360 automatically adds the pid to debug lines when several remote deliveries are
3363 The `timestamp` selector causes the current time to be inserted at the start
3364 of all debug output lines. This can be useful when trying to track down delays
3367 If the %debug_print% option is set in any driver, it produces output whenever
3368 any debugging is selected, or if %-v% is used.
3370 *-dd*<'debug~options'>::
3372 This option behaves exactly like %-d% except when used on a command that
3373 starts a daemon process. In that case, debugging is turned off for the
3374 subprocesses that the daemon creates. Thus, it is useful for monitoring the
3375 behaviour of the daemon without creating as much output as full debugging does.
3379 This is an obsolete option that is now a no-op. It used to affect the way Exim
3380 handled CR and LF characters in incoming messages. What happens now is
3381 described in section <<SECTlineendings>>.
3385 cindex:[bounce message,generating]
3386 This option specifies that an incoming message is a locally-generated delivery
3387 failure report. It is used internally by Exim when handling delivery failures
3388 and is not intended for external use. Its only effect is to stop Exim
3389 generating certain messages to the postmaster, as otherwise message cascades
3390 could occur in some situations. As part of the same option, a message id may
3391 follow the characters %-E%. If it does, the log entry for the receipt of the
3392 new message contains the id, following ``R='', as a cross-reference.
3396 There are a number of Sendmail options starting with %-oe% which seem to be
3397 called by various programs without the leading %o% in the option. For example,
3398 the %vacation% program uses %-eq%. Exim treats all options of the form
3399 %-e'x'% as synonymous with the corresponding %-oe'x'% options.
3403 cindex:[sender,name]
3404 cindex:[name,of sender]
3405 This option sets the sender's full name for use when a locally-generated
3406 message is being accepted. In the absence of this option, the user's 'gecos'
3407 entry from the password data is used. As users are generally permitted to alter
3408 their 'gecos' entries, no security considerations are involved. White space
3409 between %-F% and the <'string'> is optional.
3413 cindex:[sender,address]
3414 cindex:[address,sender]
3415 cindex:[trusted user]
3416 cindex:[envelope sender]
3417 cindex:[user,trusted]
3418 This option sets the address of the envelope sender of a locally-generated
3419 message (also known as the return path). The option can normally be used only
3420 by a trusted user, but %untrusted_set_sender% can be set to allow untrusted
3423 Processes running as root or the Exim user are always trusted. Other
3424 trusted users are defined by the %trusted_users% or %trusted_groups% options.
3425 In the absence of %-f%, or if the caller is not trusted, the sender of a local
3426 message is set to the caller's login name at the default qualify domain.
3428 There is one exception to the restriction on the use of %-f%: an empty sender
3429 can be specified by any user, trusted or not, to create a message that can
3430 never provoke a bounce. An empty sender can be specified either as an empty
3431 string, or as a pair of angle brackets with nothing between them, as in these
3432 examples of shell commands:
3434 exim -f '<>' user@domain
3435 exim -f "" user@domain
3437 In addition, the use of %-f% is not restricted when testing a filter file with
3438 %-bf% or when testing or verifying addresses using the %-bt% or %-bv%
3441 Allowing untrusted users to change the sender address does not of itself make
3442 it possible to send anonymous mail. Exim still checks that the 'From:' header
3443 refers to the local user, and if it does not, it adds a 'Sender:' header,
3444 though this can be overridden by setting %no_local_from_check%.
3447 cindex:[``From'' line]
3448 space between %-f% and the <'address'> is optional (that is, they can be given
3449 as two arguments or one combined argument). The sender of a locally-generated
3450 message can also be set (when permitted) by an initial ``From '' line in the
3451 message -- see the description of %-bm% above -- but if %-f% is also present,
3452 it overrides ``From''.
3456 cindex:[Sendmail compatibility,%-G% option ignored]
3457 This is a Sendmail option which is ignored by Exim.
3461 cindex:[Sendmail compatibility,%-h% option ignored]
3462 This option is accepted for compatibility with Sendmail, but has no effect. (In
3463 Sendmail it overrides the ``hop count'' obtained by counting 'Received:'
3468 cindex:[Solaris,'mail' command]
3469 cindex:[dot in incoming, non-SMTP message]
3470 This option, which has the same effect as %-oi%, specifies that a dot on a line
3471 by itself should not terminate an incoming, non-SMTP message. I can find no
3472 documentation for this option in Solaris 2.4 Sendmail, but the 'mailx' command
3473 in Solaris 2.4 uses it. See also %-ti%.
3475 *-M*~<'message~id'>~<'message~id'>~...::
3477 cindex:[forcing delivery]
3478 cindex:[delivery,forcing attempt]
3479 cindex:[frozen messages,forcing delivery]
3480 This option requests Exim to run a delivery attempt on each message in turn. If
3481 any of the messages are frozen, they are automatically thawed before the
3482 delivery attempt. The settings of %queue_domains%, %queue_smtp_domains%, and
3483 %hold_domains% are ignored.
3486 cindex:[hints database,overriding retry hints]
3487 hints for any of the addresses are overridden -- Exim tries to deliver even if
3488 the normal retry time has not yet been reached. This option requires the caller
3489 to be an admin user. However, there is an option called %prod_requires_admin%
3490 which can be set false to relax this restriction (and also the same requirement
3491 for the %-q%, %-R%, and %-S% options).
3493 [revisionflag="changed"]
3494 The deliveries happen synchronously, that is, the original Exim process does
3495 not terminate until all the delivery attempts have finished. No output is
3496 produced unless there is a serious error. If you want to see what is happening,
3497 use the %-v% option as well, or inspect Exim's main log.
3499 *-Mar*~<'message~id'>~<'address'>~<'address'>~...::
3501 cindex:[message,adding recipients]
3502 cindex:[recipient,adding]
3503 This option requests Exim to add the addresses to the list of recipients of the
3504 message (``ar'' for ``add recipients''). The first argument must be a message id,
3505 and the remaining ones must be email addresses. However, if the message is
3506 active (in the middle of a delivery attempt), it is not altered. This option
3507 can be used only by an admin user.
3509 *-MC*~<'transport'>~<'hostname'>~<'sequence~number'>~<'message~id'>::
3511 cindex:[SMTP,passed connection]
3512 cindex:[SMTP,multiple deliveries]
3513 cindex:[multiple SMTP deliveries]
3514 This option is not intended for use by external callers. It is used internally
3515 by Exim to invoke another instance of itself to deliver a waiting message using
3516 an existing SMTP connection, which is passed as the standard input. Details are
3517 given in chapter <<CHAPSMTP>>. This must be the final option, and the caller must
3518 be root or the Exim user in order to use it.
3522 This option is not intended for use by external callers. It is used internally
3523 by Exim in conjunction with the %-MC% option. It signifies that the connection
3524 to the remote host has been authenticated.
3528 This option is not intended for use by external callers. It is used internally
3529 by Exim in conjunction with the %-MC% option. It signifies that the server to
3530 which Exim is connected supports pipelining.
3532 *-MCQ*~<'process~id'>~<'pipe~fd'>::
3534 This option is not intended for use by external callers. It is used internally
3535 by Exim in conjunction with the %-MC% option when the original delivery was
3536 started by a queue runner. It passes on the process id of the queue runner,
3537 together with the file descriptor number of an open pipe. Closure of the pipe
3538 signals the final completion of the sequence of processes that are passing
3539 messages through the same SMTP connection.
3543 This option is not intended for use by external callers. It is used internally
3544 by Exim in conjunction with the %-MC% option, and passes on the fact that the
3545 SMTP SIZE option should be used on messages delivered down the existing
3550 This option is not intended for use by external callers. It is used internally
3551 by Exim in conjunction with the %-MC% option, and passes on the fact that the
3552 host to which Exim is connected supports TLS encryption.
3554 *-Mc*~<'message~id'>~<'message~id'>~...::
3556 cindex:[hints database,not overridden by %-Mc%]
3557 cindex:[delivery,manually started -- not forced]
3558 This option requests Exim to run a delivery attempt on each message in turn,
3559 but unlike the %-M% option, it does check for retry hints, and respects any
3560 that are found. This option is not very useful to external callers. It is
3561 provided mainly for internal use by Exim when it needs to re-invoke itself in
3562 order to regain root privilege for a delivery (see chapter <<CHAPsecurity>>).
3563 However, %-Mc% can be useful when testing, in order to run a delivery that
3564 respects retry times and other options such as %hold_domains% that are
3565 overridden when %-M% is used. Such a delivery does not count as a queue run.
3566 If you want to run a specific delivery as if in a queue run, you should use
3567 %-q% with a message id argument. A distinction between queue run deliveries
3568 and other deliveries is made in one or two places.
3570 *-Mes*~<'message~id'>~<'address'>::
3572 cindex:[message,changing sender]
3573 cindex:[sender,changing]
3574 This option requests Exim to change the sender address in the message to the
3575 given address, which must be a fully qualified address or ``<>'' (``es'' for ``edit
3576 sender''). There must be exactly two arguments. The first argument must be a
3577 message id, and the second one an email address. However, if the message is
3578 active (in the middle of a delivery attempt), its status is not altered. This
3579 option can be used only by an admin user.
3581 *-Mf*~<'message~id'>~<'message~id'>~...::
3583 cindex:[freezing messages]
3584 cindex:[message,manually freezing]
3585 This option requests Exim to mark each listed message as ``frozen''. This
3586 prevents any delivery attempts taking place until the message is ``thawed'',
3587 either manually or as a result of the %auto_thaw% configuration option.
3588 However, if any of the messages are active (in the middle of a delivery
3589 attempt), their status is not altered. This option can be used only by an admin
3592 *-Mg*~<'message~id'>~<'message~id'>~...::
3594 cindex:[giving up on messages]
3595 cindex:[message,abandoning delivery attempts]
3596 cindex:[delivery,abandoning further attempts]
3597 This option requests Exim to give up trying to deliver the listed messages,
3598 including any that are frozen. However, if any of the messages are active,
3599 their status is not altered. For non-bounce messages, a delivery error message
3600 is sent to the sender, containing the text ``cancelled by administrator''.
3601 Bounce messages are just discarded. This option can be used only by an admin
3604 *-Mmad*~<'message~id'>~<'message~id'>~...::
3606 cindex:[delivery,cancelling all]
3607 This option requests Exim to mark all the recipient addresses in the messages
3608 as already delivered (``mad'' for ``mark all delivered''). However, if any
3609 message is active (in the middle of a delivery attempt), its status is not
3610 altered. This option can be used only by an admin user.
3612 *-Mmd*~<'message~id'>~<'address'>~<'address'>~...::
3614 cindex:[delivery,cancelling by address]
3615 cindex:[recipient,removing]
3616 cindex:[removing recipients]
3617 This option requests Exim to mark the given addresses as already delivered
3618 (``md'' for ``mark delivered''). The first argument must be a message id, and
3619 the remaining ones must be email addresses. These are matched to recipient
3620 addresses in the message in a case-sensitive manner. If the message is active
3621 (in the middle of a delivery attempt), its status is not altered. This option
3622 can be used only by an admin user.
3624 *-Mrm*~<'message~id'>~<'message~id'>~...::
3626 cindex:[removing messages]
3627 cindex:[abandoning mail]
3628 cindex:[message,manually discarding]
3629 This option requests Exim to remove the given messages from the queue. No
3630 bounce messages are sent; each message is simply forgotten. However, if any of
3631 the messages are active, their status is not altered. This option can be used
3632 only by an admin user or by the user who originally caused the message to be
3633 placed on the queue.
3635 *-Mt*~<'message~id'>~<'message~id'>~...::
3637 cindex:[thawing messages]
3638 cindex:[unfreezing messages]
3639 cindex:[frozen messages,thawing]
3640 cindex:[message,thawing frozen]
3641 This option requests Exim to ``thaw'' any of the listed messages that are
3642 ``frozen'', so that delivery attempts can resume. However, if any of the messages
3643 are active, their status is not altered. This option can be used only by an
3646 *-Mvb*~<'message~id'>::
3648 cindex:[listing,message body]
3649 cindex:[message,listing body of]
3650 This option causes the contents of the message body (-D) spool file to be
3651 written to the standard output. This option can be used only by an admin user.
3653 *-Mvh*~<'message~id'>::
3655 cindex:[listing,message headers]
3656 cindex:[header lines,listing]
3657 cindex:[message,listing header lines]
3658 This option causes the contents of the message headers (-H) spool file to be
3659 written to the standard output. This option can be used only by an admin user.
3661 *-Mvl*~<'message~id'>::
3663 cindex:[listing,message log]
3664 cindex:[message,listing message log]
3665 This option causes the contents of the message log spool file to be written to
3666 the standard output. This option can be used only by an admin user.
3670 This is apparently a synonym for %-om% that is accepted by Sendmail, so Exim
3671 treats it that way too.
3675 cindex:[debugging,%-N% option]
3676 cindex:[debugging,suppressing delivery]
3677 This is a debugging option that inhibits delivery of a message at the transport
3678 level. It implies %-v%. Exim goes through many of the motions of delivery --
3679 it just doesn't actually transport the message, but instead behaves as if it
3680 had successfully done so. However, it does not make any updates to the retry
3681 database, and the log entries for deliveries are flagged with ``\*>'' rather
3684 Because %-N% discards any message to which it applies, only root or the Exim
3685 user are allowed to use it with %-bd%, %-q%, %-R% or %-M%. In other words,
3686 an ordinary user can use it only when supplying an incoming message to which it
3687 will apply. Although transportation never fails when %-N% is set, an address
3688 may be deferred because of a configuration problem on a transport, or a routing
3689 problem. Once %-N% has been used for a delivery attempt, it sticks to the
3690 message, and applies to any subsequent delivery attempts that may happen for
3695 cindex:[Sendmail compatibility,%-n% option ignored]
3696 This option is interpreted by Sendmail to mean ``no aliasing''. It is ignored by
3701 This option is interpreted by Sendmail to mean `set option`. It is ignored by
3704 *-oA*~<'file~name'>::
3706 cindex:[Sendmail compatibility,%-oA% option]
3707 This option is used by Sendmail in conjunction with %-bi% to specify an
3708 alternative alias file name. Exim handles %-bi% differently; see the
3713 cindex:[SMTP,passed connection]
3714 cindex:[SMTP,multiple deliveries]
3715 cindex:[multiple SMTP deliveries]
3716 This is a debugging option which limits the maximum number of messages that can
3717 be delivered down one SMTP connection, overriding the value set in any ^smtp^
3718 transport. If <'n'> is omitted, the limit is set to 1.
3722 cindex:[background delivery]
3723 cindex:[delivery,in the background]
3724 This option applies to all modes in which Exim accepts incoming messages,
3725 including the listening daemon. It requests ``background'' delivery of such
3726 messages, which means that the accepting process automatically starts a
3727 delivery process for each message received, but does not wait for the delivery
3728 processes to finish.
3730 When all the messages have been received, the reception process exits,
3731 leaving the delivery processes to finish in their own time. The standard output
3732 and error streams are closed at the start of each delivery process.
3733 This is the default action if none of the %-od% options are present.
3735 If one of the queueing options in the configuration file
3736 (%queue_only% or %queue_only_file%, for example) is in effect, %-odb%
3737 overrides it if %queue_only_override% is set true, which is the default
3738 setting. If %queue_only_override% is set false, %-odb% has no effect.
3742 cindex:[foreground delivery]
3743 cindex:[delivery,in the foreground]
3744 This option requests ``foreground'' (synchronous) delivery when Exim has accepted
3745 a locally-generated message. (For the daemon it is exactly the same as
3746 %-odb%.) A delivery process is automatically started to deliver the
3747 message, and Exim waits for it to complete before proceeding.
3749 The original Exim reception process does not finish until the delivery
3750 process for the final message has ended. The standard error stream is left open
3753 However, like %-odb%, this option has no effect if %queue_only_override% is
3754 false and one of the queueing options in the configuration file is in effect.
3756 If there is a temporary delivery error during foreground delivery, the
3757 message is left on the queue for later delivery, and the original reception
3758 process exits. See chapter <<CHAPnonqueueing>> for a way of setting up a
3759 restricted configuration that never queues messages.
3764 This option is synonymous with %-odf%. It is provided for compatibility with
3769 cindex:[non-immediate delivery]
3770 cindex:[delivery,suppressing immediate]
3771 cindex:[queueing incoming messages]
3772 This option applies to all modes in which Exim accepts incoming messages,
3773 including the listening daemon. It specifies that the accepting process should
3774 not automatically start a delivery process for each message received. Messages
3775 are placed on the queue, and remain there until a subsequent queue runner
3776 process encounters them. There are several configuration options (such as
3777 %queue_only%) that can be used to queue incoming messages under certain
3778 conditions. This option overrides all of them and also %-odqs%. It always
3783 cindex:[SMTP,delaying delivery]
3784 This option is a hybrid between %-odb%/%-odi% and %-odq%.
3785 However, like %-odb% and %-odi%, this option has no effect if
3786 %queue_only_override% is false and one of the queueing options in the
3787 configuration file is in effect.
3789 When %-odqs% does operate, a delivery process is started for each incoming
3790 message, in the background by default, but in the foreground if %-odi% is also
3791 present. The recipient addresses are routed, and local deliveries are done in
3792 the normal way. However, if any SMTP deliveries are required, they are not done
3793 at this time, so the message remains on the queue until a subsequent queue
3794 runner process encounters it. Because routing was done, Exim knows which
3795 messages are waiting for which hosts, and so a number of messages for the same
3796 host can be sent in a single SMTP connection. The %queue_smtp_domains%
3797 configuration option has the same effect for specific domains. See also the
3802 cindex:[error,reporting]
3803 If an error is detected while a non-SMTP message is being received (for
3804 example, a malformed address), the error is reported to the sender in a mail
3808 cindex:[return code,for %-oee%]
3809 this error message is successfully sent, the Exim receiving process
3810 exits with a return code of zero. If not, the return code is 2 if the problem
3811 is that the original message has no recipients, or 1 any other error. This is
3812 the default %-oe'x'% option if Exim is called as 'rmail'.
3816 cindex:[error,reporting]
3817 cindex:[return code,for %-oem%]
3818 This is the same as %-oee%, except that Exim always exits with a non-zero
3819 return code, whether or not the error message was successfully sent.
3820 This is the default %-oe'x'% option, unless Exim is called as 'rmail'.
3824 cindex:[error,reporting]
3825 If an error is detected while a non-SMTP message is being received, the
3826 error is reported by writing a message to the standard error file (stderr).
3827 cindex:[return code,for %-oep%]
3828 The return code is 1 for all errors.
3832 cindex:[error,reporting]
3833 This option is supported for compatibility with Sendmail, but has the same
3838 cindex:[error,reporting]
3839 This option is supported for compatibility with Sendmail, but has the same
3844 cindex:[dot in incoming, non-SMTP message]
3845 This option, which has the same effect as %-i%, specifies that a dot on a line
3846 by itself should not terminate an incoming, non-SMTP message.
3847 Otherwise, a single dot does terminate, though Exim does no special processing
3848 for other lines that start with a dot.
3849 This option is set by default if Exim is called as 'rmail'. See also %-ti%.
3853 This option is treated as synonymous with %-oi%.
3855 *-oMa*~<'host~address'>::
3857 cindex:[sender host address, specifying for local message]
3858 A number of options starting with %-oM% can be used to set values associated
3859 with remote hosts on locally-submitted messages (that is, messages not received
3860 over TCP/IP). These options can be used by any caller in conjunction with the
3861 %-bh%, %-be%, %-bf%, %-bF%, %-bt%, or %-bv% testing options. In other
3862 circumstances, they are ignored unless the caller is trusted.
3864 The %-oMa% option sets the sender host address. This may include a port number
3865 at the end, after a full stop (period). For example:
3867 exim -bs -oMa 10.9.8.7.1234
3869 An alternative syntax is to enclose the IP address in square brackets,
3870 followed by a colon and the port number:
3872 exim -bs -oMa [10.9.8.7]:1234
3874 The IP address is placed in the $sender_host_address$ variable, and the
3875 port, if present, in $sender_host_port$.
3879 cindex:[authentication name, specifying for local message]
3880 See %-oMa% above for general remarks about the %-oM% options. The %-oMaa%
3881 option sets the value of $sender_host_authenticated$ (the authenticator
3882 name). See chapter <<CHAPSMTPAUTH>> for a discussion of SMTP authentication.
3884 *-oMai*~<'string'>::
3886 cindex:[authentication id, specifying for local message]
3887 See %-oMa% above for general remarks about the %-oM% options. The %-oMai%
3888 option sets the value of $authenticated_id$ (the id that was authenticated).
3889 This overrides the default value (the caller's login id) for messages from
3890 local sources. See chapter <<CHAPSMTPAUTH>> for a discussion of authenticated
3893 *-oMas*~<'address'>::
3895 cindex:[authentication sender, specifying for local message]
3896 See %-oMa% above for general remarks about the %-oM% options. The %-oMas%
3897 option sets the authenticated sender value in $authenticated_sender$. It
3898 overrides the sender address that is created from the caller's login id for
3899 messages from local sources. See chapter <<CHAPSMTPAUTH>> for a discussion of
3900 authenticated senders.
3902 *-oMi*~<'interface~address'>::
3904 cindex:[interface address, specifying for local message]
3905 See %-oMa% above for general remarks about the %-oM% options. The %-oMi% option
3906 sets the IP interface address value. A port number may be included, using the
3907 same syntax as for %-oMa%. The interface address is placed in
3908 $interface_address$ and the port number, if present, in $interface_port$.
3910 *-oMr*~<'protocol~name'>::
3912 cindex:[protocol,incoming -- specifying for local message]
3913 cindex:[$received_protocol$]
3914 See %-oMa% above for general remarks about the %-oM% options. The %-oMr% option
3915 sets the received protocol value that is stored in $received_protocol$.
3916 However, this applies only when %-bs% is not used. For interactive SMTP input
3917 (%-bs%), the protocol is always ``local-'' followed by one of the standard SMTP
3918 protocol names (see the description of $received_protocol$ in section
3919 <<SECTexpvar>>). For %-bS% (batch SMTP) however, the protocol can be set by
3922 *-oMs*~<'host~name'>::
3924 cindex:[sender host name, specifying for local message]
3925 See %-oMa% above for general remarks about the %-oM% options. The %-oMs% option
3926 sets the sender host name in $sender_host_name$. When this option is present,
3927 Exim does not attempt to look up a host name from an IP address; it uses the
3930 *-oMt*~<'ident~string'>::
3932 cindex:[sender ident string, specifying for local message]
3933 See %-oMa% above for general remarks about the %-oM% options. The %-oMt% option
3934 sets the sender ident value in $sender_ident$. The default setting for local
3935 callers is the login id of the calling process.
3939 cindex:[Sendmail compatibility,%-om% option ignored]
3940 In Sendmail, this option means ``me too'', indicating that the sender of a
3941 message should receive a copy of the message if the sender appears in an alias
3942 expansion. Exim always does this, so the option does nothing.
3946 cindex:[Sendmail compatibility,%-oo% option ignored]
3947 This option is ignored. In Sendmail it specifies ``old style headers'', whatever
3952 cindex:[pid (process id),of daemon]
3953 cindex:[daemon,process id (pid)]
3954 This option is useful only in conjunction with %-bd% or %-q% with a time
3955 value. The option specifies the file to which the process id of the daemon is
3956 written. When %-oX% is used with %-bd%, or when %-q% with a time is used
3957 without %-bd%, this is the only way of causing Exim to write a pid file,
3958 because in those cases, the normal pid file is not used.
3962 cindex:[timeout,for non-SMTP input]
3963 This option sets a timeout value for incoming non-SMTP messages. If it is not
3964 set, Exim will wait forever for the standard input. The value can also be set
3965 by the %receive_timeout% option. The format used for specifying times is
3966 described in section <<SECTtimeformat>>.
3970 cindex:[timeout,for SMTP input]
3971 cindex:[SMTP timeout, input]
3972 This option sets a timeout value for incoming SMTP messages. The timeout
3973 applies to each SMTP command and block of data. The value can also be set by
3974 the %smtp_receive_timeout% option; it defaults to 5 minutes. The format used
3975 for specifying times is described in section <<SECTtimeformat>>.
3979 This option has exactly the same effect as %-v%.
3981 *-oX*~<'number~or~string'>::
3983 cindex:[TCP/IP,setting listening ports]
3984 cindex:[TCP/IP,setting listening interfaces]
3985 cindex:[port,receiving TCP/IP]
3986 This option is relevant only when the %-bd% (start listening daemon) option is
3987 also given. It controls which ports and interfaces the daemon uses. Details of
3988 the syntax, and how it interacts with configuration file options, are given in
3989 chapter <<CHAPinterfaces>>. When %-oX% is used to start a daemon, no pid file is
3990 written unless %-oP% is also present to specify a pid file name.
3994 cindex:[Perl,starting the interpreter]
3995 This option applies when an embedded Perl interpreter is linked with Exim (see
3996 chapter <<CHAPperl>>). It overrides the setting of the %perl_at_start% option,
3997 forcing the starting of the interpreter to be delayed until it is needed.
4001 cindex:[Perl,starting the interpreter]
4002 This option applies when an embedded Perl interpreter is linked with Exim (see
4003 chapter <<CHAPperl>>). It overrides the setting of the %perl_at_start% option,
4004 forcing the starting of the interpreter to occur as soon as Exim is started.
4006 *-p*<'rval'>:<'sval'>::
4008 For compatibility with Sendmail, this option is equivalent to
4010 -oMr <rval> -oMs <sval>
4012 It sets the incoming protocol and host name (for trusted callers). The
4013 host name and its colon can be omitted when only the protocol is to be set.
4014 Note the Exim already has two private options, %-pd% and %-ps%, that refer to
4015 embedded Perl. It is therefore impossible to set a protocol value of `p` or
4016 `s` using this option (but that does not seem a real limitation).
4020 cindex:[queue runner,starting manually]
4021 This option is normally restricted to admin users. However, there is a
4022 configuration option called %prod_requires_admin% which can be set false to
4023 relax this restriction (and also the same requirement for the %-M%, %-R%, and
4027 cindex:[queue runner,description of operation]
4028 %-q% option starts one queue runner process. This scans the queue of
4029 waiting messages, and runs a delivery process for each one in turn. It waits
4030 for each delivery process to finish before starting the next one. A delivery
4031 process may not actually do any deliveries if the retry times for the addresses
4032 have not been reached. Use %-qf% (see below) if you want to override this.
4035 cindex:[SMTP,passed connection]
4036 cindex:[SMTP,multiple deliveries]
4037 cindex:[multiple SMTP deliveries]
4038 the delivery process spawns other processes to deliver other messages down
4039 passed SMTP connections, the queue runner waits for these to finish before
4042 When all the queued messages have been considered, the original queue runner
4043 process terminates. In other words, a single pass is made over the waiting
4044 mail, one message at a time. Use %-q% with a time (see below) if you want this
4045 to be repeated periodically.
4047 Exim processes the waiting messages in an unpredictable order. It isn't very
4048 random, but it is likely to be different each time, which is all that matters.
4049 If one particular message screws up a remote MTA, other messages to the same
4050 MTA have a chance of getting through if they get tried first.
4052 It is possible to cause the messages to be processed in lexical message id
4053 order, which is essentially the order in which they arrived, by setting the
4054 %queue_run_in_order% option, but this is not recommended for normal use.
4057 The %-q% option may be followed by one or more flag letters that change its
4058 behaviour. They are all optional, but if more than one is present, they must
4059 appear in the correct order. Each flag is described in a separate item below.
4063 cindex:[queue,double scanning]
4064 cindex:[queue,routing]
4065 cindex:[routing,whole queue before delivery]
4066 An option starting with %-qq% requests a two-stage queue run. In the first
4067 stage, the queue is scanned as if the %queue_smtp_domains% option matched
4068 every domain. Addresses are routed, local deliveries happen, but no remote
4072 cindex:[hints database,remembering routing]
4073 hints database that remembers which messages are waiting for specific hosts is
4074 updated, as if delivery to those hosts had been deferred. After this is
4075 complete, a second, normal queue scan happens, with routing and delivery taking
4076 place as normal. Messages that are routed to the same host should mostly be
4077 delivered down a single SMTP
4078 cindex:[SMTP,passed connection]
4079 cindex:[SMTP,multiple deliveries]
4080 cindex:[multiple SMTP deliveries]
4081 connection because of the hints that were set up during the first queue scan.
4082 This option may be useful for hosts that are connected to the Internet
4087 cindex:[queue,initial delivery]
4088 If the 'i' flag is present, the queue runner runs delivery processes only for
4089 those messages that haven't previously been tried. ('i' stands for ``initial
4090 delivery''.) This can be helpful if you are putting messages on the queue using
4091 %-odq% and want a queue runner just to process the new messages.
4095 cindex:[queue,forcing delivery]
4096 cindex:[delivery,forcing in queue run]
4097 If one 'f' flag is present, a delivery attempt is forced for each non-frozen
4098 message, whereas without %f% only those non-frozen addresses that have passed
4099 their retry times are tried.
4103 cindex:[frozen messages,forcing delivery]
4104 If 'ff' is present, a delivery attempt is forced for every message, whether
4109 cindex:[queue,local deliveries only]
4110 The 'l' (the letter ``ell'') flag specifies that only local deliveries are to be
4111 done. If a message requires any remote deliveries, it remains on the queue for
4114 *-q*<'qflags'>~<'start~id'>~<'end~id'>::
4115 cindex:[queue,delivering specific messages]
4116 When scanning the queue, Exim can be made to skip over messages whose ids are
4117 lexically less than a given value by following the %-q% option with a starting
4118 message id. For example:
4120 exim -q 0t5C6f-0000c8-00
4122 Messages that arrived earlier than `0t5C6f-0000c8-00` are not inspected. If a
4123 second message id is given, messages whose ids are lexically greater than it
4124 are also skipped. If the same id is given twice, for example,
4126 exim -q 0t5C6f-0000c8-00 0t5C6f-0000c8-00
4128 just one delivery process is started, for that message. This differs from %-M%
4129 in that retry data is respected, and it also differs from %-Mc% in that it
4130 counts as a delivery from a queue run. Note that the selection mechanism does
4131 not affect the order in which the messages are scanned. There are also other
4132 ways of selecting specific sets of messages for delivery in a queue run -- see
4135 *-q*<'qflags'><'time'>::
4136 cindex:[queue runner,starting periodically]
4137 cindex:[periodic queue running]
4138 When a time value is present, the %-q% option causes Exim to run as a daemon,
4139 starting a queue runner process at intervals specified by the given time value
4140 (whose format is described in section <<SECTtimeformat>>). This form of the %-q%
4141 option is commonly combined with the %-bd% option, in which case a single
4142 daemon process handles both functions. A common way of starting up a combined
4143 daemon at system boot time is to use a command such as
4145 /usr/exim/bin/exim -bd -q30m
4147 Such a daemon listens for incoming SMTP calls, and also starts a queue runner
4148 process every 30 minutes.
4150 When a daemon is started by %-q% with a time value, but without %-bd%, no pid
4151 file is written unless one is explicitly requested by the %-oP% option.
4153 *-qR*<'rsflags'>~<'string'>::
4155 This option is synonymous with %-R%. It is provided for Sendmail compatibility.
4157 *-qS*<'rsflags'>~<'string'>::
4159 This option is synonymous with %-S%.
4161 *-R*<'rsflags'>~<'string'>::
4163 cindex:[queue runner,for specific recipients]
4164 cindex:[delivery,to given domain]
4165 cindex:[domain,delivery to]
4166 The <'rsflags'> may be empty, in which case the white space before the string
4167 is optional, unless the string is 'f', 'ff', 'r', 'rf', or 'rff', which are the
4168 possible values for <'rsflags'>. White space is required if <'rsflags'> is not
4171 This option is similar to %-q% with no time value, that is, it causes Exim to
4172 perform a single queue run, except that, when scanning the messages on the
4173 queue, Exim processes only those that have at least one undelivered recipient
4174 address containing the given string, which is checked in a case-independent
4175 way. If the <'rsflags'> start with 'r', <'string'> is interpreted as a regular
4176 expression; otherwise it is a literal string.
4178 Once a message is selected, all its addresses are processed. For the first
4179 selected message, Exim overrides any retry information and forces a delivery
4180 attempt for each undelivered address. This means that if delivery of any
4181 address in the first message is successful, any existing retry information is
4182 deleted, and so delivery attempts for that address in subsequently selected
4183 messages (which are processed without forcing) will run. However, if delivery
4184 of any address does not succeed, the retry information is updated, and in
4185 subsequently selected messages, the failing address will be skipped.
4187 If the <'rsflags'> contain 'f' or 'ff', the delivery forcing applies to all
4188 selected messages, not just the first;
4189 cindex:[frozen messages,forcing delivery]
4190 frozen messages are included when 'ff' is present.
4192 The %-R% option makes it straightforward to initiate delivery of all messages
4193 to a given domain after a host has been down for some time. When the SMTP
4194 command ETRN is accepted by its ACL (see chapter <<CHAPACL>>), its default
4195 effect is to run Exim with the %-R% option, but it can be configured to run an
4196 arbitrary command instead.
4200 This is a documented (for Sendmail) obsolete alternative name for %-f%.
4202 *-S*<'rsflags'>~<'string'>::
4204 cindex:[delivery,from given sender]
4205 cindex:[queue runner,for specific senders]
4206 This option acts like %-R% except that it checks the string against each
4207 message's sender instead of against the recipients. If %-R% is also set, both
4208 conditions must be met for a message to be selected. If either of the options
4209 has 'f' or 'ff' in its flags, the associated action is taken.
4213 This an option that is exclusively for use by the Exim testing suite. It is not
4214 recognized when Exim is run normally. It allows for the setting up of explicit
4215 ``queue times'' so that various warning/retry features can be tested.
4219 cindex:[recipient,extracting from header lines]
4220 cindex:['Bcc:' header line]
4221 cindex:['Cc:' header line]
4222 cindex:['To:' header line]
4223 When Exim is receiving a locally-generated, non-SMTP message on its standard
4224 input, the %-t% option causes the recipients of the message to be obtained
4225 from the 'To:', 'Cc:', and 'Bcc:' header lines in the message instead of from
4226 the command arguments. The addresses are extracted before any rewriting takes
4230 cindex:[Sendmail compatibility,%-t% option]
4231 the command has any arguments, they specify addresses to which the message
4232 is 'not' to be delivered. That is, the argument addresses are removed from
4233 the recipients list obtained from the headers. This is compatible with Smail 3
4234 and in accordance with the documented behaviour of several versions of
4235 Sendmail, as described in man pages on a number of operating systems (e.g.
4236 Solaris 8, IRIX 6.5, HP-UX 11). However, some versions of Sendmail 'add'
4237 argument addresses to those obtained from the headers, and the O'Reilly
4238 Sendmail book documents it that way. Exim can be made to add argument addresses
4239 instead of subtracting them by setting the option
4240 %extract_addresses_remove_arguments% false.
4242 If a 'Bcc:' header line is present, it is removed from the message unless
4243 there is no 'To:' or 'Cc:', in which case a 'Bcc:' line with no data is
4244 created. This is necessary for conformity with the original RFC 822 standard;
4245 the requirement has been removed in RFC 2822, but that is still very new.
4248 cindex:[%Resent-% header lines,with %-t%]
4249 there are any %Resent-% header lines in the message, Exim extracts
4250 recipients from all 'Resent-To:', 'Resent-Cc:', and 'Resent-Bcc:' header
4251 lines instead of from 'To:', 'Cc:', and 'Bcc:'. This is for compatibility
4252 with Sendmail and other MTAs. (Prior to release 4.20, Exim gave an error if
4253 %-t% was used in conjunction with %Resent-% header lines.)
4255 RFC 2822 talks about different sets of %Resent-% header lines (for when a
4256 message is resent several times). The RFC also specifies that they should be
4257 added at the front of the message, and separated by 'Received:' lines. It is
4258 not at all clear how %-t% should operate in the present of multiple sets,
4259 nor indeed exactly what constitutes a ``set''.
4260 In practice, it seems that MUAs do not follow the RFC. The %Resent-% lines are
4261 often added at the end of the header, and if a message is resent more than
4262 once, it is common for the original set of %Resent-% headers to be renamed as
4263 %X-Resent-% when a new set is added. This removes any possible ambiguity.
4267 This option is exactly equivalent to %-t% %-i%. It is provided for
4268 compatibility with Sendmail.
4271 oindex:[%-tls-on-connect%]
4272 cindex:[TLS,use without STARTTLS]
4273 cindex:[TLS,automatic start]
4274 This option is available when Exim is compiled with TLS support. It forces all
4275 incoming SMTP connections to behave as if the incoming port is listed in the
4276 %tls_on_connect_ports% option. See section <<SECTsupobssmt>> and chapter
4277 <<CHAPTLS>> for further details.
4282 cindex:[Sendmail compatibility,%-U% option ignored]
4283 Sendmail uses this option for ``initial message submission'', and its
4284 documentation states that in future releases, it may complain about
4285 syntactically invalid messages rather than fixing them when this flag is not
4286 set. Exim ignores this option.
4290 This option causes Exim to write information to the standard error stream,
4291 describing what it is doing. In particular, it shows the log lines for
4292 receiving and delivering a message, and if an SMTP connection is made, the SMTP
4293 dialogue is shown. Some of the log lines shown may not actually be written to
4294 the log if the setting of %log_selector% discards them. Any relevant selectors
4295 are shown with each log line. If none are shown, the logging is unconditional.
4299 AIX uses %-x% for a private purpose (``mail from a local mail program has
4300 National Language Support extended characters in the body of the mail item'').
4301 It sets %-x% when calling the MTA from its %mail% command. Exim ignores this
4305 We insert a stylized DocBook comment here, to identify the end of the command
4306 line options. This is for the benefit of the Perl script that automatically
4307 creates a man page for the options.
4311 <!-- === End of command line options === -->
4318 ////////////////////////////////////////////////////////////////////////////
4319 ////////////////////////////////////////////////////////////////////////////
4323 [titleabbrev="The runtime configuration file"]
4324 The Exim run time configuration file
4325 ------------------------------------
4327 cindex:[run time configuration]
4328 cindex:[configuration file,general description]
4329 cindex:[CONFIGURE_FILE]
4330 cindex:[configuration file,errors in]
4331 cindex:[error,in configuration file]
4332 cindex:[return code,for bad configuration]
4333 Exim uses a single run time configuration file that is read whenever an Exim
4334 binary is executed. Note that in normal operation, this happens frequently,
4335 because Exim is designed to operate in a distributed manner, without central
4338 If a syntax error is detected while reading the configuration file, Exim
4339 writes a message on the standard error, and exits with a non-zero return code.
4340 The message is also written to the panic log. *Note*: only simple syntax
4341 errors can be detected at this time. The values of any expanded options are
4342 not checked until the expansion happens, even when the expansion does not
4343 actually alter the string.
4347 The name of the configuration file is compiled into the binary for security
4348 reasons, and is specified by the CONFIGURE_FILE compilation option. In
4349 most configurations, this specifies a single file. However, it is permitted to
4350 give a colon-separated list of file names, in which case Exim uses the first
4351 existing file in the list.
4355 cindex:[CONFIGURE_OWNER]
4356 cindex:[CONFIGURE_GROUP]
4357 cindex:[configuration file,ownership]
4358 cindex:[ownership,configuration file]
4359 The run time configuration file must be owned by root or by the user that is
4360 specified at compile time by the EXIM_USER option, or by the user that is
4361 specified at compile time by the CONFIGURE_OWNER option (if set). The
4362 configuration file must not be world-writeable or group-writeable, unless its
4363 group is the one specified at compile time by the EXIM_GROUP option
4365 or by the CONFIGURE_GROUP option.
4368 *Warning*: In a conventional configuration, where the Exim binary is setuid
4369 to root, anybody who is able to edit the run time configuration file has an
4370 easy way to run commands as root. If you make your mail administrators members
4371 of the Exim group, but do not trust them with root, make sure that the run time
4372 configuration is not group writeable.
4374 A default configuration file, which will work correctly in simple situations,
4375 is provided in the file _src/configure.default_. If CONFIGURE_FILE
4376 defines just one file name, the installation process copies the default
4377 configuration to a new file of that name if it did not previously exist. If
4378 CONFIGURE_FILE is a list, no default is automatically installed. Chapter
4379 <<CHAPdefconfil>> is a ``walk-through'' discussion of the default configuration.
4383 Using a different configuration file
4384 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
4385 cindex:[configuration file,alternate]
4386 A one-off alternate configuration can be specified by the %-C% command line
4387 option, which may specify a single file or a list of files. However, when %-C%
4388 is used, Exim gives up its root privilege, unless called by root or the Exim
4389 user (or unless the argument for %-C% is identical to the built-in value from
4390 CONFIGURE_FILE). %-C% is useful mainly for checking the syntax of
4391 configuration files before installing them. No owner or group checks are done
4392 on a configuration file specified by %-C%.
4394 The privileged use of %-C% by the Exim user can be locked out by setting
4395 ALT_CONFIG_ROOT_ONLY in _Local/Makefile_ when building Exim. However,
4396 if you do this, you also lock out the possibility of testing a
4397 configuration using %-C% right through message reception and delivery, even if
4398 the caller is root. The reception works, but by that time, Exim is running as
4399 the Exim user, so when it re-execs to regain privilege for the delivery, the
4400 use of %-C% causes privilege to be lost. However, root can test reception and
4401 delivery using two separate commands (one to put a message on the queue, using
4402 %-odq%, and another to do the delivery, using %-M%).
4404 If ALT_CONFIG_PREFIX is defined _in Local/Makefile_, it specifies a
4405 prefix string with which any file named in a %-C% command line option must
4406 start. In addition, the file name must not contain the sequence ``##`/../`##''.
4407 There is no default setting for ALT_CONFIG_PREFIX; when it is unset, any file
4408 name can be used with %-C%.
4410 One-off changes to a configuration can be specified by the %-D% command line
4411 option, which defines and overrides values for macros used inside the
4412 configuration file. However, like %-C%, the use of this option by a
4413 non-privileged user causes Exim to discard its root privilege.
4414 If DISABLE_D_OPTION is defined in _Local/Makefile_, the use of %-D% is
4415 completely disabled, and its use causes an immediate error exit.
4417 Some sites may wish to use the same Exim binary on different machines that
4418 share a file system, but to use different configuration files on each machine.
4419 If CONFIGURE_FILE_USE_NODE is defined in _Local/Makefile_, Exim first
4420 looks for a file whose name is the configuration file name followed by a dot
4421 and the machine's node name, as obtained from the 'uname()' function. If this
4422 file does not exist, the standard name is tried. This processing occurs for
4423 each file name in the list given by CONFIGURE_FILE or %-C%.
4425 In some esoteric situations different versions of Exim may be run under
4426 different effective uids and the CONFIGURE_FILE_USE_EUID is defined to
4427 help with this. See the comments in _src/EDITME_ for details.
4432 Configuration file format
4433 ~~~~~~~~~~~~~~~~~~~~~~~~~
4434 cindex:[configuration file,format of]
4435 cindex:[format,configuration file]
4436 Exim's configuration file is divided into a number of different parts. General
4437 option settings must always appear at the start of the file. The other parts
4438 are all optional, and may appear in any order. Each part other than the first
4439 is introduced by the word ``begin'' followed by the name of the part. The
4442 - 'ACL': Access control lists for controlling incoming SMTP mail.
4444 - cindex:[AUTH,configuration]
4445 'authenticators': Configuration settings for the authenticator drivers. These
4446 are concerned with the SMTP AUTH command (see chapter <<CHAPSMTPAUTH>>).
4448 - 'routers': Configuration settings for the router drivers. Routers process
4449 addresses and determine how the message is to be delivered.
4451 - 'transports': Configuration settings for the transport drivers. Transports
4452 define mechanisms for copying messages to destinations.
4454 - 'retry': Retry rules, for use when a message cannot be immediately delivered.
4456 - 'rewrite': Global address rewriting rules, for use when a message arrives and
4457 when new addresses are generated during delivery.
4459 - 'local_scan': Private options for the 'local_scan()' function. If you
4460 want to use this feature, you must set
4462 LOCAL_SCAN_HAS_OPTIONS=yes
4464 in _Local/Makefile_ before building Exim. Full details of the
4465 'local_scan()' facility are given in chapter <<CHAPlocalscan>>.
4467 cindex:[configuration file,leading white space in]
4468 cindex:[configuration file,trailing white space in]
4469 cindex:[white space,in configuration file]
4470 Leading and trailing white space in configuration lines is always ignored.
4472 Blank lines in the file, and lines starting with a # character (ignoring
4473 leading white space) are treated as comments and are ignored. *Note*: a
4474 # character other than at the beginning of a line is not treated specially,
4475 and does not introduce a comment.
4477 Any non-comment line can be continued by ending it with a backslash. Note that
4478 the general rule for white space means that trailing white space after the
4479 backslash and leading white space at the start of continuation
4480 lines is ignored. Comment lines beginning with # (but not empty lines) may
4481 appear in the middle of a sequence of continuation lines.
4483 A convenient way to create a configuration file is to start from the
4484 default, which is supplied in _src/configure.default_, and add, delete, or
4485 change settings as required.
4487 The ACLs, retry rules, and rewriting rules have their own syntax which is
4488 described in chapters <<CHAPACL>>, <<CHAPretry>>, and <<CHAPrewrite>>,
4489 respectively. The other parts of the configuration file have some syntactic
4490 items in common, and these are described below, from section <<SECTcos>>
4491 onwards. Before that, the inclusion, macro, and conditional facilities are
4496 File inclusions in the configuration file
4497 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
4498 cindex:[inclusions in configuration file]
4499 cindex:[configuration file,including other files]
4500 cindex:[.include in configuration file]
4501 cindex:[.include_if_exists in configuration file]
4502 You can include other files inside Exim's run time configuration file by
4505 .include <file name>
4509 .include_if_exists <file name>
4511 on a line by itself. Double quotes round the file name are optional. If you use
4512 the first form, a configuration error occurs if the file does not exist; the
4513 second form does nothing for non-existent files.
4515 Includes may be nested to any depth, but remember that Exim reads its
4516 configuration file often, so it is a good idea to keep them to a minimum.
4517 If you change the contents of an included file, you must HUP the daemon,
4518 because an included file is read only when the configuration itself is read.
4520 The processing of inclusions happens early, at a physical line level, so, like
4521 comment lines, an inclusion can be used in the middle of an option setting,
4525 hosts_lookup = a.b.c \
4529 Include processing happens after macro processing (see below). Its effect is to
4530 process the lines of the file as if they occurred inline where the inclusion
4536 Macros in the configuration file
4537 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
4538 cindex:[macro,description of]
4539 cindex:[configuration file,macros]
4540 If a line in the main part of the configuration (that is, before the first
4541 ``begin'' line) begins with an upper case letter, it is taken as a macro
4542 definition, and must be of the form
4545 <'name'> = <'rest of line'>
4548 The name must consist of letters, digits, and underscores, and need not all be
4549 in upper case, though that is recommended. The rest of the line, including any
4550 continuations, is the replacement text, and has leading and trailing white
4551 space removed. Quotes are not removed. The replacement text can never end with
4552 a backslash character, but this doesn't seem to be a serious limitation.
4554 [revisionflag="changed"]
4555 Macros may also be defined between router, transport, authenticator, or ACL
4556 definitions. They may not, however, be defined within an individual driver or
4557 ACL, or in the %local_scan%, retry, or rewrite sections of the configuration.
4562 Once a macro is defined, all subsequent lines in the file (and any included
4563 files) are scanned for the macro name; if there are several macros, the line is
4564 scanned for each in turn, in the order in which the macros are defined. The
4565 replacement text is not re-scanned for the current macro, though it is scanned
4566 for subsequently defined macros. For this reason, a macro name may not contain
4567 the name of a previously defined macro as a substring. You could, for example,
4571 `ABCD_XYZ = `<'something'>
4572 `ABCD = `<'something else'>
4575 but putting the definitions in the opposite order would provoke a configuration
4576 error. Macro expansion is applied to individual physical lines from the file,
4577 before checking for line continuation or file inclusion (see above). If a line
4578 consists solely of a macro name, and the expansion of the macro is empty, the
4579 line is ignored. A macro at the start of a line may turn the line into a
4580 comment line or a `.include` line.
4585 [revisionflag="changed"]
4586 Once defined, the value of a macro can be redefined later in the configuration
4587 (or in an included file). Redefinition is specified by using '==' instead of
4592 MAC == updated value
4594 Redefinition does not alter the order in which the macros are applied to
4595 the subsequent lines of the configuration file. It is still the same
4596 order in which the macros were originally defined. All that changes is
4597 the macro's value. Redefinition makes it possible to accumulate values.
4602 MAC == MAC and something added
4604 This can be helpful in situations where the configuration file is built
4605 from a number of other files.
4608 Overriding macro values
4609 ~~~~~~~~~~~~~~~~~~~~~~~
4610 The values set for macros in the configuration file can be overridden by the
4611 %-D% command line option, but Exim gives up its root privilege when %-D% is
4612 used, unless called by root or the Exim user. A definition on the command line
4613 using the %-D% option causes all definitions and redefinitions within the file
4618 Example of macro usage
4619 ~~~~~~~~~~~~~~~~~~~~~~
4620 As an example of macro usage, consider a configuration where aliases are looked
4621 up in a MySQL database. It helps to keep the file less cluttered if long
4622 strings such as SQL statements are defined separately as macros, for example:
4625 ALIAS_QUERY = select mailbox from user where \
4626 login=${quote_mysql:$local_part};
4629 This can then be used in a ^redirect^ router setting like this:
4631 data = ${lookup mysql{ALIAS_QUERY}}
4633 In earlier versions of Exim macros were sometimes used for domain, host, or
4634 address lists. In Exim 4 these are handled better by named lists -- see section
4638 Conditional skips in the configuration file
4639 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
4640 cindex:[configuration file,conditional skips]
4642 You can use the directives `.ifdef`, `.ifndef`, `.elifdef`,
4643 `.elifndef`, `.else`, and `.endif` to dynamically include or exclude
4644 portions of the configuration file. The processing happens whenever the file is
4645 read (that is, when an Exim binary starts to run).
4647 The implementation is very simple. Instances of the first four directives must
4648 be followed by text that includes the names of one or macros. The condition
4649 that is tested is whether or not any macro substitution has taken place in the
4653 message_size_limit = 50M
4655 message_size_limit = 100M
4658 sets a message size limit of 50M if the macro `AAA` is defined, and 100M
4659 otherwise. If there is more than one macro named on the line, the condition
4660 is true if any of them are defined. That is, it is an ``or'' condition. To
4661 obtain an ``and'' condition, you need to use nested `.ifdef`##s.
4663 Although you can use a macro expansion to generate one of these directives,
4664 it is not very useful, because the condition ``there was a macro substitution
4665 in this line'' will always be true.
4667 Text following `.else` and `.endif` is ignored, and can be used as comment
4668 to clarify complicated nestings.
4673 Common option syntax
4674 ~~~~~~~~~~~~~~~~~~~~
4675 cindex:[common option syntax]
4676 cindex:[syntax of common options]
4677 cindex:[configuration file,common option syntax]
4678 For the main set of options, driver options, and 'local_scan()' options,
4679 each setting is on a line by itself, and starts with a name consisting of
4680 lower-case letters and underscores. Many options require a data value, and in
4681 these cases the name must be followed by an equals sign (with optional white
4682 space) and then the value. For example:
4684 qualify_domain = mydomain.example.com
4686 Some option settings may contain sensitive data, for example, passwords for
4687 accessing databases. To stop non-admin users from using the %-bP% command line
4688 option to read these values, you can precede the option settings with the word
4689 ``hide''. For example:
4691 hide mysql_servers = localhost/users/admin/secret-password
4693 For non-admin users, such options are displayed like this:
4695 mysql_servers = <value not displayable>
4697 If ``hide'' is used on a driver option, it hides the value of that option on all
4698 instances of the same driver.
4700 The following sections describe the syntax used for the different data types
4701 that are found in option settings.
4706 cindex:[format,boolean]
4707 cindex:[boolean configuration values]
4709 oindex:[%not_%'xxx']
4710 Options whose type is given as boolean are on/off switches. There are two
4711 different ways of specifying such options: with and without a data value. If
4712 the option name is specified on its own without data, the switch is turned on;
4713 if it is preceded by ``no_'' or ``not_'' the switch is turned off. However,
4714 boolean options may be followed by an equals sign and one of the words
4715 ``true'', ``false'', ``yes'', or ``no'', as an alternative syntax. For example,
4716 the following two settings have exactly the same effect:
4721 The following two lines also have the same (opposite) effect:
4726 You can use whichever syntax you prefer.
4733 cindex:[integer configuration values]
4734 cindex:[format,integer]
4735 If an integer data item starts with the characters ``0x'', the remainder of it
4736 is interpreted as a hexadecimal number. Otherwise, it is treated as octal if it
4737 starts with the digit 0, and decimal if not. If an integer value is followed by
4738 the letter K, it is multiplied by 1024; if it is followed by the letter M, it
4739 is multiplied by 1024x1024.
4741 When the values of integer option settings are output, values which are an
4742 exact multiple of 1024 or 1024x1024 are
4743 sometimes, but not always,
4744 printed using the letters K and M. The printing style is independent of the
4745 actual input format that was used.
4748 Octal integer values
4749 ~~~~~~~~~~~~~~~~~~~~
4750 cindex:[integer format]
4751 cindex:[format,octal integer]
4752 The value of an option specified as an octal integer is always interpreted in
4753 octal, whether or not it starts with the digit zero. Such options are always
4758 Fixed point number values
4759 ~~~~~~~~~~~~~~~~~~~~~~~~~
4760 cindex:[fixed point configuration values]
4761 cindex:[format,fixed point]
4762 A fixed point number consists of a decimal integer, optionally followed by a
4763 decimal point and up to three further digits.
4768 Time interval values
4769 ~~~~~~~~~~~~~~~~~~~~
4770 cindex:[time interval,specifying in configuration]
4771 cindex:[format,time interval]
4772 A time interval is specified as a sequence of numbers, each followed by one of
4773 the following letters, with no intervening white space:
4784 For example, ``3h50m'' specifies 3 hours and 50 minutes. The values of time
4785 intervals are output in the same format. Exim does not restrict the values; it
4786 is perfectly acceptable, for example, to specify ``90m'' instead of ``1h30m''.
4793 cindex:[string,format of configuration values]
4794 cindex:[format,string]
4795 If a string data item does not start with a double-quote character, it is taken
4796 as consisting of the remainder of the line plus any continuation lines,
4797 starting at the first character after any leading white space, with trailing
4798 white space characters removed, and with no interpretation of the characters in
4799 the string. Because Exim removes comment lines (those beginning with #) at an
4800 early stage, they can appear in the middle of a multi-line string. The
4801 following settings are therefore equivalent:
4804 trusted_users = uucp:mail
4806 trusted_users = uucp:\
4807 # This comment line is ignored
4811 cindex:[string,quoted]
4812 cindex:[escape characters in quoted strings]
4813 If a string does start with a double-quote, it must end with a closing
4814 double-quote, and any backslash characters other than those used for line
4815 continuation are interpreted as escape characters, as follows:
4818 `-`----------------------`--------------------------------------------------
4819 `\\` single backslash
4821 `\r` carriage return
4823 `\`<'octal digits'> up to 3 octal digits specify one character
4824 `\x`<'hex digits'> up to 2 hexadecimal digits specify one character
4825 ----------------------------------------------------------------------------
4827 If a backslash is followed by some other character, including a double-quote
4828 character, that character replaces the pair.
4830 Quoting is necessary only if you want to make use of the backslash escapes to
4831 insert special characters, or if you need to specify a value with leading or
4832 trailing spaces. These cases are rare, so quoting is almost never needed in
4833 current versions of Exim. In versions of Exim before 3.14, quoting was required
4834 in order to continue lines, so you may come across older configuration files
4835 and examples that apparently quote unnecessarily.
4840 cindex:[string expansion, definition of]
4841 cindex:[expansion,definition of]
4842 Some strings in the configuration file are subjected to 'string expansion',
4843 by which means various parts of the string may be changed according to the
4844 circumstances (see chapter <<CHAPexpand>>). The input syntax for such strings is
4845 as just described; in particular, the handling of backslashes in quoted strings
4846 is done as part of the input process, before expansion takes place. However,
4847 backslash is also an escape character for the expander, so any backslashes that
4848 are required for that reason must be doubled if they are within a quoted
4849 configuration string.
4852 User and group names
4853 ~~~~~~~~~~~~~~~~~~~~
4854 cindex:[user name,format of]
4855 cindex:[format,user name]
4856 cindex:[group,name format]
4857 cindex:[format,group name]
4858 User and group names are specified as strings, using the syntax described
4859 above, but the strings are interpreted specially. A user or group name must
4860 either consist entirely of digits, or be a name that can be looked up using the
4861 'getpwnam()' or 'getgrnam()' function, as appropriate.
4864 [[SECTlistconstruct]]
4867 cindex:[list,syntax of in configuration]
4868 cindex:[format,list item in configuration]
4869 cindex:[string list, definition]
4870 The data for some configuration options is a list of items, with colon as the
4871 default separator. Many of these options are shown with type ``string list'' in
4872 the descriptions later in this document. Others are listed as ``domain list'',
4873 ``host list'', ``address list'', or ``local part list''. Syntactically, they
4874 are all the same; however, those other than ``string list'' are subject to
4875 particular kinds of interpretation, as described in chapter
4876 <<CHAPdomhosaddlists>>.
4878 In all these cases, the entire list is treated as a single string as far as the
4879 input syntax is concerned. The %trusted_users% setting in section
4880 <<SECTstrings>> above is an example. If a colon is actually needed in an item in
4881 a list, it must be entered as two colons. Leading and trailing white space on
4882 each item in a list is ignored. This makes it possible to include items that
4883 start with a colon, and in particular, certain forms of IPv6 address. For
4886 local_interfaces = 127.0.0.1 : ::::1
4888 contains two IP addresses, the IPv4 address 127.0.0.1 and the IPv6 address ::1.
4890 [revisionflag="changed"]
4891 *Note*: Although leading and trailing white space is ignored in individual list
4892 items, it is not ignored when parsing the list. The space after the first colon
4893 in the example above is necessary. If it were not there, the list would be
4894 interpreted as the two items 127.0.0.1:: and 1.
4896 cindex:[list separator, changing]
4897 cindex:[IPv6,addresses in lists]
4898 Doubling colons in IPv6 addresses is an unwelcome chore, so a mechanism was
4899 introduced to allow the separator character to be changed. If a list begins
4900 with a left angle bracket, followed by any punctuation character, that
4901 character is used instead of colon as the list separator. For example, the list
4902 above can be rewritten to use a semicolon separator like this:
4904 local_interfaces = <; 127.0.0.1 ; ::1
4906 This facility applies to all lists, with the exception of the list in
4907 %log_file_path%. It is recommended that the use of non-colon separators be
4908 confined to circumstances where they really are needed.
4913 Empty items in lists
4914 ~~~~~~~~~~~~~~~~~~~~
4915 cindex:[list,empty item in]
4916 An empty item at the end of a list is always ignored. In other words, trailing
4917 separator characters are ignored. Thus, the list in
4919 senders = user@domain :
4921 contains only a single item. If you want to include an empty string as one item
4922 in a list, it must not be the last item. For example, this list contains three
4923 items, the second of which is empty:
4925 senders = user1@domain : : user2@domain
4927 *Note*: there must be white space between the two colons, as otherwise they
4928 are interpreted as representing a single colon data character (and the list
4929 would then contain just one item). If you want to specify a list that contains
4930 just one, empty item, you can do it as in this example:
4934 In this case, the first item is empty, and the second is discarded because it
4935 is at the end of the list.
4941 Format of driver configurations
4942 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
4943 cindex:[drivers,configuration format]
4944 There are separate parts in the configuration for defining routers, transports,
4945 and authenticators. In each part, you are defining a number of driver
4946 instances, each with its own set of options. Each driver instance is defined by
4947 a sequence of lines like this:
4956 In the following example, the instance name is ^localuser^, and it is
4957 followed by three options settings:
4962 transport = local_delivery
4964 For each driver instance, you specify which Exim code module it uses -- by the
4965 setting of the %driver% option -- and (optionally) some configuration settings.
4966 For example, in the case of transports, if you want a transport to deliver with
4967 SMTP you would use the ^smtp^ driver; if you want to deliver to a local file
4968 you would use the ^appendfile^ driver. Each of the drivers is described in
4969 detail in its own separate chapter later in this manual.
4971 You can have several routers, transports, or authenticators that are based on
4972 the same underlying driver (each must have a different instance name).
4974 The order in which routers are defined is important, because addresses are
4975 passed to individual routers one by one, in order. The order in which
4976 transports are defined does not matter at all. The order in which
4977 authenticators are defined is used only when Exim, as a client, is searching
4978 them to find one that matches an authentication mechanism offered by the
4981 cindex:[generic options]
4982 cindex:[options, generic -- definition of]
4983 Within a driver instance definition, there are two kinds of option:
4984 'generic' and 'private'. The generic options are those that apply to all
4985 drivers of the same type (that is, all routers, all transports or all
4987 The %driver% option is a generic option that must appear in every definition.
4989 cindex:[private options]
4990 The private options are special for each driver, and none need appear, because
4991 they all have default values.
4993 The options may appear in any order, except that the %driver% option must
4994 precede any private options, since these depend on the particular driver. For
4995 this reason, it is recommended that %driver% always be the first option.
4997 Driver instance names, which are used for reference in log entries and
4998 elsewhere, can be any sequence of letters, digits, and underscores (starting
4999 with a letter) and must be unique among drivers of the same type. A router and
5000 a transport (for example) can each have the same name, but no two router
5001 instances can have the same name. The name of a driver instance should not be
5002 confused with the name of the underlying driver module. For example, the
5003 configuration lines:
5008 create an instance of the ^smtp^ transport driver whose name is
5009 ^remote_smtp^. The same driver code can be used more than once, with
5010 different instance names and different option settings each time. A second
5011 instance of the ^smtp^ transport, with different options, might be defined
5017 command_timeout = 10s
5019 The names ^remote_smtp^ and ^special_smtp^ would be used to reference
5020 these transport instances from routers, and these names would appear in log
5023 Comment lines may be present in the middle of driver specifications. The full
5024 list of option settings for any particular driver instance, including all the
5025 defaulted values, can be extracted by making use of the %-bP% command line
5033 ////////////////////////////////////////////////////////////////////////////
5034 ////////////////////////////////////////////////////////////////////////////
5037 The default configuration file
5038 ------------------------------
5039 cindex:[configuration file,default ``walk through'']
5040 cindex:[default,configuration file ``walk through'']
5041 The default configuration file supplied with Exim as _src/configure.default_
5042 is sufficient for a host with simple mail requirements. As an introduction to
5043 the way Exim is configured, this chapter ``walks through'' the default
5044 configuration, giving brief explanations of the settings. Detailed descriptions
5045 of the options are given in subsequent chapters. The default configuration file
5046 itself contains extensive comments about ways you might want to modify the
5047 initial settings. However, note that there are many options that are not
5048 mentioned at all in the default configuration.
5052 Main configuration settings
5053 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
5054 The main (global) configuration option settings must always come first in the
5055 file. The first thing you'll see in the file, after some initial comments, is
5058 # primary_hostname =
5060 This is a commented-out setting of the %primary_hostname% option. Exim needs
5061 to know the official, fully qualified name of your host, and this is where you
5062 can specify it. However, in most cases you do not need to set this option. When
5063 it is unset, Exim uses the 'uname()' system function to obtain the host name.
5065 The first three non-comment configuration lines are as follows:
5067 domainlist local_domains = @
5068 domainlist relay_to_domains =
5069 hostlist relay_from_hosts = 127.0.0.1
5071 These are not, in fact, option settings. They are definitions of two named
5072 domain lists and one named host list. Exim allows you to give names to lists of
5073 domains, hosts, and email addresses, in order to make it easier to manage the
5074 configuration file (see section <<SECTnamedlists>>).
5076 The first line defines a domain list called 'local_domains'; this is used
5077 later in the configuration to identify domains that are to be delivered
5080 cindex:[@ in a domain list]
5081 There is just one item in this list, the string ``@''. This is a special form of
5082 entry which means ``the name of the local host''. Thus, if the local host is
5083 called 'a.host.example', mail to 'any.user@a.host.example' is expected to
5084 be delivered locally. Because the local host's name is referenced indirectly,
5085 the same configuration file can be used on different hosts.
5087 The second line defines a domain list called 'relay_to_domains', but the
5088 list itself is empty. Later in the configuration we will come to the part that
5089 controls mail relaying through the local host; it allows relaying to any
5090 domains in this list. By default, therefore, no relaying on the basis of a mail
5091 domain is permitted.
5093 The third line defines a host list called 'relay_from_hosts'. This list is
5094 used later in the configuration to permit relaying from any host or IP address
5095 that matches the list. The default contains just the IP address of the IPv4
5096 loopback interface, which means that processes on the local host are able to
5097 submit mail for relaying by sending it over TCP/IP to that interface. No other
5098 hosts are permitted to submit messages for relaying.
5100 Just to be sure there's no misunderstanding: at this point in the configuration
5101 we aren't actually setting up any controls. We are just defining some domains
5102 and hosts that will be used in the controls that are specified later.
5104 The next two configuration lines are genuine option settings:
5106 acl_smtp_rcpt = acl_check_rcpt
5107 acl_smtp_data = acl_check_data
5109 [revisionflag="changed"]
5110 These options specify 'Access Control Lists' (ACLs) that are to be used during
5111 an incoming SMTP session for every recipient of a message (every RCPT command),
5112 and after the contents of the message have been received, respectively. The
5113 names of the lists are 'acl_check_rcpt' and 'acl_check_data', and we will come
5114 to their definitions below, in the ACL section of the configuration. The RCPT
5115 ACL controls which recipients are accepted for an incoming message -- if a
5116 configuration does not provide an ACL to check recipients, no SMTP mail can be
5117 accepted. The DATA ACL allows the contents of a message to be checked.
5119 [revisionflag="changed"]
5120 Two commented-out option settings are next:
5122 [revisionflag="changed"]
5124 # av_scanner = clamd:/tmp/clamd
5125 # spamd_address = 127.0.0.1 783
5128 [revisionflag="changed"]
5129 These are example settings that can be used when Exim is compiled with the
5130 content-scanning extension. The first specifies the interface to the virus
5131 scanner, and the second specifies the interface to SpamAssassin. Further
5132 details are given in chapter <<CHAPexiscan>>.
5134 Two more commented-out options settings follow:
5137 # qualify_recipient =
5139 The first of these specifies a domain that Exim uses when it constructs a
5140 complete email address from a local login name. This is often needed when Exim
5141 receives a message from a local process. If you do not set %qualify_domain%,
5142 the value of %primary_hostname% is used. If you set both of these options, you
5143 can have different qualification domains for sender and recipient addresses. If
5144 you set only the first one, its value is used in both cases.
5146 cindex:[domain literal,recognizing format]
5147 The following line must be uncommented if you want Exim to recognize
5148 addresses of the form 'user@[10.11.12.13]' that is, with a ``domain literal''
5149 (an IP address within square brackets) instead of a named domain.
5151 # allow_domain_literals
5153 The RFCs still require this form, but many people think that in the modern
5154 Internet it makes little sense to permit mail to be sent to specific hosts by
5155 quoting their IP addresses. This ancient format has been used by people who
5156 try to abuse hosts by using them for unwanted relaying. However, some
5157 people believe there are circumstances (for example, messages addressed to
5158 'postmaster') where domain literals are still useful.
5160 The next configuration line is a kind of trigger guard:
5164 It specifies that no delivery must ever be run as the root user. The normal
5165 convention is to set up 'root' as an alias for the system administrator. This
5166 setting is a guard against slips in the configuration.
5167 The list of users specified by %never_users% is not, however, the complete
5168 list; the build-time configuration in _Local/Makefile_ has an option called
5169 FIXED_NEVER_USERS specifying a list that cannot be overridden. The
5170 contents of %never_users% are added to this list. By default
5171 FIXED_NEVER_USERS also specifies root.
5173 When a remote host connects to Exim in order to send mail, the only information
5174 Exim has about the host's identity is its IP address. The next configuration
5179 specifies that Exim should do a reverse DNS lookup on all incoming connections,
5180 in order to get a host name. This improves the quality of the logging
5181 information, but if you feel it is too expensive, you can remove it entirely,
5182 or restrict the lookup to hosts on ``nearby'' networks.
5183 Note that it is not always possible to find a host name from an IP address,
5184 because not all DNS reverse zones are maintained, and sometimes DNS servers are
5187 The next two lines are concerned with 'ident' callbacks, as defined by RFC
5188 1413 (hence their names):
5191 rfc1413_query_timeout = 30s
5193 These settings cause Exim to make ident callbacks for all incoming SMTP calls.
5194 You can limit the hosts to which these calls are made, or change the timeout
5195 that is used. If you set the timeout to zero, all ident calls are disabled.
5196 Although they are cheap and can provide useful information for tracing problem
5197 messages, some hosts and firewalls have problems with ident calls. This can
5198 result in a timeout instead of an immediate refused connection, leading to
5199 delays on starting up an incoming SMTP session.
5201 When Exim receives messages over SMTP connections, it expects all addresses to
5202 be fully qualified with a domain, as required by the SMTP definition. However,
5203 if you are running a server to which simple clients submit messages, you may
5204 find that they send unqualified addresses. The two commented-out options:
5206 # sender_unqualified_hosts =
5207 # recipient_unqualified_hosts =
5209 show how you can specify hosts that are permitted to send unqualified sender
5210 and recipient addresses, respectively.
5212 The %percent_hack_domains% option is also commented out:
5214 # percent_hack_domains =
5216 It provides a list of domains for which the ``percent hack'' is to operate. This
5217 is an almost obsolete form of explicit email routing. If you do not know
5218 anything about it, you can safely ignore this topic.
5220 The last two settings in the main part of the default configuration are
5221 concerned with messages that have been ``frozen'' on Exim's queue. When a message
5222 is frozen, Exim no longer continues to try to deliver it. Freezing occurs when
5223 a bounce message encounters a permanent failure because the sender address of
5224 the original message that caused the bounce is invalid, so the bounce cannot be
5225 delivered. This is probably the most common case, but there are also other
5226 conditions that cause freezing, and frozen messages are not always bounce
5229 ignore_bounce_errors_after = 2d
5230 timeout_frozen_after = 7d
5232 The first of these options specifies that failing bounce messages are to be
5233 discarded after 2 days on the queue. The second specifies that any frozen
5234 message (whether a bounce message or not) is to be timed out (and discarded)
5235 after a week. In this configuration, the first setting ensures that no failing
5236 bounce message ever lasts a week.
5242 cindex:[default,ACLs]
5243 cindex:[{ACL},default configuration]
5244 In the default configuration, the ACL section follows the main configuration.
5245 It starts with the line
5249 and it contains the definitions of two ACLs, called 'acl_check_rcpt' and
5250 'acl_check_data', that were referenced in the settings of %acl_smtp_rcpt% and
5251 %acl_smtp_data% above.
5253 cindex:[RCPT,ACL for]
5254 The first ACL is used for every RCPT command in an incoming SMTP message. Each
5255 RCPT command specifies one of the message's recipients. The ACL statements
5256 are considered in order, until the recipient address is either accepted or
5257 rejected. The RCPT command is then accepted or rejected, according to the
5258 result of the ACL processing.
5262 This line, consisting of a name terminated by a colon, marks the start of the
5267 This ACL statement accepts the recipient if the sending host matches the list.
5268 But what does that strange list mean? It doesn't actually contain any host
5269 names or IP addresses. The presence of the colon puts an empty item in the
5270 list; Exim matches this only if the incoming message did not come from a remote
5271 host, because in that case, the remote hostname is empty. The colon is
5272 important. Without it, the list itself is empty, and can never match anything.
5274 What this statement is doing is to accept unconditionally all recipients in
5275 messages that are submitted by SMTP from local processes using the standard
5276 input and output (that is, not using TCP/IP). A number of MUAs operate in this
5279 deny message = Restricted characters in address
5280 domains = +local_domains
5281 local_parts = ^[.] : ^.*[@%!/|]
5283 deny message = Restricted characters in address
5284 domains = !+local_domains
5285 local_parts = ^[./|] : ^.*[@%!] : ^.*/\\.\\./
5287 These statements are concerned with local parts that contain any of the
5288 characters ``@'', ``%'', ``!'', ``/'', ``|'', or dots in unusual places. Although these
5289 characters are entirely legal in local parts (in the case of ``@'' and leading
5290 dots, only if correctly quoted), they do not commonly occur in Internet mail
5293 The first three have in the past been associated with explicitly routed
5294 addresses (percent is still sometimes used -- see the %percent_hack_domains%
5295 option). Addresses containing these characters are regularly tried by spammers
5296 in an attempt to bypass relaying restrictions, and also by open relay testing
5297 programs. Unless you really need them it is safest to reject these characters
5298 at this early stage. This configuration is heavy-handed in rejecting these
5299 characters for all messages it accepts from remote hosts. This is a deliberate
5300 policy of being as safe as possible.
5302 The first rule above is stricter, and is applied to messages that are addressed
5303 to one of the local domains handled by this host. This is implemented by the
5304 first condition, which restricts it to domains that are listed in the
5305 'local_domains' domain list. The ``+'' character is used to indicate a
5306 reference to a named list. In this configuration, there is just one domain in
5307 'local_domains', but in general there may be many.
5309 The second condition on the first statement uses two regular expressions to
5310 block local parts that begin with a dot or contain ``@'', ``%'', ``!'', ``/'', or ``|''.
5311 If you have local accounts that include these characters, you will have to
5314 Empty components (two dots in a row) are not valid in RFC 2822, but Exim
5315 allows them because they have been encountered in practice. (Consider local
5316 parts constructed as ``first-initial.second-initial.family-name'' when applied to
5317 someone like the author of Exim, who has no second initial.) However, a local
5318 part starting with a dot or containing ``/../'' can cause trouble if it is used
5319 as part of a file name (for example, for a mailing list). This is also true for
5320 local parts that contain slashes. A pipe symbol can also be troublesome if the
5321 local part is incorporated unthinkingly into a shell command line.
5323 The second rule above applies to all other domains, and is less strict. This
5324 allows your own users to send outgoing messages to sites that use slashes
5325 and vertical bars in their local parts. It blocks local parts that begin
5326 with a dot, slash, or vertical bar, but allows these characters within the
5327 local part. However, the sequence ``/../'' is barred. The use of ``@'', ``%'', and
5328 ``!'' is blocked, as before. The motivation here is to prevent your users (or
5329 your users' viruses) from mounting certain kinds of attack on remote sites.
5331 accept local_parts = postmaster
5332 domains = +local_domains
5334 This statement, which has two conditions, accepts an incoming address if the
5335 local part is 'postmaster' and the domain is one of those listed in the
5336 'local_domains' domain list. The ``+'' character is used to indicate a
5337 reference to a named list. In this configuration, there is just one domain in
5338 'local_domains', but in general there may be many.
5340 The presence of this statement means that mail to postmaster is never blocked
5341 by any of the subsequent tests. This can be helpful while sorting out problems
5342 in cases where the subsequent tests are incorrectly denying access.
5344 require verify = sender
5346 This statement requires the sender address to be verified before any subsequent
5347 ACL statement can be used. If verification fails, the incoming recipient
5348 address is refused. Verification consists of trying to route the address, to
5349 see if a bounce message could be delivered to it. In the case of remote
5350 addresses, basic verification checks only the domain, but 'callouts' can be
5351 used for more verification if required. Section <<SECTaddressverification>>
5352 discusses the details of address verification.
5354 accept hosts = +relay_from_hosts
5355 control = submission
5357 [revisionflag="changed"]
5358 This statement accepts the address if the message is coming from one of the
5359 hosts that are defined as being allowed to relay through this host. Recipient
5360 verification is omitted here, because in many cases the clients are dumb MUAs
5361 that do not cope well with SMTP error responses. For the same reason, the
5362 second line specifies ``submission mode'' for messages that are accepted. This
5363 is described in detail in section <<SECTsubmodnon>>; it causes Exim to fix
5364 messages that are deficient in some way, for example, because they lack a
5365 'Date:' header line. If you are actually relaying out from MTAs, you should
5366 probably add recipient verification here, and disable submission mode.
5368 accept authenticated = *
5369 control = submission
5371 [revisionflag="changed"]
5372 This statement accepts the address if the client host has authenticated itself.
5373 Submission mode is again specified, on the grounds that such messages are most
5374 likely to come from MUAs. The default configuration does not define any
5375 authenticators, which means that no client can in fact authenticate. You will
5376 need to add authenticator definitions if you want to make use of this ACL
5380 # deny message = rejected because $sender_host_address is \
5381 # in a black list at $dnslist_domain\n\
5383 # dnslists = black.list.example
5385 # warn message = X-Warning: $sender_host_address is \
5386 # in a black list at $dnslist_domain
5387 # log_message = found in $dnslist_domain
5388 # dnslists = black.list.example
5391 These commented-out lines are examples of how you could configure Exim to check
5392 sending hosts against a DNS black list. The first statement rejects messages
5393 from blacklisted hosts, whereas the second merely inserts a warning header
5396 accept domains = +local_domains
5400 This statement accepts the incoming recipient address if its domain is one of
5401 the local domains, but only if the address can be verified. Verification of
5402 local addresses normally checks both the local part and the domain. The
5403 %endpass% line needs some explanation: if the condition above %endpass% fails,
5404 that is, if the address is not in a local domain, control is passed to the next
5405 ACL statement. However, if the condition below %endpass% fails, that is, if a
5406 recipient in a local domain cannot be verified, access is denied and the
5407 recipient is rejected.
5409 accept domains = +relay_to_domains
5413 This statement accepts the incoming recipient address if its domain is one of
5414 the domains for which this host is a relay, but again, only if the address can
5417 deny message = relay not permitted
5419 The final statement denies access, giving a specific error message. Reaching
5420 the end of the ACL also causes access to be denied, but with the generic
5421 message ``administrative prohibition''.
5425 [revisionflag="changed"]
5426 This line marks the start of the second ACL, and names it. Most of the contents
5427 of this ACL are commented out:
5429 [revisionflag="changed"]
5432 # message = This message contains a virus \
5436 [revisionflag="changed"]
5437 These lines are examples of how to arrange for messages to be scanned for
5438 viruses when Exim has been compiled with the content-scanning extension, and a
5439 suitable virus scanner is installed. If the message is found to contain a
5440 virus, it is rejected with the given custom error message.
5442 [revisionflag="changed"]
5444 # warn spam = nobody
5445 # message = X-Spam_score: $spam_score\n\
5446 # X-Spam_score_int: $spam_score_int\n\
5447 # X-Spam_bar: $spam_bar\n\
5448 # X-Spam_report: $spam_report
5451 [revisionflag="changed"]
5452 These lines are an example of how to arrange for messages to be scanned by
5453 SpamAssassin when Exim has been compiled with the content-scanning extension,
5454 and SpamAssassin has been installed. The SpamAssassin check is run with
5455 `nobody` as its user parameter, and the results are added to the message as a
5456 series of extra header line. In this case, the message is not rejected,
5457 whatever the spam score.
5461 [revisionflag="changed"]
5462 This final line in the DATA ACL accepts the message unconditionally.
5466 Router configuration
5467 ~~~~~~~~~~~~~~~~~~~~
5468 cindex:[default,routers]
5469 cindex:[routers,default]
5470 The router configuration comes next in the default configuration, introduced
5475 Routers are the modules in Exim that make decisions about where to send
5476 messages. An address is passed to each router in turn, until it is either
5477 accepted, or failed. This means that the order in which you define the routers
5478 matters. Each router is fully described in its own chapter later in this
5479 manual. Here we give only brief overviews.
5482 # driver = ipliteral
5483 # domains = !+local_domains
5484 # transport = remote_smtp
5486 cindex:[domain literal,default router]
5487 This router is commented out because the majority of sites do not want to
5488 support domain literal addresses (those of the form 'user@[10.9.8.7]'). If
5489 you uncomment this router, you also need to uncomment the setting of
5490 %allow_domain_literals% in the main part of the configuration.
5494 domains = ! +local_domains
5495 transport = remote_smtp
5496 ignore_target_hosts = 0.0.0.0 : 127.0.0.0/8
5499 The first uncommented router handles addresses that do not involve any local
5500 domains. This is specified by the line
5502 domains = ! +local_domains
5504 The %domains% option lists the domains to which this router applies, but the
5505 exclamation mark is a negation sign, so the router is used only for domains
5506 that are not in the domain list called 'local_domains' (which was defined at
5507 the start of the configuration). The plus sign before 'local_domains'
5508 indicates that it is referring to a named list. Addresses in other domains are
5509 passed on to the following routers.
5511 The name of the router driver is ^dnslookup^,
5512 and is specified by the %driver% option. Do not be confused by the fact that
5513 the name of this router instance is the same as the name of the driver. The
5514 instance name is arbitrary, but the name set in the %driver% option must be one
5515 of the driver modules that is in the Exim binary.
5517 The ^dnslookup^ router routes addresses by looking up their domains in the
5518 DNS in order to obtain a list of hosts to which the address is routed. If the
5519 router succeeds, the address is queued for the ^remote_smtp^ transport, as
5520 specified by the %transport% option. If the router does not find the domain in
5521 the DNS, no further routers are tried because of the %no_more% setting, so the
5522 address fails and is bounced.
5524 The %ignore_target_hosts% option specifies a list of IP addresses that are to
5525 be entirely ignored. This option is present because a number of cases have been
5526 encountered where MX records in the DNS point to host names
5527 whose IP addresses are 0.0.0.0 or are in the 127 subnet (typically 127.0.0.1).
5528 Completely ignoring these IP addresses causes Exim to fail to route the
5529 email address, so it bounces. Otherwise, Exim would log a routing problem, and
5530 continue to try to deliver the message periodically until the address timed
5537 data = ${lookup{$local_part}lsearch{/etc/aliases}}
5539 file_transport = address_file
5540 pipe_transport = address_pipe
5542 Control reaches this and subsequent routers only for addresses in the local
5543 domains. This router checks to see whether the local part is defined as an
5544 alias in the _/etc/aliases_ file, and if so, redirects it according to the
5545 data that it looks up from that file. If no data is found for the local part,
5546 the value of the %data% option is empty, causing the address to be passed to
5549 _/etc/aliases_ is a conventional name for the system aliases file that is
5550 often used. That is why it is referenced by from the default configuration
5551 file. However, you can change this by setting SYSTEM_ALIASES_FILE in
5552 _Local/Makefile_ before building Exim.
5557 # local_part_suffix = +* : -*
5558 # local_part_suffix_optional
5559 file = $home/.forward
5564 file_transport = address_file
5565 pipe_transport = address_pipe
5566 reply_transport = address_reply
5568 [revisionflag="changed"]
5569 This is the most complicated router in the default configuration. It is another
5570 redirection router, but this time it is looking for forwarding data set up by
5571 individual users. The %check_local_user% setting specifies a check that the
5572 local part of the address is the login name of a local user. If it is not, the
5573 router is skipped. The two commented options that follow %check_local_user%,
5576 [revisionflag="changed"]
5578 # local_part_suffix = +* : -*
5579 # local_part_suffix_optional
5582 [revisionflag="changed"]
5583 cindex:[$local_part_suffix$]
5584 show how you can specify the recognition of local part suffixes. If the first
5585 is uncommented, a suffix beginning with either a plus or a minus sign, followed
5586 by any sequence of characters, is removed from the local part and placed in the
5587 variable $local_part_suffix$. The second suffix option specifies that the
5588 presence of a suffix in the local part is optional. When a suffix is present,
5589 the check for a local login uses the local part with the suffix removed.
5591 When a local user account is found, the file called _.forward_ in the user's
5592 home directory is consulted. If it does not exist, or is empty, the router
5593 declines. Otherwise, the contents of _.forward_ are interpreted as redirection
5594 data (see chapter <<CHAPredirect>> for more details).
5596 cindex:[Sieve filter,enabling in default router]
5597 Traditional _.forward_ files contain just a list of addresses, pipes, or
5598 files. Exim supports this by default. However, if %allow_filter% is set (it is
5599 commented out by default), the contents of the file are interpreted as a set of
5600 Exim or Sieve filtering instructions, provided the file begins with ``#Exim
5601 filter'' or ``#Sieve filter'', respectively. User filtering is discussed in the
5602 separate document entitled 'Exim's interfaces to mail filtering'.
5604 The %no_verify% and %no_expn% options mean that this router is skipped when
5605 verifying addresses, or when running as a consequence of an SMTP EXPN command.
5606 There are two reasons for doing this:
5608 . Whether or not a local user has a _.forward_ file is not really relevant when
5609 checking an address for validity; it makes sense not to waste resources doing
5612 . More importantly, when Exim is verifying addresses or handling an EXPN
5613 command during an SMTP session, it is running as the Exim user, not as root.
5614 The group is the Exim group, and no additional groups are set up.
5615 It may therefore not be possible for Exim to read users' _.forward_ files at
5618 The setting of %check_ancestor% prevents the router from generating a new
5619 address that is the same as any previous address that was redirected. (This
5620 works round a problem concerning a bad interaction between aliasing and
5621 forwarding -- see section <<SECTredlocmai>>).
5623 The final three option settings specify the transports that are to be used when
5624 forwarding generates a direct delivery to a file, or to a pipe, or sets up an
5625 auto-reply, respectively. For example, if a _.forward_ file contains
5627 a.nother@elsewhere.example, /home/spqr/archive
5629 the delivery to _/home/spqr/archive_ is done by running the %address_file%
5635 # local_part_suffix = +* : -*
5636 # local_part_suffix_optional
5637 transport = local_delivery
5639 [revisionflag="changed"]
5640 The final router sets up delivery into local mailboxes, provided that the local
5641 part is the name of a local login, by accepting the address and assigning it to
5642 the ^local_delivery^ transport. Otherwise, we have reached the end of the
5643 routers, so the address is bounced. The commented suffix settings fulfil the
5644 same purpose as they do for the ^userforward^ router.
5648 Transport configuration
5649 ~~~~~~~~~~~~~~~~~~~~~~~
5650 cindex:[default,transports]
5651 cindex:[transports,default]
5652 Transports define mechanisms for actually delivering messages. They operate
5653 only when referenced from routers, so the order in which they are defined does
5654 not matter. The transports section of the configuration starts with
5658 One remote transport and four local transports are defined.
5663 This transport is used for delivering messages over SMTP connections. All its
5664 options are defaulted. The list of remote hosts comes from the router.
5668 file = /var/mail/$local_part
5675 This ^appendfile^ transport is used for local delivery to user mailboxes in
5676 traditional BSD mailbox format. By default it runs under the uid and gid of the
5677 local user, which requires the sticky bit to be set on the _/var/mail_
5678 directory. Some systems use the alternative approach of running mail deliveries
5679 under a particular group instead of using the sticky bit. The commented options
5680 show how this can be done.
5682 Exim adds three headers to the message as it delivers it: 'Delivery-date:',
5683 'Envelope-to:' and 'Return-path:'. This action is requested by the three
5684 similarly-named options above.
5690 This transport is used for handling deliveries to pipes that are generated by
5691 redirection (aliasing or users' _.forward_ files). The %return_output%
5692 option specifies that any output generated by the pipe is to be returned to the
5701 This transport is used for handling deliveries to files that are generated by
5702 redirection. The name of the file is not specified in this instance of
5703 ^appendfile^, because it comes from the ^redirect^ router.
5708 This transport is used for handling automatic replies generated by users'
5715 cindex:[retry,default rule]
5716 cindex:[default,retry rule]
5717 The retry section of the configuration file contains rules which affect the way
5718 Exim retries deliveries that cannot be completed at the first attempt. It is
5719 introduced by the line
5723 In the default configuration, there is just one rule, which applies to all
5727 `\* \* F,2h,15m; G,16h,1h,1.5; F,4d,6h`
5730 This causes any temporarily failing address to be retried every 15 minutes for
5731 2 hours, then at intervals starting at one hour and increasing by a factor of
5732 1.5 until 16 hours have passed, then every 6 hours up to 4 days. If an address
5733 is not delivered after 4 days of failure, it is bounced.
5737 Rewriting configuration
5738 ~~~~~~~~~~~~~~~~~~~~~~~
5739 The rewriting section of the configuration, introduced by
5743 contains rules for rewriting addresses in messages as they arrive. There are no
5744 rewriting rules in the default configuration file.
5748 Authenticators configuration
5749 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
5750 cindex:[AUTH,configuration]
5751 The authenticators section of the configuration, introduced by
5753 begin authenticators
5755 defines mechanisms for the use of the SMTP AUTH command. No authenticators
5756 are specified in the default configuration file.
5760 ////////////////////////////////////////////////////////////////////////////
5761 ////////////////////////////////////////////////////////////////////////////
5767 cindex:[regular expressions,library]
5769 Exim supports the use of regular expressions in many of its options. It
5770 uses the PCRE regular expression library; this provides regular expression
5771 matching that is compatible with Perl 5. The syntax and semantics of
5772 regular expressions is discussed in many Perl reference books, and also in
5773 Jeffrey Friedl's 'Mastering Regular Expressions', which is published by
5774 O'Reilly (*http://www.oreilly.com/catalog/regex/[]*).
5776 The documentation for the syntax and semantics of the regular expressions that
5777 are supported by PCRE is included in plain text in the file
5778 _doc/pcrepattern.txt_ in the Exim distribution, and also in the HTML tarbundle
5779 of Exim documentation. It describes in detail the features of the regular
5780 expressions that PCRE supports, so no further description is included here. The
5781 PCRE functions are called from Exim using the default option settings (that is,
5782 with no PCRE options set), except that the PCRE_CASELESS option is set when the
5783 matching is required to be case-insensitive.
5785 In most cases, when a regular expression is required in an Exim configuration,
5786 it has to start with a circumflex, in order to distinguish it from plain text
5787 or an ``ends with'' wildcard. In this example of a configuration setting, the
5788 second item in the colon-separated list is a regular expression.
5790 domains = a.b.c : ^\\d{3} : *.y.z : ...
5792 The doubling of the backslash is required because of string expansion that
5793 precedes interpretation -- see section <<SECTlittext>> for more discussion of
5794 this issue, and a way of avoiding the need for doubling backslashes. The
5795 regular expression that is eventually used in this example contains just one
5796 backslash. The circumflex is included in the regular expression, and has the
5797 normal effect of ``anchoring'' it to the start of the string that is being
5800 There are, however, two cases where a circumflex is not required for the
5801 recognition of a regular expression: these are the %match% condition in a
5802 string expansion, and the %matches% condition in an Exim filter file. In these
5803 cases, the relevant string is always treated as a regular expression; if it
5804 does not start with a circumflex, the expression is not anchored, and can match
5805 anywhere in the subject string.
5807 In all cases, if you want a regular expression to match at the end of a string,
5808 you must code the \$ metacharacter to indicate this. For example:
5810 domains = ^\\d{3}\\.example
5812 matches the domain '123.example', but it also matches '123.example.com'.
5815 domains = ^\\d{3}\\.example\$
5817 if you want 'example' to be the top-level domain. The backslash before the
5818 \$ is needed because string expansion also interprets dollar characters.
5822 Testing regular expressions
5823 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
5824 cindex:[testing,regular expressions]
5825 cindex:[regular expressions,testing]
5827 A program called 'pcretest' forms part of the PCRE distribution and is built
5828 with PCRE during the process of building Exim. It is primarily intended for
5829 testing PCRE itself, but it can also be used for experimenting with regular
5830 expressions. After building Exim, the binary can be found in the build
5831 directory (it is not installed anywhere automatically). There is documentation
5832 of various options in _doc/pcretest.txt_, but for simple testing, none are
5833 needed. This is the output of a sample run of 'pcretest':
5836 ` re> `*`/^([^@]+)@.+\.(ac|edu)\.(?!kr)[a-z]{2}$/`*
5837 `data> `*`x@y.ac.uk`*
5841 `data> `*`x@y.ac.kr`*
5843 `data> `*`x@y.edu.com`*
5845 `data> `*`x@y.edu.co`*
5851 Input typed by the user is shown in bold face. After the ``re>'' prompt, a
5852 regular expression enclosed in delimiters is expected. If this compiles without
5853 error, ``data>'' prompts are given for strings against which the expression is
5854 matched. An empty data line causes a new regular expression to be read. If the
5855 match is successful, the captured substring values (that is, what would be in
5856 the variables $0$, $1$, $2$, etc.) are shown. The above example tests for an
5857 email address whose domain ends with either ``ac'' or ``edu'' followed by a
5858 two-character top-level domain that is not ``kr''. The local part is captured
5859 in $1$ and the ``ac'' or ``edu'' in $2$.
5866 ////////////////////////////////////////////////////////////////////////////
5867 ////////////////////////////////////////////////////////////////////////////
5870 File and database lookups
5871 -------------------------
5872 cindex:[file,lookup]
5873 cindex:[database lookups]
5874 cindex:[lookup,description of]
5875 Exim can be configured to look up data in files or databases as it processes
5876 messages. Two different kinds of syntax are used:
5878 . A string that is to be expanded may contain explicit lookup requests. These
5879 cause parts of the string to be replaced by data that is obtained from the
5880 lookup. String expansions are described in detail in chapter <<CHAPexpand>>.
5882 . Lists of domains, hosts, and email addresses can contain lookup requests as a
5883 way of avoiding excessively long linear lists. In this case, the data that is
5884 returned by the lookup is often (but not always) discarded; whether the lookup
5885 succeeds or fails is what really counts. These kinds of list are described in
5886 chapter <<CHAPdomhosaddlists>>.
5888 [revisionflag="changed"]
5889 String expansions, lists, and lookups interact with each other in such a way
5890 that there is no order in which to describe any one of them that does not
5891 involve references to the others. Each of these three chapters makes more sense
5892 if you have read the other two first. If you are reading this for the first
5893 time, be aware that some of it will make a lot more sense after you have read
5894 chapters <<CHAPdomhosaddlists>> and <<CHAPexpand>>.
5897 Examples of different lookup syntax
5898 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
5899 It is easy to confuse the two different kinds of lookup, especially as the
5900 lists that may contain the second kind are always expanded before being
5901 processed as lists. Therefore, they may also contain lookups of the first kind.
5902 Be careful to distinguish between the following two examples:
5904 domains = ${lookup{$sender_host_address}lsearch{/some/file}}
5905 domains = lsearch;/some/file
5907 The first uses a string expansion, the result of which must be a domain list.
5908 The expansion takes place before the string is processed as a list, and the
5909 file that is searched could contain lines like this:
5911 192.168.3.4: domain1:domain2:...
5912 192.168.1.9: domain3:domain4:...
5914 The result of the expansion (assuming the lookup succeeds) is a list of domains
5915 (and possibly other types of item that are allowed in domain lists).
5917 In the second example, the lookup is a single item in a domain list. It causes
5918 Exim to use a lookup to see if the domain that is being processed can be found
5919 in the file. The file could contains lines like this:
5924 Any data that follows the keys is not relevant when checking that the domain
5925 matches the list item.
5927 It is possible, though no doubt confusing, to use both kinds of lookup at once.
5928 Consider a file containing lines like this:
5930 192.168.5.6: lsearch;/another/file
5932 If the value of $sender_host_address$ is 192.168.5.6, expansion of the
5933 first %domains% setting above generates the second setting, which therefore
5934 causes a second lookup to occur.
5936 The rest of this chapter describes the different lookup types that are
5937 available. Any of them can be used in any part of the configuration where a
5938 lookup is permitted.
5943 cindex:[lookup,types of]
5944 cindex:[single-key lookup,definition of]
5945 Two different types of data lookup are implemented:
5947 - The 'single-key' type requires the specification of a file in which to look,
5948 and a single key to search for. The key must be a non-empty string for the
5949 lookup to succeed. The lookup type determines how the file is searched.
5951 - cindex:[query-style lookup,definition of]
5952 The 'query-style' type accepts a generalized database query. No particular key
5953 value is assumed by Exim for query-style lookups. You can use whichever Exim
5954 variables you need to construct the database query.
5956 The code for each lookup type is in a separate source file that is included in
5957 the binary of Exim only if the corresponding compile-time option is set. The
5958 default settings in _src/EDITME_ are:
5963 which means that only linear searching and DBM lookups are included by default.
5964 For some types of lookup (e.g. SQL databases), you need to install appropriate
5965 libraries and header files before building Exim.
5970 [[SECTsinglekeylookups]]
5971 Single-key lookup types
5972 ~~~~~~~~~~~~~~~~~~~~~~~
5973 cindex:[lookup,single-key types]
5974 cindex:[single-key lookup,list of types]
5975 The following single-key lookup types are implemented:
5977 - cindex:[cdb,description of]
5979 cindex:[binary zero,in lookup key]
5980 ^cdb^: The given file is searched as a Constant DataBase file, using the key
5981 string without a terminating binary zero. The cdb format is designed for
5982 indexed files that are read frequently and never updated, except by total
5983 re-creation. As such, it is particulary suitable for large files containing
5984 aliases or other indexed data referenced by an MTA. Information about cdb can
5985 be found in several places:
5988 *http://www.pobox.com/~djb/cdb.html[]*
5989 *ftp://ftp.corpit.ru/pub/tinycdb/[]*
5990 *http://packages.debian.org/stable/utils/freecdb.html[]*
5993 A cdb distribution is not needed in order to build Exim with cdb support,
5994 because the code for reading cdb files is included directly in Exim itself.
5995 However, no means of building or testing cdb files is provided with Exim, so
5996 you need to obtain a cdb distribution in order to do this.
5998 - cindex:[DBM,lookup type]
6000 cindex:[binary zero,in lookup key]
6001 ^dbm^: Calls to DBM library functions are used to extract data from the given
6002 DBM file by looking up the record with the given key. A terminating binary
6003 zero is included in the key that is passed to the DBM library. See section
6004 <<SECTdb>> for a discussion of DBM libraries.
6006 cindex:[Berkeley DB library,file format]
6007 For all versions of Berkeley DB, Exim uses the DB_HASH style of database
6008 when building DBM files using the %exim_dbmbuild% utility. However, when using
6009 Berkeley DB versions 3 or 4, it opens existing databases for reading with the
6010 DB_UNKNOWN option. This enables it to handle any of the types of database
6011 that the library supports, and can be useful for accessing DBM files created by
6012 other applications. (For earlier DB versions, DB_HASH is always used.)
6014 - cindex:[lookup,dbmnz]
6015 cindex:[lookup,dbm -- terminating zero]
6016 cindex:[binary zero,in lookup key]
6018 cindex:[_/etc/userdbshadow.dat_]
6019 cindex:[dmbnz lookup type]
6020 ^dbmnz^: This is the same as ^dbm^, except that a terminating binary zero
6021 is not included in the key that is passed to the DBM library. You may need this
6022 if you want to look up data in files that are created by or shared with some
6023 other application that does not use terminating zeros. For example, you need to
6024 use ^dbmnz^ rather than ^dbm^ if you want to authenticate incoming SMTP
6025 calls using the passwords from Courier's _/etc/userdbshadow.dat_ file. Exim's
6026 utility program for creating DBM files ('exim_dbmbuild') includes the zeros
6027 by default, but has an option to omit them (see section <<SECTdbmbuild>>).
6029 - cindex:[lookup,dsearch]
6030 cindex:[dsearch lookup type]
6031 ^dsearch^: The given file must be a directory; this is searched for a file
6032 whose name is the key. The key may not contain any forward slash characters.
6033 The result of a successful lookup is the name of the file. An example of how
6034 this lookup can be used to support virtual domains is given in section
6035 <<SECTvirtualdomains>>.
6037 - cindex:[lookup,iplsearch]
6038 cindex:[iplsearch lookup type]
6039 ^iplsearch^: The given file is a text file containing keys and data. A key is
6040 terminated by a colon or white space or the end of the line. The keys in the
6041 file must be IP addresses, or IP addresses with CIDR masks. Keys that involve
6042 IPv6 addresses must be enclosed in quotes to prevent the first internal colon
6043 being interpreted as a key terminator. For example:
6045 1.2.3.4: data for 1.2.3.4
6046 192.168.0.0/16 data for 192.168.0.0/16
6047 "abcd::cdab": data for abcd::cdab
6048 "abcd:abcd::/32" data for abcd:abcd::/32
6050 The key for an ^iplsearch^ lookup must be an IP address (without a mask). The
6051 file is searched linearly, using the CIDR masks where present, until a matching
6052 key is found. The first key that matches is used; there is no attempt to find a
6053 ``best'' match. Apart from the way the keys are matched, the processing for
6054 ^iplsearch^ is the same as for ^lsearch^.
6056 *Warning 1*: Unlike most other single-key lookup types, a file of data for
6057 ^iplsearch^ can 'not' be turned into a DBM or cdb file, because those
6058 lookup types support only literal keys.
6060 *Warning 2*: In a host list, you must always use ^net-iplsearch^ so that
6061 the implicit key is the host's IP address rather than its name (see section
6062 <<SECThoslispatsikey>>).
6064 - cindex:[linear search]
6065 cindex:[lookup,lsearch]
6066 cindex:[lsearch lookup type]
6067 ^lsearch^: The given file is a text file that is searched linearly for a
6068 line beginning with the search key, terminated by a colon or white space or the
6069 end of the line. The first occurrence that is found in the file is used. White
6070 space between the key and the colon is permitted. The remainder of the line,
6071 with leading and trailing white space removed, is the data. This can be
6072 continued onto subsequent lines by starting them with any amount of white
6073 space, but only a single space character is included in the data at such a
6074 junction. If the data begins with a colon, the key must be terminated by a
6079 Empty lines and lines beginning with # are ignored, even if they occur in the
6080 middle of an item. This is the traditional textual format of alias files. Note
6081 that the keys in an ^lsearch^ file are literal strings. There is no
6082 wildcarding of any kind.
6084 cindex:[lookup,lsearch -- colons in keys]
6085 cindex:[white space,in lsearch key]
6086 In most ^lsearch^ files, keys are not required to contain colons or #
6087 characters, or white space. However, if you need this feature, it is available.
6088 If a key begins with a doublequote character, it is terminated only by a
6089 matching quote (or end of line), and the normal escaping rules apply to its
6090 contents (see section <<SECTstrings>>). An optional colon is permitted after
6091 quoted keys (exactly as for unquoted keys). There is no special handling of
6092 quotes for the data part of an ^lsearch^ line.
6094 - cindex:[NIS lookup type]
6096 cindex:[binary zero,in lookup key]
6097 ^nis^: The given file is the name of a NIS map, and a NIS lookup is done with
6098 the given key, without a terminating binary zero. There is a variant called
6099 ^nis0^ which does include the terminating binary zero in the key. This is
6100 reportedly needed for Sun-style alias files. Exim does not recognize NIS
6101 aliases; the full map names must be used.
6103 - cindex:[wildlsearch lookup type]
6104 cindex:[lookup,wildlsearch]
6105 cindex:[nwildlsearch lookup type]
6106 cindex:[lookup,nwildlsearch]
6107 ^wildlsearch^ or ^nwildlsearch^: These search a file linearly, like ^lsearch^,
6108 but instead of being interpreted as a literal string, each key in the file may
6109 be wildcarded. The difference between these two lookup types is that for
6110 ^wildlsearch^, each key in the file is string-expanded before being used,
6111 whereas for ^nwildlsearch^, no expansion takes place.
6113 Like ^lsearch^, the testing is done case-insensitively. The following forms
6114 of wildcard are recognized:
6117 .. The string may begin with an asterisk to mean ``ends with''. For example:
6119 *.a.b.c data for anything.a.b.c
6120 *fish data for anythingfish
6122 .. The string may begin with a circumflex to indicate a regular expression. For
6123 example, for ^wildlsearch^:
6125 ^\N\d+\.a\.b\N data for <digits>.a.b
6127 Note the use of `\N` to disable expansion of the contents of the regular
6128 expression. If you are using ^nwildlsearch^, where the keys are not
6129 string-expanded, the equivalent entry is:
6131 ^\d+\.a\.b data for <digits>.a.b
6133 If the regular expression contains white space or colon characters, you must
6134 either quote it (see ^lsearch^ above), or represent these characters in other
6135 ways. For example, `\s` can be used for white space and `\x3A` for a
6136 colon. This may be easier than quoting, because if you quote, you have to
6137 escape all the backslashes inside the quotes.
6139 *Note*: It is not possible to capture substrings in a regular expression match
6140 for later use, because the results of all lookups are cached. If a lookup is
6141 repeated, the result is taken from the cache, and no actual pattern matching
6142 takes place. The values of all the numeric variables are unset after a
6143 ^(n)wildlsearch^ match.
6145 .. Although I cannot see it being of much use, the general matching function
6146 that is used to implement ^(n)wildlsearch^ means that the string may begin with
6147 a lookup name terminated by a semicolon, and followed by lookup data. For
6150 cdb;/some/file data for keys that match the file
6152 The data that is obtained from the nested lookup is discarded.
6155 Keys that do not match any of these patterns are interpreted literally. The
6156 continuation rules for the data are the same as for ^lsearch^, and keys may
6157 be followed by optional colons.
6159 *Warning*: Unlike most other single-key lookup types, a file of data for
6160 ^(n)wildlsearch^ can 'not' be turned into a DBM or cdb file, because those
6161 lookup types support only literal keys.
6165 Query-style lookup types
6166 ~~~~~~~~~~~~~~~~~~~~~~~~
6167 cindex:[lookup,query-style types]
6168 cindex:[query-style lookup,list of types]
6169 The supported query-style lookup types are listed below. Further details about
6170 many of them are given in later sections.
6172 - cindex:[DNS,as a lookup type]
6174 ^dnsdb^: This does a DNS search for one or more records whose domain names are
6175 given in the supplied query. The resulting data is the contents of the records.
6176 See section <<SECTdnsdb>>.
6178 - cindex:[Interbase lookup type]
6179 cindex:[lookup,Interbase]
6180 ^ibase^: This does a lookup in an Interbase database.
6182 - cindex:[LDAP,lookup type]
6183 cindex:[lookup,LDAP]
6184 ^ldap^: This does an LDAP lookup using a query in the form of a URL, and
6185 returns attributes from a single entry. There is a variant called ^ldapm^
6186 that permits values from multiple entries to be returned. A third variant
6187 called ^ldapdn^ returns the Distinguished Name of a single entry instead of
6188 any attribute values. See section <<SECTldap>>.
6190 - cindex:[MySQL,lookup type]
6191 cindex:[lookup,MySQL]
6192 ^mysql^: The format of the query is an SQL statement that is passed to a MySQL
6193 database. See section <<SECTsql>>.
6195 - cindex:[NIS+ lookup type]
6196 cindex:[lookup,NIS+]
6197 ^nisplus^: This does a NIS+ lookup using a query that can specify the name of
6198 the field to be returned. See section <<SECTnisplus>>.
6200 - cindex:[Oracle,lookup type]
6201 cindex:[lookup,Oracle]
6202 ^oracle^: The format of the query is an SQL statement that is passed to an
6203 Oracle database. See section <<SECTsql>>.
6205 - cindex:[lookup,passwd]
6206 cindex:[passwd lookup type]
6207 cindex:[_/etc/passwd_]
6208 ^passwd^ is a query-style lookup with queries that are just user names. The
6209 lookup calls 'getpwnam()' to interrogate the system password data, and on
6210 success, the result string is the same as you would get from an ^lsearch^
6211 lookup on a traditional _/etc/passwd file_, though with `*` for the
6212 password value. For example:
6214 *:42:42:King Rat:/home/kr:/bin/bash
6216 - cindex:[PostgreSQL lookup type]
6217 cindex:[lookup,PostgreSQL]
6218 ^pgsql^: The format of the query is an SQL statement that is passed to a
6219 PostgreSQL database. See section <<SECTsql>>.
6221 [revisionflag="changed"]
6222 - cindex:[sqlite lookup type]
6223 cindex:[lookup,sqlite]
6224 ^sqlite^: The format of the query is a file name followed by an SQL statement
6225 that is passed to an SQLite database. See section <<SECTsqlite>>.
6227 - ^testdb^: This is a lookup type that is used for testing Exim. It is
6228 not likely to be useful in normal operation.
6230 - cindex:[whoson lookup type]
6231 cindex:[lookup,whoson]
6232 ^whoson^: 'Whoson' (*http://whoson.sourceforge.net[]*) is a proposed
6233 Internet protocol that allows Internet server programs to check whether a
6234 particular (dynamically allocated) IP address is currently allocated to a known
6235 (trusted) user and, optionally, to obtain the identity of the said user. In
6236 Exim, this can be used to implement ``POP before SMTP'' checking using ACL
6240 require condition = \
6241 ${lookup whoson {$sender_host_address}{yes}{no}}
6244 The query consists of a single IP address. The value returned is the name of
6245 the authenticated user.
6249 Temporary errors in lookups
6250 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
6251 cindex:[lookup,temporary error in]
6252 Lookup functions can return temporary error codes if the lookup cannot be
6253 completed. For example, an SQL or LDAP database might be unavailable. For this
6254 reason, it is not advisable to use a lookup that might do this for critical
6255 options such as a list of local domains.
6257 When a lookup cannot be completed in a router or transport, delivery
6258 of the message (to the relevant address) is deferred, as for any other
6259 temporary error. In other circumstances Exim may assume the lookup has failed,
6260 or may give up altogether.
6264 [[SECTdefaultvaluelookups]]
6265 Default values in single-key lookups
6266 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
6267 cindex:[wildcard lookups]
6268 cindex:[lookup,default values]
6269 cindex:[lookup,wildcard]
6270 cindex:[lookup,\* added to type]
6271 cindex:[default,in single-key lookups]
6272 In this context, a ``default value'' is a value specified by the administrator
6273 that is to be used if a lookup fails.
6275 If ``\*'' is added to a single-key lookup type (for example, %lsearch\*%) and
6276 the initial lookup fails, the key ``\*'' is looked up in the file to provide
6277 a default value. See also the section on partial matching below.
6279 cindex:[\*@ with single-key lookup]
6280 cindex:[lookup,\*@ added to type]
6281 cindex:[alias file,per-domain default]
6282 Alternatively, if ``\*@'' is added to a single-key lookup type (for example
6283 \dbm\*\) then, if the initial lookup fails and the key contains an @
6284 character, a second lookup is done with everything before the last @ replaced
6285 by \*. This makes it possible to provide per-domain defaults in alias files
6286 that include the domains in the keys. If the second lookup fails (or doesn't
6287 take place because there is no @ in the key), ``\*'' is looked up.
6288 For example, a ^redirect^ router might contain:
6290 data = ${lookup{$local_part@$domain}lsearch*@{/etc/mixed-aliases}}
6292 Suppose the address that is being processed is 'jane@eyre.example'. Exim
6293 looks up these keys, in this order:
6299 The data is taken from whichever key it finds first. *Note*: in an
6300 ^lsearch^ file, this does not mean the first of these keys in the file. A
6301 complete scan is done for each key, and only if it is not found at all does
6302 Exim move on to try the next key.
6306 [[SECTpartiallookup]]
6307 Partial matching in single-key lookups
6308 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
6309 cindex:[partial matching]
6310 cindex:[wildcard lookups]
6311 cindex:[lookup,partial matching]
6312 cindex:[lookup,wildcard]
6313 cindex:[asterisk,in search type]
6314 The normal operation of a single-key lookup is to search the file for an exact
6315 match with the given key. However, in a number of situations where domains are
6316 being looked up, it is useful to be able to do partial matching. In this case,
6317 information in the file that has a key starting with ``\*.'' is matched by any
6318 domain that ends with the components that follow the full stop. For example, if
6319 a key in a DBM file is
6321 *.dates.fict.example
6323 then when partial matching is enabled this is matched by (amongst others)
6324 '2001.dates.fict.example' and '1984.dates.fict.example'. It is also matched
6325 by 'dates.fict.example', if that does not appear as a separate key in the
6328 *Note*: Partial matching is not available for query-style lookups. It is
6329 also not available for any lookup items in address lists (see section
6330 <<SECTaddresslist>>).
6332 Partial matching is implemented by doing a series of separate lookups using
6333 keys constructed by modifying the original subject key. This means that it can
6334 be used with any of the single-key lookup types, provided that
6335 partial matching keys
6336 beginning with a special prefix (default ``\*.'') are included in the data file.
6337 Keys in the file that do not begin with the prefix are matched only by
6338 unmodified subject keys when partial matching is in use.
6340 Partial matching is requested by adding the string ``partial-'' to the front of
6341 the name of a single-key lookup type, for example, %partial-dbm%. When this is
6342 done, the subject key is first looked up unmodified; if that fails, ``\*.''
6343 is added at the start of the subject key, and it is looked up again. If that
6344 fails, further lookups are tried with dot-separated components removed
6345 from the start of the subject key, one-by-one, and ``\*.'' added on the front of
6348 A minimum number of two non-\* components are required. This can be adjusted
6349 by including a number before the hyphen in the search type. For example,
6350 %partial3-lsearch% specifies a minimum of three non-\* components in the
6351 modified keys. Omitting the number is equivalent to ``partial2-''. If the subject
6352 key is '2250.dates.fict.example' then the following keys are looked up when
6353 the minimum number of non-\* components is two:
6355 2250.dates.fict.example
6356 *.2250.dates.fict.example
6357 *.dates.fict.example
6360 As soon as one key in the sequence is successfully looked up, the lookup
6363 cindex:[lookup,partial matching -- changing prefix]
6364 cindex:[prefix,for partial matching]
6365 The use of ``\*.'' as the partial matching prefix is a default that can be
6366 changed. The motivation for this feature is to allow Exim to operate with file
6367 formats that are used by other MTAs. A different prefix can be supplied in
6368 parentheses instead of the hyphen after ``partial''. For example:
6370 domains = partial(.)lsearch;/some/file
6372 In this example, if the domain is 'a.b.c', the sequence of lookups is
6373 `a.b.c`, `.a.b.c`, and `.b.c` (the default minimum of 2 non-wild
6374 components is unchanged). The prefix may consist of any punctuation characters
6375 other than a closing parenthesis. It may be empty, for example:
6377 domains = partial1()cdb;/some/file
6379 For this example, if the domain is 'a.b.c', the sequence of lookups is
6380 `a.b.c`, `b.c`, and `c`.
6382 If ``partial0'' is specified, what happens at the end (when the lookup with just
6383 one non-wild component has failed, and the original key is shortened right down
6384 to the null string) depends on the prefix:
6386 - If the prefix has zero length, the whole lookup fails.
6388 - If the prefix has length 1, a lookup for just the prefix is done. For
6389 example, the final lookup for ``partial0(.)'' is for `.` alone.
6391 - Otherwise, if the prefix ends in a dot, the dot is removed, and the
6392 remainder is looked up. With the default prefix, therefore, the final lookup is
6393 for ``\*'' on its own.
6395 - Otherwise, the whole prefix is looked up.
6398 If the search type ends in ``\*'' or ``\*@'' (see section
6399 <<SECTdefaultvaluelookups>> above), the search for an ultimate default that this
6400 implies happens after all partial lookups have failed. If ``partial0'' is
6401 specified, adding ``\*'' to the search type has no effect with the default
6402 prefix, because the ``\*'' key is already included in the sequence of partial
6403 lookups. However, there might be a use for lookup types such as
6404 ``partial0(.)lsearch\*''.
6406 The use of ``\*'' in lookup partial matching differs from its use as a wildcard
6407 in domain lists and the like. Partial matching works only in terms of
6408 dot-separated components; a key such as `*fict.example`
6409 in a database file is useless, because the asterisk in a partial matching
6410 subject key is always followed by a dot.
6417 cindex:[lookup,caching]
6418 cindex:[caching,lookup data]
6419 Exim caches all lookup results in order to avoid needless repetition of
6420 lookups. However, because (apart from the daemon) Exim operates as a collection
6421 of independent, short-lived processes, this caching applies only within a
6422 single Exim process. There is no inter-process caching facility.
6424 For single-key lookups, Exim keeps the relevant files open in case there is
6425 another lookup that needs them. In some types of configuration this can lead to
6426 many files being kept open for messages with many recipients. To avoid hitting
6427 the operating system limit on the number of simultaneously open files, Exim
6428 closes the least recently used file when it needs to open more files than its
6429 own internal limit, which can be changed via the %lookup_open_max% option.
6431 The single-key lookup files are closed and the lookup caches are flushed at
6432 strategic points during delivery -- for example, after all routing is complete.
6439 cindex:[lookup,quoting]
6440 cindex:[quoting,in lookups]
6441 When data from an incoming message is included in a query-style lookup, there
6442 is the possibility of special characters in the data messing up the syntax of
6443 the query. For example, a NIS+ query that contains
6447 will be broken if the local part happens to contain a closing square bracket.
6448 For NIS+, data can be enclosed in double quotes like this:
6450 [name="$local_part"]
6452 but this still leaves the problem of a double quote in the data. The rule for
6453 NIS+ is that double quotes must be doubled. Other lookup types have different
6454 rules, and to cope with the differing requirements, an expansion operator
6455 of the following form is provided:
6457 \$\{quote_<lookup-type>:<string>\}
6459 For example, the safest way to write the NIS+ query is
6461 [name="${quote_nisplus:$local_part}"]
6463 See chapter <<CHAPexpand>> for full coverage of string expansions. The quote
6464 operator can be used for all lookup types, but has no effect for single-key
6465 lookups, since no quoting is ever needed in their key strings.
6473 cindex:[dnsdb lookup]
6474 cindex:[lookup,dnsdb]
6475 cindex:[DNS,as a lookup type]
6476 The ^dnsdb^ lookup type uses the DNS as its database. A simple query consists
6477 of a record type and a domain name, separated by an equals sign. For example,
6478 an expansion string could contain:
6480 ${lookup dnsdb{mx=a.b.example}{$value}fail}
6482 The supported DNS record types are A, CNAME, MX, NS, PTR, SRV, and TXT, and,
6483 when Exim is compiled with IPv6 support, AAAA (and A6 if that is also
6484 configured). If no type is given, TXT is assumed. When the type is PTR,
6485 the data can be an IP address, written as normal; inversion and the addition of
6486 %in-addr.arpa% or %ip6.arpa% happens automatically. For example:
6488 ${lookup dnsdb{ptr=192.168.4.5}{$value}fail}
6490 If the data for a PTR record is not a syntactically valid IP address, it is not
6491 altered and nothing is added.
6493 cindex:[MX record,in ^dnsdb^ lookup]
6494 cindex:[SRV record,in ^dnsdb^ lookup]
6495 For an MX lookup, both the preference value and the host name are returned for
6496 each record, separated by a space. For an SRV lookup, the priority, weight,
6497 port, and host name are returned for each record, separated by spaces.
6499 For any record type, if multiple records are found (or, for A6 lookups, if a
6500 single record leads to multiple addresses), the data is returned as a
6501 concatenation, with newline as the default separator. The order, of course,
6502 depends on the DNS resolver. You can specify a different separator character
6503 between multiple records by putting a right angle-bracket followed immediately
6504 by the new separator at the start of the query. For example:
6506 ${lookup dnsdb{>: a=host1.example}}
6508 It is permitted to specify a space as the separator character. Further
6509 white space is ignored.
6511 Pseudo dnsdb record types
6512 ~~~~~~~~~~~~~~~~~~~~~~~~~
6513 cindex:[MX record,in ^dnsdb^ lookup]
6514 By default, both the preference value and the host name are returned for
6515 each MX record, separated by a space. If you want only host names, you can use
6516 the pseudo-type MXH:
6518 ${lookup dnsdb{mxh=a.b.example}}
6520 In this case, the preference values are omitted, and just the host names are
6523 cindex:[name server,for enclosing domain]
6524 Another pseudo-type is ZNS (for ``zone NS''). It performs a lookup for NS
6525 records on the given domain, but if none are found, it removes the first
6526 component of the domain name, and tries again. This process continues until NS
6527 records are found or there are no more components left (or there is a DNS
6528 error). In other words, it may return the name servers for a top-level domain,
6529 but it never returns the root name servers. If there are no NS records for the
6530 top-level domain, the lookup fails. Consider these examples:
6532 ${lookup dnsdb{zns=xxx.quercite.com}}
6533 ${lookup dnsdb{zns=xxx.edu}}
6535 Assuming that in each case there are no NS records for the full domain name,
6536 the first returns the name servers for %quercite.com%, and the second returns
6537 the name servers for %edu%.
6539 You should be careful about how you use this lookup because, unless the
6540 top-level domain does not exist, the lookup always returns some host names. The
6541 sort of use to which this might be put is for seeing if the name servers for a
6542 given domain are on a blacklist. You can probably assume that the name servers
6543 for the high-level domains such as %com% or %co.uk% are not going to be on such
6546 [revisionflag="changed"]
6547 cindex:[CSA,in ^dnsdb^ lookup]
6548 A third pseudo-type is CSA (Client SMTP Authorization), which looks up SRV
6549 records according to the CSA rules, which are described in section
6550 <<SECTverifyCSA>>. Although ^dnsdb^ supports SRV lookups directly, this is not
6551 sufficient because of the extra parent domain search behaviour of CSA. The
6552 result of a successful lookup such as:
6554 [revisionflag="changed"]
6556 ${lookup dnsdb {csa=$sender_helo_name}}
6559 [revisionflag="changed"]
6560 has two space-separated fields: an authorization code and a target host name.
6561 The authorization code can be ``Y'' for yes, ``N'' for no, ``X'' for explicit
6562 authorization required but absent, or ``?'' for unknown.
6566 Multiple dnsdb lookups
6567 ~~~~~~~~~~~~~~~~~~~~~~
6568 In the previous sections, ^dnsdb^ lookups for a single domain are described.
6569 However, you can specify a list of domains or IP addresses in a single
6570 ^dnsdb^ lookup. The list is specified in the normal Exim way, with colon as
6571 the default separator, but with the ability to change this. For example:
6573 ${lookup dnsdb{one.domain.com:two.domain.com}}
6574 ${lookup dnsdb{a=one.host.com:two.host.com}}
6575 ${lookup dnsdb{ptr = <; 1.2.3.4 ; 4.5.6.8}}
6577 In order to retain backwards compatibility, there is one special case: if
6578 the lookup type is PTR and no change of separator is specified, Exim looks
6579 to see if the rest of the string is precisely one IPv6 address. In this
6580 case, it does not treat it as a list.
6582 The data from each lookup is concatenated, with newline separators by default,
6583 in the same way that multiple DNS records for a single item are handled. A
6584 different separator can be specified, as described above.
6586 The ^dnsdb^ lookup fails only if all the DNS lookups fail. If there is a
6587 temporary DNS error for any of them, the behaviour is controlled by
6588 an optional keyword followed by a comma that may appear before the record
6589 type. The possible keywords are ``defer_strict'', ``defer_never'', and
6590 ``defer_lax''. With ``strict'' behaviour, any temporary DNS error causes the
6591 whole lookup to defer. With ``never'' behaviour, a temporary DNS error is
6592 ignored, and the behaviour is as if the DNS lookup failed to find anything.
6593 With ``lax'' behaviour, all the queries are attempted, but a temporary DNS
6594 error causes the whole lookup to defer only if none of the other lookups
6595 succeed. The default is ``lax'', so the following lookups are equivalent:
6597 ${lookup dnsdb{defer_lax,a=one.host.com:two.host.com}}
6598 ${lookup dnsdb{a=one.host.com:two.host.com}}
6600 Thus, in the default case, as long as at least one of the DNS lookups
6601 yields some data, the lookup succeeds.
6609 cindex:[LDAP lookup]
6610 cindex:[lookup,LDAP]
6611 cindex:[Solaris,LDAP]
6612 The original LDAP implementation came from the University of Michigan; this has
6613 become ``Open LDAP'', and there are now two different releases. Another
6614 implementation comes from Netscape, and Solaris 7 and subsequent releases
6615 contain inbuilt LDAP support. Unfortunately, though these are all compatible at
6616 the lookup function level, their error handling is different. For this reason
6617 it is necessary to set a compile-time variable when building Exim with LDAP, to
6618 indicate which LDAP library is in use. One of the following should appear in
6619 your _Local/Makefile_:
6621 LDAP_LIB_TYPE=UMICHIGAN
6622 LDAP_LIB_TYPE=OPENLDAP1
6623 LDAP_LIB_TYPE=OPENLDAP2
6624 LDAP_LIB_TYPE=NETSCAPE
6625 LDAP_LIB_TYPE=SOLARIS
6627 If LDAP_LIB_TYPE is not set, Exim assumes `OPENLDAP1`, which has the
6628 same interface as the University of Michigan version.
6630 There are three LDAP lookup types in Exim. These behave slightly differently in
6631 the way they handle the results of a query:
6633 - ^ldap^ requires the result to contain just one entry; if there are more, it
6636 - ^ldapdn^ also requires the result to contain just one entry, but it is the
6637 Distinguished Name that is returned rather than any attribute values.
6639 - ^ldapm^ permits the result to contain more than one entry; the attributes from
6640 all of them are returned.
6643 For ^ldap^ and ^ldapm^, if a query finds only entries with no attributes,
6644 Exim behaves as if the entry did not exist, and the lookup fails. The format of
6645 the data returned by a successful lookup is described in the next section.
6646 First we explain how LDAP queries are coded.
6650 Format of LDAP queries
6651 ~~~~~~~~~~~~~~~~~~~~~~
6652 cindex:[LDAP,query format]
6653 An LDAP query takes the form of a URL as defined in RFC 2255. For example, in
6654 the configuration of a ^redirect^ router one might have this setting:
6657 data = ${lookup ldap \
6658 {ldap:///cn=$local_part,o=University%20of%20Cambridge,\
6659 c=UK?mailbox?base?}}
6662 cindex:[LDAP,with TLS]
6663 The URL may begin with `ldap` or `ldaps` if your LDAP library supports
6664 secure (encrypted) LDAP connections. The second of these ensures that an
6665 encrypted TLS connection is used.
6670 cindex:[LDAP,quoting]
6671 Two levels of quoting are required in LDAP queries, the first for LDAP itself
6672 and the second because the LDAP query is represented as a URL. Furthermore,
6673 within an LDAP query, two different kinds of quoting are required. For this
6674 reason, there are two different LDAP-specific quoting operators.
6676 The %quote_ldap% operator is designed for use on strings that are part of
6677 filter specifications. Conceptually, it first does the following conversions on
6687 in accordance with RFC 2254. The resulting string is then quoted according
6688 to the rules for URLs, that is, all characters except
6692 are converted to their hex values, preceded by a percent sign. For example:
6694 ${quote_ldap: a(bc)*, a<yz>; }
6698 %20a%5C28bc%5C29%5C2A%2C%20a%3Cyz%3E%3B%20
6700 Removing the URL quoting, this is (with a leading and a trailing space):
6702 a\28bc\29\2A, a<yz>;
6705 The %quote_ldap_dn% operator is designed for use on strings that are part of
6706 base DN specifications in queries. Conceptually, it first converts the string
6707 by inserting a backslash in front of any of the following characters:
6711 It also inserts a backslash before any leading spaces or # characters, and
6712 before any trailing spaces. (These rules are in RFC 2253.) The resulting string
6713 is then quoted according to the rules for URLs. For example:
6715 ${quote_ldap_dn: a(bc)*, a<yz>; }
6719 %5C%20a(bc)*%5C%2C%20a%5C%3Cyz%5C%3E%5C%3B%5C%20
6721 Removing the URL quoting, this is (with a trailing space):
6724 \ a(bc)*\, a\<yz\>\;\
6727 There are some further comments about quoting in the section on LDAP
6728 authentication below.
6733 cindex:[LDAP,connections]
6734 The connection to an LDAP server may either be over TCP/IP, or, when OpenLDAP
6735 is in use, via a Unix domain socket. The example given above does not specify
6736 an LDAP server. A server that is reached by TCP/IP can be specified in a query
6739 ldap://<hostname>:<port>/...
6741 If the port (and preceding colon) are omitted, the standard LDAP port (389) is
6742 used. When no server is specified in a query, a list of default servers is
6743 taken from the %ldap_default_servers% configuration option. This supplies a
6744 colon-separated list of servers which are tried in turn until one successfully
6745 handles a query, or there is a serious error. Successful handling either
6746 returns the requested data, or indicates that it does not exist. Serious errors
6747 are syntactical, or multiple values when only a single value is expected.
6748 Errors which cause the next server to be tried are connection failures, bind
6749 failures, and timeouts.
6751 For each server name in the list, a port number can be given. The standard way
6752 of specifing a host and port is to use a colon separator (RFC 1738). Because
6753 %ldap_default_servers% is a colon-separated list, such colons have to be
6754 doubled. For example
6756 ldap_default_servers = ldap1.example.com::145:ldap2.example.com
6758 If %ldap_default_servers% is unset, a URL with no server name is passed
6759 to the LDAP library with no server name, and the library's default (normally
6760 the local host) is used.
6762 If you are using the OpenLDAP library, you can connect to an LDAP server using
6763 a Unix domain socket instead of a TCP/IP connection. This is specified by using
6764 `ldapi` instead of `ldap` in LDAP queries. What follows here applies only
6765 to OpenLDAP. If Exim is compiled with a different LDAP library, this feature is
6768 For this type of connection, instead of a host name for the server, a pathname
6769 for the socket is required, and the port number is not relevant. The pathname
6770 can be specified either as an item in %ldap_default_servers%, or inline in
6771 the query. In the former case, you can have settings such as
6773 ldap_default_servers = /tmp/ldap.sock : backup.ldap.your.domain
6775 When the pathname is given in the query, you have to escape the slashes as
6776 `%2F` to fit in with the LDAP URL syntax. For example:
6778 ${lookup ldap {ldapi://%2Ftmp%2Fldap.sock/o=...
6780 When Exim processes an LDAP lookup and finds that the ``hostname'' is really
6781 a pathname, it uses the Unix domain socket code, even if the query actually
6782 specifies `ldap` or `ldaps`. In particular, no encryption is used for a
6783 socket connection. This behaviour means that you can use a setting of
6784 %ldap_default_servers% such as in the example above with traditional `ldap`
6785 or `ldaps` queries, and it will work. First, Exim tries a connection via
6786 the Unix domain socket; if that fails, it tries a TCP/IP connection to the
6789 If an explicit `ldapi` type is given in a query when a host name is
6790 specified, an error is diagnosed. However, if there are more items in
6791 %ldap_default_servers%, they are tried. In other words:
6793 - Using a pathname with `ldap` or `ldaps` forces the use of the Unix domain
6796 - Using `ldapi` with a host name causes an error.
6799 Using `ldapi` with no host or path in the query, and no setting of
6800 %ldap_default_servers%, does whatever the library does by default.
6804 LDAP authentication and control information
6805 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
6806 cindex:[LDAP,authentication]
6807 The LDAP URL syntax provides no way of passing authentication and other control
6808 information to the server. To make this possible, the URL in an LDAP query may
6809 be preceded by any number of ``<''name'>=<'value'>' settings, separated by
6810 spaces. If a value contains spaces it must be enclosed in double quotes, and
6811 when double quotes are used, backslash is interpreted in the usual way inside
6812 them. The following names are recognized:
6815 `DEREFERENCE` set the dereferencing parameter
6816 `NETTIME ` set a timeout for a network operation
6817 `USER ` set the DN, for authenticating the LDAP bind
6818 `PASS ` set the password, likewise
6819 `SIZE ` set the limit for the number of entries returned
6820 `TIME ` set the maximum waiting time for a query
6823 The value of the DEREFERENCE parameter must be one of the words ``never'',
6824 ``searching'', ``finding'', or ``always''.
6826 The name CONNECT is an obsolete name for NETTIME, retained for
6827 backwards compatibility. This timeout (specified as a number of seconds) is
6828 enforced from the client end for operations that can be carried out over a
6829 network. Specifically, it applies to network connections and calls to the
6830 'ldap_result()' function. If the value is greater than zero, it is used if
6831 LDAP_OPT_NETWORK_TIMEOUT is defined in the LDAP headers (OpenLDAP), or
6832 if LDAP_X_OPT_CONNECT_TIMEOUT is defined in the LDAP headers (Netscape
6833 SDK 4.1). A value of zero forces an explicit setting of ``no timeout'' for
6834 Netscape SDK; for OpenLDAP no action is taken.
6836 The TIME parameter (also a number of seconds) is passed to the server to
6837 set a server-side limit on the time taken to complete a search.
6840 Here is an example of an LDAP query in an Exim lookup that uses some of these
6841 values. This is a single line, folded for ease of reading:
6844 {user="cn=manager,o=University of Cambridge,c=UK" pass=secret
6845 ldap:///o=University%20of%20Cambridge,c=UK?sn?sub?(cn=foo)}
6848 The encoding of spaces as {pc}20 is a URL thing which should not be done for any
6849 of the auxiliary data. Exim configuration settings that include lookups which
6850 contain password information should be preceded by ``hide'' to prevent non-admin
6851 users from using the %-bP% option to see their values.
6853 The auxiliary data items may be given in any order. The default is no
6854 connection timeout (the system timeout is used), no user or password, no limit
6855 on the number of entries returned, and no time limit on queries.
6857 When a DN is quoted in the USER= setting for LDAP authentication, Exim
6858 removes any URL quoting that it may contain before passing it LDAP. Apparently
6859 some libraries do this for themselves, but some do not. Removing the URL
6860 quoting has two advantages:
6862 - It makes it possible to use the same %quote_ldap_dn% expansion for USER=
6863 DNs as with DNs inside actual queries.
6865 - It permits spaces inside USER= DNs.
6867 For example, a setting such as
6869 USER=cn=${quote_ldap_dn:$1}
6871 should work even if $1$ contains spaces.
6873 Expanded data for the PASS= value should be quoted using the %quote%
6874 expansion operator, rather than the LDAP quote operators. The only reason this
6875 field needs quoting is to ensure that it conforms to the Exim syntax, which
6876 does not allow unquoted spaces. For example:
6881 The LDAP authentication mechanism can be used to check passwords as part of
6882 SMTP authentication. See the %ldapauth% expansion string condition in chapter
6887 Format of data returned by LDAP
6888 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
6889 cindex:[LDAP,returned data formats]
6890 The ^ldapdn^ lookup type returns the Distinguished Name from a single entry as
6891 a sequence of values, for example
6893 cn=manager, o=University of Cambridge, c=UK
6896 The ^ldap^ lookup type generates an error if more than one entry matches the
6897 search filter, whereas ^ldapm^ permits this case, and inserts a newline in
6898 the result between the data from different entries. It is possible for multiple
6899 values to be returned for both ^ldap^ and ^ldapm^, but in the former case
6900 you know that whatever values are returned all came from a single entry in the
6903 In the common case where you specify a single attribute in your LDAP query, the
6904 result is not quoted, and does not contain the attribute name. If the attribute
6905 has multiple values, they are separated by commas.
6907 If you specify multiple attributes, the result contains space-separated, quoted
6908 strings, each preceded by the attribute name and an equals sign. Within the
6909 quotes, the quote character, backslash, and newline are escaped with
6910 backslashes, and commas are used to separate multiple values for the attribute.
6911 Apart from the escaping, the string within quotes takes the same form as the
6912 output when a single attribute is requested. Specifying no attributes is the
6913 same as specifying all of an entry's attributes.
6915 Here are some examples of the output format. The first line of each pair is an
6916 LDAP query, and the second is the data that is returned. The attribute called
6917 %attr1% has two values, whereas %attr2% has only one value:
6919 ldap:///o=base?attr1?sub?(uid=fred)
6922 ldap:///o=base?attr2?sub?(uid=fred)
6925 ldap:///o=base?attr1,attr2?sub?(uid=fred)
6926 attr1="value1.1, value1.2" attr2="value two"
6928 ldap:///o=base??sub?(uid=fred)
6929 objectClass="top" attr1="value1.1, value1.2" attr2="value two"
6931 The %extract% operator in string expansions can be used to pick out individual
6932 fields from data that consists of 'key'='value' pairs. You can make use
6933 of Exim's %-be% option to run expansion tests and thereby check the results of
6942 cindex:[NIS+ lookup type]
6943 cindex:[lookup,NIS+]
6944 NIS+ queries consist of a NIS+ 'indexed name' followed by an optional colon
6945 and field name. If this is given, the result of a successful query is the
6946 contents of the named field; otherwise the result consists of a concatenation
6947 of 'field-name=field-value' pairs, separated by spaces. Empty values and
6948 values containing spaces are quoted. For example, the query
6950 [name=mg1456],passwd.org_dir
6952 might return the string
6954 name=mg1456 passwd="" uid=999 gid=999 gcos="Martin Guerre"
6955 home=/home/mg1456 shell=/bin/bash shadow=""
6957 (split over two lines here to fit on the page), whereas
6959 [name=mg1456],passwd.org_dir:gcos
6965 with no quotes. A NIS+ lookup fails if NIS+ returns more than one table entry
6966 for the given indexed key. The effect of the %quote_nisplus% expansion
6967 operator is to double any quote characters within the text.
6974 [revisionflag="changed"]
6975 cindex:[SQL lookup types]
6976 Exim can support lookups in Interbase, MySQL, Oracle, PostgreSQL, and SQLite
6977 databases. Queries for these databases contain SQL statements, so an example
6981 ${lookup mysql{select mailbox from users where id='userx'}\
6985 If the result of the query contains more than one field, the data for each
6986 field in the row is returned, preceded by its name, so the result of
6989 ${lookup pgsql{select home,name from users where id='userx'}\
6995 home=/home/userx name="Mister X"
6997 Empty values and values containing spaces are double quoted, with embedded
6998 quotes escaped by a backslash. If the result of the query contains just one
6999 field, the value is passed back verbatim, without a field name, for example:
7003 If the result of the query yields more than one row, it is all concatenated,
7004 with a newline between the data for each row.
7007 More about MySQL, PostgreSQL, Oracle, and Interbase
7008 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7009 cindex:[MySQL,lookup type]
7010 cindex:[PostgreSQL lookup type]
7011 cindex:[lookup,MySQL]
7012 cindex:[lookup,PostgreSQL]
7013 cindex:[Oracle,lookup type]
7014 cindex:[lookup,Oracle]
7015 cindex:[Interbase lookup type]
7016 cindex:[lookup,Interbase]
7017 If any MySQL, PostgreSQL, Oracle, or Interbase lookups are used, the
7018 %mysql_servers%, %pgsql_servers%, %oracle_servers%, or %ibase_servers% option
7019 (as appropriate) must be set to a colon-separated list of server information.
7020 Each item in the list is a slash-separated list of four items: host name,
7021 database name, user name, and password. In the case of Oracle, the host name
7022 field is used for the ``service name'', and the database name field is not used
7023 and should be empty. For example:
7025 hide oracle_servers = oracle.plc.example//userx/abcdwxyz
7027 Because password data is sensitive, you should always precede the setting with
7028 ``hide'', to prevent non-admin users from obtaining the setting via the %-bP%
7029 option. Here is an example where two MySQL servers are listed:
7032 hide mysql_servers = localhost/users/root/secret:\
7033 otherhost/users/root/othersecret
7036 For MySQL and PostgreSQL, a host may be specified as <'name'>:<'port'> but
7037 because this is a colon-separated list, the colon has to be doubled. For each
7038 query, these parameter groups are tried in order until a connection and a query
7041 The %quote_mysql%, %quote_pgsql%, and %quote_oracle% expansion operators
7042 convert newline, tab, carriage return, and backspace to \n, \t, \r, and \b
7043 respectively, and the characters single-quote, double-quote, and backslash
7044 itself are escaped with backslashes. The %quote_pgsql% expansion operator, in
7045 addition, escapes the percent and underscore characters. This cannot be done
7046 for MySQL because these escapes are not recognized in contexts where these
7047 characters are not special.
7050 Special MySQL features
7051 ~~~~~~~~~~~~~~~~~~~~~~
7052 For MySQL, an empty host name or the use of ``localhost'' in %mysql_servers%
7053 causes a connection to the server on the local host by means of a Unix domain
7054 socket. An alternate socket can be specified in parentheses. The full syntax of
7055 each item in %mysql_servers% is:
7058 <'hostname'>::<'port'>(<'socket name'>)/<'database'>/<'user'>/<'password'>
7061 Any of the three sub-parts of the first field can be omitted. For normal use on
7062 the local host it can be left blank or set to just ``localhost''.
7064 No database need be supplied -- but if it is absent here, it must be given in
7067 If a MySQL query is issued that does not request any data (an insert, update,
7068 or delete command), the result of the lookup is the number of rows affected.
7070 *Warning*: this can be misleading. If an update does not actually change
7071 anything (for example, setting a field to the value it already has), the result
7072 is zero because no rows are affected.
7075 Special PostgreSQL features
7076 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
7077 PostgreSQL lookups can also use Unix domain socket connections to the database.
7078 This is usually faster and costs less CPU time than a TCP/IP connection.
7079 However it can be used only if the mail server runs on the same machine as the
7080 database server. A configuration line for PostgreSQL via Unix domain sockets
7083 hide pgsql_servers = (/tmp/.s.PGSQL.5432)/db/user/password : ...
7085 In other words, instead of supplying a host name, a path to the socket is
7086 given. The path name is enclosed in parentheses so that its slashes aren't
7087 visually confused with the delimiters for the other server parameters.
7089 If a PostgreSQL query is issued that does not request any data (an insert,
7090 update, or delete command), the result of the lookup is the number of rows
7096 [revisionflag="changed"]
7097 cindex:[lookup,SQLite]
7098 cindex:[SQLite lookup type]
7099 SQLite is different to the other SQL lookups because a file name is required in
7100 addition to the SQL query. An SQLite database is a single file, and there is no
7101 daemon as in the other SQL databases. The interface to Exim requires the name
7102 of the file, as an absolute path, to be given at the start of the query. It is
7103 separated from the query by white space. This means that the path name cannot
7104 contain white space. Here is a lookup expansion example:
7107 ${lookup sqlite {/some/thing/sqlitedb \
7108 select name from aliases where id='userx';}}
7111 [revisionflag="changed"]
7112 In a list, the syntax is similar. For example:
7115 domainlist relay_domains = sqlite;/some/thing/sqlitedb \
7116 select * from relays where ip='$sender_host_address';
7119 [revisionflag="changed"]
7120 The only character affected by the %quote_sqlite% operator is a single
7121 quote, which it doubles.
7123 [revisionflag="changed"]
7124 The SQLite library handles multiple simultaneous accesses to the database
7125 internally. Multiple readers are permitted, but only one process can
7126 update at once. Attempts to access the database while it is being updated
7127 are rejected after a timeout period, during which the SQLite library
7128 waits for the lock to be released. In Exim, the default timeout is set
7129 to 5 seconds, but it can be changed by means of the %sqlite_lock_timeout%
7134 ////////////////////////////////////////////////////////////////////////////
7135 ////////////////////////////////////////////////////////////////////////////
7137 [[CHAPdomhosaddlists]]
7138 [titleabbrev="Domain, host, and address lists"]
7139 Domain, host, address, and local part lists
7140 -------------------------------------------
7141 cindex:[list of domains; hosts; etc.]
7142 A number of Exim configuration options contain lists of domains, hosts,
7143 email addresses, or local parts. For example, the %hold_domains% option
7144 contains a list of domains whose delivery is currently suspended. These lists
7145 are also used as data in ACL statements (see chapter <<CHAPACL>>), and as
7146 arguments to expansion conditions such as %match_domain%.
7148 Each item in one of these lists is a pattern to be matched against a domain,
7149 host, email address, or local part, respectively. In the sections below, the
7150 different types of pattern for each case are described, but first we cover some
7151 general facilities that apply to all four kinds of list.
7157 cindex:[expansion,of lists]
7158 Each list is expanded as a single string before it is used. The result of
7159 expansion must be a list, possibly containing empty items, which is split up
7160 into separate items for matching. By default, colon is the separator character,
7161 but this can be varied if necessary. See sections <<SECTlistconstruct>> and
7162 <<SECTempitelis>> for details of the list syntax; the second of these discusses
7163 the way to specify empty list items.
7166 If the string expansion is forced to fail, Exim behaves as if the item it is
7167 testing (domain, host, address, or local part) is not in the list. Other
7168 expansion failures cause temporary errors.
7170 If an item in a list is a regular expression, backslashes, dollars and possibly
7171 other special characters in the expression must be protected against
7172 misinterpretation by the string expander. The easiest way to do this is to use
7173 the `\N` expansion feature to indicate that the contents of the regular
7174 expression should not be expanded. For example, in an ACL you might have:
7177 deny senders = \N^\d{8}\w@.*\.baddomain\.example$\N : \
7178 ${lookup{$domain}lsearch{/badsenders/bydomain}}
7181 The first item is a regular expression that is protected from expansion by
7182 `\N`, whereas the second uses the expansion to obtain a list of unwanted
7183 senders based on the receiving domain.
7188 Negated items in lists
7189 ~~~~~~~~~~~~~~~~~~~~~~
7190 cindex:[list,negation]
7191 cindex:[negation in lists]
7192 Items in a list may be positive or negative. Negative items are indicated by a
7193 leading exclamation mark, which may be followed by optional white space. A list
7194 defines a set of items (domains, etc). When Exim processes one of these lists,
7195 it is trying to find out whether a domain, host, address, or local part
7196 (respectively) is in the set that is defined by the list. It works like this:
7198 The list is scanned from left to right. If a positive item is matched, the
7199 subject that is being checked is in the set; if a negative item is matched, the
7200 subject is not in the set. If the end of the list is reached without the
7201 subject having matched any of the patterns, it is in the set if the last item
7202 was a negative one, but not if it was a positive one. For example, the list in
7204 domainlist relay_domains = !a.b.c : *.b.c
7206 matches any domain ending in '.b.c' except for 'a.b.c'. Domains that match
7207 neither 'a.b.c' nor '*.b.c' do not match, because the last item in the
7208 list is positive. However, if the setting were
7210 domainlist relay_domains = !a.b.c
7212 then all domains other than 'a.b.c' would match because the last item in the
7213 list is negative. In other words, a list that ends with a negative item behaves
7214 as if it had an extra item `:*` on the end.
7216 Another way of thinking about positive and negative items in lists is to read
7217 the connector as ``or'' after a positive item and as ``and'' after a negative
7225 cindex:[list,file name in]
7226 If an item in a domain, host, address, or local part list is an absolute file
7227 name (beginning with a slash character), each line of the file is read and
7228 processed as if it were an independent item in the list, except that further
7229 file names are not allowed,
7230 and no expansion of the data from the file takes place.
7231 Empty lines in the file are ignored, and the file may also contain comment
7234 - For domain and host lists, if a # character appears anywhere in a line of the
7235 file, it and all following characters are ignored.
7237 - Because local parts may legitimately contain # characters, a comment in an
7238 address list or local part list file is recognized only if # is preceded by
7239 white space or the start of the line. For example:
7241 not#comment@x.y.z # but this is a comment
7243 Putting a file name in a list has the same effect as inserting each line of the
7244 file as an item in the list (blank lines and comments excepted). However, there
7245 is one important difference: the file is read each time the list is processed,
7246 so if its contents vary over time, Exim's behaviour changes.
7248 If a file name is preceded by an exclamation mark, the sense of any match
7249 within the file is inverted. For example, if
7251 hold_domains = !/etc/nohold-domains
7253 and the file contains the lines
7258 then 'a.b.c' is in the set of domains defined by %hold_domains%, whereas any
7259 domain matching `*.b.c` is not.
7263 An lsearch file is not an out-of-line list
7264 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7265 As will be described in the sections that follow, lookups can be used in lists
7266 to provide indexed methods of checking list membership. There has been some
7267 confusion about the way ^lsearch^ lookups work in lists. Because
7268 an ^lsearch^ file contains plain text and is scanned sequentially, it is
7269 sometimes thought that it is allowed to contain wild cards and other kinds of
7270 non-constant pattern. This is not the case. The keys in an ^lsearch^ file are
7271 always fixed strings, just as for any other single-key lookup type.
7273 If you want to use a file to contain wild-card patterns that form part of a
7274 list, just give the file name on its own, without a search type, as described
7275 in the previous section.
7283 cindex:[named lists]
7285 A list of domains, hosts, email addresses, or local parts can be given a name
7286 which is then used to refer to the list elsewhere in the configuration. This is
7287 particularly convenient if the same list is required in several different
7288 places. It also allows lists to be given meaningful names, which can improve
7289 the readability of the configuration. For example, it is conventional to define
7290 a domain list called 'local_domains' for all the domains that are handled
7291 locally on a host, using a configuration line such as
7293 domainlist local_domains = localhost:my.dom.example
7295 Named lists are referenced by giving their name preceded by a plus sign, so,
7296 for example, a router that is intended to handle local domains would be
7297 configured with the line
7299 domains = +local_domains
7301 The first router in a configuration is often one that handles all domains
7302 except the local ones, using a configuration with a negated item like this:
7306 domains = ! +local_domains
7307 transport = remote_smtp
7310 The four kinds of named list are created by configuration lines starting with
7311 the words %domainlist%, %hostlist%, %addresslist%, or %localpartlist%,
7312 respectively. Then there follows the name that you are defining, followed by an
7313 equals sign and the list itself. For example:
7315 hostlist relay_hosts = 192.168.23.0/24 : my.friend.example
7316 addresslist bad_senders = cdb;/etc/badsenders
7318 A named list may refer to other named lists:
7320 domainlist dom1 = first.example : second.example
7321 domainlist dom2 = +dom1 : third.example
7322 domainlist dom3 = fourth.example : +dom2 : fifth.example
7325 *Warning*: If the last item in a referenced list is a negative one, the
7326 effect may not be what you intended, because the negation does not propagate
7327 out to the higher level. For example, consider:
7329 domainlist dom1 = !a.b
7330 domainlist dom2 = +dom1 : *.b
7332 The second list specifies ``either in the %dom1% list or '*.b'##''. The first
7333 list specifies just ``not 'a.b'##'', so the domain 'x.y' matches it. That means
7334 it matches the second list as well. The effect is not the same as
7336 domainlist dom2 = !a.b : *.b
7338 where 'x.y' does not match. It's best to avoid negation altogether in
7339 referenced lists if you can.
7341 Named lists may have a performance advantage. When Exim is routing an
7342 address or checking an incoming message, it caches the result of tests on named
7343 lists. So, if you have a setting such as
7345 domains = +local_domains
7347 on several of your routers
7348 or in several ACL statements,
7349 the actual test is done only for the first one. However, the caching works only
7350 if there are no expansions within the list itself or any sublists that it
7351 references. In other words, caching happens only for lists that are known to be
7352 the same each time they are referenced.
7354 By default, there may be up to 16 named lists of each type. This limit can be
7355 extended by changing a compile-time variable. The use of domain and host lists
7356 is recommended for concepts such as local domains, relay domains, and relay
7357 hosts. The default configuration is set up like this.
7361 Named lists compared with macros
7362 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7363 cindex:[list,named compared with macro]
7364 cindex:[macro,compared with named list]
7365 At first sight, named lists might seem to be no different from macros in the
7366 configuration file. However, macros are just textual substitutions. If you
7369 ALIST = host1 : host2
7370 auth_advertise_hosts = !ALIST
7372 it probably won't do what you want, because that is exactly the same as
7374 auth_advertise_hosts = !host1 : host2
7376 Notice that the second host name is not negated. However, if you use a host
7379 hostlist alist = host1 : host2
7380 auth_advertise_hosts = ! +alist
7382 the negation applies to the whole list, and so that is equivalent to
7384 auth_advertise_hosts = !host1 : !host2
7391 cindex:[list,caching of named]
7392 cindex:[caching,named lists]
7393 While processing a message, Exim caches the result of checking a named list if
7394 it is sure that the list is the same each time. In practice, this means that
7395 the cache operates only if the list contains no \$ characters, which guarantees
7396 that it will not change when it is expanded. Sometimes, however, you may have
7397 an expanded list that you know will be the same each time within a given
7398 message. For example:
7401 domainlist special_domains = \
7402 ${lookup{$sender_host_address}cdb{/some/file}}
7405 This provides a list of domains that depends only on the sending host's IP
7406 address. If this domain list is referenced a number of times (for example,
7407 in several ACL lines, or in several routers) the result of the check is not
7408 cached by default, because Exim does not know that it is going to be the
7409 same list each time.
7411 By appending `_cache` to `domainlist` you can tell Exim to go ahead and
7412 cache the result anyway. For example:
7414 domainlist_cache special_domains = ${lookup{...
7416 If you do this, you should be absolutely sure that caching is going to do
7417 the right thing in all cases. When in doubt, leave it out.
7424 cindex:[domain list,patterns for]
7425 cindex:[list,domain list]
7426 Domain lists contain patterns that are to be matched against a mail domain.
7427 The following types of item may appear in domain lists:
7429 - cindex:[primary host name]
7430 cindex:[host name, matched in domain list]
7431 cindex:[%primary_hostname%]
7432 cindex:[domain list,matching primary host name]
7433 cindex:[@ in a domain list]
7434 If a pattern consists of a single @ character, it matches the local host name,
7435 as set by the %primary_hostname% option (or defaulted). This makes it possible
7436 to use the same configuration file on several different hosts that differ only
7439 - cindex:[@{bk} in a domain list]
7440 cindex:[domain list,matching local IP interfaces]
7441 cindex:[domain literal]
7442 If a pattern consists of the string `@[]` it matches any local IP interface
7443 address, enclosed in square brackets, as in an email address that contains a
7445 In today's Internet, the use of domain literals is controversial.
7448 cindex:[@mx_primary]
7449 cindex:[@mx_secondary]
7450 cindex:[domain list,matching MX pointers to local host]
7451 If a pattern consists of the string `@mx_any` it matches any domain that
7452 has an MX record pointing to the local host or to any host that is listed in
7453 cindex:[%hosts_treat_as_local%]
7454 %hosts_treat_as_local%. The items `@mx_primary` and `@mx_secondary`
7455 are similar, except that the first matches only when a primary MX target is the
7456 local host, and the second only when no primary MX target is the local host,
7457 but a secondary MX target is. ``Primary'' means an MX record with the lowest
7458 preference value -- there may of course be more than one of them.
7460 The MX lookup that takes place when matching a pattern of this type is
7461 performed with the resolver options for widening names turned off. Thus, for
7462 example, a single-component domain will 'not' be expanded by adding the
7463 resolver's default domain. See the %qualify_single% and %search_parents%
7464 options of the ^dnslookup^ router for a discussion of domain widening.
7466 Sometimes you may want to ignore certain IP addresses when using one of these
7467 patterns. You can specify this by following the pattern with `/ignore=`<'ip
7468 list'>, where <'ip list'> is a list of IP addresses. These addresses are
7469 ignored when processing the pattern (compare the %ignore_target_hosts% option
7470 on a router). For example:
7472 domains = @mx_any/ignore=127.0.0.1
7474 This example matches any domain that has an MX record pointing to one of
7475 the local host's IP addresses other than 127.0.0.1.
7477 The list of IP addresses is in fact processed by the same code that processes
7478 host lists, so it may contain CIDR-coded network specifications and it may also
7479 contain negative items.
7481 Because the list of IP addresses is a sublist within a domain list, you have to
7482 be careful about delimiters if there is more than one address. Like any other
7483 list, the default delimiter can be changed. Thus, you might have:
7486 domains = @mx_any/ignore=<;127.0.0.1;0.0.0.0 : \
7487 an.other.domain : ...
7490 so that the sublist uses semicolons for delimiters. When IPv6 addresses are
7491 involved, it is easiest to change the delimiter for the main list as well:
7494 domains = <? @mx_any/ignore=<;127.0.0.1;::1 ? \
7495 an.other.domain ? ...
7498 - cindex:[asterisk,in domain list]
7499 cindex:[domain list,asterisk in]
7500 cindex:[domain list,matching ``ends with'']
7501 If a pattern starts with an asterisk, the remaining characters of the pattern
7502 are compared with the terminating characters of the domain. The use of ``\*'' in
7503 domain lists differs from its use in partial matching lookups. In a domain
7504 list, the character following the asterisk need not be a dot, whereas partial
7505 matching works only in terms of dot-separated components. For example, a domain
7506 list item such as `*key.ex` matches 'donkey.ex' as well as
7509 - cindex:[regular expressions,in domain list]
7510 cindex:[domain list,matching regular expression]
7511 If a pattern starts with a circumflex character, it is treated as a regular
7512 expression, and matched against the domain using a regular expression matching
7513 function. The circumflex is treated as part of the regular expression.
7514 References to descriptions of the syntax of regular expressions are given in
7515 chapter <<CHAPregexp>>.
7517 *Warning*: Because domain lists are expanded before being processed, you
7518 must escape any backslash and dollar characters in the regular expression, or
7519 use the special `\N` sequence (see chapter <<CHAPexpand>>) to specify that it
7520 is not to be expanded (unless you really do want to build a regular expression
7521 by expansion, of course).
7523 - cindex:[lookup,in domain list]
7524 cindex:[domain list,matching by lookup]
7525 If a pattern starts with the name of a single-key lookup type followed by a
7526 semicolon (for example, ``dbm;'' or ``lsearch;''), the remainder of the pattern
7527 must be a file name in a suitable format for the lookup type. For example, for
7528 ``cdb;'' it must be an absolute path:
7530 domains = cdb;/etc/mail/local_domains.cdb
7532 The appropriate type of lookup is done on the file using the domain name as the
7533 key. In most cases, the data that is looked up is not used; Exim is interested
7534 only in whether or not the key is present in the file. However, when a lookup
7535 is used for the %domains% option on a router
7536 or a %domains% condition in an ACL statement, the data is preserved in the
7537 $domain_data$ variable and can be referred to in other router options or
7538 other statements in the same ACL.
7540 - Any of the single-key lookup type names may be preceded by ``partial<''n'>-',
7541 where the <'n'> is optional, for example,
7543 domains = partial-dbm;/partial/domains
7545 This causes partial matching logic to be invoked; a description of how this
7546 works is given in section <<SECTpartiallookup>>.
7548 - cindex:[asterisk,in lookup type]
7549 Any of the single-key lookup types may be followed by an asterisk. This causes
7550 a default lookup for a key consisting of a single asterisk to be done if the
7551 original lookup fails. This is not a useful feature when using a domain list to
7552 select particular domains (because any domain would match), but it might have
7553 value if the result of the lookup is being used via the $domain_data$
7556 - If the pattern starts with the name of a query-style lookup type followed by a
7557 semicolon (for example, ``nisplus;'' or ``ldap;''), the remainder of the pattern
7558 must be an appropriate query for the lookup type, as described in chapter
7559 <<CHAPfdlookup>>. For example:
7562 hold_domains = mysql;select domain from holdlist \
7563 where domain = '$domain';
7566 In most cases, the data that is looked up is not used (so for an SQL query, for
7567 example, it doesn't matter what field you select). Exim is interested only in
7568 whether or not the query succeeds. However, when a lookup is used for the
7569 %domains% option on a router, the data is preserved in the $domain_data$
7570 variable and can be referred to in other options.
7572 - cindex:[domain list,matching literal domain name]
7573 If none of the above cases apply, a caseless textual comparison is made
7574 between the pattern and the domain.
7577 Here is an example that uses several different kinds of pattern:
7580 domainlist funny_domains = \
7583 *.foundation.fict.example : \
7584 \N^[1-2]\d{3}\.fict\.example$\N : \
7585 partial-dbm;/opt/data/penguin/book : \
7586 nis;domains.byname : \
7587 nisplus;[name=$domain,status=local],domains.org_dir
7590 There are obvious processing trade-offs among the various matching modes. Using
7591 an asterisk is faster than a regular expression, and listing a few names
7592 explicitly probably is too. The use of a file or database lookup is expensive,
7593 but may be the only option if hundreds of names are required. Because the
7594 patterns are tested in order, it makes sense to put the most commonly matched
7602 cindex:[host list,patterns in]
7603 cindex:[list,host list]
7604 Host lists are used to control what remote hosts are allowed to do. For
7605 example, some hosts may be allowed to use the local host as a relay, and some
7606 may be permitted to use the SMTP ETRN command. Hosts can be identified in
7607 two different ways, by name or by IP address. In a host list, some types of
7608 pattern are matched to a host name, and some are matched to an IP address.
7609 You need to be particularly careful with this when single-key lookups are
7610 involved, to ensure that the right value is being used as the key.
7613 Special host list patterns
7614 ~~~~~~~~~~~~~~~~~~~~~~~~~~
7615 cindex:[empty item in hosts list]
7616 cindex:[host list,empty string in]
7617 If a host list item is the empty string, it matches only when no remote host is
7618 involved. This is the case when a message is being received from a local
7619 process using SMTP on the standard input, that is, when a TCP/IP connection is
7622 cindex:[asterisk,in host list]
7623 The special pattern ``\*'' in a host list matches any host or no host. Neither
7624 the IP address nor the name is actually inspected.
7629 Host list patterns that match by IP address
7630 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7631 cindex:[host list,matching IP addresses]
7632 If an IPv4 host calls an IPv6 host and the call is accepted on an IPv6 socket,
7633 the incoming address actually appears in the IPv6 host as
7634 ``::`ffff`:<''v4address'>'. When such an address is tested against a host
7635 list, it is converted into a traditional IPv4 address first. (Not all operating
7636 systems accept IPv4 calls on IPv6 sockets, as there have been some security
7639 The following types of pattern in a host list check the remote host by
7640 inspecting its IP address:
7642 - If the pattern is a plain domain name (not a regular expression, not starting
7643 with \*, not a lookup of any kind), Exim calls the operating system function
7644 to find the associated IP address(es). Exim uses the newer
7645 'getipnodebyname()' function when available, otherwise 'gethostbyname()'.
7646 This typically causes a forward DNS lookup of the name. The result is compared
7647 with the IP address of the subject host.
7649 If there is a temporary problem (such as a DNS timeout) with the host name
7650 lookup, a temporary error occurs. For example, if the list is being used in an
7651 ACL condition, the ACL gives a ``defer'' response, usually leading to a temporary
7652 SMTP error code. If no IP address can be found for the host name, what happens
7653 is described in section <<SECTbehipnot>> below.
7655 - cindex:[@ in a host list]
7656 If the pattern is ``@'', the primary host name is substituted and used as a
7657 domain name, as just described.
7659 - If the pattern is an IP address, it is matched against the IP address of the
7660 subject host. IPv4 addresses are given in the normal ``dotted-quad'' notation.
7661 IPv6 addresses can be given in colon-separated format, but the colons have to
7662 be doubled so as not to be taken as item separators when the default list
7663 separator is used. IPv6 addresses are recognized even when Exim is compiled
7664 without IPv6 support. This means that if they appear in a host list on an
7665 IPv4-only host, Exim will not treat them as host names. They are just addresses
7666 that can never match a client host.
7668 - cindex:[@{bk} in a host list]
7669 If the pattern is ``@[]'', it matches the IP address of any IP interface on
7670 the local host. For example, if the local host is an IPv4 host with one
7671 interface address 10.45.23.56, these two ACL statements have the same effect:
7673 accept hosts = 127.0.0.1 : 10.45.23.56
7676 - cindex:[CIDR notation]
7677 If the pattern is an IP address followed by a slash and a mask length (for
7678 example 10.11.42.0/24), it is matched against the IP address of the subject
7679 host under the given mask. This allows, an entire network of hosts to be
7680 included (or excluded) by a single item. The mask uses CIDR notation; it
7681 specifies the number of address bits that must match, starting from the most
7682 significant end of the address.
7684 *Note*: the mask is 'not' a count of addresses, nor is it the high number
7685 of a range of addresses. It is the number of bits in the network portion of the
7686 address. The above example specifies a 24-bit netmask, so it matches all 256
7687 addresses in the 10.11.42.0 network. An item such as
7691 matches just two addresses, 192.168.23.236 and 192.168.23.237. A mask value of
7692 32 for an IPv4 address is the same as no mask at all; just a single address
7695 Here is another example which shows an IPv4 and an IPv6 network:
7698 recipient_unqualified_hosts = 192.168.0.0/16: \
7699 3ffe::ffff::836f::::/48
7702 The doubling of list separator characters applies only when these items
7703 appear inline in a host list. It is not required when indirecting via a file.
7706 recipient_unqualified_hosts = /opt/exim/unqualnets
7708 could make use of a file containing
7713 to have exactly the same effect as the previous example. When listing IPv6
7714 addresses inline, it is usually more convenient to use the facility for
7715 changing separator characters. This list contains the same two networks:
7718 recipient_unqualified_hosts = <; 172.16.0.0/12; \
7722 The separator is changed to semicolon by the leading ``<;'' at the start of the
7728 [[SECThoslispatsikey]]
7729 Host list patterns for single-key lookups by host address
7730 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7731 cindex:[host list,lookup of IP address]
7732 When a host is to be identified by a single-key lookup of its complete IP
7733 address, the pattern takes this form:
7735 net-<single-key-search-type>;<search-data>
7739 hosts_lookup = net-cdb;/hosts-by-ip.db
7741 The text form of the IP address of the subject host is used as the lookup key.
7742 IPv6 addresses are converted to an unabbreviated form, using lower case
7743 letters, with dots as separators because colon is the key terminator in
7744 ^lsearch^ files. [Colons can in fact be used in keys in ^lsearch^ files by
7745 quoting the keys, but this is a facility that was added later.] The data
7746 returned by the lookup is not used.
7748 cindex:[IP address,masking]
7749 cindex:[host list,masked IP address]
7750 Single-key lookups can also be performed using masked IP addresses, using
7751 patterns of this form:
7753 net<number>-<single-key-search-type>;<search-data>
7757 net24-dbm;/networks.db
7759 The IP address of the subject host is masked using <'number'> as the mask
7760 length. A textual string is constructed from the masked value, followed by the
7761 mask, and this is used as the lookup key. For example, if the host's IP address
7762 is 192.168.34.6, the key that is looked up for the above example is
7763 ``192.168.34.0/24''. IPv6 addresses are converted to a text value using lower
7764 case letters and dots as separators instead of the more usual colon, because
7765 colon is the key terminator in ^lsearch^ files. Full, unabbreviated IPv6
7766 addresses are always used.
7768 *Warning*: Specifing %net32-% (for an IPv4 address) or %net128-% (for an
7769 IPv6 address) is not the same as specifing just %net-% without a number. In
7770 the former case the key strings include the mask value, whereas in the latter
7771 case the IP address is used on its own.
7775 [[SECThoslispatnam]]
7776 Host list patterns that match by host name
7777 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7778 cindex:[host,lookup failures]
7779 cindex:[unknown host name]
7780 cindex:[host list,matching host name]
7781 There are several types of pattern that require Exim to know the name of the
7782 remote host. These are either wildcard patterns or lookups by name. (If a
7783 complete hostname is given without any wildcarding, it is used to find an IP
7784 address to match against, as described in the section <<SECThoslispatip>> above.)
7786 If the remote host name is not already known when Exim encounters one of these
7787 patterns, it has to be found from the IP address.
7788 Although many sites on the Internet are conscientious about maintaining reverse
7789 DNS data for their hosts, there are also many that do not do this.
7790 Consequently, a name cannot always be found, and this may lead to unwanted
7791 effects. Take care when configuring host lists with wildcarded name patterns.
7792 Consider what will happen if a name cannot be found.
7794 Because of the problems of determining host names from IP addresses, matching
7795 against host names is not as common as matching against IP addresses.
7797 By default, in order to find a host name, Exim first does a reverse DNS lookup;
7798 if no name is found in the DNS, the system function ('gethostbyaddr()' or
7799 'getipnodebyaddr()' if available) is tried. The order in which these lookups
7800 are done can be changed by setting the %host_lookup_order% option.
7802 There are some options that control what happens if a host name cannot be
7803 found. These are described in section <<SECTbehipnot>> below.
7805 cindex:[host,alias for]
7806 cindex:[alias for host]
7807 As a result of aliasing, hosts may have more than one name. When processing any
7808 of the following types of pattern, all the host's names are checked:
7810 - cindex:[asterisk,in host list]
7811 If a pattern starts with ``\*'' the remainder of the item must match the end of
7812 the host name. For example, `*.b.c` matches all hosts whose names end in
7813 '.b.c'. This special simple form is provided because this is a very common
7814 requirement. Other kinds of wildcarding require the use of a regular
7817 - cindex:[regular expressions,in host list]
7818 cindex:[host list,regular expression in]
7819 If the item starts with ``^'' it is taken to be a regular expression which is
7820 matched against the host name. For example,
7824 is a regular expression that matches either of the two hosts 'a.c.d' or
7825 'b.c.d'. When a regular expression is used in a host list, you must take care
7826 that backslash and dollar characters are not misinterpreted as part of the
7827 string expansion. The simplest way to do this is to use `\N` to mark that
7828 part of the string as non-expandable. For example:
7830 sender_unqualified_hosts = \N^(a|b)\.c\.d$\N : ....
7832 *Warning*: If you want to match a complete host name, you must include the
7833 `\$` terminating metacharacter in the regular expression, as in the above
7834 example. Without it, a match at the start of the host name is all that is
7841 Behaviour when an IP address or name cannot be found
7842 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7843 cindex:[host,lookup failures]
7844 While processing a host list, Exim may need to look up an IP address from a
7845 name (see section <<SECThoslispatip>>), or it may need to look up a host name
7846 from an IP address (see section <<SECThoslispatnam>>). In either case, the
7847 behaviour when it fails to find the information it is seeking is the same.
7849 cindex:[`+include_unknown`]
7850 cindex:[`+ignore_unknown`]
7851 By default, Exim behaves as if the host does not match the list. This may not
7852 always be what you want to happen. To change Exim's behaviour, the special
7853 items `+include_unknown` or `+ignore_unknown` may appear in the list (at
7854 top level -- they are not recognized in an indirected file).
7856 - If any item that follows `+include_unknown` requires information that
7857 cannot found, Exim behaves as if the host does match the list. For example,
7859 host_reject_connection = +include_unknown:*.enemy.ex
7861 rejects connections from any host whose name matches `*.enemy.ex`, and also
7862 any hosts whose name it cannot find.
7864 - If any item that follows `+ignore_unknown` requires information that cannot
7865 be found, Exim ignores that item and proceeds to the rest of the list. For
7869 accept hosts = +ignore_unknown : friend.example : \
7873 accepts from any host whose name is 'friend.example' and from 192.168.4.5,
7874 whether or not its host name can be found. Without `+ignore_unknown`, if no
7875 name can be found for 192.168.4.5, it is rejected.
7877 Both `+include_unknown` and `+ignore_unknown` may appear in the same
7878 list. The effect of each one lasts until the next, or until the end of the
7881 *Note*: This section applies to permanent lookup failures. It does 'not'
7882 apply to temporary DNS errors. They always cause a defer action.
7886 [[SECThoslispatnamsk]]
7887 Host list patterns for single-key lookups by host name
7888 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7889 cindex:[host,lookup failures]
7890 cindex:[unknown host name]
7891 cindex:[host list,matching host name]
7892 If a pattern is of the form
7894 <single-key-search-type>;<search-data>
7898 dbm;/host/accept/list
7900 a single-key lookup is performend, using the host name as its key. If the
7901 lookup succeeds, the host matches the item. The actual data that is looked up
7904 *Reminder*: With this kind of pattern, you must have host 'names' as
7905 keys in the file, not IP addresses. If you want to do lookups based on IP
7906 addresses, you must precede the search type with ``net-'' (see section
7907 <<SECThoslispatsikey>>). There is, however, no reason why you could not use two
7908 items in the same list, one doing an address lookup and one doing a name
7909 lookup, both using the same file.
7913 Host list patterns for query-style lookups
7914 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7915 If a pattern is of the form
7917 <query-style-search-type>;<query>
7919 the query is obeyed, and if it succeeds, the host matches the item. The actual
7920 data that is looked up is not used. The variables $sender_host_address$ and
7921 $sender_host_name$ can be used in the query. For example:
7924 hosts_lookup = pgsql;\
7925 select ip from hostlist where ip='$sender_host_address'
7928 The value of $sender_host_address$ for an IPv6 address contains colons. You
7929 can use the %sg% expansion item to change this if you need to. If you want to
7930 use masked IP addresses in database queries, you can use the %mask% expansion
7933 If the query contains a reference to $sender_host_name$, Exim automatically
7934 looks up the host name if has not already done so. (See section
7935 <<SECThoslispatnam>> for comments on finding host names.)
7937 Historical note: prior to release 4.30, Exim would always attempt to find a
7938 host name before running the query, unless the search type was preceded by
7939 `net-`. This is no longer the case. For backwards compatibility, `net-` is
7940 still recognized for query-style lookups, but its presence or absence has no
7941 effect. (Of course, for single-key lookups, `net-` 'is' important.
7942 See section <<SECThoslispatsikey>>.)
7947 Mixing wildcarded host names and addresses in host lists
7948 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7949 cindex:[host list,mixing names and addresses in]
7950 If you have name lookups or wildcarded host names and IP addresses in the same
7951 host list, you should normally put the IP addresses first. For example, in an
7954 accept hosts = 10.9.8.7 : *.friend.example
7956 The reason for this lies in the left-to-right way that Exim processes lists.
7957 It can test IP addresses without doing any DNS lookups, but when it reaches an
7958 item that requires a host name, it fails if it cannot find a host name to
7959 compare with the pattern. If the above list is given in the opposite order, the
7960 %accept% statement fails for a host whose name cannot be found, even if its
7961 IP address is 10.9.8.7.
7963 If you really do want to do the name check first, and still recognize the IP
7964 address, you can rewrite the ACL like this:
7966 accept hosts = *.friend.example
7967 accept hosts = 10.9.8.7
7969 If the first %accept% fails, Exim goes on to try the second one. See chapter
7970 <<CHAPACL>> for details of ACLs.
7979 cindex:[list,address list]
7980 cindex:[address list,empty item]
7981 cindex:[address list,patterns]
7982 Address lists contain patterns that are matched against mail addresses. There
7983 is one special case to be considered: the sender address of a bounce message is
7984 always empty. You can test for this by providing an empty item in an address
7985 list. For example, you can set up a router to process bounce messages by
7986 using this option setting:
7990 The presence of the colon creates an empty item. If you do not provide any
7991 data, the list is empty and matches nothing. The empty sender can also be
7992 detected by a regular expression that matches an empty string,
7994 and by a query-style lookup that succeeds when $sender_address$ is empty.
7996 The following kinds of address list pattern can match any address, including
7997 the empty address that is characteristic of bounce message senders:
7999 - As explained above, if a pattern item is empty, it matches the empty address
8002 - cindex:[regular expressions,in address list]
8003 cindex:[address list,regular expression in]
8004 If (after expansion) a pattern starts with ``^'', a regular expression match is
8005 done against the complete address, with the pattern as the regular expression.
8006 You must take care that backslash and dollar characters are not misinterpreted
8007 as part of the string expansion. The simplest way to do this is to use `\N`
8008 to mark that part of the string as non-expandable. For example:
8010 deny senders = \N^\d{8}.+@spamhaus.example$\N : ...
8012 The `\N` sequences are removed by the expansion, so the item does start
8013 with ``^'' by the time it is being interpreted as an address pattern.
8015 - cindex:[address list,lookup for complete address]
8016 Complete addresses can be looked up by using a pattern that starts with a
8017 lookup type terminated by a semicolon, followed by the data for the lookup. For
8021 deny senders = cdb;/etc/blocked.senders : \
8022 mysql;select address from blocked where \
8023 address='${quote_mysql:$sender_address}'
8026 Both query-style and single-key lookup types can be used. For a single-key
8027 lookup type, Exim uses the complete address as the key. However, empty keys are
8028 not supported for single-key lookups, so a match against the empty address
8029 always fails. This restriction does not apply to query-style lookups.
8031 Partial matching for single-key lookups (section <<SECTpartiallookup>>) cannot
8032 be used, and is ignored if specified, with an entry being written to the panic
8035 cindex:[\*@ with single-key lookup]
8036 However, you can configure lookup defaults, as described in section
8037 <<SECTdefaultvaluelookups>>, but this is useful only for the ``\*@'' type of
8038 default. For example, with this lookup:
8040 accept senders = lsearch*@;/some/file
8042 the file could contains lines like this:
8044 user1@domain1.example
8047 and for the sender address 'nimrod@jaeger.example', the sequence of keys
8050 nimrod@jaeger.example
8054 *Warning 1*: Do not include a line keyed by ``\*'' in the file, because that
8055 would mean that every address matches, thus rendering the test useless.
8057 *Warning 2*: Do not confuse these two kinds of item:
8059 deny recipients = dbm*@;/some/file
8060 deny recipients = *@dbm;/some/file
8062 The first does a whole address lookup, with defaulting, as just described,
8063 because it starts with a lookup type. The second matches the local part and
8064 domain independently, as described in a bullet point below.
8068 The following kinds of address list pattern can match only non-empty addresses.
8069 If the subject address is empty, a match against any of these pattern types
8073 - cindex:[@@ with single-key lookup]
8074 cindex:[address list,@@ lookup type]
8075 cindex:[address list,split local part and domain]
8076 If a pattern starts with ``@@'' followed by a single-key lookup item
8077 (for example, `@@lsearch;/some/file`), the address that is being checked is
8078 split into a local part and a domain. The domain is looked up in the file. If
8079 it is not found, there is no match. If it is found, the data that is looked up
8080 from the file is treated as a colon-separated list of local part patterns, each
8081 of which is matched against the subject local part in turn.
8083 cindex:[asterisk,in address list]
8084 The lookup may be a partial one, and/or one involving a search for a default
8085 keyed by ``\*'' (see section <<SECTdefaultvaluelookups>>). The local part patterns
8086 that are looked up can be regular expressions or begin with ``\*'', or even be
8087 further lookups. They may also be independently negated. For example, with
8089 deny senders = @@dbm;/etc/reject-by-domain
8091 the data from which the DBM file is built could contain lines like
8093 baddomain.com: !postmaster : *
8095 to reject all senders except %postmaster% from that domain.
8097 cindex:[local part,starting with !]
8098 If a local part that actually begins with an exclamation mark is required, it
8099 has to be specified using a regular expression. In ^lsearch^ files, an entry
8100 may be split over several lines by indenting the second and subsequent lines,
8101 but the separating colon must still be included at line breaks. White space
8102 surrounding the colons is ignored. For example:
8104 aol.com: spammer1 : spammer2 : ^[0-9]+$ :
8107 As in all colon-separated lists in Exim, a colon can be included in an item by
8110 If the last item in the list starts with a right angle-bracket, the remainder
8111 of the item is taken as a new key to look up in order to obtain a continuation
8112 list of local parts. The new key can be any sequence of characters. Thus one
8113 might have entries like
8115 aol.com: spammer1 : spammer 2 : >*
8116 xyz.com: spammer3 : >*
8119 in a file that was searched with %@@dbm\*%, to specify a match for 8-digit
8120 local parts for all domains, in addition to the specific local parts listed for
8121 each domain. Of course, using this feature costs another lookup each time a
8122 chain is followed, but the effort needed to maintain the data is reduced.
8124 cindex:[loop,in lookups]
8125 It is possible to construct loops using this facility, and in order to catch
8126 them, the chains may be no more than fifty items long.
8128 - The @@<'lookup'> style of item can also be used with a query-style
8129 lookup, but in this case, the chaining facility is not available. The lookup
8130 can only return a single list of local parts.
8132 - If a pattern contains an @ character, but is not a regular expression and does
8133 not begin with a lookup type as described above, the local part of the subject
8134 address is compared with the local part of the pattern, which may start with an
8135 asterisk. If the local parts match, the domain is checked in exactly the same
8136 way as for a pattern in a domain list. For example, the domain can be
8137 wildcarded, refer to a named list, or be a lookup:
8140 deny senders = *@*.spamming.site:\
8141 *@+hostile_domains:\
8142 bozo@partial-lsearch;/list/of/dodgy/sites:\
8143 *@dbm;/bad/domains.db
8146 cindex:[local part,starting with !]
8147 cindex:[address list,local part starting with !]
8148 If a local part that begins with an exclamation mark is required, it has to be
8149 specified using a regular expression, because otherwise the exclamation mark is
8150 treated as a sign of negation.
8152 - If a pattern is not one of the above syntax forms, that is, if a
8153 non-empty pattern that is not a regular expression or a lookup does not contain
8154 an @ character, it is matched against the domain part of the subject address.
8155 The only two formats that are recognized this way are a literal domain, or a
8156 domain pattern that starts with \*. In both these cases, the effect is the same
8157 as if `*@` preceded the pattern.
8159 *Warning*: there is an important difference between the address list items
8160 in these two examples:
8163 senders = *@+my_list
8165 In the first one, `my_list` is a named address list, whereas in the second
8166 example it is a named domain list.
8172 Case of letters in address lists
8173 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
8174 cindex:[case of local parts]
8175 cindex:[address list,case forcing]
8176 cindex:[case forcing in address lists]
8177 Domains in email addresses are always handled caselessly, but for local parts
8178 case may be significant on some systems (see %caseful_local_part% for how
8179 Exim deals with this when routing addresses). However, RFC 2505 ('Anti-Spam
8180 Recommendations for SMTP MTAs') suggests that matching of addresses to blocking
8181 lists should be done in a case-independent manner. Since most address lists in
8182 Exim are used for this kind of control, Exim attempts to do this by default.
8184 The domain portion of an address is always lowercased before matching it to an
8185 address list. The local part is lowercased by default, and any string
8186 comparisons that take place are done caselessly. This means that the data in
8187 the address list itself, in files included as plain file names, and in any file
8188 that is looked up using the ``@@'' mechanism, can be in any case. However, the
8189 keys in files that are looked up by a search type other than ^lsearch^ (which
8190 works caselessly) must be in lower case, because these lookups are not
8194 To allow for the possibility of caseful address list matching, if an item in
8195 an address list is the string ``+caseful'', the original case of the local
8196 part is restored for any comparisons that follow, and string comparisons are no
8197 longer case-independent. This does not affect the domain, which remains in
8198 lower case. However, although independent matches on the domain alone are still
8199 performed caselessly, regular expressions that match against an entire address
8200 become case-sensitive after ``+caseful'' has been seen.
8207 cindex:[list,local part list]
8208 cindex:[local part,list]
8209 Case-sensitivity in local part lists is handled in the same way as for address
8210 lists, as just described. The ``+caseful'' item can be used if required. In a
8211 setting of the %local_parts% option in a router with %caseful_local_part%
8212 set false, the subject is lowercased and the matching is initially
8213 case-insensitive. In this case, ``+caseful'' will restore case-sensitive matching
8214 in the local part list, but not elsewhere in the router. If
8215 %caseful_local_part% is set true in a router, matching in the %local_parts%
8216 option is case-sensitive from the start.
8218 If a local part list is indirected to a file (see section <<SECTfilnamlis>>),
8219 comments are handled in the same way as address lists -- they are recognized
8220 only if the # is preceded by white space or the start of the line.
8221 Otherwise, local part lists are matched in the same way as domain lists, except
8222 that the special items that refer to the local host (`@`, `@[]`,
8223 `@mx_any`, `@mx_primary`, and `@mx_secondary`) are not recognized.
8224 Refer to section <<SECTdomainlist>> for details of the other available item
8230 ////////////////////////////////////////////////////////////////////////////
8231 ////////////////////////////////////////////////////////////////////////////
8236 cindex:[expansion,of strings]
8237 Many strings in Exim's run time configuration are expanded before use. Some of
8238 them are expanded every time they are used; others are expanded only once.
8240 When a string is being expanded it is copied verbatim from left to right except
8241 when a dollar or backslash character is encountered. A dollar specifies the
8242 start of a portion of the string that is interpreted and replaced as described
8243 below in section <<SECTexpansionitems>> onwards. Backslash is used as an escape
8244 character, as described in the following section.
8249 Literal text in expanded strings
8250 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
8251 cindex:[expansion,including literal text]
8252 An uninterpreted dollar can be included in an expanded string by putting a
8253 backslash in front of it. A backslash can be used to prevent any special
8254 character being treated specially in an expansion, including backslash itself.
8255 If the string appears in quotes in the configuration file, two backslashes are
8256 required because the quotes themselves cause interpretation of backslashes when
8257 the string is read in (see section <<SECTstrings>>).
8259 cindex:[expansion,non-expandable substrings]
8260 A portion of the string can specified as non-expandable by placing it between
8261 two occurrences of `\N`. This is particularly useful for protecting regular
8262 expressions, which often contain backslashes and dollar signs. For example:
8264 deny senders = \N^\d{8}[a-z]@some\.site\.example$\N
8266 On encountering the first `\N`, the expander copies subsequent characters
8267 without interpretation until it reaches the next `\N` or the end of the
8272 Character escape sequences in expanded strings
8273 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
8274 cindex:[expansion,escape sequences]
8275 A backslash followed by one of the letters ``n'', ``r'', or ``t'' in an expanded
8276 string is recognized as an escape sequence for the character newline, carriage
8277 return, or tab, respectively. A backslash followed by up to three octal digits
8278 is recognized as an octal encoding for a single character, and a backslash
8279 followed by ``x'' and up to two hexadecimal digits is a hexadecimal encoding.
8281 These escape sequences are also recognized in quoted strings when they are read
8282 in. Their interpretation in expansions as well is useful for unquoted strings,
8283 and for other cases such as looked-up strings that are then expanded.
8286 Testing string expansions
8287 ~~~~~~~~~~~~~~~~~~~~~~~~~
8288 cindex:[expansion,testing]
8289 cindex:[testing,string expansion]
8290 cindex:[%-be% option]
8291 Many expansions can be tested by calling Exim with the %-be% option. This takes
8292 the command arguments, or lines from the standard input if there are no
8293 arguments, runs them through the string expansion code, and writes the results
8294 to the standard output. Variables based on configuration values are set up, but
8295 since no message is being processed, variables such as $local_part$ have no
8296 value. Nevertheless the %-be% option can be useful for checking out file and
8297 database lookups, and the use of expansion operators such as %sg%, %substr% and
8300 Exim gives up its root privilege when it is called with the %-be% option, and
8301 instead runs under the uid and gid it was called with, to prevent users from
8302 using %-be% for reading files to which they do not have access.
8307 Forced expansion failure
8308 ~~~~~~~~~~~~~~~~~~~~~~~~
8309 cindex:[expansion,forced failure]
8310 A number of expansions that are described in the following section have
8311 alternative ``true'' and ``false'' substrings, enclosed in brace characters
8312 (which are sometimes called ``curly brackets''). Which of the two strings is
8313 used depends on some condition that is evaluated as part of the expansion. If,
8314 instead of a ``false'' substring, the word ``fail'' is used (not in braces),
8315 the entire string expansion fails in a way that can be detected by the code
8316 that requested the expansion. This is called ``forced expansion failure'', and
8317 its consequences depend on the circumstances. In some cases it is no different
8318 from any other expansion failure, but in others a different action may be
8319 taken. Such variations are mentioned in the documentation of the option that is
8325 [[SECTexpansionitems]]
8328 The following items are recognized in expanded strings. White space may be used
8329 between sub-items that are keywords or substrings enclosed in braces inside an
8330 outer set of braces, to improve readability. *Warning*: Within braces,
8331 white space is significant.
8333 *\$*<'variable~name'>~or~*\$\{*<'variable~name'>*\}*::
8334 cindex:[expansion,variables]
8335 Substitute the contents of the named variable, for example
8340 The second form can be used to separate the name from subsequent alphanumeric
8341 characters. This form (using braces) is available only for variables; it does
8342 'not' apply to message headers. The names of the variables are given in section
8343 <<SECTexpvar>> below. If the name of a non-existent variable is given, the
8346 *\$\{*<'op'>*:*<'string'>*\}*::
8347 cindex:[expansion,operators]
8348 The string is first itself expanded, and then the operation specified by <'op'>
8349 is applied to it. For example,
8353 The string starts with the first character after the colon, which may be
8354 leading white space. A list of operators is given in section <<SECTexpop>>
8355 below. The operator notation is used for simple expansion items that have just
8356 one argument, because it reduces the number of braces and therefore makes the
8357 string easier to understand.
8359 *\$\{dlfunc\{*<'file'>*\}\{*<'function'>*\}\{*<'arg'>*\}\{*<'arg'>*\}...\}*::
8361 [revisionflag="changed"]
8362 This expansion dynamically loads and then calls a locally-written C function.
8363 This functionality is available only if Exim is compiled with
8365 [revisionflag="changed"]
8370 [revisionflag="changed"]
8371 set in _Local/Makefile_. Once loaded, Exim remembers the dynamically loaded
8372 object so that it doesn't reload the same object file in the same Exim process
8373 (but of course Exim does start new processes frequently).
8375 [revisionflag="changed"]
8376 There may be from zero to eight arguments to the function. When compiling
8377 a local function that is to be called in this way, _local_scan.h_ should be
8378 included. The Exim variables and functions that are defined by that API
8379 are also available for dynamically loaded functions. The function itself
8380 must have the following type:
8382 [revisionflag="changed"]
8384 int dlfunction(uschar **yield, int argc, uschar *argv[])
8387 [revisionflag="changed"]
8388 Where `uschar` is a typedef for `unsigned char` in _local_scan.h_. The
8389 function should return one of the following values:
8391 [revisionflag="changed"]
8392 `OK`: Success. The string that is placed in the variable 'yield' is put into
8393 the expanded string that is being built.
8395 [revisionflag="changed"]
8396 `FAIL`: A non-forced expansion failure occurs, with the error message taken
8397 from 'yield', if it is set.
8399 [revisionflag="changed"]
8400 `FAIL_FORCED`: A forced expansion failure occurs, with the error message
8401 taken from 'yield' if it is set.
8403 [revisionflag="changed"]
8404 `ERROR`: Same as `FAIL`, except that a panic log entry is written.
8406 [revisionflag="changed"]
8407 When compiling a function that is to be used in this way with gcc,
8408 you need to add %-shared% to the gcc command. Also, in the Exim build-time
8409 configuration, you must add %-export-dynamic% to EXTRALIBS.
8412 *\$\{extract\{*<'key'>*\}\{*<'string1'>*\}\{*<'string2'>*\}\{*<'string3'>*\}\}*::
8413 cindex:[expansion,extracting substrings by key]
8414 The key and <'string1'> are first expanded separately. Leading and trailing
8415 white space is removed from the key (but not from any of the strings). The key
8416 must not consist entirely of digits. The expanded <'string1'> must be of the
8419 <key1> = <value1> <key2> = <value2> ...
8422 where the equals signs and spaces (but not both) are optional. If any of the
8423 values contain white space, they must be enclosed in double quotes, and any
8424 values that are enclosed in double quotes are subject to escape processing as
8425 described in section <<SECTstrings>>. The expanded <'string1'> is searched for
8426 the value that corresponds to the key. The search is case-insensitive. If the
8427 key is found, <'string2'> is expanded, and replaces the whole item; otherwise
8428 <'string3'> is used. During the expansion of <'string2'> the variable $value$
8429 contains the value that has been extracted. Afterwards, it is restored to any
8430 previous value it might have had.
8432 If \{<'string3'>\} is omitted, the item is replaced by an empty string if the
8433 key is not found. If \{<'string2'>\} is also omitted, the value that was
8434 extracted is used. Thus, for example, these two expansions are identical, and
8437 ${extract{gid}{uid=1984 gid=2001}}
8438 ${extract{gid}{uid=1984 gid=2001}{$value}}
8440 Instead of \{<'string3'>\} the word ``fail'' (not in curly brackets) can
8441 appear, for example:
8443 ${extract{Z}{A=... B=...}{$value} fail }
8445 This forces an expansion failure (see section <<SECTforexpfai>>);
8446 {<'string2'>\} must be present for ``fail'' to be recognized.
8449 *\$\{extract\{*<'number'>*\}\{*<'separators'>*\}\{*<'string1'>*\}\{*<'string2'>*\}\{*<'string3'>*\}\}*::
8450 cindex:[expansion,extracting substrings by number]
8451 The <'number'> argument must consist entirely of decimal digits,
8452 apart from leading and trailing white space, which is ignored.
8453 This is what distinguishes this form of %extract% from the previous kind. It
8454 behaves in the same way, except that, instead of extracting a named field, it
8455 extracts from <'string1'> the field whose number is given as the first
8456 argument. You can use $value$ in <'string2'> or `fail` instead of
8457 <'string3'> as before.
8459 The fields in the string are separated by any one of the characters in the
8460 separator string. These may include space or tab characters.
8461 The first field is numbered one. If the number is negative, the fields are
8462 counted from the end of the string, with the rightmost one numbered -1. If the
8463 number given is zero, the entire string is returned. If the modulus of the
8464 number is greater than the number of fields in the string, the result is the
8465 expansion of <'string3'>, or the empty string if <'string3'> is not provided.
8468 ${extract{2}{:}{x:42:99:& Mailer::/bin/bash}}
8472 ${extract{-4}{:}{x:42:99:& Mailer::/bin/bash}}
8474 yields ``99''. Two successive separators mean that the field between them is
8475 empty (for example, the fifth field above).
8478 *\$\{hash\{*<'string1'>*\}\{*<'string2'>*\}\{*<'string3'>*\}\}*::
8479 cindex:[hash function,textual]
8480 cindex:[expansion,textual hash]
8481 This is a textual hashing function, and was the first to be implemented in
8482 early versions of Exim. In current releases, there are other hashing functions
8483 (numeric, MD5, and SHA-1), which are described below.
8485 The first two strings, after expansion, must be numbers. Call them <'m'> and
8486 <'n'>. If you are using fixed values for these numbers, that is, if <'string1'>
8487 and <'string2'> do not change when they are expanded, you can use the
8488 simpler operator notation that avoids some of the braces:
8490 ${hash_<n>_<m>:<string>}
8492 The second number is optional (in both notations).
8494 If <'n'> is greater than or equal to the length of the string, the expansion
8495 item returns the string. Otherwise it computes a new string of length <'n'> by
8496 applying a hashing function to the string. The new string consists of
8497 characters taken from the first <'m'> characters of the string
8499 abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQWRSTUVWXYZ0123456789
8501 If <'m'> is not present the value 26 is used, so that only lower case
8502 letters appear. For example:
8505 `\${hash{3}{monty}} ` yields `jmg`
8506 `\${hash{5}{monty}} ` yields `monty`
8507 `\${hash{4}{62}{monty python}}` yields `fbWx`
8511 *\$header_*<'header~name'>*:*~or~*\$h_*<'header~name'>*:*::
8512 See *\$rheader* below.
8514 *\$bheader_*<'header~name'>*:*~or~*\$bh_*<'header~name'>*:*::
8515 See *\$rheader* below.
8517 *\$rheader_*<'header~name'>*:*~or~*\$rh_*<'header~name'>*:*::
8518 cindex:[expansion,header insertion]
8522 cindex:[header lines,in expansion strings]
8523 cindex:[header lines,character sets]
8524 cindex:[header lines,decoding]
8525 Substitute the contents of the named message header line, for example
8529 The newline that terminates a header line is not included in the expansion, but
8530 internal newlines (caused by splitting the header line over several physical
8531 lines) may be present.
8533 The difference between %rheader%, %bheader%, and %header% is in the way the
8534 data in the header line is interpreted.
8537 - cindex:[white space,in header lines]
8538 %rheader% gives the original ``raw'' content of the header line, with no
8539 processing at all, and without the removal of leading and trailing white space.
8541 - cindex:[base64 encoding,in header lines]
8542 %bheader% removes leading and trailing white space, and then decodes base64 or
8543 quoted-printable MIME ``words'' within the header text, but does no character
8544 set translation. If decoding of what looks superficially like a MIME ``word''
8545 fails, the raw string is returned. If decoding
8546 cindex:[binary zero,in header line]
8547 produces a binary zero character, it is replaced by a question mark -- this is
8548 what Exim does for binary zeros that are actually received in header lines.
8550 - %header% tries to translate the string as decoded by %bheader% to a standard
8551 character set. This is an attempt to produce the same string as would be
8552 displayed on a user's MUA. If translation fails, the %bheader% string is
8553 returned. Translation is attempted only on operating systems that support the
8554 'iconv()' function. This is indicated by the compile-time macro
8555 HAVE_ICONV in a system Makefile or in _Local/Makefile_.
8558 In a filter file, the target character set for %header% can be specified by a
8559 command of the following form:
8561 headers charset "UTF-8"
8563 This command affects all references to $h_$ (or $header_$) expansions in
8564 subsequently obeyed filter commands. In the absence of this command, the target
8565 character set in a filter is taken from the setting of the %headers_charset%
8566 option in the runtime configuration. The value of this option defaults to the
8567 value of HEADERS_CHARSET in _Local/Makefile_. The ultimate default is
8570 Header names follow the syntax of RFC 2822, which states that they may contain
8571 any printing characters except space and colon. Consequently, curly brackets
8572 'do not' terminate header names, and should not be used to enclose them as
8573 if they were variables. Attempting to do so causes a syntax error.
8575 Only header lines that are common to all copies of a message are visible to
8576 this mechanism. These are the original header lines that are received with the
8577 message, and any that are added by an ACL %warn% statement or by a system
8578 filter. Header lines that are added to a particular copy of a message by a
8579 router or transport are not accessible.
8581 For incoming SMTP messages, no header lines are visible in ACLs that are obeyed
8582 before the DATA ACL, because the header structure is not set up until the
8583 message is received. Header lines that are added by %warn% statements in a
8584 RCPT ACL (for example) are saved until the message's incoming header lines
8585 are available, at which point they are added. When a DATA ACL is running,
8586 however, header lines added by earlier ACLs are visible.
8588 Upper case and lower case letters are synonymous in header names. If the
8589 following character is white space, the terminating colon may be omitted, but
8590 this is not recommended, because you may then forget it when it is needed. When
8591 white space terminates the header name, it is included in the expanded string.
8592 If the message does not contain the given header, the expansion item is
8593 replaced by an empty string. (See the %def% condition in section <<SECTexpcond>>
8594 for a means of testing for the existence of a header.)
8596 If there is more than one header with the same name, they are all
8597 concatenated to form the substitution string, up to a maximum length of 64K. A
8598 newline character is inserted between each line. For the %header% expansion,
8599 for those headers that contain lists of addresses, a comma is also inserted at
8600 the junctions between lines. This does not happen for the %rheader% expansion.
8604 *\$\{hmac\{*<'hashname'>*\}\{*<'secret'>*\}\{*<'string'>*\}\}*::
8605 cindex:[expansion,hmac hashing]
8606 This function uses cryptographic hashing (either MD5 or SHA-1) to convert a
8607 shared secret and some text into a message authentication code, as specified in
8608 RFC 2104. This differs from `\$\{md5:secret_text...\}` or
8609 `\$\{sha1:secret_text...\}` in that the hmac step adds a signature to the
8610 cryptographic hash, allowing for authentication that is not possible with MD5
8611 or SHA-1 alone. The hash name must expand to either `md5` or `sha1` at present.
8614 ${hmac{md5}{somesecret}{$primary_hostname $tod_log}}
8616 For the hostname 'mail.example.com' and time 2002-10-17 11:30:59, this
8619 dd97e3ba5d1a61b5006108f8c8252953
8621 As an example of how this might be used, you might put in the main part of
8622 an Exim configuration:
8624 SPAMSCAN_SECRET=cohgheeLei2thahw
8626 In a router or a transport you could then have:
8630 X-Spam-Scanned: ${primary_hostname} ${message_exim_id} \
8631 ${hmac{md5}{SPAMSCAN_SECRET}\
8632 {${primary_hostname},${message_exim_id},$h_message-id:}}
8635 Then given a message, you can check where it was scanned by looking at the
8636 'X-Spam-Scanned:' header line. If you know the secret, you can check that this
8637 header line is authentic by recomputing the authentication code from the host
8638 name, message ID and the 'Message-id:' header line. This can be done using
8639 Exim's %-be% option, or by other means, for example by using the
8640 'hmac_md5_hex()' function in Perl.
8643 *\$\{if~*<'condition'>*~\{*<'string1'>*\}\{*<'string2'>*\}\}*::
8644 cindex:[expansion,conditional]
8645 If <'condition'> is true, <'string1'> is expanded and replaces the whole item;
8646 otherwise <'string2'> is used. The available conditions are described in
8647 section <<SECTexpcond>> below. For example:
8649 ${if eq {$local_part}{postmaster} {yes}{no} }
8651 The second string need not be present; if it is not and the condition is not
8652 true, the item is replaced with nothing. Alternatively, the word ``fail'' may be
8653 present instead of the second string (without any curly brackets). In this
8654 case, the expansion is forced to fail if the condition is not true (see section
8657 If both strings are omitted, the result is the string `true` if the condition
8658 is true, and the empty string if the condition is false. This makes it less
8659 cumbersome to write custom ACL and router conditions. For example, instead of
8661 condition = ${if >{$acl_m4}{3}{true}{false}}
8665 condition = ${if >{$acl_m4}{3}}
8669 *\$\{length\{*<'string1'>*\}\{*<'string2'>*\}\}*::
8670 cindex:[expansion,string truncation]
8671 The %length% item is used to extract the initial portion of a string. Both
8672 strings are expanded, and the first one must yield a number, <'n'>, say. If you
8673 are using a fixed value for the number, that is, if <'string1'> does not change
8674 when expanded, you can use the simpler operator notation that avoids some of
8677 ${length_<n>:<string>}
8679 The result of this item is either the first <'n'> characters or the whole
8680 of <'string2'>, whichever is the shorter. Do not confuse %length% with
8681 %strlen%, which gives the length of a string.
8684 *\$\{lookup\{*<'key'>*\}~*<'search~type'>*~\{*<'file'>*\}~\{*<'string1'>*\}~\{*<'string2'>*\}\}*::
8685 This is the first of one of two different types of lookup item, which are both
8686 described in the next item.
8688 *\$\{lookup~*<'search~type'>*~\{*<'query'>*\}~\{*<'string1'>*\}~\{*<'string2'>*\}\}*::
8689 cindex:[expansion,lookup in]
8690 cindex:[file,lookup]
8691 cindex:[lookup,in expanded string]
8692 The two forms of lookup item specify data lookups in files and databases, as
8693 discussed in chapter <<CHAPfdlookup>>. The first form is used for single-key
8694 lookups, and the second is used for query-style lookups. The <'key'>, <'file'>,
8695 and <'query'> strings are expanded before use.
8697 If there is any white space in a lookup item which is part of a filter command,
8698 a retry or rewrite rule, a routing rule for the ^manualroute^ router, or any
8699 other place where white space is significant, the lookup item must be enclosed
8700 in double quotes. The use of data lookups in users' filter files may be locked
8701 out by the system administrator.
8704 If the lookup succeeds, <'string1'> is expanded and replaces the entire item.
8705 During its expansion, the variable $value$ contains the data returned by the
8706 lookup. Afterwards it reverts to the value it had previously (at the outer
8707 level it is empty). If the lookup fails, <'string2'> is expanded and replaces
8708 the entire item. If \{<'string2'>\} is omitted, the replacement is the empty
8709 string on failure. If <'string2'> is provided, it can itself be a nested
8710 lookup, thus providing a mechanism for looking up a default value when the
8711 original lookup fails.
8713 If a nested lookup is used as part of <'string1'>, $value$ contains the data
8714 for the outer lookup while the parameters of the second lookup are expanded,
8715 and also while <'string2'> of the second lookup is expanded, should the second
8716 lookup fail. + Instead of \{<'string2'>\} the word ``fail'' can appear, and in
8717 this case, if the lookup fails, the entire expansion is forced to fail (see
8718 section <<SECTforexpfai>>). If both \{<'string1'>\} and \{<'string2'>\} are
8719 omitted, the result is the looked up value in the case of a successful lookup,
8720 and nothing in the case of failure.
8722 For single-key lookups, the string ``partial'' is permitted to precede the
8723 search type in order to do partial matching, and \* or \*@ may follow a search
8724 type to request default lookups if the key does not match (see sections
8725 <<SECTdefaultvaluelookups>> and <<SECTpartiallookup>> for details).
8727 cindex:[numerical variables ($1$ $2$ etc),in lookup expansion]
8728 If a partial search is used, the variables $1$ and $2$ contain the wild
8729 and non-wild parts of the key during the expansion of the replacement text.
8730 They return to their previous values at the end of the lookup item.
8732 This example looks up the postmaster alias in the conventional alias file:
8734 ${lookup {postmaster} lsearch {/etc/aliases} {$value}}
8736 This example uses NIS+ to look up the full name of the user corresponding to
8737 the local part of an address, forcing the expansion to fail if it is not found:
8740 ${lookup nisplus {[name=$local_part],passwd.org_dir:gcos} \
8745 *\$\{nhash\{*<'string1'>*\}\{*<'string2'>*\}\{*<'string3'>*\}\}*::
8746 cindex:[expansion,numeric hash]
8747 cindex:[hash function,numeric]
8748 The three strings are expanded; the first two must yield numbers. Call them
8749 <'n'> and <'m'>. If you are using fixed values for these numbers, that is, if
8750 <'string1'> and <'string2'> do not change when they are expanded, you can use
8751 the simpler operator notation that avoids some of the braces:
8753 ${nhash_<n>_<m>:<string>}
8755 The second number is optional (in both notations). If there is only one number,
8756 the result is a number in the range 0--<'n'>-1. Otherwise, the string is
8757 processed by a div/mod hash function that returns two numbers, separated by a
8758 slash, in the ranges 0 to <'n'>-1 and 0 to <'m'>-1, respectively. For example,
8760 ${nhash{8}{64}{supercalifragilisticexpialidocious}}
8762 returns the string ``6/33''.
8766 *\$\{perl\{*<'subroutine'>*\}\{*<'arg'>*\}\{*<'arg'>*\}...\}*::
8767 cindex:[Perl,use in expanded string]
8768 cindex:[expansion,calling Perl from]
8769 This item is available only if Exim has been built to include an embedded Perl
8770 interpreter. The subroutine name and the arguments are first separately
8771 expanded, and then the Perl subroutine is called with those arguments. No
8772 additional arguments need be given; the maximum number permitted, including the
8773 name of the subroutine, is nine.
8775 The return value of the subroutine is inserted into the expanded string, unless
8776 the return value is %undef%. In that case, the expansion fails in the same way
8777 as an explicit ``fail'' on a lookup item.
8778 The return value is a scalar. Whatever you return is evaluated in a scalar
8779 context. For example, if you return the name of a Perl vector, the
8780 return value is the size of the vector, not its contents.
8782 If the subroutine exits by calling Perl's %die% function, the expansion fails
8783 with the error message that was passed to %die%. More details of the embedded
8784 Perl facility are given in chapter <<CHAPperl>>.
8786 The ^redirect^ router has an option called %forbid_filter_perl% which locks
8787 out the use of this expansion item in filter files.
8790 *\$\{prvs\{*<'address'>*\}\{*<'secret'>*\}\{*<'keynumber'>*\}\}*::
8792 [revisionflag="changed"]
8793 cindex:[prvs,expansion item]
8794 The first argument is a complete email address and the second is secret
8795 keystring. The third argument, specifying a key number, is optional. If absent,
8796 it defaults to 0. The result of the expansion is a prvs-signed email address,
8797 to be typically used with the %return_path% option on an ^smtp^ transport as
8798 part of a bounce address tag validation (BATV) scheme. For more discussion and
8799 an example, see section <<SECTverifyPRVS>>.
8802 *\$\{prvscheck\{*<'address'>*\}\{*<'secret'>*\}\{*<'string'>*\}\}*::
8804 [revisionflag="changed"]
8805 cindex:[prvscheck,expansion item]
8806 This expansion item is the complement of the %prvs% item. It is used for
8807 checking prvs-signed addresses. If the expansion of the first argument does not
8808 yield a syntactically valid prvs-signed address, the whole item expands to the
8809 empty string. When the first argument does expand to a syntactically valid
8810 prvs-signed address, the second argument is expanded, with the prvs-decoded
8811 version of the address and the key number extracted from the address in the
8812 variables $prvscheck_address$ and $prvscheck_keynum$, respectively.
8814 [revisionflag="changed"]
8815 These two variables can be used in the expansion of the second argument to
8816 retrieve the secret. The validity of the prvs-signed address is then checked
8817 against the secret. The result is stored in the variable $prvscheck_result$,
8818 which is empty for failure or ``1'' for success.
8820 [revisionflag="changed"]
8821 The third argument is optional; if it is missing, it defaults to an empty
8822 string. This argument is now expanded. If the result is an empty string, the
8823 result of the expansion is the decoded version of the address. This is the case
8824 whether or not the signature was valid. Otherwise, the result of the expansion
8825 is the expansion of the third argument.
8827 [revisionflag="changed"]
8828 All three variables can be used in the expansion of the third argument.
8829 However, once the expansion is complete, only $prvscheck_result$ remains set.
8830 For more discussion and an example, see section <<SECTverifyPRVS>>.
8833 *\$\{readfile\{*<'file~name'>*\}\{*<'eol~string'>*\}\}*::
8834 cindex:[expansion,inserting an entire file]
8835 cindex:[file,inserting into expansion]
8836 The file name and end-of-line string are first expanded separately. The file is
8837 then read, and its contents replace the entire item. All newline characters in
8838 the file are replaced by the end-of-line string if it is present. Otherwise,
8839 newlines are left in the string.
8840 String expansion is not applied to the contents of the file. If you want this,
8841 you must wrap the item in an %expand% operator. If the file cannot be read, the
8842 string expansion fails.
8844 The ^redirect^ router has an option called %forbid_filter_readfile% which
8845 locks out the use of this expansion item in filter files.
8849 *\$\{readsocket\{*<'name'>*\}\{*<'request'>*\}\{*<'timeout'>*\}\{*<'eol~string'>*\}\{*<'fail~string'>*\}\}*::
8850 cindex:[expansion,inserting from a socket]
8851 cindex:[socket, use of in expansion]
8852 This item inserts data that is read from a Unix domain socket into the expanded
8853 string. The minimal way of using it uses just two arguments:
8855 ${readsocket{/socket/name}{request string}}
8857 Exim connects to the socket, writes the request string (unless it is an
8858 empty string) and reads from the socket until an end-of-file is read. A timeout
8859 of 5 seconds is applied. Additional, optional arguments extend what can be
8860 done. Firstly, you can vary the timeout. For example:
8862 ${readsocket{/socket/name}{request-string}{3s}}
8864 A fourth argument allows you to change any newlines that are in the data
8865 that is read, in the same way as for %readfile% (see above). This example turns
8868 ${readsocket{/socket/name}{request-string}{3s}{ }}
8870 As with all expansions, the substrings are expanded before the processing
8871 happens. Errors in these sub-expansions cause the expansion to fail. In
8872 addition, the following errors can occur:
8875 - Failure to create a socket file descriptor;
8877 - Failure to connect the socket;
8879 - Failure to write the request-string;
8881 - Timeout on reading from the socket.
8884 By default, any of these errors causes the expansion to fail. However, if
8885 you supply a fifth substring, it is expanded and used when any of the above
8886 errors occurs. For example:
8889 ${readsocket{/socket/name}{request-string}{3s}{\n}\
8893 You can test for the existence of the socket by wrapping this expansion in
8894 `\$\{if exists`, but there is a race condition between that test and the
8895 actual opening of the socket, so it is safer to use the fifth argument if you
8896 want to be absolutely sure of avoiding an expansion error for a non-existent
8899 The ^redirect^ router has an option called %forbid_filter_readsocket% which
8900 locks out the use of this expansion item in filter files.
8902 *\$rheader_*<'header~name'>*:~or~\$rh_*<'header~name'>*:*::
8903 This item inserts ``raw'' header lines. It is described with the %header%
8904 expansion item above.
8908 *\$\{run\{*<'command'>*~*<'args'>*\}\{*<'string1'>*\}\{*<'string2'>*\}\}*::
8909 cindex:[expansion,running a command]
8910 The command and its arguments are first expanded separately, and then the
8911 command is run in a separate process, but under the same uid and gid. As in
8912 other command executions from Exim, a shell is not used by default. If you want
8913 a shell, you must explicitly code it.
8915 [revisionflag="changed"]
8916 cindex:[return code,from %run% expansion]
8918 If the command succeeds (gives a zero return code) <'string1'> is expanded and
8919 replaces the entire item; during this expansion, the standard output from the
8920 command is in the variable $value$. If the command fails, <'string2'>, if
8921 present, is expanded and used. Once again, during the expansion, the standard
8922 output from the command is in the variable $value$. If <'string2'> is absent,
8923 the result is empty. Alternatively, <'string2'> can be the word ``fail'' (not
8924 in braces) to force expansion failure if the command does not succeed. If both
8925 strings are omitted, the result is contents of the standard output on success,
8926 and nothing on failure.
8929 The return code from the command is put in the variable $runrc$, and this
8930 remains set afterwards, so in a filter file you can do things like this:
8932 if "${run{x y z}{}}$runrc" is 1 then ...
8933 elif $runrc is 2 then ...
8937 If execution of the command fails (for example, the command does not exist),
8938 the return code is 127 -- the same code that shells use for non-existent
8941 *Warning*: In a router or transport, you cannot assume the order in which
8942 option values are expanded, except for those pre-conditions whose order of
8943 testing is documented. Therefore, you cannot reliably expect to set $runrc$
8944 by the expansion of one option, and use it in another.
8946 The ^redirect^ router has an option called %forbid_filter_run% which locks
8947 out the use of this expansion item in filter files.
8950 *\$\{sg\{*<'subject'>*\}\{*<'regex'>*\}\{*<'replacement'>*\}\}*::
8951 cindex:[expansion,string substitution]
8952 This item works like Perl's substitution operator (s) with the global (/g)
8953 option; hence its name. However, unlike the Perl equivalent, Exim does not
8954 modify the subject string; instead it returns the modified string for insertion
8955 into the overall expansion. The item takes three arguments: the subject string,
8956 a regular expression, and a substitution string. For example
8958 ${sg{abcdefabcdef}{abc}{xyz}}
8960 yields ``xyzdefxyzdef''. Because all three arguments are expanded before use, if
8961 any \$ or \ characters are required in the regular expression or in the
8962 substitution string, they have to be escaped. For example
8964 ${sg{abcdef}{^(...)(...)\$}{\$2\$1}}
8966 yields ``defabc'', and
8968 ${sg{1=A 4=D 3=C}{\N(\d+)=\N}{K\$1=}}
8970 yields ``K1=A K4=D K3=C''. Note the use of `\N` to protect the contents of
8971 the regular expression from string expansion.
8975 *\$\{substr\{*<'string1'>*\}\{*<'string2'>*\}\{*<'string3'>*\}\}*::
8977 cindex:[substring extraction]
8978 cindex:[expansion,substring extraction]
8979 The three strings are expanded; the first two must yield numbers. Call them
8980 <'n'> and <'m'>. If you are using fixed values for these numbers, that is, if
8981 <'string1'> and <'string2'> do not change when they are expanded, you can use
8982 the simpler operator notation that avoids some of the braces:
8984 ${substr_<n>_<m>:<string>}
8986 The second number is optional (in both notations).
8987 If it is absent in the simpler format, the preceding underscore must also be
8990 The %substr% item can be used to extract more general substrings than
8991 %length%. The first number, <'n'>, is a starting offset, and <'m'> is the
8992 length required. For example
8994 ${substr{3}{2}{$local_part}}
8996 If the starting offset is greater than the string length the result is the
8997 null string; if the length plus starting offset is greater than the string
8998 length, the result is the right-hand part of the string, starting from the
8999 given offset. The first character in the string has offset zero.
9001 The %substr% expansion item can take negative offset values to count
9002 from the right-hand end of its operand. The last character is offset -1, the
9003 second-last is offset -2, and so on. Thus, for example,
9005 ${substr{-5}{2}{1234567}}
9007 yields ``34''. If the absolute value of a negative offset is greater than the
9008 length of the string, the substring starts at the beginning of the string, and
9009 the length is reduced by the amount of overshoot. Thus, for example,
9011 ${substr{-5}{2}{12}}
9013 yields an empty string, but
9015 ${substr{-3}{2}{12}}
9019 When the second number is omitted from %substr%, the remainder of the string
9020 is taken if the offset is positive. If it is negative, all characters in the
9021 string preceding the offset point are taken. For example, an offset of -1 and
9022 no length, as in these semantically identical examples:
9025 ${substr{-1}{abcde}}
9027 yields all but the last character of the string, that is, ``abcd''.
9031 *\$\{tr\{*<'subject'>*\}\{*<'characters'>*\}\{*<'replacements'>*\}\}*::
9032 cindex:[expansion,character translation]
9033 This item does single-character translation on its subject string. The second
9034 argument is a list of characters to be translated in the subject string. Each
9035 matching character is replaced by the corresponding character from the
9036 replacement list. For example
9038 ${tr{abcdea}{ac}{13}}
9040 yields `1b3de1`. If there are duplicates in the second character string, the
9041 last occurrence is used. If the third string is shorter than the second, its
9042 last character is replicated. However, if it is empty, no translation takes
9050 cindex:[expansion,operators]
9051 For expansion items that perform transformations on a single argument string,
9052 the ``operator'' notation is used because it is simpler and uses fewer braces.
9053 The substring is first expanded before the operation is applied to it. The
9054 following operations can be performed:
9056 *\$\{address:*<'string'>*\}*::
9057 cindex:[expansion,RFC 2822 address handling]
9058 The string is interpreted as an RFC 2822 address, as it might appear in a
9059 header line, and the effective address is extracted from it. If the string does
9060 not parse successfully, the result is empty.
9063 *\$\{base62:*<'digits'>*\}*::
9065 [revisionflag="changed"]
9067 cindex:[expansion,conversion to base 62]
9068 The string must consist entirely of decimal digits. The number is converted to
9069 base 62 and output as a string of six characters, including leading zeros. In
9070 the few operating environments where Exim uses base 36 instead of base 62 for
9071 its message identifiers (because those systems do not have case-sensitive file
9072 names), base 36 is used by this operator, despite its name. *Note*: Just to be
9073 absolutely clear: this is 'not' base64 encoding.
9075 *\$\{base62d:*<'base-62~digits'>*\}*::
9077 [revisionflag="changed"]
9079 cindex:[expansion,conversion to base 62]
9080 The string must consist entirely of base-62 digits, or, in operating
9081 environments where Exim uses base 36 instead of base 62 for its message
9082 identifiers, base-36 digits. The number is converted to decimal and output as a
9086 *\$\{domain:*<'string'>*\}*::
9087 cindex:[domain,extraction]
9088 cindex:[expansion,domain extraction]
9089 The string is interpreted as an RFC 2822 address and the domain is extracted
9090 from it. If the string does not parse successfully, the result is empty.
9093 *\$\{escape:*<'string'>*\}*::
9094 cindex:[expansion,escaping non-printing characters]
9095 If the string contains any non-printing characters, they are converted to
9096 escape sequences starting with a backslash. Whether characters with the most
9097 significant bit set (so-called ``8-bit characters'') count as printing or not is
9098 controlled by the %print_topbitchars% option.
9101 *\$\{eval:*<'string'>*\}*::
9102 *\$\{eval10:*<'string'>*\}*::
9104 [revisionflag="changed"]
9105 cindex:[expansion,expression evaluation]
9106 cindex:[expansion,arithmetic expression]
9107 These items supports simple arithmetic in expansion strings. The string (after
9108 expansion) must be a conventional arithmetic expression, but it is limited to
9109 five basic operators (plus, minus, times, divide, remainder) and parentheses.
9110 All operations are carried out using integer arithmetic. Plus and minus have a
9111 lower priority than times, divide, and remainder; operators with the same
9112 priority are evaluated from left to right.
9114 For %eval%, numbers may be decimal, octal (starting with ``0'') or hexadecimal
9115 (starting with ``0x''). For %eval10%, all numbers are taken as decimal, even if
9116 they start with a leading zero. This can be useful when processing numbers
9117 extracted from dates or times, which often do have leading zeros.
9119 A number may be followed by ``K'' or ``M'' to multiply it by 1024 or 1024\*1024,
9120 respectively. Negative numbers are supported. The result of the computation is
9121 a decimal representation of the answer (without ``K'' or ``M''). For example:
9123 [revisionflag="changed"]
9125 `\${eval:1+1} ` yields 2
9126 `\${eval:1+2*3} ` yields 7
9127 `\${eval:(1+2)*3} ` yields 9
9128 `\${eval:2+42%5} ` yields 4
9131 As a more realistic example, in an ACL you might have
9134 deny message = Too many bad recipients
9137 {>{$rcpt_count}{10}} \
9140 {$recipients_count} \
9141 {${eval:$rcpt_count/2}} \
9146 The condition is true if there have been more than 10 RCPT commands and
9147 fewer than half of them have resulted in a valid recipient.
9150 *\$\{expand:*<'string'>*\}*::
9151 cindex:[expansion,re-expansion of substring]
9152 The %expand% operator causes a string to be expanded for a second time. For
9155 ${expand:${lookup{$domain}dbm{/some/file}{$value}}}
9157 first looks up a string in a file while expanding the operand for %expand%, and
9158 then re-expands what it has found.
9161 *\$\{from_utf8:*<'string'>*\}*::
9163 cindex:[UTF-8,conversion from]
9164 cindex:[expansion,UTF-8 conversion]
9165 The world is slowly moving towards Unicode, although there are no standards for
9166 email yet. However, other applications (including some databases) are starting
9167 to store data in Unicode, using UTF-8 encoding. This operator converts from a
9168 UTF-8 string to an ISO-8859-1 string. UTF-8 code values greater than 255 are
9169 converted to underscores. The input must be a valid UTF-8 string. If it is not,
9170 the result is an undefined sequence of bytes.
9172 Unicode code points with values less than 256 are compatible with ASCII and
9173 ISO-8859-1 (also known as Latin-1).
9174 For example, character 169 is the copyright symbol in both cases, though the
9175 way it is encoded is different. In UTF-8, more than one byte is needed for
9176 characters with code values greater than 127, whereas ISO-8859-1 is a
9177 single-byte encoding (but thereby limited to 256 characters). This makes
9178 translation from UTF-8 to ISO-8859-1 straightforward.
9181 *\$\{hash_*<'n'>*_*<'m'>*:*<'string'>*\}*::
9182 cindex:[hash function,textual]
9183 cindex:[expansion,textual hash]
9184 The %hash% operator is a simpler interface to the hashing function that can be
9185 used when the two parameters are fixed numbers (as opposed to strings that
9186 change when expanded). The effect is the same as
9188 ${hash{<n>}{<m>}{<string>}}
9190 See the description of the general %hash% item above for details. The
9191 abbreviation %h% can be used when %hash% is used as an operator.
9195 *\$\{hex2b64:*<'hexstring'>*\}*::
9196 cindex:[base64 encoding,conversion from hex]
9197 cindex:[expansion,hex to base64]
9198 This operator converts a hex string into one that is base64 encoded. This can
9199 be useful for processing the output of the MD5 and SHA-1 hashing functions.
9202 *\$\{lc:*<'string'>*\}*::
9203 cindex:[case forcing in strings]
9204 cindex:[string,case forcing]
9205 cindex:[lower casing]
9206 cindex:[expansion,case forcing]
9207 This forces the letters in the string into lower-case, for example:
9213 *\$\{length_*<'number'>*:*<'string'>*\}*::
9214 cindex:[expansion,string truncation]
9215 The %length% operator is a simpler interface to the %length% function that can
9216 be used when the parameter is a fixed number (as opposed to a string that
9217 changes when expanded). The effect is the same as
9219 ${length{<number>}{<string>}}
9221 See the description of the general %length% item above for details. Note that
9222 %length% is not the same as %strlen%. The abbreviation %l% can be used when
9223 %length% is used as an operator.
9226 *\$\{local_part:*<'string'>*\}*::
9227 cindex:[expansion,local part extraction]
9228 The string is interpreted as an RFC 2822 address and the local part is
9229 extracted from it. If the string does not parse successfully, the result is
9233 *\$\{mask:*<'IP~address'>*/*<'bit~count'>*\}*::
9234 cindex:[masked IP address]
9235 cindex:[IP address,masking]
9236 cindex:[CIDR notation]
9237 cindex:[expansion,IP address masking]
9238 If the form of the string to be operated on is not an IP address followed by a
9239 slash and an integer (that is, a network address in CIDR notation), the
9240 expansion fails. Otherwise, this operator converts the IP address to binary,
9241 masks off the least significant bits according to the bit count, and converts
9242 the result back to text, with mask appended. For example,
9244 ${mask:10.111.131.206/28}
9246 returns the string ``10.111.131.192/28''. Since this operation is expected to be
9247 mostly used for looking up masked addresses in files, the result for an IPv6
9248 address uses dots to separate components instead of colons, because colon
9249 terminates a key string in lsearch files. So, for example,
9251 ${mask:3ffe:ffff:836f:0a00:000a:0800:200a:c031/99}
9255 3ffe.ffff.836f.0a00.000a.0800.2000.0000/99
9257 Letters in IPv6 addresses are always output in lower case.
9260 *\$\{md5:*<'string'>*\}*::
9262 cindex:[expansion,MD5 hash]
9263 The %md5% operator computes the MD5 hash value of the string, and returns it as
9264 a 32-digit hexadecimal number,
9265 in which any letters are in lower case.
9268 *\$\{nhash_*<'n'>*_*<'m'>*:*<'string'>*\}*::
9269 cindex:[expansion,numeric hash]
9270 cindex:[hash function,numeric]
9271 The %nhash% operator is a simpler interface to the numeric hashing function
9272 that can be used when the two parameters are fixed numbers (as opposed to
9273 strings that change when expanded). The effect is the same as
9275 ${nhash{<n>}{<m>}{<string>}}
9277 See the description of the general %nhash% item above for details.
9280 *\$\{quote:*<'string'>*\}*::
9281 cindex:[quoting,in string expansions]
9282 cindex:[expansion,quoting]
9283 The %quote% operator puts its argument into double quotes if it
9284 is an empty string or
9285 contains anything other than letters, digits, underscores, dots, and hyphens.
9286 Any occurrences of double quotes and backslashes are escaped with a backslash.
9287 Newlines and carriage returns are converted to `\n` and `\r`,
9288 respectively For example,
9296 The place where this is useful is when the argument is a substitution from a
9297 variable or a message header.
9299 *\$\{quote_local_part:*<'string'>*\}*::
9300 This operator is like %quote%, except that it quotes the string only if
9301 required to do so by the rules of RFC 2822 for quoting local parts. For
9302 example, a plus sign would not cause quoting (but it would for %quote%).
9303 If you are creating a new email address from the contents of $local_part$
9304 (or any other unknown data), you should always use this operator.
9307 *\$\{quote_*<'lookup-type'>*:*<'string'>*\}*::
9308 cindex:[quoting,lookup-specific]
9309 This operator applies lookup-specific quoting rules to the string. Each
9310 query-style lookup type has its own quoting rules which are described with
9311 the lookups in chapter <<CHAPfdlookup>>. For example,
9313 ${quote_ldap:two * two}
9319 For single-key lookup types, no quoting is ever necessary and this operator
9320 yields an unchanged string.
9323 *\$\{rxquote:*<'string'>*\}*::
9324 cindex:[quoting,in regular expressions]
9325 cindex:[regular expressions,quoting]
9326 The %rxquote% operator inserts a backslash before any non-alphanumeric
9327 characters in its argument. This is useful when substituting the values of
9328 variables or headers inside regular expressions.
9331 *\$\{rfc2047:*<'string'>*\}*::
9332 cindex:[expansion,RFC 2047]
9333 cindex:[RFC 2047,expansion operator]
9334 This operator encodes text according to the rules of RFC 2047. This is an
9335 encoding that is used in header lines to encode non-ASCII characters. It is
9336 assumed that the input string is in the encoding specified by the
9337 %headers_charset% option, which defaults to ISO-8859-1. If the string contains
9338 only characters in the range 33--126, and no instances of the characters
9340 ? = ( ) < > @ , ; : \ " . [ ] _
9342 it is not modified. Otherwise, the result is the RFC 2047 encoding of the
9343 string, using as many ``encoded words'' as necessary to encode all the
9348 *\$\{sha1:*<'string'>*\}*::
9350 cindex:[expansion,SHA-1 hashing]
9351 The %sha1% operator computes the SHA-1 hash value of the string, and returns it
9352 as a 40-digit hexadecimal number, in which any letters are in upper case.
9355 *\$\{stat:*<'string'>*\}*::
9356 cindex:[expansion,statting a file]
9357 cindex:[file,extracting characteristics]
9358 The string, after expansion, must be a file path. A call to the 'stat()'
9359 function is made for this path. If 'stat()' fails, an error occurs and the
9360 expansion fails. If it succeeds, the data from the stat replaces the item, as a
9361 series of <'name'>=<'value'> pairs, where the values are all numerical, except
9362 for the value of ``smode''. The names are: ``mode'' (giving the mode as a
9363 4-digit octal number), ``smode'' (giving the mode in symbolic format as a
9364 10-character string, as for the 'ls' command), ``inode'', ``device'',
9365 ``links'', ``uid'', ``gid'', ``size'', ``atime'', ``mtime'', and ``ctime''. You
9366 can extract individual fields using the %extract% expansion item.
9368 [revisionflag="changed"]
9369 The use of the %stat% expansion in users' filter files can be locked out by the
9370 system administrator. *Warning*: The file size may be incorrect on 32-bit
9371 systems for files larger than 2GB.
9374 *\$\{str2b64:*<'string'>*\}*::
9375 cindex:[expansion,base64 encoding]
9376 cindex:[base64 encoding,in string expansion]
9377 This operator converts a string into one that is base64 encoded.
9381 *\$\{strlen:*<'string'>*\}*::
9382 cindex:[expansion,string length]
9383 cindex:[string,length in expansion]
9384 The item is replace by the length of the expanded string, expressed as a
9385 decimal number. *Note*: Do not confuse %strlen% with %length%.
9388 *\$\{substr_*<'start'>*_*<'length'>*:*<'string'>*\}*::
9390 cindex:[substring extraction]
9391 cindex:[expansion,substring expansion]
9392 The %substr% operator is a simpler interface to the %substr% function that can
9393 be used when the two parameters are fixed numbers (as opposed to strings that
9394 change when expanded). The effect is the same as
9396 ${substr{<start>}{<length>}{<string>}}
9398 See the description of the general %substr% item above for details. The
9399 abbreviation %s% can be used when %substr% is used as an operator.
9401 *\$\{time_interval:*<'string'>*\}*::
9402 cindex:[%time_interval%]
9403 cindex:[time interval,formatting]
9404 The argument (after sub-expansion) must be a sequence of decimal digits that
9405 represents an interval of time as a number of seconds. It is converted into a
9406 number of larger units and output in Exim's normal time format, for example,
9409 *\$\{uc:*<'string'>*\}*::
9410 cindex:[case forcing in strings]
9411 cindex:[string,case forcing]
9412 cindex:[upper casing]
9413 cindex:[expansion,case forcing]
9414 This forces the letters in the string into upper-case.
9422 Expansion conditions
9423 ~~~~~~~~~~~~~~~~~~~~
9424 cindex:[expansion,conditions]
9425 The following conditions are available for testing by the %\$\{if% construct
9426 while expanding strings:
9429 cindex:[expansion,negating a condition]
9430 Preceding any condition with an exclamation mark negates the result of the
9433 <'symbolic~operator'>~*\{*<'string1'>*\}\{*<'string2'>*\}*::
9434 cindex:[numeric comparison]
9435 cindex:[expansion,numeric comparison]
9436 There are a number of symbolic operators for doing numeric comparisons. They
9443 `>= ` greater or equal
9450 ${if >{$message_size}{10M} ...
9452 Note that the general negation operator provides for inequality testing. The
9453 two strings must take the form of optionally signed decimal integers,
9454 optionally followed by one of the letters ``K'' or ``M'' (in either upper or
9455 lower case), signifying multiplication by 1024 or 1024\*1024, respectively.
9457 *crypteq~\{*<'string1'>*\}\{*<'string2'>*\}*::
9458 cindex:[expansion,encrypted comparison]
9459 cindex:[encrypted strings, comparing]
9460 This condition is included in the Exim binary if it is built to support any
9461 authentication mechanisms (see chapter <<CHAPSMTPAUTH>>). Otherwise, it is
9462 necessary to define SUPPORT_CRYPTEQ in _Local/Makefile_ to get %crypteq%
9463 included in the binary.
9465 The %crypteq% condition has two arguments. The first is encrypted and compared
9466 against the second, which is already encrypted. The second string may be in the
9467 LDAP form for storing encrypted strings, which starts with the encryption type
9468 in curly brackets, followed by the data. If the second string does not begin
9469 with ``\{'' it is assumed to be encrypted with 'crypt()' or 'crypt16()' (see
9470 below), since such strings cannot begin with ``\{''. Typically this will be a
9471 field from a password file.
9473 An example of an encrypted string in LDAP form is:
9475 {md5}CY9rzUYh03PK3k6DJie09g==
9477 If such a string appears directly in an expansion, the curly brackets have to
9478 be quoted, because they are part of the expansion syntax. For example:
9480 ${if crypteq {test}{\{md5\}CY9rzUYh03PK3k6DJie09g==}{yes}{no}}
9482 The following encryption types (whose names are matched case-independently) are
9487 cindex:[base64 encoding,in encrypted password]
9488 %\{md5\}% computes the MD5 digest of the first string, and expresses this as
9489 printable characters to compare with the remainder of the second string. If the
9490 length of the comparison string is 24, Exim assumes that it is base64 encoded
9491 (as in the above example). If the length is 32, Exim assumes that it is a
9492 hexadecimal encoding of the MD5 digest. If the length not 24 or 32, the
9495 - cindex:[SHA-1 hash]
9496 %\{sha1\}% computes the SHA-1 digest of the first string, and expresses this as
9497 printable characters to compare with the remainder of the second string. If the
9498 length of the comparison string is 28, Exim assumes that it is base64 encoded.
9499 If the length is 40, Exim assumes that it is a hexadecimal encoding of the
9500 SHA-1 digest. If the length is not 28 or 40, the comparison fails.
9502 - cindex:['crypt()']
9503 %\{crypt\}% calls the 'crypt()' function, which traditionally used to use only
9504 the first eight characters of the password. However, in modern operating
9505 systems this is no longer true, and in many cases the entire password is used,
9506 whatever its length.
9508 - cindex:['crypt16()']
9509 %\{crypt16\}% calls the 'crypt16()' function (also known as 'bigcrypt()'),
9510 which was orginally created to use up to 16 characters of the password. Again,
9511 in modern operating systems, more characters may be used.
9514 Exim has its own version of 'crypt16()' (which is just a double call to
9515 'crypt()'). For operating systems that have their own version, setting
9516 HAVE_CRYPT16 in _Local/Makefile_ when building Exim causes it to use the
9517 operating system version instead of its own. This option is set by default in
9518 the OS-dependent _Makefile_ for those operating systems that are known to
9519 support 'crypt16()'.
9521 If you do not put any curly bracket encryption type in a %crypteq% comparison,
9522 the default is either `\{crypt\}` or `\{crypt16\}`, as determined by the
9523 setting of DEFAULT_CRYPT in _Local/Makefile_. The default default is
9524 `\{crypt\}`. Whatever the default, you can always use either function by
9525 specifying it explicitly in curly brackets.
9527 Note that if a password is no longer than 8 characters, the results of
9528 encrypting it with 'crypt()' and 'crypt16()' are identical. That means that
9529 'crypt16()' is backwards compatible, as long as nobody feeds it a password
9530 longer than 8 characters.
9533 *def:*<'variable~name'>*::
9534 cindex:[expansion,checking for empty variable]
9535 The %def% condition must be followed by the name of one of the expansion
9536 variables defined in section <<SECTexpvar>>. The condition is true if the named
9537 expansion variable does not contain the empty string, for example
9539 ${if def:sender_ident {from $sender_ident}}
9541 Note that the variable name is given without a leading %\$% character. If the
9542 variable does not exist, the expansion fails.
9544 *def:header_*<'header~name'>*:*~~or~~*def:h_*<'header~name'>*:*::
9545 cindex:[expansion,checking header line existence]
9546 This condition is true if a message is being processed and the named header
9547 exists in the message. For example,
9549 ${if def:header_reply-to:{$h_reply-to:}{$h_from:}}
9551 *Note*: no %\$% appears before %header_% or %h_% in the condition, and the
9552 header name must be terminated by a colon if white space does not follow.
9554 *eq~\{*<'string1'>*\}\{*<'string2'>*\}*::
9555 cindex:[string,comparison]
9556 cindex:[expansion,string comparison]
9557 The two substrings are first expanded. The condition is true if the two
9558 resulting strings are identical, including the case of letters.
9560 *eqi~\{*<'string1'>*\}\{*<'string2'>*\}*::
9561 cindex:[string,comparison]
9562 cindex:[expansion,string comparison]
9563 The two substrings are first expanded. The condition is true if the two
9564 resulting strings are identical when compared in a case-independent way.
9566 *exists~\{*<'file~name'>*\}*::
9567 cindex:[expansion,file existence test]
9568 cindex:[file,existence test]
9569 The substring is first expanded and then interpreted as an absolute path. The
9570 condition is true if the named file (or directory) exists. The existence test
9571 is done by calling the 'stat()' function. The use of the %exists% test in
9572 users' filter files may be locked out by the system administrator.
9575 cindex:[delivery,first]
9576 cindex:[first delivery]
9577 cindex:[expansion,first delivery test]
9578 This condition, which has no data, is true during a message's first delivery
9579 attempt. It is false during any subsequent delivery attempts.
9581 *ge~\{*<'string1'>*\}\{*<'string2'>*\}*::
9584 *gei~\{*<'string1'>*\}\{*<'string2'>*\}*::
9585 cindex:[string,comparison]
9586 cindex:[expansion,string comparison]
9587 The two substrings are first expanded. The condition is true if the first
9588 string is lexically greater than or equal to the second string: for %ge% the
9589 comparison includes the case of letters, whereas for %gei% the comparison is
9592 *gt~\{*<'string1'>*\}\{*<'string2'>*\}*::
9595 *gti~\{*<'string1'>*\}\{*<'string2'>*\}*::
9596 cindex:[string,comparison]
9597 cindex:[expansion,string comparison]
9598 The two substrings are first expanded. The condition is true if the first
9599 string is lexically greater than the second string: for %gt% the comparison
9600 includes the case of letters, whereas for %gti% the comparison is
9603 *isip~\{*<'string'>*\}*::
9606 *isip4~\{*<'string'>*\}*::
9609 *isip6~\{*<'string'>*\}*::
9610 cindex:[IP address,testing string format]
9611 cindex:[string,testing for IP address]
9612 The substring is first expanded, and then tested to see if it has the form of
9613 an IP address. Both IPv4 and IPv6 addresses are valid for %isip%, whereas
9614 %isip4% and %isip6% test just for IPv4 or IPv6 addresses, respectively. For
9615 example, you could use
9617 ${if isip4{$sender_host_address}...
9619 to test which version of IP an incoming SMTP connection is using.
9622 *ldapauth~\{*<'ldap~query'>*\}*::
9623 cindex:[LDAP,use for authentication]
9624 cindex:[expansion,LDAP authentication test]
9625 This condition supports user authentication using LDAP. See section
9626 <<SECTldap>> for details of how to use LDAP in lookups and the syntax of
9627 queries. For this use, the query must contain a user name and password. The
9628 query itself is not used, and can be empty. The condition is true if the
9629 password is not empty, and the user name and password are accepted by the LDAP
9630 server. An empty password is rejected without calling LDAP because LDAP binds
9631 with an empty password are considered anonymous regardless of the username, and
9632 will succeed in most configurations. See chapter <<CHAPSMTPAUTH>> for details
9633 of SMTP authentication, and chapter <<CHAPplaintext>> for an example of how
9637 *le~\{*<'string1'>*\}\{*<'string2'>*\}*::
9640 *lei~\{*<'string1'>*\}\{*<'string2'>*\}*::
9641 cindex:[string,comparison]
9642 cindex:[expansion,string comparison]
9643 The two substrings are first expanded. The condition is true if the first
9644 string is lexically less than or equal to the second string: for %le% the
9645 comparison includes the case of letters, whereas for %lei% the comparison is
9648 *lt~\{*<'string1'>*\}\{*<'string2'>*\}*::
9651 *lti~\{*<'string1'>*\}\{*<'string2'>*\}*::
9652 cindex:[string,comparison]
9653 cindex:[expansion,string comparison]
9654 The two substrings are first expanded. The condition is true if the first
9655 string is lexically less than the second string: for %lt% the comparison
9656 includes the case of letters, whereas for %lti% the comparison is
9660 *match~\{*<'string1'>*\}\{*<'string2'>*\}*::
9661 cindex:[expansion,regular expression comparison]
9662 cindex:[regular expressions,match in expanded string]
9663 The two substrings are first expanded. The second is then treated as a regular
9664 expression and applied to the first. Because of the pre-expansion, if the
9665 regular expression contains dollar, or backslash characters, they must be
9666 escaped. Care must also be taken if the regular expression contains braces
9667 (curly brackets). A closing brace must be escaped so that it is not taken as a
9668 premature termination of <'string2'>. The easiest approach is to use the
9669 `\N` feature to disable expansion of the regular expression.
9672 ${if match {$local_part}{\N^\d{3}\N} ...
9674 If the whole expansion string is in double quotes, further escaping of
9675 backslashes is also required.
9677 The condition is true if the regular expression match succeeds.
9678 The regular expression is not required to begin with a circumflex
9679 metacharacter, but if there is no circumflex, the expression is not anchored,
9680 and it may match anywhere in the subject, not just at the start. If you want
9681 the pattern to match at the end of the subject, you must include the `\$`
9682 metacharacter at an appropriate point.
9684 cindex:[numerical variables ($1$ $2$ etc),in %if% expansion]
9685 At the start of an %if% expansion the values of the numeric variable
9686 substitutions $1$ etc. are remembered. Obeying a %match% condition that
9687 succeeds causes them to be reset to the substrings of that condition and they
9688 will have these values during the expansion of the success string. At the end
9689 of the %if% expansion, the previous values are restored. After testing a
9690 combination of conditions using %or%, the subsequent values of the numeric
9691 variables are those of the condition that succeeded.
9693 *match_address~\{*<'string1'>*\}\{*<'string2'>*\}*::
9694 See *match_local_part*.
9696 *match_domain~\{*<'string1'>*\}\{*<'string2'>*\}*::
9697 See *match_local_part*.
9699 *match_ip~\{*<'string1'>*\}\{*<'string2'>*\}*::
9701 [revisionflag="changed"]
9702 This condition matches an IP address to a list of IP address patterns. It must
9703 be followed by two argument strings. The first (after expansion) must be an IP
9704 address or an empty string. The second (after expansion) is a restricted host
9705 list that can match only an IP address, not a host name. For example:
9707 [revisionflag="changed"]
9709 ${if match_ip{$sender_host_address}{1.2.3.4:5.6.7.8}{...}{...}}
9712 [revisionflag="changed"]
9713 The specific types of host list item that are permitted in the list are:
9716 - An IP address, optionally with a CIDR mask.
9718 - A single asterisk, which matches any IP address.
9720 - An empty item, which matches only if the IP address is empty. This could be
9721 useful for testing for a locally submitted message or one from specific hosts
9722 in a single test such as
9725 ${if match_ip{$sender_host_address}{:4.3.2.1:...}{...}{...}}
9728 where the first item in the list is the empty string.
9730 - The item @[] matches any of the local host's interface addresses.
9732 - Lookups are assumed to be ``net-'' style lookups, even if `net-` is not
9733 specified. Thus, the following are equivalent:
9736 ${if match_ip{$sender_host_address}{lsearch;/some/file}...
9737 ${if match_ip{$sender_host_address}{net-lsearch;/some/file}...
9740 You do need to specify the `net-` prefix if you want to specify a
9741 specific address mask, for example, by using `net24-`.
9744 [revisionflag="changed"]
9745 Consult section <<SECThoslispatip>> for further details of these patterns.
9749 *match_local_part~\{*<'string1'>*\}\{*<'string2'>*\}*::
9750 cindex:[domain list,in expansion condition]
9751 cindex:[address list,in expansion condition]
9752 cindex:[local part list,in expansion condition]
9753 This condition, together with %match_address% and %match_domain%, make it
9754 possible to test domain, address, and local part lists within expansions. Each
9755 condition requires two arguments: an item and a list to match. A trivial
9758 ${if match_domain{a.b.c}{x.y.z:a.b.c:p.q.r}{yes}{no}}
9760 In each case, the second argument may contain any of the allowable items for a
9761 list of the appropriate type. Also, because the second argument (after
9762 expansion) is a standard form of list, it is possible to refer to a named list.
9763 Thus, you can use conditions like this:
9765 ${if match_domain{$domain}{+local_domains}{...
9768 For address lists, the matching starts off caselessly, but the `+caseful`
9769 item can be used, as in all address lists, to cause subsequent items to
9770 have their local parts matched casefully. Domains are always matched
9773 *Note*: Host lists are 'not' supported in this way. This is because
9774 hosts have two identities: a name and an IP address, and it is not clear
9775 how to specify cleanly how such a test would work. However, IP addresses can be
9776 matched using %match_ip%.
9778 *pam~\{*<'string1'>*:*<'string2'>*:...\}*::
9779 cindex:[PAM authentication]
9780 cindex:[AUTH,with PAM]
9781 cindex:[Solaris,PAM support]
9782 cindex:[expansion,PAM authentication test]
9783 'Pluggable Authentication Modules'
9784 (*http://www.kernel.org/pub/linux/libs/pam/[]*)
9785 are a facility that is available in the latest releases of Solaris and in some
9786 GNU/Linux distributions. The Exim support, which is intended for use in
9787 conjunction with the SMTP AUTH command, is available only if Exim is
9792 in _Local/Makefile_. You probably need to add %-lpam% to EXTRALIBS, and
9793 in some releases of GNU/Linux %-ldl% is also needed.
9795 The argument string is first expanded, and the result must be a
9796 colon-separated list of strings. Leading and trailing white space is ignored.
9797 The PAM module is initialized with the service name ``exim'' and the user name
9798 taken from the first item in the colon-separated data string (<'string1'>). The
9799 remaining items in the data string are passed over in response to requests from
9800 the authentication function. In the simple case there will only be one request,
9801 for a password, so the data consists of just two strings.
9803 There can be problems if any of the strings are permitted to contain colon
9804 characters. In the usual way, these have to be doubled to avoid being taken as
9805 separators. If the data is being inserted from a variable, the %sg% expansion
9806 item can be used to double any existing colons. For example, the configuration
9807 of a LOGIN authenticator might contain this setting:
9809 server_condition = ${if pam{$1:${sg{$2}{:}{::}}}{yes}{no}}
9811 For a PLAIN authenticator you could use:
9813 server_condition = ${if pam{$2:${sg{$3}{:}{::}}}{yes}{no}}
9815 In some operating systems, PAM authentication can be done only from a process
9816 running as root. Since Exim is running as the Exim user when receiving
9817 messages, this means that PAM cannot be used directly in those systems.
9818 A patched version of the 'pam_unix' module that comes with the
9819 Linux PAM package is available from *http://www.e-admin.de/pam_exim/[]*.
9820 The patched module allows one special uid/gid combination, in addition to root,
9821 to authenticate. If you build the patched module to allow the Exim user and
9822 group, PAM can then be used from an Exim authenticator.
9825 *pwcheck~\{*<'string1'>*:*<'string2'>*\}*::
9826 cindex:['pwcheck' daemon]
9828 cindex:[expansion,'pwcheck' authentication test]
9829 This condition supports user authentication using the Cyrus 'pwcheck' daemon.
9830 This is one way of making it possible for passwords to be checked by a process
9831 that is not running as root. *Note:* The use of 'pwcheck' is now deprecated.
9832 Its replacement is 'saslauthd' (see below).
9834 The pwcheck support is not included in Exim by default. You need to specify
9835 the location of the pwcheck daemon's socket in _Local/Makefile_ before
9836 building Exim. For example:
9838 CYRUS_PWCHECK_SOCKET=/var/pwcheck/pwcheck
9840 You do not need to install the full Cyrus software suite in order to use
9841 the pwcheck daemon. You can compile and install just the daemon alone
9842 from the Cyrus SASL library. Ensure that 'exim' is the only user that has
9843 access to the _/var/pwcheck_ directory.
9845 The %pwcheck% condition takes one argument, which must be the user name and
9846 password, separated by a colon. For example, in a LOGIN authenticator
9847 configuration, you might have this:
9849 server_condition = ${if pwcheck{$1:$2}{1}{0}}
9853 cindex:[queue runner,detecting when delivering from]
9854 cindex:[expansion,queue runner test]
9855 This condition, which has no data, is true during delivery attempts that are
9856 initiated by queue runner processes, and false otherwise.
9859 *radius~\{*<'authentication~string'>*\}*::
9861 cindex:[expansion,Radius authentication]
9862 Radius authentication (RFC 2865) is supported in a similar way to PAM. You must
9863 set RADIUS_CONFIG_FILE in _Local/Makefile_ to specify the location of
9864 the Radius client configuration file in order to build Exim with Radius
9867 [revisionflag="changed"]
9868 With just that one setting, Exim expects to be linked with the %radiusclient%
9869 library, using the original API. If you are using release 0.4.0 or later of
9870 this library, you need to set
9872 [revisionflag="changed"]
9874 RADIUS_LIB_TYPE=RADIUSCLIENTNEW
9877 [revisionflag="changed"]
9878 in _Local/Makefile_ when building Exim. You can also link Exim with the
9879 %libradius% library that comes with FreeBSD. To do this, set
9881 RADIUS_LIB_TYPE=RADLIB
9883 in _Local/Makefile_, in addition to setting RADIUS_CONFIGURE_FILE.
9884 You may also have to supply a suitable setting in EXTRALIBS so that the
9885 Radius library can be found when Exim is linked.
9887 The string specified by RADIUS_CONFIG_FILE is expanded and passed to the
9888 Radius client library, which calls the Radius server. The condition is true if
9889 the authentication is successful. For example
9891 server_condition = \$\{if radius\{<arguments>\}\{yes\}\{no\}\}
9896 *saslauthd~\{\{*<'user'>*\}\{*<'password'>*\}\{*<'service'>*\}\{*<'realm'>*\}\}*::
9897 cindex:['saslauthd' daemon]
9899 cindex:[expansion,'saslauthd' authentication test]
9900 This condition supports user authentication using the Cyrus 'saslauthd'
9901 daemon. This replaces the older 'pwcheck' daemon, which is now deprecated.
9902 Using this daemon is one way of making it possible for passwords to be checked
9903 by a process that is not running as root.
9905 The saslauthd support is not included in Exim by default. You need to specify
9906 the location of the saslauthd daemon's socket in _Local/Makefile_ before
9907 building Exim. For example:
9909 CYRUS_SASLAUTHD_SOCKET=/var/state/saslauthd/mux
9911 You do not need to install the full Cyrus software suite in order to use
9912 the saslauthd daemon. You can compile and install just the daemon alone
9913 from the Cyrus SASL library.
9915 Up to four arguments can be supplied to the %saslauthd% condition, but only two
9916 are mandatory. For example:
9918 server_condition = ${if saslauthd{{$1}{$2}}{1}{0}}
9920 The service and the realm are optional (which is why the arguments are enclosed
9921 in their own set of braces). For details of the meaning of the service and
9922 realm, and how to run the daemon, consult the Cyrus documentation.
9926 Combining expansion conditions
9927 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
9928 cindex:[expansion,combining conditions]
9929 Several conditions can be tested at once by combining them using the %and% and
9930 %or% combination conditions. Note that %and% and %or% are complete conditions
9931 on their own, and precede their lists of sub-conditions. Each sub-condition
9932 must be enclosed in braces within the overall braces that contain the list. No
9933 repetition of %if% is used.
9936 *or~\{\{*<'cond1'>*\}\{*<'cond2'>*\}...\}*::
9937 cindex:[``or'' expansion condition]
9938 cindex:[expansion,``or'' of conditions]
9939 The sub-conditions are evaluated from left to right. The condition is true if
9940 any one of the sub-conditions is true.
9943 ${if or {{eq{$local_part}{spqr}}{eq{$domain}{testing.com}}}...
9945 When a true sub-condition is found, the following ones are parsed but not
9946 evaluated. If there are several ``match'' sub-conditions the values of the
9947 numeric variables afterwards are taken from the first one that succeeds.
9949 *and~\{\{*<'cond1'>*\}\{*<'cond2'>*\}...\}*::
9950 cindex:[``and'' expansion condition]
9951 cindex:[expansion,``and'' of conditions]
9952 The sub-conditions are evaluated from left to right. The condition is true if
9953 all of the sub-conditions are true. If there are several ``match''
9954 sub-conditions, the values of the numeric variables afterwards are taken from
9955 the last one. When a false sub-condition is found, the following ones are
9956 parsed but not evaluated.
9964 cindex:[expansion variables, list of]
9965 This section contains an alphabetical list of all the expansion variables. Some
9966 of them are available only when Exim is compiled with specific options such as
9967 support for TLS or the content scanning extension.
9970 cindex:[numerical variables ($1$ $2$ etc)]
9971 When a %match% expansion condition succeeds, these variables contain the
9972 captured substrings identified by the regular expression during subsequent
9973 processing of the success string of the containing %if% expansion item. They
9974 may also be set externally by some other matching process which precedes the
9975 expansion of the string. For example, the commands available in Exim filter
9976 files include an %if% command with its own regular expression matching
9979 $acl_c0$ -- $acl_c9$::
9980 Values can be placed in these variables by the %set% modifier in an ACL. The
9981 values persist throughout the lifetime of an SMTP connection. They can be used
9982 to pass information between ACLs and different invocations of the same ACL.
9983 When a message is received, the values of these variables are saved with the
9984 message, and can be accessed by filters, routers, and transports during
9985 subsequent delivery.
9987 $acl_m0$ -- $acl_m9$::
9988 Values can be placed in these variables by the %set% modifier in an ACL. They
9989 retain their values while a message is being received, but are reset
9990 afterwards. They are also reset by MAIL, RSET, EHLO, HELO, and after starting a
9991 TLS session. When a message is received, the values of these variables are
9992 saved with the message, and can be accessed by filters, routers, and transports
9993 during subsequent delivery.
9995 $acl_verify_message$::
9997 [revisionflag="changed"]
9998 cindex:[$acl_verify_message$]
9999 After an address verification has failed, this variable contains the failure
10000 message. It retains its value for use in subsequent modifiers. The message can
10001 be preserved by coding like this:
10003 [revisionflag="changed"]
10005 warn !verify = sender
10006 set acl_m0 = $acl_verify_message
10009 [revisionflag="changed"]
10010 You can use $acl_verify_message$ during the expansion of the %message% or
10011 %log_message% modifiers, to include information about the verification failure.
10015 cindex:[$address_data$]
10016 This variable is set by means of the %address_data% option in routers. The
10017 value then remains with the address while it is processed by subsequent routers
10018 and eventually a transport. If the transport is handling multiple addresses,
10019 the value from the first address is used. See chapter <<CHAProutergeneric>> for
10020 more details. *Note*: the contents of $address_data$ are visible in user filter
10023 If $address_data$ is set when the routers are called from an ACL to verify
10024 a recipient address, the final value is still in the variable for subsequent
10025 conditions and modifiers of the ACL statement. If routing the address caused it
10026 to be redirected to just one address, the child address is also routed as part
10027 of the verification, and in this case the final value of $address_data$ is
10028 from the child's routing.
10030 If $address_data$ is set when the routers are called from an ACL to verify a
10031 sender address, the final value is also preserved, but this time in
10032 $sender_address_data$, to distinguish it from data from a recipient
10035 In both cases (recipient and sender verification), the value does not persist
10036 after the end of the current ACL statement. If you want to preserve
10037 these values for longer, you can save them in ACL variables.
10040 cindex:[$address_file$]
10041 When, as a result of aliasing, forwarding, or filtering, a message is directed
10042 to a specific file, this variable holds the name of the file when the transport
10043 is running. At other times, the variable is empty. For example, using the
10044 default configuration, if user %r2d2% has a _.forward_ file containing
10046 /home/r2d2/savemail
10048 then when the ^address_file^ transport is running, $address_file$
10049 contains ``/home/r2d2/savemail''.
10051 cindex:[Sieve filter,value of $address_file$]
10052 For Sieve filters, the value may be ``inbox'' or a relative folder name. It is
10053 then up to the transport configuration to generate an appropriate absolute path
10054 to the relevant file.
10057 cindex:[$address_pipe$]
10058 When, as a result of aliasing or forwarding, a message is directed to a pipe,
10059 this variable holds the pipe command when the transport is running.
10061 $authenticated_id$::
10062 cindex:[authentication,id]
10063 cindex:[$authenticated_id$]
10064 When a server successfully authenticates a client it may be configured to
10065 preserve some of the authentication information in the variable
10066 $authenticated_id$ (see chapter <<CHAPSMTPAUTH>>). For example, a user/password
10067 authenticator configuration might preserve the user name for use in the
10068 routers. Note that this is not the same information that is saved in
10069 $sender_host_authenticated$. When a message is submitted locally (that is, not
10070 over a TCP connection), the value of $authenticated_id$ is the login name of
10071 the calling process.
10073 $authenticated_sender$::
10074 cindex:[sender,authenticated]
10075 cindex:[authentication,sender]
10076 cindex:[AUTH,on MAIL command]
10077 cindex:[$authenticated_sender$]
10078 When acting as a server, Exim takes note of the AUTH= parameter on an incoming
10079 SMTP MAIL command if it believes the sender is sufficiently trusted, as
10080 described in section <<SECTauthparamail>>. Unless the data is the string
10081 ``<>'', it is set as the authenticated sender of the message, and the value is
10082 available during delivery in the $authenticated_sender$ variable. If the sender
10083 is not trusted, Exim accepts the syntax of AUTH=, but ignores the data.
10085 cindex:[$qualify_domain$]
10086 When a message is submitted locally (that is, not over a TCP connection), the
10087 value of $authenticated_sender$ is an address constructed from the login
10088 name of the calling process and $qualify_domain$.
10091 $authentication_failed$::
10092 cindex:[authentication,failure]
10093 cindex:[$authentication_failed$]
10094 This variable is set to ``1'' in an Exim server if a client issues an AUTH
10095 command that does not succeed. Otherwise it is set to ``0''. This makes it
10096 possible to distinguish between ``did not try to authenticate''
10097 ($sender_host_authenticated$ is empty and $authentication_failed$ is set to
10098 ``0'') and ``tried to authenticate but failed'' ($sender_host_authenticated$ is
10099 empty and $authentication_failed$ is set to ``1''). Failure includes any
10100 negative response to an AUTH command, including (for example) an attempt to use
10101 an undefined mechanism.
10104 cindex:[message body, line count]
10105 cindex:[body of message,line count]
10106 cindex:[$body_linecount$]
10107 When a message is being received or delivered, this variable contains the
10108 number of lines in the message's body. See also $message_linecount$.
10111 cindex:[message body, binary zero count]
10112 cindex:[body of message,binary zero count]
10113 cindex:[binary zero,in message body]
10114 cindex:[$body_zerocount$]
10115 When a message is being received or delivered, this variable contains the
10116 number of binary zero bytes in the message's body.
10118 $bounce_recipient$::
10119 cindex:[$bounce_recipient$]
10120 This is set to the recipient address of a bounce message while Exim is creating
10121 it. It is useful if a customized bounce message text file is in use (see
10122 chapter <<CHAPemsgcust>>).
10124 $bounce_return_size_limit$::
10125 cindex:[$bounce_return_size_limit$]
10126 This contains the value set in the %bounce_return_size_limit% option, rounded
10127 up to a multiple of 1000. It is useful when a customized error message text
10128 file is in use (see chapter <<CHAPemsgcust>>).
10131 cindex:[gid (group id),caller]
10132 cindex:[$caller_gid$]
10133 The real group id under which the process that called Exim was running. This is
10134 not the same as the group id of the originator of a message (see
10135 $originator_gid$). If Exim re-execs itself, this variable in the new
10136 incarnation normally contains the Exim gid.
10139 cindex:[uid (user id),caller]
10140 cindex:[$caller_uid$]
10141 The real user id under which the process that called Exim was running. This is
10142 not the same as the user id of the originator of a message (see
10143 $originator_uid$). If Exim re-execs itself, this variable in the new
10144 incarnation normally contains the Exim uid.
10147 cindex:[$compile_date$]
10148 The date on which the Exim binary was compiled.
10151 cindex:[$compile_number$]
10152 The building process for Exim keeps a count of the number
10153 of times it has been compiled. This serves to distinguish different
10154 compilations of the same version of the program.
10156 $demime_errorlevel$::
10157 cindex:[$demime_errorlevel$]
10158 This variable is available when Exim is compiled with
10159 the content-scanning extension and the obsolete %demime% condition. For
10160 details, see section <<SECTdemimecond>>.
10163 cindex:[$demime_reason$]
10164 This variable is available when Exim is compiled with the
10165 content-scanning extension and the obsolete %demime% condition. For details,
10166 see section <<SECTdemimecond>>.
10170 cindex:[black list (DNS)]
10171 cindex:[$dnslist_domain$]
10172 When a client host is found to be on a DNS (black) list,
10173 the list's domain name is put into this variable so that it can be included in
10174 the rejection message.
10177 cindex:[$dnslist_text$]
10178 When a client host is found to be on a DNS (black) list, the
10179 contents of any associated TXT record are placed in this variable.
10182 cindex:[$dnslist_value$]
10183 When a client host is found to be on a DNS (black) list,
10184 the IP address from the resource record is placed in this variable.
10185 If there are multiple records, all the addresses are included, comma-space
10190 When an address is being routed, or delivered on its own, this variable
10191 contains the domain. Global address rewriting happens when a message is
10192 received, so the value of $domain$ during routing and delivery is the value
10193 after rewriting. $domain$ is set during user filtering, but not during system
10194 filtering, because a message may have many recipients and the system filter is
10197 When more than one address is being delivered at once (for example, several
10198 RCPT commands in one SMTP delivery), $domain$ is set only if they all
10199 have the same domain. Transports can be restricted to handling only one domain
10200 at a time if the value of $domain$ is required at transport time -- this is
10201 the default for local transports. For further details of the environment in
10202 which local transports are run, see chapter <<CHAPenvironment>>.
10204 cindex:[%delay_warning_condition%]
10205 At the end of a delivery, if all deferred addresses have the same domain, it is
10206 set in $domain$ during the expansion of %delay_warning_condition%.
10208 The $domain$ variable is also used in some other circumstances:
10211 - When an ACL is running for a RCPT command, $domain$ contains the domain of
10212 the recipient address. The domain of the 'sender' address is in
10213 $sender_address_domain$ at both MAIL time and at RCPT time. $domain$ is not
10214 normally set during the running of the MAIL ACL. However, if the sender address
10215 is verified with a callout during the MAIL ACL, the sender domain is placed in
10216 $domain$ during the expansions of %hosts%, %interface%, and %port% in the
10219 - When a rewrite item is being processed (see chapter <<CHAPrewrite>>), $domain$
10220 contains the domain portion of the address that is being rewritten; it can be
10221 used in the expansion of the replacement address, for example, to rewrite
10222 domains by file lookup.
10224 - With one important exception, whenever a domain list is being scanned,
10225 $domain$ contains the subject domain. *Exception*: When a domain list in
10226 a %sender_domains% condition in an ACL is being processed, the subject domain
10227 is in $sender_address_domain$ and not in $domain$. It works this way so
10228 that, in a RCPT ACL, the sender domain list can be dependent on the
10229 recipient domain (which is what is in $domain$ at this time).
10231 - cindex:[ETRN,value of $domain$]
10232 cindex:[%smtp_etrn_command%]
10233 When the %smtp_etrn_command% option is being expanded, $domain$ contains
10234 the complete argument of the ETRN command (see section <<SECTETRN>>).
10239 cindex:[$domain_data$]
10240 When the %domains% option on a router matches a domain by
10241 means of a lookup, the data read by the lookup is available during the running
10242 of the router as $domain_data$. In addition, if the driver routes the
10243 address to a transport, the value is available in that transport. If the
10244 transport is handling multiple addresses, the value from the first address is
10247 $domain_data$ is also set when the %domains% condition in an ACL matches a
10248 domain by means of a lookup. The data read by the lookup is available during
10249 the rest of the ACL statement. In all other situations, this variable expands
10253 cindex:[$exim_gid$]
10254 This variable contains the numerical value of the Exim group id.
10257 cindex:[$exim_path$]
10258 This variable contains the path to the Exim binary.
10261 cindex:[$exim_uid$]
10262 This variable contains the numerical value of the Exim user id.
10264 $found_extension$::
10265 cindex:[$found_extension$]
10266 This variable is available when Exim is compiled with the
10267 content-scanning extension and the obsolete %demime% condition. For details,
10268 see section <<SECTdemimecond>>.
10270 $header_$<'name'>::
10271 This is not strictly an expansion variable. It is expansion syntax for
10272 inserting the message header line with the given name. Note that the name must
10273 be terminated by colon or white space, because it may contain a wide variety of
10274 characters. Note also that braces must 'not' be used.
10278 When the %check_local_user% option is set for a router, the user's home
10279 directory is placed in $home$ when the check succeeds. In particular, this
10280 means it is set during the running of users' filter files. A router may also
10281 explicitly set a home directory for use by a transport; this can be overridden
10282 by a setting on the transport itself.
10284 When running a filter test via the %-bf% option, $home$ is set to the value
10285 of the environment variable HOME.
10289 When the ^smtp^ transport is expanding its options for encryption using TLS,
10290 $host$ contains the name of the host to which it is connected. Likewise, when
10291 used in the client part of an authenticator configuration (see chapter
10292 <<CHAPSMTPAUTH>>), $host$ contains the name of the server to which the client
10295 cindex:[transport,filter]
10296 cindex:[filter,transport filter]
10297 When used in a transport filter (see chapter <<CHAPtransportgeneric>>) $host$
10298 refers to the host involved in the current connection. When a local transport
10299 is run as a result of a router that sets up a host list, $host$ contains the
10300 name of the first host.
10303 cindex:[$host_address$]
10304 This variable is set to the remote host's IP address whenever $host$ is set for
10305 a remote connection. It is also set to the IP address that is being checked
10306 when the %ignore_target_hosts% option is being processed.
10309 cindex:[$host_data$]
10310 If a %hosts% condition in an ACL is satisfied by means of a lookup, the result
10311 of the lookup is made available in the $host_data$ variable. This
10312 allows you, for example, to do things like this:
10314 deny hosts = net-lsearch;/some/file
10315 message = $host_data
10318 $host_lookup_deferred$::
10319 cindex:[host name lookup, failure of]
10320 cindex:[$host_lookup_deferred$]
10321 This variable normally contains ``0'', as does $host_lookup_failed$. When a
10322 message comes from a remote host and there is an attempt to look up the host's
10323 name from its IP address, and the attempt is not successful, one of these
10324 variables is set to ``1''.
10327 - If the lookup receives a definite negative response (for example, a DNS lookup
10328 succeeded, but no records were found), $host_lookup_failed$ is set to ``1''.
10330 - If there is any kind of problem during the lookup, such that Exim cannot
10331 tell whether or not the host name is defined (for example, a timeout for a DNS
10332 lookup), $host_lookup_deferred$ is set to ``1''.
10335 Looking up a host's name from its IP address consists of more than just a
10336 single reverse lookup. Exim checks that a forward lookup of at least one of the
10337 names it receives from a reverse lookup yields the original IP address. If this
10338 is not the case, Exim does not accept the looked up name(s), and
10339 $host_lookup_failed$ is set to ``1''. Thus, being able to find a name from an
10340 IP address (for example, the existence of a PTR record in the DNS) is not
10341 sufficient on its own for the success of a host name lookup. If the reverse
10342 lookup succeeds, but there is a lookup problem such as a timeout when checking
10343 the result, the name is not accepted, and $host_lookup_deferred$ is set to
10344 ``1''. See also $sender_host_name$.
10346 $host_lookup_failed$::
10347 cindex:[$host_lookup_failed$]
10348 See $host_lookup_deferred$.
10353 The only time this variable is set is while expanding the %directory_file%
10354 option in the ^appendfile^ transport. The variable contains the inode number
10355 of the temporary file which is about to be renamed. It can be used to construct
10356 a unique name for the file.
10358 $interface_address$::
10360 [revisionflag="changed"]
10361 cindex:[$interface_address$]
10362 As soon as a server starts processing a TCP/IP connection, this variable is set
10363 to the address of the local IP interface, and $interface_port$ is set to the
10364 port number. These values are therefore available for use in the ``connect''
10365 ACL. See also the %-oMi% command line option. As well as being used in ACLs,
10366 these variable could be used, for example, to make the file name for a TLS
10367 certificate depend on which interface and/or port is being used.
10370 cindex:[$interface_port$]
10371 See $interface_address$.
10375 This variable, which is available only when Exim is compiled with LDAP support,
10376 contains the DN from the last entry in the most recently successful LDAP
10380 cindex:[$load_average$]
10381 This variable contains the system load average, multiplied by 1000 to that it
10382 is an integer. For example, if the load average is 0.21, the value of the
10383 variable is 210. The value is recomputed every time the variable is referenced.
10386 cindex:[$local_part$]
10387 When an address is being routed, or delivered on its own, this
10388 variable contains the local part. When a number of addresses are being
10389 delivered together (for example, multiple RCPT commands in an SMTP
10390 session), $local_part$ is not set.
10392 Global address rewriting happens when a message is received, so the value of
10393 $local_part$ during routing and delivery is the value after rewriting.
10394 $local_part$ is set during user filtering, but not during system filtering,
10395 because a message may have many recipients and the system filter is called just
10398 cindex:[$local_part_prefix$]
10399 cindex:[$local_part_suffix$]
10400 If a local part prefix or suffix has been recognized, it is not included in the
10401 value of $local_part$ during routing and subsequent delivery. The values of
10402 any prefix or suffix are in $local_part_prefix$ and
10403 $local_part_suffix$, respectively.
10405 When a message is being delivered to a file, pipe, or autoreply transport as a
10406 result of aliasing or forwarding, $local_part$ is set to the local part of
10407 the parent address, not to the file name or command (see $address_file$ and
10410 When an ACL is running for a RCPT command, $local_part$ contains the
10411 local part of the recipient address.
10413 When a rewrite item is being processed (see chapter <<CHAPrewrite>>),
10414 $local_part$ contains the local part of the address that is being rewritten;
10415 it can be used in the expansion of the replacement address, for example.
10417 In all cases, all quoting is removed from the local part. For example, for both
10420 "abc:xyz"@test.example
10421 abc\:xyz@test.example
10423 the value of $local_part$ is
10427 If you use $local_part$ to create another address, you should always wrap it
10428 inside a quoting operator. For example, in a ^redirect^ router you could have:
10430 data = ${quote_local_part:$local_part}@new.domain.example
10432 *Note*: The value of $local_part$ is normally lower cased. If you want
10433 to process local parts in a case-dependent manner in a router, you can set the
10434 %caseful_local_part% option (see chapter <<CHAProutergeneric>>).
10436 $local_part_data$::
10437 cindex:[$local_part_data$]
10438 When the %local_parts% option on a router matches a local part by means of a
10439 lookup, the data read by the lookup is available during the running of the
10440 router as $local_part_data$. In addition, if the driver routes the address
10441 to a transport, the value is available in that transport. If the transport is
10442 handling multiple addresses, the value from the first address is used.
10444 $local_part_data$ is also set when the %local_parts% condition in an ACL
10445 matches a local part by means of a lookup. The data read by the lookup is
10446 available during the rest of the ACL statement. In all other situations, this
10447 variable expands to nothing.
10449 $local_part_prefix$::
10450 cindex:[$local_part_prefix$]
10451 When an address is being routed or delivered, and a
10452 specific prefix for the local part was recognized, it is available in this
10453 variable, having been removed from $local_part$.
10455 $local_part_suffix$::
10456 cindex:[$local_part_suffix$]
10457 When an address is being routed or delivered, and a
10458 specific suffix for the local part was recognized, it is available in this
10459 variable, having been removed from $local_part$.
10461 $local_scan_data$::
10462 cindex:[$local_scan_data$]
10463 This variable contains the text returned by the 'local_scan()' function when a
10464 message is received. See chapter <<CHAPlocalscan>> for more details.
10467 cindex:[$local_user_gid$]
10468 See $local_user_uid$.
10471 cindex:[$local_user_uid$]
10472 This variable and $local_user_gid$ are set to the uid and gid after the
10473 %check_local_user% router precondition succeeds. This means that their values
10474 are available for the remaining preconditions (%senders%, %require_files%, and
10475 %condition%), for the %address_data% expansion, and for any router-specific
10476 expansions. At all other times, the values in these variables are `(uid_t)(-1)`
10477 and `(gid_t)(-1)`, respectively.
10479 $localhost_number$::
10480 cindex:[$localhost_number$]
10481 This contains the expanded value of the
10482 %localhost_number% option. The expansion happens after the main options have
10486 cindex:[$log_inodes$]
10487 The number of free inodes in the disk partition where Exim's
10488 log files are being written. The value is recalculated whenever the variable is
10489 referenced. If the relevant file system does not have the concept of inodes,
10490 the value of is -1. See also the %check_log_inodes% option.
10493 cindex:[$log_space$]
10494 The amount of free space (as a number of kilobytes) in the disk
10495 partition where Exim's log files are being written. The value is recalculated
10496 whenever the variable is referenced. If the operating system does not have the
10497 ability to find the amount of free space (only true for experimental systems),
10498 the space value is -1. See also the %check_log_space% option.
10501 $mailstore_basename$::
10502 cindex:[$mailstore_basename$]
10503 This variable is set only when doing deliveries in ``mailstore'' format in the
10504 ^appendfile^ transport. During the expansion of the %mailstore_prefix%,
10505 %mailstore_suffix%, %message_prefix%, and %message_suffix% options, it contains
10506 the basename of the files that are being written, that is, the name without the
10507 ``.tmp'', ``.env'', or ``.msg'' suffix. At all other times, this variable is
10511 cindex:[$malware_name$]
10512 This variable is available when Exim is compiled with the
10513 content-scanning extension. It is set to the name of the virus that was found
10514 when the ACL %malware% condition is true (see section <<SECTscanvirus>>).
10518 cindex:[message,age of]
10519 cindex:[$message_age$]
10520 This variable is set at the start of a delivery attempt to contain the number
10521 of seconds since the message was received. It does not change during a single
10525 cindex:[body of message,expansion variable]
10526 cindex:[message body, in expansion]
10527 cindex:[binary zero,in message body]
10528 cindex:[$message_body$]
10529 This variable contains the initial portion of a message's
10530 body while it is being delivered, and is intended mainly for use in filter
10531 files. The maximum number of characters of the body that are put into the
10532 variable is set by the %message_body_visible% configuration option; the
10533 default is 500. Newlines are converted into spaces to make it easier to search
10534 for phrases that might be split over a line break.
10535 Binary zeros are also converted into spaces.
10537 $message_body_end$::
10538 cindex:[body of message,expansion variable]
10539 cindex:[message body, in expansion]
10540 cindex:[$message_body_end$]
10541 This variable contains the final portion of a message's
10542 body while it is being delivered. The format and maximum size are as for
10545 $message_body_size$::
10546 cindex:[body of message,size]
10547 cindex:[message body, size]
10548 cindex:[$message_body_size$]
10549 When a message is being delivered, this variable contains the size of the body
10550 in bytes. The count starts from the character after the blank line that
10551 separates the body from the header. Newlines are included in the count. See
10552 also $message_size$, $body_linecount$, and $body_zerocount$.
10554 $message_exim_id$::
10556 [revisionflag="changed"]
10557 cindex:[$message_exim_id$]
10558 When a message is being received or delivered, this variable contains the
10559 unique message id that is generated and used by Exim to identify the message.
10560 An id is not created for a message until after its header has been successfully
10561 received. *Note*: This is 'not' the contents of the 'Message-ID:' header line;
10562 it is the local id that Exim assigns to the message, for example:
10563 `1BXTIK-0001yO-VA`.
10565 $message_headers$::
10566 This variable contains a concatenation of all the header lines when a message
10567 is being processed, except for lines added by routers or transports. The header
10568 lines are separated by newline characters.
10572 [revisionflag="changed"]
10573 This is an old name for $message_exim_id$, which is now deprecated.
10575 $message_linecount$::
10577 [revisionflag="changed"]
10578 cindex:[$message_linecount$]
10579 This variable contains the total number of lines in the header and body of the
10580 message. Compare $body_linecount$, which is the count for the body only. During
10581 the DATA and content-scanning ACLs, $message_linecount$ contains the number of
10582 lines received. Before delivery happens (that is, before filters, routers, and
10583 transports run) the count is increased to include the 'Received:' header line
10584 that Exim standardly adds, and also any other header lines that are added by
10585 ACLs. The blank line that separates the message header from the body is not
10586 counted. Here is an example of the use of this variable in a DATA ACL:
10588 [revisionflag="changed"]
10590 deny message = Too many lines in message header
10592 ${if <{250}{${eval: $message_linecount - $body_linecount}}}
10595 [revisionflag="changed"]
10596 In the MAIL and RCPT ACLs, the value is zero because at that stage the
10597 message has not yet been received.
10600 cindex:[size,of message]
10601 cindex:[message,size]
10602 cindex:[$message_size$]
10603 When a message is being processed, this variable contains its size in bytes. In
10604 most cases, the size includes those headers that were received with the
10605 message, but not those (such as 'Envelope-to:') that are added to individual
10606 deliveries as they are written. However, there is one special case: during the
10607 expansion of the %maildir_tag% option in the ^appendfile^ transport while
10608 doing a delivery in maildir format, the value of $message_size$ is the
10609 precise size of the file that has been written. See also
10610 $message_body_size$, $body_linecount$, and $body_zerocount$.
10612 cindex:[RCPT,value of $message_size$]
10613 While running an ACL at the time of an SMTP RCPT command, $message_size$
10614 contains the size supplied on the MAIL command, or -1 if no size was given. The
10615 value may not, of course, be truthful.
10618 A number of variables whose names start with $mime$ are
10619 available when Exim is compiled with the content-scanning extension. For
10620 details, see section <<SECTscanmimepart>>.
10623 These variables are counters that can be incremented by means
10624 of the %add% command in filter files.
10626 $original_domain$::
10628 cindex:[$original_domain$]
10629 When a top-level address is being processed for delivery, this contains the
10630 same value as $domain$. However, if a ``child'' address (for example, generated
10631 by an alias, forward, or filter file) is being processed, this variable
10632 contains the domain of the original address. This differs from $parent_domain$
10633 only when there is more than one level of aliasing or forwarding. When more
10634 than one address is being delivered in a single transport run,
10635 $original_domain$ is not set.
10637 If new an address is created by means of a %deliver% command in a system
10638 filter, it is set up with an artificial ``parent'' address. This has the local
10639 part 'system-filter' and the default qualify domain.
10641 $original_local_part$::
10642 cindex:[$local_part$]
10643 cindex:[$original_local_part$]
10644 When a top-level address is being processed for delivery, this contains the
10645 same value as $local_part$, unless a prefix or suffix was removed from the
10646 local part, because $original_local_part$ always contains the full local part.
10647 When a ``child'' address (for example, generated by an alias, forward, or
10648 filter file) is being processed, this variable contains the full local part of
10649 the original address.
10651 If the router that did the redirection processed the local part
10652 case-insensitively, the value in $original_local_part$ is in lower case.
10653 This variable differs from $parent_local_part$ only when there is more than
10654 one level of aliasing or forwarding. When more than one address is being
10655 delivered in a single transport run, $original_local_part$ is not set.
10657 If new an address is created by means of a %deliver% command in a system
10658 filter, it is set up with an artificial ``parent'' address. This has the local
10659 part 'system-filter' and the default qualify domain.
10662 cindex:[gid (group id),of originating user]
10663 cindex:[sender,gid]
10664 cindex:[$caller_gid$]
10665 cindex:[$originator_gid$]
10666 This variable contains the value of $caller_gid$ that was set when the message
10667 was received. For messages received via the command line, this is the gid of
10668 the sending user. For messages received by SMTP over TCP/IP, this is normally
10669 the gid of the Exim user.
10672 cindex:[uid (user id),of originating user]
10673 cindex:[sender,uid]
10674 cindex:[$caller_uid$]
10675 cindex:[$originaltor_uid$]
10676 The value of $caller_uid$ that was set when the message was received. For
10677 messages received via the command line, this is the uid of the sending user.
10678 For messages received by SMTP over TCP/IP, this is normally the uid of the Exim
10682 cindex:[$parent_domain$]
10683 This variable is similar to $original_domain$ (see
10684 above), except that it refers to the immediately preceding parent address.
10686 $parent_local_part$::
10687 cindex:[$parent_local_part$]
10688 This variable is similar to $original_local_part$
10689 (see above), except that it refers to the immediately preceding parent address.
10692 cindex:[pid (process id),of current process]
10694 This variable contains the current process id.
10697 cindex:[filter,transport filter]
10698 cindex:[transport,filter]
10699 cindex:[$pipe_addresses$]
10700 This is not an expansion variable, but is mentioned here because the string
10701 ``\$pipe_addresses'' is handled specially in the command specification for the
10702 ^pipe^ transport (chapter <<CHAPpipetransport>>) and in transport filters
10703 (described under %transport_filter% in chapter <<CHAPtransportgeneric>>). It
10704 cannot be used in general expansion strings, and provokes an ``unknown
10705 variable'' error if encountered.
10707 $primary_hostname$::
10708 cindex:[$primary_hostname$]
10709 This variable contains the value set by %primary_hostname% in the configuration
10710 file, or read by the 'uname()' function. If 'uname()' returns a
10711 single-component name, Exim calls 'gethostbyname()' (or 'getipnodebyname()'
10712 where available) in an attempt to acquire a fully qualified host name. See also
10713 $smtp_active_hostname$.
10716 $prvscheck_address$::
10718 [revisionflag="changed"]
10719 This variable is used in conjunction with the %prvscheck% expansion item, which
10720 is described in sections <<SECTexpansionitems>> and <<SECTverifyPRVS>>.
10722 $prvscheck_keynum$::
10724 [revisionflag="changed"]
10725 This variable is used in conjunction with the %prvscheck% expansion item, which
10726 is described in sections <<SECTexpansionitems>> and <<SECTverifyPRVS>>.
10728 $prvscheck_result$::
10730 [revisionflag="changed"]
10731 This variable is used in conjunction with the %prvscheck% expansion item, which
10732 is described in sections <<SECTexpansionitems>> and <<SECTverifyPRVS>>.
10735 cindex:[$qualify_domain$]
10736 The value set for the %qualify_domain% option in the configuration file.
10738 $qualify_recipient$::
10739 cindex:[$qualify_recipient$]
10740 The value set for the %qualify_recipient% option in the configuration file,
10741 or if not set, the value of $qualify_domain$.
10744 cindex:[$rcpt_count$]
10745 When a message is being received by SMTP, this variable contains the number of
10746 RCPT commands received for the current message. If this variable is used in a
10747 RCPT ACL, its value includes the current command.
10749 $rcpt_defer_count$::
10750 cindex:[$rcpt_defer_count$]
10751 When a message is being received by SMTP, this variable contains the number of
10752 RCPT commands in the current message that have previously been rejected with a
10753 temporary (4##'xx') response.
10755 $rcpt_fail_count$::
10756 cindex:[$rcpt_fail_count$]
10757 When a message is being received by SMTP, this variable contains the number of
10758 RCPT commands in the current message that have previously been rejected with a
10759 permanent (5##'xx') response.
10762 cindex:[$received_count$]
10763 This variable contains the number of 'Received:' header lines in the message,
10764 including the one added by Exim (so its value is always greater than zero). It
10765 is available in the DATA ACL, the non-SMTP ACL, and while routing and
10769 cindex:[$received_for$]
10770 If there is only a single recipient address in an incoming message, this
10771 variable contains that address when the 'Received:' header line is being built.
10772 The value is copied after recipient rewriting has happened, but before the
10773 'local_scan()' function is run.
10775 $received_protocol$::
10776 cindex:[$received_protocol$]
10777 When a message is being processed, this variable contains the name of the
10778 protocol by which it was received. Most of the names used by Exim are defined
10779 by RFCs 821, 2821, and 3848. They start with ``smtp'' (the client used HELO) or
10780 ``esmtp'' (the client used EHLO). This can be followed by ``s'' for secure
10781 (encrypted) and/or ``a'' for authenticated. Thus, for example, if the protocol
10782 is set to ``esmtpsa'', the message was received over an encrypted SMTP
10783 connection and the client was successfully authenticated.
10785 Exim uses the protocol name ``smtps'' for the case when encryption is
10786 automatically set up on connection without the use of STARTTLS (see
10787 %tls_on_connect_ports%), and the client uses HELO to initiate the
10788 encrypted SMTP session. The name ``smtps'' is also used for the rare situation
10789 where the client initially uses EHLO, sets up an encrypted connection using
10790 STARTTLS, and then uses HELO afterwards.
10792 The %-oMr% option provides a way of specifying a custom protocol name for
10793 messages that are injected locally by trusted callers. This is commonly used to
10794 identify messages that are being re-injected after some kind of scanning.
10798 [revisionflag="changed"]
10799 cindex:[$received_time$]
10800 This variable contains the date and time when the current message was received,
10801 as a number of seconds since the start of the Unix epoch.
10804 cindex:[$recipient_data$]
10805 This variable is set after an indexing lookup success in an ACL %recipients%
10806 condition. It contains the data from the lookup, and the value remains set
10807 until the next %recipients% test. Thus, you can do things like this:
10810 `require recipients = cdb*@;/some/file`
10811 `deny `'some further test involving' `\$recipient_data`
10814 *Warning*: This variable is set only when a lookup is used as an indexing
10815 method in the address list, using the semicolon syntax as in the example above.
10816 The variable is not set for a lookup that is used as part of the string
10817 expansion that all such lists undergo before being interpreted.
10819 $recipient_verify_failure$::
10820 cindex:[$recipient_verify_failure$]
10821 In an ACL, when a recipient verification fails, this variable contains
10822 information about the failure. It is set to one of the following words:
10825 - ``qualify'': The address was unqualified (no domain), and the message
10826 was neither local nor came from an exempted host.
10828 - ``route'': Routing failed.
10830 - ``mail'': Routing succeeded, and a callout was attempted; rejection occurred at
10831 or before the MAIL command (that is, on initial connection, HELO, or
10834 - ``recipient'': The RCPT command in a callout was rejected.
10836 - ``postmaster'': The postmaster check in a callout was rejected.
10839 The main use of this variable is expected to be to distinguish between
10840 rejections of MAIL and rejections of RCPT.
10844 cindex:[$recipients$]
10845 This variable contains a list of envelope recipients for a
10846 message. A comma and a space separate the addresses in the replacement text.
10847 However, the variable is not generally available, to prevent exposure of Bcc
10848 recipients in unprivileged users' filter files. You can use $recipients$ only
10849 in these two cases:
10851 . In a system filter file.
10853 . In the ACLs associated with the DATA command, that is, the ACLs defined by
10854 %acl_smtp_predata% and %acl_smtp_data%.
10857 $recipients_count$::
10858 cindex:[$recipients_count$]
10859 When a message is being processed, this variable contains the number of
10860 envelope recipients that came with the message. Duplicates are not excluded
10861 from the count. While a message is being received over SMTP, the number
10862 increases for each accepted recipient. It can be referenced in an ACL.
10865 cindex:[$reply_address$]
10866 When a message is being processed, this variable contains the contents of the
10867 'Reply-To:' header line if one exists and it is not empty, or otherwise the
10868 contents of the 'From:' header line.
10871 cindex:[$return_path$]
10872 When a message is being delivered, this variable contains the return path --
10873 the sender field that will be sent as part of the envelope. It is not enclosed
10874 in <> characters. At the start of routing an address, $return_path$ has the
10875 same value as $sender_address$, but if, for example, an incoming message to a
10876 mailing list has been expanded by a router which specifies a different address
10877 for bounce messages, $return_path$ subsequently contains the new bounce
10878 address, whereas $sender_address$ always contains the original sender address
10879 that was received with the message. In other words, $sender_address$ contains
10880 the incoming envelope sender, and $return_path$ contains the outgoing envelope
10883 $return_size_limit$::
10884 cindex:[$return_size_limit$]
10885 This is an obsolete name for $bounce_return_size_limit$.
10888 cindex:[return code,from %run% expansion]
10890 This variable contains the return code from a command that is run by the
10891 %\$\{run...\}% expansion item. *Warning*: In a router or transport, you cannot
10892 assume the order in which option values are expanded, except for those
10893 pre-conditions whose order of testing is documented. Therefore, you cannot
10894 reliably expect to set $runrc$ by the expansion of one option, and use it in
10898 cindex:[%self% option,value of host name]
10899 cindex:[$self_hostname$]
10900 When an address is routed to a supposedly remote host that turns out to be the
10901 local host, what happens is controlled by the %self% generic router option. One
10902 of its values causes the address to be passed to another router. When this
10903 happens, $self_hostname$ is set to the name of the local host that the original
10904 router encountered. In other circumstances its contents are null.
10907 cindex:[$sender_address$]
10908 When a message is being processed, this variable contains the sender's address
10909 that was received in the message's envelope. For bounce messages, the value of
10910 this variable is the empty string. See also $return_path$.
10912 $sender_address_data$::
10913 cindex:[$address_data$]
10914 cindex:[$sender_address_data$]
10915 If $address_data$ is set when the routers are called from an ACL to verify a
10916 sender address, the final value is preserved in $sender_address_data$, to
10917 distinguish it from data from a recipient address. The value does not persist
10918 after the end of the current ACL statement. If you want to preserve it for
10919 longer, you can save it in an ACL variable.
10921 $sender_address_domain$::
10922 cindex:[$sender_address_domain$]
10923 The domain portion of $sender_address$.
10925 $sender_address_local_part$::
10926 cindex:[$sender_address_local_part$]
10927 The local part portion of $sender_address$.
10930 cindex:[$sender_data$]
10931 This variable is set after a lookup success in an ACL %senders% condition or in
10932 a router %senders% option. It contains the data from the lookup, and the value
10933 remains set until the next %senders% test. Thus, you can do things like this:
10936 `require senders = cdb*@;/some/file`
10937 `deny `'some further test involving' `\$sender_data`
10940 *Warning*: This variable is set only when a lookup is used as an indexing
10941 method in the address list, using the semicolon syntax as in the example above.
10942 The variable is not set for a lookup that is used as part of the string
10943 expansion that all such lists undergo before being interpreted.
10945 $sender_fullhost$::
10946 cindex:[$sender_fullhost$]
10947 When a message is received from a remote host, this variable contains the host
10948 name and IP address in a single string. It ends with the IP address in square
10949 brackets, followed by a colon and a port number if the logging of ports is
10950 enabled. The format of the rest of the string depends on whether the host
10951 issued a HELO or EHLO SMTP command, and whether the host name was verified by
10952 looking up its IP address. (Looking up the IP address can be forced by the
10953 %host_lookup% option, independent of verification.) A plain host name at the
10954 start of the string is a verified host name; if this is not present,
10955 verification either failed or was not requested. A host name in parentheses is
10956 the argument of a HELO or EHLO command. This is omitted if it is identical to
10957 the verified host name or to the host's IP address in square brackets.
10959 $sender_helo_name$::
10960 cindex:[$sender_hslo_name$]
10961 When a message is received from a remote host that has issued a HELO or EHLO
10962 command, the argument of that command is placed in this variable. It is also
10963 set if HELO or EHLO is used when a message is received using SMTP locally via
10964 the %-bs% or %-bS% options.
10966 $sender_host_address$::
10967 cindex:[$sender_host_address$]
10968 When a message is received from a remote host, this variable contains that
10969 host's IP address. For locally submitted messages, it is empty.
10971 $sender_host_authenticated$::
10972 cindex:[$sender_host_authenticated$]
10973 This variable contains the name (not the public name) of the authenticator
10974 driver that successfully authenticated the client from which the message was
10975 received. It is empty if there was no successful authentication. See also
10976 $authenticated_id$.
10978 $sender_host_name$::
10979 cindex:[$sender_host_name$]
10980 When a message is received from a remote host, this variable contains the
10981 host's name as obtained by looking up its IP address. For messages received by
10982 other means, this variable is empty.
10984 cindex:[$host_lookup_failed$]
10985 If the host name has not previously been looked up, a reference to
10986 $sender_host_name$ triggers a lookup (for messages from remote hosts).
10987 A looked up name is accepted only if it leads back to the original IP address
10988 via a forward lookup. If either the reverse or the forward lookup fails to find
10989 any data, or if the forward lookup does not yield the original IP address,
10990 $sender_host_name$ remains empty, and $host_lookup_failed$ is set to ``1''.
10992 cindex:[$host_lookup_deferred$]
10993 However, if either of the lookups cannot be completed (for example, there is a
10994 DNS timeout), $host_lookup_deferred$ is set to ``1'', and
10995 $host_lookup_failed$ remains set to ``0''.
10997 Once $host_lookup_failed$ is set to ``1'', Exim does not try to look up the
10998 host name again if there is a subsequent reference to $sender_host_name$
10999 in the same Exim process, but it does try again if $sender_host_deferred$
11002 Exim does not automatically look up every calling host's name. If you want
11003 maximum efficiency, you should arrange your configuration so that it avoids
11004 these lookups altogether. The lookup happens only if one or more of the
11005 following are true:
11007 - A string containing $sender_host_name$ is expanded.
11009 - The calling host matches the list in %host_lookup%. In the default
11010 configuration, this option is set to \*, so it must be changed if lookups are
11011 to be avoided. (In the code, the default for %host_lookup% is unset.)
11013 - Exim needs the host name in order to test an item in a host list. The items
11014 that require this are described in sections <<SECThoslispatnam>> and
11015 <<SECThoslispatnamsk>>.
11017 - The calling host matches %helo_try_verify_hosts% or %helo_verify_hosts%.
11018 In this case, the host name is required to compare with the name quoted in any
11019 EHLO or HELO commands that the client issues.
11021 - The remote host issues a EHLO or HELO command that quotes one of the
11022 domains in %helo_lookup_domains%. The default value of this option is
11025 helo_lookup_domains = @ : @[]
11028 which causes a lookup if a remote host (incorrectly) gives the server's name or
11029 IP address in an EHLO or HELO command.
11032 $sender_host_port$::
11033 cindex:[$sender_host_port$]
11034 When a message is received from a remote host, this variable contains the port
11035 number that was used on the remote host.
11038 cindex:[$sender_ident$]
11039 When a message is received from a remote host, this variable contains the
11040 identification received in response to an RFC 1413 request. When a message has
11041 been received locally, this variable contains the login name of the user that
11044 $sender_rate_$'xxx'::
11046 [revisionflag="changed"]
11047 A number of variables whose names begin $sender_rate_$ are set as part of the
11048 %ratelimit% ACL condition. Details are given in section <<SECTratelimiting>>.
11051 cindex:[DNS,reverse lookup]
11052 cindex:[reverse DNS lookup]
11053 cindex:[$sender_rcvhost$]
11054 This is provided specifically for use in 'Received:' headers. It starts with
11055 either the verified host name (as obtained from a reverse DNS lookup) or, if
11056 there is no verified host name, the IP address in square brackets. After that
11057 there may be text in parentheses. When the first item is a verified host name,
11058 the first thing in the parentheses is the IP address in square brackets,
11059 followed by a colon and a port number if port logging is enabled. When the
11060 first item is an IP address, the port is recorded as ``port='xxxx'##'' inside
11063 There may also be items of the form ``helo='xxxx'##'' if HELO or EHLO
11064 was used and its argument was not identical to the real host name or IP
11065 address, and ``ident='xxxx'##'' if an RFC 1413 ident string is available. If all
11066 three items are present in the parentheses, a newline and tab are inserted into
11067 the string, to improve the formatting of the 'Received:' header.
11069 $sender_verify_failure$::
11070 cindex:[$sender_verify_failure$]
11071 In an ACL, when a sender verification fails, this variable contains information
11072 about the failure. The details are the same as for $recipient_verify_failure$.
11074 $smtp_active_hostname$::
11075 cindex:[$smtp_active_hostname$]
11076 During an SMTP session, this variable contains the value of the active host
11077 name, as specified by the %smtp_active_hostname% option. The value of
11078 $smtp_active_hostname$ is saved with any message that is received, so its value
11079 can be consulted during routing and delivery.
11083 [revisionflag="changed"]
11084 cindex:[$smtp_command$]
11085 During the processing of an incoming SMTP command, this variable contains the
11086 entire command. This makes it possible to distinguish between HELO and EHLO in
11087 the HELO ACL, and also to distinguish between commands such as these:
11094 For a MAIL command, extra parameters such as SIZE can be inspected. For a RCPT
11095 command, the address in $smtp_command$ is the original address before any
11096 rewriting, whereas the values in $local_part$ and $domain$ are taken from the
11097 address after SMTP-time rewriting.
11100 $smtp_command_argument$::
11102 [revisionflag="changed"]
11103 cindex:[SMTP command,argument for]
11104 cindex:[$smtp_command_argument$]
11105 While an ACL is running to check an SMTP command, this variable contains the
11106 argument, that is, the text that follows the command name, with leading white
11107 space removed. Following the introduction of $smtp_command$, this variable is
11108 somewhat redundant, but is retained for backwards compatibility.
11111 These variables are copies of the values of the $n0$ -- $n9$ accumulators that
11112 were current at the end of the system filter file. This allows a system filter
11113 file to set values that can be tested in users' filter files. For example, a
11114 system filter could set a value indicating how likely it is that a message is
11118 A number of variables whose names start with $spam$ are available when Exim is
11119 compiled with the content-scanning extension. For details, see section
11120 <<SECTscanspamass>>.
11123 $spool_directory$::
11124 cindex:[$spool_directory$]
11125 The name of Exim's spool directory.
11128 cindex:[$spool_inodes$]
11129 The number of free inodes in the disk partition where Exim's spool files are
11130 being written. The value is recalculated whenever the variable is referenced.
11131 If the relevant file system does not have the concept of inodes, the value of
11132 is -1. See also the %check_spool_inodes% option.
11135 cindex:[$spool_space$]
11136 The amount of free space (as a number of kilobytes) in the disk partition where
11137 Exim's spool files are being written. The value is recalculated whenever the
11138 variable is referenced. If the operating system does not have the ability to
11139 find the amount of free space (only true for experimental systems), the space
11140 value is -1. For example, to check in an ACL that there is at least 50
11141 megabytes free on the spool, you could write:
11143 condition = ${if > {$spool_space}{50000}}
11145 See also the %check_spool_space% option.
11149 cindex:[$thisaddress$]
11150 This variable is set only during the processing of the %foranyaddress% command
11151 in a filter file. Its use is explained in the description of that command,
11152 which can be found in the separate document entitled 'Exim's interfaces to mail
11155 $tls_certificate_verified$::
11156 cindex:[$tls_certificate_verified$]
11157 This variable is set to ``1'' if a TLS certificate was verified when the
11158 message was received, and ``0'' otherwise.
11161 cindex:[$tls_cipher$]
11162 When a message is received from a remote host over an encrypted SMTP
11163 connection, this variable is set to the cipher suite that was negotiated, for
11164 example DES-CBC3-SHA. In other circumstances, in particular, for message
11165 received over unencrypted connections, the variable is empty. See chapter
11166 <<CHAPTLS>> for details of TLS support.
11169 cindex:[$tls_peerdn$]
11170 When a message is received from a remote host over an encrypted SMTP
11171 connection, and Exim is configured to request a certificate from the client,
11172 the value of the Distinguished Name of the certificate is made available in the
11173 $tls_peerdn$ during subsequent processing.
11176 cindex:[$tod_bsdinbox$]
11177 The time of day and date, in the format required for BSD-style mailbox files,
11178 for example: Thu Oct 17 17:14:09 1995.
11181 cindex:[$tod_epoch$]
11182 The time and date as a number of seconds since the start of the Unix epoch.
11185 cindex:[$tod_full$]
11186 A full version of the time and date, for example: Wed, 16 Oct 1995 09:51:40
11187 +0100. The timezone is always given as a numerical offset from UTC, with
11188 positive values used for timezones that are ahead (east) of UTC, and negative
11189 values for those that are behind (west).
11193 The time and date in the format used for writing Exim's log files, for example:
11194 1995-10-12 15:32:29, but without a timezone.
11197 cindex:[$tod_logfile$]
11198 This variable contains the date in the format yyyymmdd. This is the format that
11199 is used for datestamping log files when %log_file_path% contains the `%D`
11203 cindex:[$tod_zone$]
11204 This variable contains the numerical value of the local timezone, for example:
11208 cindex:[$tod_zulu$]
11209 This variable contains the UTC date and time in ``Zulu'' format, as specified by
11210 ISO 8601, for example: 20030221154023Z.
11214 This variable contains the result of an expansion lookup, extraction operation,
11215 or external command, as described above.
11218 cindex:[$version_number$]
11219 The version number of Exim.
11221 $warn_message_delay$::
11222 cindex:[$warn_message_delay$]
11223 This variable is set only during the creation of a message warning about a
11224 delivery delay. Details of its use are explained in section <<SECTcustwarn>>.
11226 $warn_message_recipients$::
11227 cindex:[$warn_message_recipients$]
11228 This variable is set only during the creation of a message warning about a
11229 delivery delay. Details of its use are explained in section <<SECTcustwarn>>.
11233 ////////////////////////////////////////////////////////////////////////////
11234 ////////////////////////////////////////////////////////////////////////////
11239 cindex:[Perl,calling from Exim]
11240 Exim can be built to include an embedded Perl interpreter. When this is done,
11241 Perl subroutines can be called as part of the string expansion process. To make
11242 use of the Perl support, you need version 5.004 or later of Perl installed on
11243 your system. To include the embedded interpreter in the Exim binary, include
11248 in your _Local/Makefile_ and then build Exim in the normal way.
11251 Setting up so Perl can be used
11252 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11253 cindex:[%perl_startup%]
11254 Access to Perl subroutines is via a global configuration option called
11255 %perl_startup% and an expansion string operator %\$\{perl ...\}%. If there is
11256 no %perl_startup% option in the Exim configuration file then no Perl
11257 interpreter is started and there is almost no overhead for Exim (since none of
11258 the Perl library will be paged in unless used). If there is a %perl_startup%
11259 option then the associated value is taken to be Perl code which is executed in
11260 a newly created Perl interpreter.
11262 The value of %perl_startup% is not expanded in the Exim sense, so you do not
11263 need backslashes before any characters to escape special meanings. The option
11264 should usually be something like
11266 perl_startup = do '/etc/exim.pl'
11268 where _/etc/exim.pl_ is Perl code which defines any subroutines you want to
11269 use from Exim. Exim can be configured either to start up a Perl interpreter as
11270 soon as it is entered, or to wait until the first time it is needed. Starting
11271 the interpreter at the beginning ensures that it is done while Exim still has
11272 its setuid privilege, but can impose an unnecessary overhead if Perl is not in
11273 fact used in a particular run. Also, note that this does not mean that Exim is
11274 necessarily running as root when Perl is called at a later time. By default,
11275 the interpreter is started only when it is needed, but this can be changed in
11278 - cindex:[%perl_at_start%]
11279 Setting %perl_at_start% (a boolean option) in the configuration requests
11280 a startup when Exim is entered.
11282 - The command line option %-ps% also requests a startup when Exim is entered,
11283 overriding the setting of %perl_at_start%.
11285 There is also a command line option %-pd% (for delay) which suppresses the
11286 initial startup, even if %perl_at_start% is set.
11289 Calling Perl subroutines
11290 ~~~~~~~~~~~~~~~~~~~~~~~~
11291 When the configuration file includes a %perl_startup% option you can make use
11292 of the string expansion item to call the Perl subroutines that are defined
11293 by the %perl_startup% code. The operator is used in any of the following
11297 ${perl{foo}{argument}}
11298 ${perl{foo}{argument1}{argument2} ... }
11300 which calls the subroutine %foo% with the given arguments. A maximum of eight
11301 arguments may be passed. Passing more than this results in an expansion failure
11302 with an error message of the form
11304 Too many arguments passed to Perl subroutine "foo" (max is 8)
11306 The return value of the Perl subroutine is evaluated in a scalar context before
11307 it is passed back to Exim to be inserted into the expanded string. If the
11308 return value is 'undef', the expansion is forced to fail in the same way as
11309 an explicit ``fail'' on an %\$\{if ...\}% or %\$\{lookup...\}% item. If the
11310 subroutine aborts by obeying Perl's %die% function, the expansion fails with
11311 the error message that was passed to %die%.
11314 Calling Exim functions from Perl
11315 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11316 Within any Perl code called from Exim, the function 'Exim::expand_string'
11317 is available to call back into Exim's string expansion function. For example,
11320 my $lp = Exim::expand_string('$local_part');
11322 makes the current Exim $local_part$ available in the Perl variable $lp$.
11323 Note those are single quotes and not double quotes to protect against
11324 $local_part$ being interpolated as a Perl variable.
11326 If the string expansion is forced to fail by a ``fail'' item, the result of
11327 'Exim::expand_string' is %undef%. If there is a syntax error in the
11328 expansion string, the Perl call from the original expansion string fails with
11329 an appropriate error message, in the same way as if %die% were used.
11331 cindex:[debugging,from embedded Perl]
11332 cindex:[log,writing from embedded Perl]
11333 Two other Exim functions are available for use from within Perl code.
11334 'Exim::debug_write(<'string'>)' writes the string to the standard error
11335 stream if Exim's debugging is enabled. If you want a newline at the end, you
11336 must supply it. 'Exim::log_write(<'string'>)' writes the string to Exim's
11337 main log, adding a leading timestamp. In this case, you should not supply a
11338 terminating newline.
11341 Use of standard output and error by Perl
11342 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11343 cindex:[Perl,standard output and error]
11344 You should not write to the standard error or output streams from within your
11345 Perl code, as it is not defined how these are set up. In versions of Exim
11346 before 4.50, it is possible for the standard output or error to refer to the
11347 SMTP connection during message reception via the daemon. Writing to this stream
11348 is certain to cause chaos. From Exim 4.50 onwards, the standard output and
11349 error streams are connected to _/dev/null_ in the daemon. The chaos is
11350 avoided, but the output is lost.
11352 cindex:[Perl,use of %warn%]
11353 The Perl %warn% statement writes to the standard error stream by default. Calls
11354 to %warn% may be embedded in Perl modules that you use, but over which you have
11355 no control. When Exim starts up the Perl interpreter, it arranges for output
11356 from the %warn% statement to be written to the Exim main log. You can change
11357 this by including appropriate Perl magic somewhere in your Perl code. For
11358 example, to discard %warn% output completely, you need this:
11360 $SIG{__WARN__} = sub { };
11362 Whenever a %warn% is obeyed, the anonymous subroutine is called. In this
11363 example, the code for the subroutine is empty, so it does nothing, but you can
11364 include any Perl code that you like. The text of the %warn% message is passed
11365 as the first subroutine argument.
11369 ////////////////////////////////////////////////////////////////////////////
11370 ////////////////////////////////////////////////////////////////////////////
11373 [titleabbrev="Starting the daemon"]
11374 Starting the daemon and the use of network interfaces
11375 -----------------------------------------------------
11376 cindex:[daemon,starting]
11377 cindex:[interface,listening]
11378 cindex:[network interface]
11379 cindex:[interface,network]
11380 cindex:[IP address,for listening]
11381 cindex:[daemon,listening IP addresses]
11382 cindex:[TCP/IP,setting listening interfaces]
11383 cindex:[TCP/IP,setting listening ports]
11384 A host that is connected to a TCP/IP network may have one or more physical
11385 hardware network interfaces. Each of these interfaces may be configured as one
11386 or more ``logical'' interfaces, which are the entities that a program actually
11387 works with. Each of these logical interfaces is associated with an IP address.
11388 In addition, TCP/IP software supports ``loopback'' interfaces (127.0.0.1 in IPv4
11389 and ::1 in IPv6), which do not use any physical hardware. Exim requires
11390 knowledge about the host's interfaces for use in three different circumstances:
11392 . When a listening daemon is started, Exim needs to know which interfaces
11393 and ports to listen on.
11395 . When Exim is routing an address, it needs to know which IP addresses
11396 are associated with local interfaces. This is required for the correct
11397 processing of MX lists by removing the local host and others with the
11398 same or higher priority values. Also, Exim needs to detect cases
11399 when an address is routed to an IP address that in fact belongs to the
11400 local host. Unless the %self% router option or the %allow_localhost%
11401 option of the smtp transport is set (as appropriate), this is treated
11402 as an error situation.
11404 . When Exim connects to a remote host, it may need to know which interface to use
11405 for the outgoing connection.
11408 Exim's default behaviour is likely to be appropriate in the vast majority
11409 of cases. If your host has only one interface, and you want all its IP
11410 addresses to be treated in the same way, and you are using only the
11411 standard SMTP port, you should not need to take any special action. The
11412 rest of this chapter does not apply to you.
11414 In a more complicated situation you may want to listen only on certain
11415 interfaces, or on different ports, and for this reason there are a number of
11416 options that can be used to influence Exim's behaviour. The rest of this
11417 chapter describes how they operate.
11419 When a message is received over TCP/IP, the interface and port that were
11420 actually used are set in $interface_address$ and $interface_port$.
11424 Starting a listening daemon
11425 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
11426 When a listening daemon is started (by means of the %-bd% command line
11427 option), the interfaces and ports on which it listens are controlled by the
11430 - %daemon_smtp_ports% contains a list of default ports. (For backward
11431 compatibility, this option can also be specified in the singular.)
11433 - %local_interfaces% contains list of interface IP addresses on which to
11434 listen. Each item may optionally also specify a port.
11436 The default list separator in both cases is a colon, but this can be changed as
11437 described in section <<SECTlistconstruct>>. When IPv6 addresses are involved, it
11438 is usually best to change the separator to avoid having to double all the
11439 colons. For example:
11442 local_interfaces = <; 127.0.0.1 ; \
11445 3ffe:ffff:836f::fe86:a061
11448 There are two different formats for specifying a port along with an IP address
11449 in %local_interfaces%:
11451 . The port is added onto the address with a dot separator. For example, to listen
11452 on port 1234 on two different IP addresses:
11455 local_interfaces = <; 192.168.23.65.1234 ; \
11456 3ffe:ffff:836f::fe86:a061.1234
11459 . The IP address is enclosed in square brackets, and the port is added
11460 with a colon separator, for example:
11463 local_interfaces = <; [192.168.23.65]:1234 ; \
11464 [3ffe:ffff:836f::fe86:a061]:1234
11467 When a port is not specified, the value of %daemon_smtp_ports% is used. The
11468 default setting contains just one port:
11470 daemon_smtp_ports = smtp
11472 If more than one port is listed, each interface that does not have its own port
11473 specified listens on all of them. Ports that are listed in
11474 %daemon_smtp_ports% can be identified either by name (defined in
11475 _/etc/services_) or by number. However, when ports are given with individual
11476 IP addresses in %local_interfaces%, only numbers (not names) can be used.
11480 Special IP listening addresses
11481 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11482 The addresses 0.0.0.0 and ::0 are treated specially. They are interpreted
11483 as ``all IPv4 interfaces'' and ``all IPv6 interfaces'', respectively. In each
11484 case, Exim tells the TCP/IP stack to ``listen on all IPv##'x' interfaces''
11485 instead of setting up separate listening sockets for each interface. The
11486 default value of %local_interfaces% is
11488 local_interfaces = 0.0.0.0
11490 when Exim is built without IPv6 support; otherwise it is:
11492 local_interfaces = <; ::0 ; 0.0.0.0
11494 Thus, by default, Exim listens on all available interfaces, on the SMTP port.
11498 Overriding local_interfaces and daemon_smtp_ports
11499 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11500 The %-oX% command line option can be used to override the values of
11501 %daemon_smtp_ports% and/or %local_interfaces% for a particular daemon
11502 instance. Another way of doing this would be to use macros and the %-D%
11503 option. However, %-oX% can be used by any admin user, whereas modification of
11504 the runtime configuration by %-D% is allowed only when the caller is root or
11507 The value of %-oX% is a list of items. The default colon separator can be
11508 changed in the usual way if required. If there are any items that do not
11509 contain dots or colons (that is, are not IP addresses), the value of
11510 %daemon_smtp_ports% is replaced by the list of those items. If there are any
11511 items that do contain dots or colons, the value of %local_interfaces% is
11512 replaced by those items. Thus, for example,
11516 overrides %daemon_smtp_ports%, but leaves %local_interfaces% unchanged,
11519 -oX 192.168.34.5.1125
11521 overrides %local_interfaces%, leaving %daemon_smtp_ports% unchanged.
11522 (However, since %local_interfaces% now contains no items without ports, the
11523 value of %daemon_smtp_ports% is no longer relevant in this example.)
11528 Support for the obsolete SSMTP (or SMTPS) protocol
11529 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11530 cindex:[ssmtp protocol]
11531 cindex:[smtps protocol]
11532 cindex:[SMTP,ssmtp protocol]
11533 cindex:[SMTP,smtps protocol]
11534 Exim supports the obsolete SSMTP protocol (also known as SMTPS) that was used
11535 before the STARTTLS command was standardized for SMTP. Some legacy clients
11536 still use this protocol. If the %tls_on_connect_ports% option is set to a
11537 list of port numbers, connections to those ports must use SSMTP. The most
11538 common use of this option is expected to be
11540 tls_on_connect_ports = 465
11542 because 465 is the usual port number used by the legacy clients. There is also
11543 a command line option %-tls-on-connect%, which forces all ports to behave in
11544 this way when a daemon is started.
11546 *Warning*: Setting %tls_on_connect_ports% does not of itself cause the
11547 daemon to listen on those ports. You must still specify them in
11548 %daemon_smtp_ports%, %local_interfaces%, or the %-oX% option. (This is
11549 because %tls_on_connect_ports% applies to %inetd% connections as well as to
11550 connections via the daemon.)
11555 IPv6 address scopes
11556 ~~~~~~~~~~~~~~~~~~~
11557 IPv6 addresses have ``scopes'', and a host with multiple hardware interfaces
11558 can, in principle, have the same link-local IPv6 address on different
11559 interfaces. Thus, additional information is needed, over and above the IP
11560 address, to distinguish individual interfaces. A convention of using a
11561 percent sign followed by something (often the interface name) has been
11562 adopted in some cases, leading to addresses like this:
11564 fe80::202:b3ff:fe03:45c1%eth0
11566 To accommodate this usage, a percent sign followed by an arbitrary string is
11567 allowed at the end of an IPv6 address. By default, Exim calls 'getaddrinfo()'
11568 to convert a textual IPv6 address for actual use. This function recognizes the
11569 percent convention in operating systems that support it, and it processes the
11570 address appropriately. Unfortunately, some older libraries have problems with
11571 'getaddrinfo()'. If
11573 IPV6_USE_INET_PTON=yes
11575 is set in _Local/Makefile_ (or an OS-dependent Makefile) when Exim is built,
11576 Exim uses 'inet_pton()' to convert a textual IPv6 address for actual use,
11577 instead of 'getaddrinfo()'. (Before version 4.14, it always used this
11578 function.) Of course, this means that the additional functionality of
11579 'getaddrinfo()' -- recognizing scoped addresses -- is lost.
11583 Examples of starting a listening daemon
11584 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11585 The default case in an IPv6 environment is
11587 daemon_smtp_ports = smtp
11588 local_interfaces = <; ::0 ; 0.0.0.0
11590 This specifies listening on the smtp port on all IPv6 and IPv4 interfaces.
11591 Either one or two sockets may be used, depending on the characteristics of
11592 the TCP/IP stack. (This is complicated and messy; for more information,
11593 read the comments in the _daemon.c_ source file.)
11595 To specify listening on ports 25 and 26 on all interfaces:
11597 daemon_smtp_ports = 25 : 26
11599 (leaving %local_interfaces% at the default setting) or, more explicitly:
11602 local_interfaces = <; ::0.25 ; ::0.26 \
11603 0.0.0.0.25 ; 0.0.0.0.26
11606 To listen on the default port on all IPv4 interfaces, and on port 26 on the
11607 IPv4 loopback address only:
11609 local_interfaces = 0.0.0.0 : 127.0.0.1.26
11611 To specify listening on the default port on specific interfaces only:
11613 local_interfaces = 192.168.34.67 : 192.168.34.67
11615 *Warning*: such a setting excludes listening on the loopback interfaces.
11619 [[SECTreclocipadd]]
11620 Recognising the local host
11621 ~~~~~~~~~~~~~~~~~~~~~~~~~~
11622 The %local_interfaces% option is also used when Exim needs to determine
11623 whether or not an IP address refers to the local host. That is, the IP
11624 addresses of all the interfaces on which a daemon is listening are always
11627 For this usage, port numbers in %local_interfaces% are ignored. If either of
11628 the items 0.0.0.0 or ::0 are encountered, Exim gets a complete list of
11629 available interfaces from the operating system, and extracts the relevant
11630 (that is, IPv4 or IPv6) addresses to use for checking.
11632 Some systems set up large numbers of virtual interfaces in order to provide
11633 many virtual web servers. In this situation, you may want to listen for
11634 email on only a few of the available interfaces, but nevertheless treat all
11635 interfaces as local when routing. You can do this by setting
11636 %extra_local_interfaces% to a list of IP addresses, possibly including the
11637 ``all'' wildcard values. These addresses are recognized as local, but are not
11638 used for listening. Consider this example:
11641 local_interfaces = <; 127.0.0.1 ; ::1 ; \
11643 3ffe:2101:12:1:a00:20ff:fe86:a061
11645 extra_local_interfaces = <; ::0 ; 0.0.0.0
11648 The daemon listens on the loopback interfaces and just one IPv4 and one IPv6
11649 address, but all available interface addresses are treated as local when
11652 In some environments the local host name may be in an MX list, but with an IP
11653 address that is not assigned to any local interface. In other cases it may be
11654 desirable to treat other host names as if they referred to the local host. Both
11655 these cases can be handled by setting the %hosts_treat_as_local% option.
11656 This contains host names rather than IP addresses. When a host is referenced
11657 during routing, either via an MX record or directly, it is treated as the local
11658 host if its name matches %hosts_treat_as_local%, or if any of its IP
11659 addresses match %local_interfaces% or %extra_local_interfaces%.
11663 Delivering to a remote host
11664 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
11665 Delivery to a remote host is handled by the smtp transport. By default, it
11666 allows the system's TCP/IP functions to choose which interface to use (if
11667 there is more than one) when connecting to a remote host. However, the
11668 %interface% option can be set to specify which interface is used. See the
11669 description of the smtp transport in chapter <<CHAPsmtptrans>> for more details.
11674 ////////////////////////////////////////////////////////////////////////////
11675 ////////////////////////////////////////////////////////////////////////////
11680 cindex:[configuration file,main section]
11681 cindex:[main configuration]
11682 The first part of the run time configuration file contains three types of item:
11684 - Macro definitions: These lines start with an upper case letter. See section
11685 <<SECTmacrodefs>> for details of macro processing.
11687 - Named list definitions: These lines start with one of the words ``domainlist'',
11688 ``hostlist'', ``addresslist'', or ``localpartlist''. Their use is described in
11689 section <<SECTnamedlists>>.
11691 - Main configuration settings: Each setting occupies one line of the file
11692 (with possible continuations). If any setting is preceded by the word
11693 ``hide'', the %-bP% command line option displays its value to admin users only.
11694 See section <<SECTcos>> for a description of the syntax of these option settings.
11696 This chapter specifies all the main configuration options, along with their
11697 types and default values. For ease of finding a particular option, they appear
11698 in alphabetical order in section <<SECTalomo>> below. However, because there are
11699 now so many options, they are first listed briefly in functional groups, as an
11700 aid to finding the name of the option you are looking for. Some options are
11701 listed in more than one group.
11706 `-----------------------------------`-------------------------------------
11707 %bi_command% to run for %-bi% command line option
11708 %keep_malformed% for broken files -- should not happen
11709 %localhost_number% for unique message ids in clusters
11710 %message_body_visible% how much to show in $message_body$
11711 %mua_wrapper% run in ``MUA wrapper'' mode
11712 %print_topbitchars% top-bit characters are printing
11713 %timezone% force time zone
11714 --------------------------------------------------------------------------
11720 `-----------------------------------`-------------------------------------
11721 %exim_group% override compiled-in value
11722 %exim_path% override compiled-in value
11723 %exim_user% override compiled-in value
11724 %primary_hostname% default from 'uname()'
11725 %split_spool_directory% use multiple directories
11726 %spool_directory% override compiled-in value
11727 --------------------------------------------------------------------------
11734 `-----------------------------------`-------------------------------------
11735 %admin_groups% groups that are Exim admin users
11736 %deliver_drop_privilege% drop root for delivery processes
11737 %local_from_check% insert 'Sender:' if necessary
11738 %local_from_prefix% for testing 'From:' for local sender
11739 %local_from_suffix% for testing 'From:' for local sender
11740 %local_sender_retain% keep 'Sender:' from untrusted user
11741 %never_users% do not run deliveries as these
11742 %prod_requires_admin% forced delivery requires admin user
11743 %queue_list_requires_admin% queue listing requires admin user
11744 %trusted_groups% groups that are trusted
11745 %trusted_users% users that are trusted
11746 --------------------------------------------------------------------------
11753 `-----------------------------------`-------------------------------------
11754 %hosts_connection_nolog% exemption from connect logging
11755 %log_file_path% override compiled-in value
11756 %log_selector% set/unset optional logging
11757 %log_timezone% add timezone to log lines
11758 %message_logs% create per-message logs
11759 %preserve_message_logs% after message completion
11760 %process_log_path% for SIGUSR1 and 'exiwhat'
11761 %syslog_duplication% controls duplicate log lines on syslog
11762 %syslog_facility% set syslog ``facility'' field
11763 %syslog_processname% set syslog ``ident'' field
11764 %syslog_timestamp% timestamp syslog lines
11765 %write_rejectlog% control use of message log
11766 --------------------------------------------------------------------------
11773 `-----------------------------------`-------------------------------------
11774 %auto_thaw% sets time for retrying frozen messages
11775 %freeze_tell% send message when freezing
11776 %move_frozen_messages% to another directory
11777 %timeout_frozen_after% keep frozen messages only so long
11778 --------------------------------------------------------------------------
11785 `-----------------------------------`-------------------------------------
11786 %ldap_default_servers% used if no server in query
11787 %ldap_version% set protocol version
11788 %lookup_open_max% lookup files held open
11789 %mysql_servers% as it says
11790 %oracle_servers% as it says
11791 %pgsql_servers% as it says
11792 %sqlite_lock_timeout% as it says
11793 --------------------------------------------------------------------------
11800 `-----------------------------------`-------------------------------------
11801 %message_id_header_domain% used to build 'Message-ID:' header
11802 %message_id_header_text% ditto
11803 --------------------------------------------------------------------------
11807 Embedded Perl Startup
11808 ~~~~~~~~~~~~~~~~~~~~~
11810 `-----------------------------------`-------------------------------------
11811 %perl_at_start% always start the interpreter
11812 %perl_startup% code to obey when starting Perl
11813 --------------------------------------------------------------------------
11820 `-----------------------------------`-------------------------------------
11821 %daemon_smtp_ports% default ports
11822 %daemon_startup_retries% number of times to retry
11823 %daemon_startup_sleep% time to sleep between tries
11824 %extra_local_interfaces% not necessarily listened on
11825 %local_interfaces% on which to listen, with optional ports
11826 %pid_file_path% override compiled-in value
11827 %queue_run_max% maximum simultaneous queue runners
11828 --------------------------------------------------------------------------
11835 `-----------------------------------`-------------------------------------
11836 %check_log_inodes% before accepting a message
11837 %check_log_space% before accepting a message
11838 %check_spool_inodes% before accepting a message
11839 %check_spool_space% before accepting a message
11840 %deliver_queue_load_max% no queue deliveries if load high
11841 %queue_only_load% queue incoming if load high
11842 %queue_run_max% maximum simultaneous queue runners
11843 %remote_max_parallel% parallel SMTP delivery per message
11844 %smtp_accept_max% simultaneous incoming connections
11845 %smtp_accept_max_nommail% non-mail commands
11846 %smtp_accept_max_nonmail_hosts% hosts to which the limit applies
11847 %smtp_accept_max_per_connection% messages per connection
11848 %smtp_accept_max_per_host% connections from one host
11849 %smtp_accept_queue% queue mail if more connections
11850 %smtp_accept_queue_per_connection% queue if more messages per connection
11851 %smtp_accept_reserve% only reserve hosts if more connections
11852 %smtp_check_spool_space% from SIZE on MAIL command
11853 %smtp_connect_backlog% passed to TCP/IP stack
11854 %smtp_load_reserve% SMTP from reserved hosts if load high
11855 %smtp_reserve_hosts% these are the reserve hosts
11856 --------------------------------------------------------------------------
11863 `-----------------------------------`-------------------------------------
11864 %acl_not_smtp% ACL for non-SMTP messages
11865 %acl_not_smtp_mime% ACL for non-SMTP MIME parts
11866 %acl_smtp_auth% ACL for AUTH
11867 %acl_smtp_connect% ACL for connection
11868 %acl_smtp_data% ACL for DATA
11869 %acl_smtp_etrn% ACL for ETRN
11870 %acl_smtp_expn% ACL for EXPN
11871 %acl_smtp_helo% ACL for EHLO or HELO
11872 %acl_smtp_mail% ACL for MAIL
11873 %acl_smtp_mailauth% ACL for AUTH on MAIL command
11874 %acl_smtp_mime% ACL for MIME parts
11875 %acl_smtp_predata% ACL for start of data
11876 %acl_smtp_quit% ACL for QUIT
11877 %acl_smtp_rcpt% ACL for RCPT
11878 %acl_smtp_starttls% ACL for STARTTLS
11879 %acl_smtp_vrfy% ACL for VRFY
11880 %av_scanner% specify virus scanner
11881 %check_rfc2047_length% check length of RFC 2047 ``encoded words''
11882 %dns_csa_search_limit% control CSA parent search depth
11883 %dns_csa_use_reverse% en/disable CSA IP reverse search
11884 %header_maxsize% total size of message header
11885 %header_line_maxsize% individual header line limit
11886 %helo_accept_junk_hosts% allow syntactic junk from these hosts
11887 %helo_allow_chars% allow illegal chars in HELO names
11888 %helo_lookup_domains% lookup hostname for these HELO names
11889 %helo_try_verify_hosts% HELO soft-checked for these hosts
11890 %helo_verify_hosts% HELO hard-checked for these hosts
11891 %host_lookup% host name looked up for these hosts
11892 %host_lookup_order% order of DNS and local name lookups
11893 %host_reject_connection% reject connection from these hosts
11894 %hosts_treat_as_local% useful in some cluster configurations
11895 %local_scan_timeout% timeout for 'local_scan()'
11896 %message_size_limit% for all messages
11897 %percent_hack_domains% recognize %-hack for these domains
11898 %spamd_address% set interface to SpamAssassin
11899 --------------------------------------------------------------------------
11906 `-----------------------------------`-------------------------------------
11907 %callout_domain_negative_expire% timeout for negative domain cache item
11908 %callout_domain_positive_expire% timeout for positive domain cache item
11909 %callout_negative_expire% timeout for negative address cache item
11910 %callout_positive_expire% timeout for positive address cache item
11911 %callout_random_local_part% string to use for ``random'' testing
11912 --------------------------------------------------------------------------
11919 `-----------------------------------`-------------------------------------
11920 %tls_advertise_hosts% advertise TLS to these hosts
11921 %tls_certificate% location of server certificate
11922 %tls_crl% certificate revocation list
11923 %tls_dhparam% DH parameters for server
11924 %tls_on_connect_ports% specify SSMTP (SMTPS) ports
11925 %tls_privatekey% location of server private key
11926 %tls_remember_esmtp% don't reset after starting TLS
11927 %tls_require_ciphers% specify acceptable cipers
11928 %tls_try_verify_hosts% try to verify client certificate
11929 %tls_verify_certificates% expected client certificates
11930 %tls_verify_hosts% insist on client certificate verify
11931 --------------------------------------------------------------------------
11935 Local user handling
11936 ~~~~~~~~~~~~~~~~~~~
11938 `-----------------------------------`-------------------------------------
11939 %finduser_retries% useful in NIS environments
11940 %gecos_name% used when creating 'Sender:'
11941 %gecos_pattern% ditto
11942 %max_username_length% for systems that truncate
11943 %unknown_login% used when no login name found
11944 %unknown_username% ditto
11945 %uucp_from_pattern% for recognizing ``From '' lines
11946 %uucp_from_sender% ditto
11947 --------------------------------------------------------------------------
11951 All incoming messages (SMTP and non-SMTP)
11952 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
11954 `-----------------------------------`-------------------------------------
11955 %header_maxsize% total size of message header
11956 %header_line_maxsize% individual header line limit
11957 %message_size_limit% applies to all messages
11958 %percent_hack_domains% recognize %-hack for these domains
11959 %received_header_text% expanded to make 'Received:'
11960 %received_headers_max% for mail loop detection
11961 %recipients_max% limit per message
11962 %recipients_max_reject% permanently reject excess
11963 --------------------------------------------------------------------------
11968 Non-SMTP incoming messages
11969 ~~~~~~~~~~~~~~~~~~~~~~~~~~
11971 `-----------------------------------`-------------------------------------
11972 %receive_timeout% for non-SMTP messages
11973 --------------------------------------------------------------------------
11979 Incoming SMTP messages
11980 ~~~~~~~~~~~~~~~~~~~~~~
11981 See also the 'Policy controls' section above.
11984 `-----------------------------------`-------------------------------------
11985 %host_lookup% host name looked up for these hosts
11986 %host_lookup_order% order of DNS and local name lookups
11987 %recipient_unqualified_hosts% may send unqualified recipients
11988 %rfc1413_hosts% make ident calls to these hosts
11989 %rfc1413_query_timeout% zero disables ident calls
11990 %sender_unqualified_hosts% may send unqualified senders
11991 %smtp_accept_keepalive% some TCP/IP magic
11992 %smtp_accept_max% simultaneous incoming connections
11993 %smtp_accept_max_nonmail% non-mail commands
11994 %smtp_accept_max_nonmail_hosts% hosts to which the limit applies
11995 %smtp_accept_max_per_connection% messages per connection
11996 %smtp_accept_max_per_host% connections from one host
11997 %smtp_accept_queue% queue mail if more connections
11998 %smtp_accept_queue_per_connection% queue if more messages per connection
11999 %smtp_accept_reserve% only reserve hosts if more connections
12000 %smtp_active_hostname% host name to use in messages
12001 %smtp_banner% text for welcome banner
12002 %smtp_check_spool_space% from SIZE on MAIL command
12003 %smtp_connect_backlog% passed to TCP/IP stack
12004 %smtp_enforce_sync% of SMTP command/responses
12005 %smtp_etrn_command% what to run for ETRN
12006 %smtp_etrn_serialize% only one at once
12007 %smtp_load_reserve% only reserve hosts if this load
12008 %smtp_max_unknown_commands% before dropping connection
12009 %smtp_ratelimit_hosts% apply ratelimiting to these hosts
12010 %smtp_ratelimit_mail% ratelimit for MAIL commands
12011 %smtp_ratelimit_rcpt% ratelimit for RCPT commands
12012 %smtp_receive_timeout% per command or data line
12013 %smtp_reserve_hosts% these are the reserve hosts
12014 %smtp_return_error_details% give detail on rejections
12015 --------------------------------------------------------------------------
12022 `-----------------------------------`-------------------------------------
12023 %accept_8bitmime% advertise 8BITMIME
12024 %auth_advertise_hosts% advertise AUTH to these hosts
12025 %ignore_fromline_hosts% allow ``From '' from these hosts
12026 %ignore_fromline_local% allow ``From '' from local SMTP
12027 %pipelining_advertise_hosts% advertise pipelining to these hosts
12028 %tls_advertise_hosts% advertise TLS to these hosts
12029 --------------------------------------------------------------------------
12033 Processing messages
12034 ~~~~~~~~~~~~~~~~~~~
12036 `-----------------------------------`-------------------------------------
12037 %allow_domain_literals% recognize domain literal syntax
12038 %allow_mx_to_ip% allow MX to point to IP address
12039 %allow_utf8_domains% in addresses
12040 %check_rfc2047_length% check length of RFC 2047 ``encoded words''
12041 %delivery_date_remove% from incoming messages
12042 %envelope_to_remote% from incoming messages
12043 %extract_addresses_remove_arguments%affects %-t% processing
12044 %headers_charset% default for translations
12045 %qualify_domain% default for senders
12046 %qualify_recipient% default for recipients
12047 %return_path_remove% from incoming messages
12048 %strip_excess_angle_brackets% in addresses
12049 %strip_trailing_dot% at end of addresses
12050 %untrusted_set_sender% untrusted can set envelope sender
12051 --------------------------------------------------------------------------
12058 `-----------------------------------`-------------------------------------
12059 %system_filter% locate system filter
12060 %system_filter_directory_transport% transport for delivery to a directory
12061 %system_filter_file_transport% transport for delivery to a file
12062 %system_filter_group% group for filter running
12063 %system_filter_pipe_transport% transport for delivery to a pipe
12064 %system_filter_reply_transport% transport for autoreply delivery
12065 %system_filter_user% user for filter running
12066 --------------------------------------------------------------------------
12070 Routing and delivery
12071 ~~~~~~~~~~~~~~~~~~~~
12073 `-----------------------------------`-------------------------------------
12074 %dns_again_means_nonexist% for broken domains
12075 %dns_check_names_pattern% pre-DNS syntax check
12076 %dns_ipv4_lookup% only v4 lookup for these domains
12077 %dns_retrans% parameter for resolver
12078 %dns_retry% parameter for resolver
12079 %hold_domains% hold delivery for these domains
12080 %local_interfaces% for routing checks
12081 %queue_domains% no immediate delivery for these
12082 %queue_only% no immediate delivery at all
12083 %queue_only_file% no immediate delivery if file exists
12084 %queue_only_load% no immediate delivery if load is high
12085 %queue_only_override% allow command line to override
12086 %queue_run_in_order% order of arrival
12087 %queue_run_max% of simultaneous queue runners
12088 %queue_smtp_domains% no immediate SMTP delivery for these
12089 %remote_max_parallel% parallel SMTP delivery per message
12090 %remote_sort_domains% order of remote deliveries
12091 %retry_data_expire% timeout for retry data
12092 %retry_interval_max% safety net for retry rules
12093 --------------------------------------------------------------------------
12097 Bounce and warning messages
12098 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
12100 `-----------------------------------`-------------------------------------
12101 %bounce_message_file% content of bounce
12102 %bounce_message_text% content of bounce
12103 %bounce_return_body% include body if returning message
12104 %bounce_return_message% include original message in bounce
12105 %bounce_return_size_limit% limit on returned message
12106 %bounce_sender_authentication% send authenticated sender with bounce
12107 %errors_copy% copy bounce messages
12108 %errors_reply_to% 'Reply-to:' in bounces
12109 %delay_warning% time schedule
12110 %delay_warning_condition% condition for warning messages
12111 %ignore_bounce_errors_after% discard undeliverable bounces
12112 %smtp_return_error_details% give detail on rejections
12113 %warn_message_file% content of warning message
12114 --------------------------------------------------------------------------
12119 Alphabetical list of main options
12120 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
12121 Those options that undergo string expansion before use are marked with !!.
12123 oindex:[%accept_8bitmime%]
12125 %accept_8bitmime%, Use: 'main', Type: 'boolean', Default: 'false'
12129 cindex:[8-bit characters]
12130 This option causes Exim to send 8BITMIME in its response to an SMTP
12131 EHLO command, and to accept the BODY= parameter on MAIL commands.
12132 However, though Exim is 8-bit clean, it is not a protocol converter, and it
12133 takes no steps to do anything special with messages received by this route.
12134 Consequently, this option is turned off by default.
12136 oindex:[%acl_not_smtp%]
12138 %acl_not_smtp%, Use: 'main', Type: 'string'!!, Default: 'unset'
12141 cindex:[{ACL},for non-SMTP messages]
12142 cindex:[non-SMTP messages, ACLs for]
12143 This option defines the ACL that is run when a non-SMTP message is on the point
12144 of being accepted. See chapter <<CHAPACL>> for further details.
12146 oindex:[%acl_not_smtp_mime%]
12148 %acl_not_smtp_mime%, Use: 'main', Type: 'string'!!, Default: 'unset'
12151 [revisionflag="changed"]
12152 This option defines the ACL that is run for individual MIME parts of non-SMTP
12153 messages. It operates in exactly the same way as %acl_smtp_mime% operates for
12156 oindex:[%acl_smtp_auth%]
12158 %acl_smtp_auth%, Use: 'main', Type: 'string'!!, Default: 'unset'
12161 cindex:[{ACL},setting up for SMTP commands]
12162 cindex:[AUTH,ACL for]
12163 This option defines the ACL that is run when an SMTP AUTH command is
12164 received. See chapter <<CHAPACL>> for further details.
12166 oindex:[%acl_smtp_connect%]
12168 %acl_smtp_connect%, Use: 'main', Type: 'string'!!, Default: 'unset'
12171 cindex:[{ACL},on SMTP connection]
12172 This option defines the ACL that is run when an SMTP connection is received.
12173 See chapter <<CHAPACL>> for further details.
12175 oindex:[%acl_smtp_data%]
12177 %acl_smtp_data%, Use: 'main', Type: 'string'!!, Default: 'unset'
12180 cindex:[DATA, ACL for]
12181 This option defines the ACL that is run after an SMTP DATA command has been
12182 processed and the message itself has been received, but before the final
12183 acknowledgement is sent. See chapter <<CHAPACL>> for further details.
12185 oindex:[%acl_smtp_etrn%]
12187 %acl_smtp_etrn%, Use: 'main', Type: 'string'!!, Default: 'unset'
12190 cindex:[ETRN,ACL for]
12191 This option defines the ACL that is run when an SMTP ETRN command is
12192 received. See chapter <<CHAPACL>> for further details.
12194 oindex:[%acl_smtp_expn%]
12196 %acl_smtp_expn%, Use: 'main', Type: 'string'!!, Default: 'unset'
12199 cindex:[EXPN,ACL for]
12200 This option defines the ACL that is run when an SMTP EXPN command is
12201 received. See chapter <<CHAPACL>> for further details.
12203 oindex:[%acl_smtp_helo%]
12205 %acl_smtp_helo%, Use: 'main', Type: 'string'!!, Default: 'unset'
12208 cindex:[EHLO,ACL for]
12209 cindex:[HELO,ACL for]
12210 This option defines the ACL that is run when an SMTP EHLO or HELO
12211 command is received. See chapter <<CHAPACL>> for further details.
12214 oindex:[%acl_smtp_mail%]
12216 %acl_smtp_mail%, Use: 'main', Type: 'string'!!, Default: 'unset'
12219 cindex:[MAIL,ACL for]
12220 This option defines the ACL that is run when an SMTP MAIL command is
12221 received. See chapter <<CHAPACL>> for further details.
12223 oindex:[%acl_smtp_mailauth%]
12225 %acl_smtp_mailauth%, Use: 'main', Type: 'string'!!, Default: 'unset'
12228 cindex:[AUTH,on MAIL command]
12229 This option defines the ACL that is run when there is an AUTH parameter on
12230 a MAIL command. See chapter <<CHAPACL>> for details of ACLs, and chapter
12231 <<CHAPSMTPAUTH>> for details of authentication.
12233 oindex:[%acl_smtp_mime%]
12235 %acl_smtp_mime%, Use: 'main', Type: 'string'!!, Default: 'unset'
12238 cindex:[MIME content scanning,ACL for]
12239 This option is available when Exim is built with the content-scanning
12240 extension. It defines the ACL that is run for each MIME part in a message. See
12241 section <<SECTscanmimepart>> for details.
12243 oindex:[%acl_smtp_predata%]
12245 %acl_smtp_predata%, Use: 'main', Type: 'string'!!, Default: 'unset'
12248 This option defines the ACL that is run when an SMTP DATA command is
12249 received, before the message itself is received. See chapter <<CHAPACL>> for
12252 oindex:[%acl_smtp_quit%]
12254 %acl_smtp_quit%, Use: 'main', Type: 'string'!!, Default: 'unset'
12257 cindex:[QUIT,ACL for]
12258 This option defines the ACL that is run when an SMTP QUIT command is
12259 received. See chapter <<CHAPACL>> for further details.
12261 oindex:[%acl_smtp_rcpt%]
12263 %acl_smtp_rcpt%, Use: 'main', Type: 'string'!!, Default: 'unset'
12266 cindex:[RCPT,ACL for]
12267 This option defines the ACL that is run when an SMTP RCPT command is
12268 received. See chapter <<CHAPACL>> for further details.
12270 oindex:[%acl_smtp_starttls%]
12272 %acl_smtp_starttls%, Use: 'main', Type: 'string'!!, Default: 'unset'
12275 cindex:[STARTTLS, ACL for]
12276 This option defines the ACL that is run when an SMTP STARTTLS command is
12277 received. See chapter <<CHAPACL>> for further details.
12279 oindex:[%acl_smtp_vrfy%]
12281 %acl_smtp_vrfy%, Use: 'main', Type: 'string'!!, Default: 'unset'
12284 cindex:[VRFY,ACL for]
12285 This option defines the ACL that is run when an SMTP VRFY command is
12286 received. See chapter <<CHAPACL>> for further details.
12288 oindex:[%admin_groups%]
12290 %admin_groups%, Use: 'main', Type: 'string list'!!, Default: 'unset'
12293 [revisionflag="changed"]
12294 cindex:[admin user]
12295 This option is expanded just once, at the start of Exim's processing. If the
12296 current group or any of the supplementary groups of an Exim caller is in this
12297 colon-separated list, the caller has admin privileges. If all your system
12298 programmers are in a specific group, for example, you can give them all Exim
12299 admin privileges by putting that group in %admin_groups%. However, this does
12300 not permit them to read Exim's spool files (whose group owner is the Exim gid).
12301 To permit this, you have to add individuals to the Exim group.
12304 oindex:[%allow_domain_literals%]
12306 %allow_domain_literals%, Use: 'main', Type: 'boolean', Default: 'false'
12309 cindex:[domain literal]
12310 If this option is set, the RFC 2822 domain literal format is permitted in
12311 email addresses. The option is not set by default, because the domain literal
12312 format is not normally required these days, and few people know about it. It
12313 has, however, been exploited by mail abusers.
12315 Unfortunately, it seems that some DNS black list maintainers are using this
12316 format to report black listing to postmasters. If you want to accept messages
12317 addressed to your hosts by IP address, you need to set
12318 %allow_domain_literals% true, and also to add `@[]` to the list of local
12319 domains (defined in the named domain list %local_domains% in the default
12320 configuration). This ``magic string'' matches the domain literal form of all the
12321 local host's IP addresses.
12324 oindex:[%allow_mx_to_ip%]
12326 %allow_mx_to_ip%, Use: 'main', Type: 'boolean', Default: 'false'
12329 cindex:[MX record,pointing to IP address]
12330 It appears that more and more DNS zone administrators are breaking the rules
12331 and putting domain names that look like IP addresses on the right hand side of
12332 MX records. Exim follows the rules and rejects this, giving an error message
12333 that explains the mis-configuration. However, some other MTAs support this
12334 practice, so to avoid ``Why can''t Exim do this?' complaints, %allow_mx_to_ip%
12335 exists, in order to enable this heinous activity. It is not recommended, except
12336 when you have no other choice.
12338 oindex:[%allow_utf8_domains%]
12340 %allow_utf8_domains%, Use: 'main', Type: 'boolean', Default: 'false'
12343 cindex:[domain,UTF-8 characters in]
12344 cindex:[UTF-8,in domain name]
12345 Lots of discussion is going on about internationalized domain names. One
12346 camp is strongly in favour of just using UTF-8 characters, and it seems
12347 that at least two other MTAs permit this. This option allows Exim users to
12348 experiment if they wish.
12350 If it is set true, Exim's domain parsing function allows valid
12351 UTF-8 multicharacters to appear in domain name components, in addition to
12352 letters, digits, and hyphens. However, just setting this option is not
12353 enough; if you want to look up these domain names in the DNS, you must also
12354 adjust the value of %dns_check_names_pattern% to match the extended form. A
12355 suitable setting is:
12358 dns_check_names_pattern = (?i)^(?>(?(1)\.|())[a-z0-9\xc0-\xff]\
12359 (?>[-a-z0-9\x80-\xff]*[a-z0-9\x80-\xbf])?)+$
12362 Alternatively, you can just disable this feature by setting
12364 dns_check_names_pattern =
12366 That is, set the option to an empty string so that no check is done.
12369 oindex:[%auth_advertise_hosts%]
12371 %auth_advertise_hosts%, Use: 'main', Type: 'host list'!!, Default: '\*'
12374 cindex:[authentication,advertising]
12375 cindex:[AUTH,advertising]
12376 If any server authentication mechanisms are configured, Exim advertises them in
12377 response to an EHLO command only if the calling host matches this list.
12378 Otherwise, Exim does not advertise AUTH.
12379 Exim does not accept AUTH commands from clients to which it has not
12380 advertised the availability of AUTH. The advertising of individual
12381 authentication mechanisms can be controlled by the use of the
12382 %server_advertise_condition% generic authenticator option on the individual
12383 authenticators. See chapter <<CHAPSMTPAUTH>> for further details.
12385 Certain mail clients (for example, Netscape) require the user to provide a name
12386 and password for authentication if AUTH is advertised, even though it may
12387 not be needed (the host may accept messages from hosts on its local LAN without
12388 authentication, for example). The %auth_advertise_hosts% option can be used
12389 to make these clients more friendly by excluding them from the set of hosts to
12390 which Exim advertises AUTH.
12392 cindex:[AUTH,advertising when encrypted]
12393 If you want to advertise the availability of AUTH only when the connection
12394 is encrypted using TLS, you can make use of the fact that the value of this
12395 option is expanded, with a setting like this:
12397 auth_advertise_hosts = ${if eq{$tls_cipher}{}{}{*}}
12399 cindex:[$tls_cipher$]
12400 If $tls_cipher$ is empty, the session is not encrypted, and the result of
12401 the expansion is empty, thus matching no hosts. Otherwise, the result of the
12402 expansion is \*, which matches all hosts.
12405 oindex:[%auto_thaw%]
12407 %auto_thaw%, Use: 'main', Type: 'time', Default: '0s'
12410 [revisionflag="changed"]
12411 cindex:[thawing messages]
12412 cindex:[unfreezing messages]
12413 If this option is set to a time greater than zero, a queue runner will try a
12414 new delivery attempt on any frozen message, other than a bounce message, if
12415 this much time has passed since it was frozen. This may result in the message
12416 being re-frozen if nothing has changed since the last attempt. It is a way of
12417 saying ``keep on trying, even though there are big problems''.
12419 *Note*: This is an old option, which predates %timeout_frozen_after% and
12420 %ignore_bounce_errors_after%. It is retained for compatibility, but it is not
12421 thought to be very useful any more, and its use should probably be avoided.
12424 oindex:[%av_scanner%]
12426 %av_scanner%, Use: 'main', Type: 'string', Default: 'see below'
12429 This option is available if Exim is built with the content-scanning extension.
12430 It specifies which anti-virus scanner to use. The default value is:
12432 sophie:/var/run/sophie
12434 If the value of %av_scanner% starts with dollar character, it is expanded
12435 before use. See section <<SECTscanvirus>> for further details.
12439 oindex:[%bi_command%]
12441 %bi_command%, Use: 'main', Type: 'string', Default: 'unset'
12444 cindex:[%-bi% option]
12445 This option supplies the name of a command that is run when Exim is called with
12446 the %-bi% option (see chapter <<CHAPcommandline>>). The string value is just the
12447 command name, it is not a complete command line. If an argument is required, it
12448 must come from the %-oA% command line option.
12451 oindex:[%bounce_message_file%]
12453 %bounce_message_file%, Use: 'main', Type: 'string', Default: 'unset'
12456 cindex:[bounce message,customizing]
12457 cindex:[customizing,bounce message]
12458 This option defines a template file containing paragraphs of text to be used
12459 for constructing bounce messages. Details of the file's contents are given in
12460 chapter <<CHAPemsgcust>>. See also %warn_message_file%.
12463 oindex:[%bounce_message_text%]
12465 %bounce_message_text%, Use: 'main', Type: 'string', Default: 'unset'
12468 When this option is set, its contents are included in the default bounce
12469 message immediately after ``This message was created automatically by mail
12470 delivery software.'' It is not used if %bounce_message_file% is set.
12472 oindex:[%bounce_return_body%]
12474 %bounce_return_body%, Use: 'main', Type: 'boolean', Default: 'true'
12477 cindex:[bounce message,including body]
12478 This option controls whether the body of an incoming message is included in a
12479 bounce message when %bounce_return_message% is true. If it is not set, only
12480 the message header is included.
12481 cindex:[bounce message,including original]
12483 oindex:[%bounce_return_message%]
12485 %bounce_return_message%, Use: 'main', Type: 'boolean', Default: 'true'
12488 If this option is set false, the original message is not included in bounce
12489 messages generated by Exim. See also %bounce_return_size_limit%.
12492 oindex:[%bounce_return_size_limit%]
12494 %bounce_return_size_limit%, Use: 'main', Type: 'integer', Default: '100K'
12497 cindex:[size limit, of bounce]
12498 cindex:[bounce message,size limit]
12499 cindex:[limit,bounce message size]
12500 This option sets a limit in bytes on the size of messages that are returned to
12501 senders as part of bounce messages when %bounce_return_message% is true. The
12502 limit should be less than the value of the global %message_size_limit% and of
12503 any %message_size_limit% settings on transports, to allow for the bounce text
12504 that Exim generates. If this option is set to zero there is no limit.
12506 When the body of any message that is to be included in a bounce message is
12507 greater than the limit, it is truncated, and a comment pointing this out is
12508 added at the top. The actual cutoff may be greater than the value given, owing
12509 to the use of buffering for transferring the message in chunks (typically 8K in
12510 size). The idea is to save bandwidth on those undeliverable 15-megabyte
12513 oindex:[%bounce_sender_authentication%]
12515 %bounce_sender_authentication%, Use: 'main', Type: 'string', Default: 'unset'
12518 cindex:[bounce message,sender authentication]
12519 cindex:[authentication,bounce message]
12520 cindex:[AUTH,on bounce message]
12521 This option provides an authenticated sender address that is sent with any
12522 bounce messages generated by Exim that are sent over an authenticated SMTP
12523 connection. A typical setting might be:
12525 bounce_sender_authentication = mailer-daemon@my.domain.example
12527 which would cause bounce messages to be sent using the SMTP command:
12529 MAIL FROM:<> AUTH=mailer-daemon@my.domain.example
12531 The value of %bounce_sender_authentication% must always be a complete email
12534 oindex:[%callout_domain_negative_expire%]
12536 %callout_domain_negative_expire%, Use: 'main', Type: 'time', Default: '3h'
12539 cindex:[caching,callout timeouts]
12540 cindex:[callout,caching timeouts]
12541 This option specifies the expiry time for negative callout cache data for a
12542 domain. See section <<SECTcallver>> for details of callout verification, and
12543 section <<SECTcallvercache>> for details of the caching.
12546 oindex:[%callout_domain_positive_expire%]
12548 %callout_domain_positive_expire%, Use: 'main', Type: 'time', Default: '7d'
12551 This option specifies the expiry time for positive callout cache data for a
12552 domain. See section <<SECTcallver>> for details of callout verification, and
12553 section <<SECTcallvercache>> for details of the caching.
12556 oindex:[%callout_negative_expire%]
12558 %callout_negative_expire%, Use: 'main', Type: 'time', Default: '2h'
12561 This option specifies the expiry time for negative callout cache data for an
12562 address. See section <<SECTcallver>> for details of callout verification, and
12563 section <<SECTcallvercache>> for details of the caching.
12566 oindex:[%callout_positive_expire%]
12568 %callout_positive_expire%, Use: 'main', Type: 'time', Default: '24h'
12571 This option specifies the expiry time for positive callout cache data for an
12572 address. See section <<SECTcallver>> for details of callout verification, and
12573 section <<SECTcallvercache>> for details of the caching.
12576 oindex:[%callout_random_local_part%]
12578 %callout_random_local_part%, Use: 'main', Type: 'string'!!, Default: 'see below'
12581 This option defines the ``random'' local part that can be used as part of callout
12582 verification. The default value is
12584 $primary_host_name-$tod_epoch-testing
12586 See section <<CALLaddparcall>> for details of how this value is used.
12589 oindex:[%check_log_inodes%]
12591 %check_log_inodes%, Use: 'main', Type: 'integer', Default: '0'
12594 See %check_spool_space% below.
12597 oindex:[%check_log_space%]
12599 %check_log_space%, Use: 'main', Type: 'integer', Default: '0'
12602 See %check_spool_space% below.
12604 oindex:[%check_rfc2047_length%]
12605 cindex:[RFC 2047,disabling length check]
12607 %check_rfc2047_length%, User: 'main', Type: 'boolean', Default: 'true'
12610 RFC 2047 defines a way of encoding non-ASCII characters in headers using a
12611 system of ``encoded words''. The RFC specifies a maximum length for an encoded
12612 word; strings to be encoded that exceed this length are supposed to use
12613 multiple encoded words. By default, Exim does not recognize encoded words that
12614 exceed the maximum length. However, it seems that some software, in violation
12615 of the RFC, generates overlong encoded words. If %check_rfc2047_length% is set
12616 false, Exim recognizes encoded words of any length.
12619 oindex:[%check_spool_inodes%]
12621 %check_spool_inodes%, Use: 'main', Type: 'integer', Default: '0'
12624 See %check_spool_space% below.
12627 oindex:[%check_spool_space%]
12629 %check_spool_space%, Use: 'main', Type: 'integer', Default: '0'
12632 cindex:[checking disk space]
12633 cindex:[disk space, checking]
12634 cindex:[spool directory,checking space]
12635 The four %check_...% options allow for checking of disk resources before a
12636 message is accepted.
12638 cindex:[$log_inodes$]
12639 cindex:[$log_space$]
12640 cindex:[$spool_inodes$]
12641 cindex:[$spool_space$]
12642 When any of these options are set, they apply to all incoming messages. If you
12643 want to apply different checks to different kinds of message, you can do so by
12644 testing the the variables $log_inodes$, $log_space$, $spool_inodes$, and
12645 $spool_space$ in an ACL with appropriate additional conditions.
12648 %check_spool_space% and %check_spool_inodes% check the spool partition if
12649 either value is greater than zero, for example:
12651 check_spool_space = 10M
12652 check_spool_inodes = 100
12654 The spool partition is the one that contains the directory defined by
12655 SPOOL_DIRECTORY in _Local/Makefile_. It is used for holding messages in
12658 %check_log_space% and %check_log_inodes% check the partition in which log
12659 files are written if either is greater than zero. These should be set only if
12660 %log_file_path% and %spool_directory% refer to different partitions.
12662 If there is less space or fewer inodes than requested, Exim refuses to accept
12663 incoming mail. In the case of SMTP input this is done by giving a 452 temporary
12664 error response to the MAIL command. If ESMTP is in use and there was a
12665 SIZE parameter on the MAIL command, its value is added to the
12666 %check_spool_space% value, and the check is performed even if
12667 %check_spool_space% is zero, unless %no_smtp_check_spool_space% is set.
12669 The values for %check_spool_space% and %check_log_space% are held as a
12670 number of kilobytes. If a non-multiple of 1024 is specified, it is rounded up.
12672 For non-SMTP input and for batched SMTP input, the test is done at start-up; on
12673 failure a message is written to stderr and Exim exits with a non-zero code, as
12674 it obviously cannot send an error message of any kind.
12676 oindex:[%daemon_smtp_ports%]
12678 %daemon_smtp_ports%, Use: 'main', Type: 'string', Default: `smtp`
12681 cindex:[port,for daemon]
12682 cindex:[TCP/IP,setting listening ports]
12683 This option specifies one or more default SMTP ports on which the Exim daemon
12684 listens. See chapter <<CHAPinterfaces>> for details of how it is used. For
12685 backward compatibility, %daemon_smtp_port% (singular) is a synonym.
12687 oindex:[%daemon_startup_retries%]
12689 %daemon_startup_retries%, Use: 'main', Type: 'integer', Default: '9'
12692 [revisionflag="changed"]
12693 cindex:[daemon startup,retrying]
12694 This option, along with %daemon_startup_sleep%, controls the retrying done by
12695 the daemon at startup when it cannot immediately bind a listening socket
12696 (typically because the socket is already in use): %daemon_startup_retries%
12697 defines the number of retries after the first failure, and
12698 %daemon_startup_sleep% defines the length of time to wait between retries.
12700 oindex:[%daemon_startup_sleep%]
12702 %daemon_startup_sleep%, Use: 'main', Type: 'time', Default: '30s'
12705 [revisionflag="changed"]
12706 See %daemon_startup_retries%.
12708 oindex:[%delay_warning%]
12710 %delay_warning%, Use: 'main', Type: 'time list', Default: '24h'
12713 cindex:[warning of delay]
12714 cindex:[delay warning, specifying]
12715 When a message is delayed, Exim sends a warning message to the sender at
12716 intervals specified by this option. The data is a colon-separated list of times
12717 after which to send warning messages.
12719 If the value of the option is an empty string or a zero time, no warnings are
12722 Up to 10 times may be given. If a message has been on the queue for longer than
12723 the last time, the last interval between the times is used to compute
12724 subsequent warning times. For example, with
12726 delay_warning = 4h:8h:24h
12728 the first message is sent after 4 hours, the second after 8 hours, and
12729 the third one after 24 hours. After that, messages are sent every 16 hours,
12730 because that is the interval between the last two times on the list. If you set
12731 just one time, it specifies the repeat interval. For example, with:
12735 messages are repeated every six hours. To stop warnings after a given time, set
12736 a very large time at the end of the list. For example:
12738 delay_warning = 2h:12h:99d
12742 oindex:[%delay_warning_condition%]
12744 %delay_warning_condition%, Use: 'main', Type: 'string'!!, Default: 'see below'
12748 The string is expanded at the time a warning message might be sent. If all the
12749 deferred addresses have the same domain, it is set in $domain$ during the
12750 expansion. Otherwise $domain$ is empty. If the result of the expansion is a
12751 forced failure, an empty string, or a string matching any of ``0'', ``no'' or
12752 ``false'' (the comparison being done caselessly) then the warning message is not
12753 sent. The default is
12756 delay_warning_condition = \
12757 ${if match{$h_precedence:}{(?i)bulk|list|junk}{no}{yes}}
12760 which suppresses the sending of warnings about messages that have ``bulk'',
12761 ``list'' or ``junk'' in a 'Precedence:' header.
12763 oindex:[%deliver_drop_privilege%]
12765 %deliver_drop_privilege%, Use: 'main', Type: 'boolean', Default: 'false'
12768 cindex:[unprivileged delivery]
12769 cindex:[delivery,unprivileged]
12770 If this option is set true, Exim drops its root privilege at the start of a
12771 delivery process, and runs as the Exim user throughout. This severely restricts
12772 the kinds of local delivery that are possible, but is viable in certain types
12773 of configuration. There is a discussion about the use of root privilege in
12774 chapter <<CHAPsecurity>>.
12776 oindex:[%deliver_queue_load_max%]
12778 %deliver_queue_load_max%, Use: 'main', Type: 'fixed-point', Default: 'unset'
12781 cindex:[load average]
12782 cindex:[queue runner,abandoning]
12783 When this option is set, a queue run is abandoned if the system load average
12784 becomes greater than the value of the option. The option has no effect on
12785 ancient operating systems on which Exim cannot determine the load average.
12786 See also %queue_only_load% and %smtp_load_reserve%.
12789 oindex:[%delivery_date_remove%]
12791 %delivery_date_remove%, Use: 'main', Type: 'boolean', Default: 'true'
12794 cindex:['Delivery-date:' header line]
12795 Exim's transports have an option for adding a 'Delivery-date:' header to a
12796 message when it is delivered -- in exactly the same way as 'Return-path:' is
12797 handled. 'Delivery-date:' records the actual time of delivery. Such headers
12798 should not be present in incoming messages, and this option causes them to be
12799 removed at the time the message is received, to avoid any problems that might
12800 occur when a delivered message is subsequently sent on to some other recipient.
12802 oindex:[%dns_again_means_nonexist%]
12804 %dns_again_means_nonexist%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
12807 cindex:[DNS,``try again'' response; overriding]
12808 DNS lookups give a ``try again'' response for the DNS errors ``non-authoritative
12809 host not found'' and ``SERVERFAIL''. This can cause Exim to keep trying to
12810 deliver a message, or to give repeated temporary errors to incoming mail.
12811 Sometimes the effect is caused by a badly set up name server and may persist
12812 for a long time. If a domain which exhibits this problem matches anything in
12813 %dns_again_means_nonexist%, it is treated as if it did not exist. This
12814 option should be used with care.
12815 You can make it apply to reverse lookups by a setting such as this:
12817 dns_again_means_nonexist = *.in-addr.arpa
12819 This option applies to all DNS lookups that Exim does. The ^dnslookup^ router
12820 has some options of its own for controlling what happens when lookups for MX or
12821 SRV records give temporary errors. These more specific options are applied
12822 after the global option.
12824 oindex:[%dns_check_names_pattern%]
12826 %dns_check_names_pattern%, Use: 'main', Type: 'string', Default: 'see below'
12829 cindex:[DNS,pre-check of name syntax]
12830 When this option is set to a non-empty string, it causes Exim to check domain
12831 names for illegal characters before handing them to the DNS resolver, because
12832 some resolvers give temporary errors for malformed names. If a domain name
12833 contains any illegal characters, a ``not found'' result is forced, and the
12834 resolver is not called. The check is done by matching the domain name against a
12835 regular expression, which is the value of this option. The default pattern is
12838 dns_check_names_pattern = \
12839 (?i)^(?>(?(1)\.|())[^\W_](?>[a-z0-9-]*[^\W_])?)+$
12842 which permits only letters, digits, and hyphens in components, but they may not
12843 start or end with a hyphen.
12844 If you set %allow_utf8_domains%, you must modify this pattern, or set the
12845 option to an empty string.
12847 oindex:[%dns_csa_search_limit%]
12849 %dns_csa_search_limit%, Use: 'main', Type: 'integer', Default: '5'
12852 [revisionflag="changed"]
12853 This option controls the depth of parental searching for CSA SRV records in the
12854 DNS, as described in more detail in section <<SECTverifyCSA>>.
12857 oindex:[%dns_csa_use_reverse%]
12859 %dns_csa_use_reverse%, Use: 'main', Type: 'boolean', Default: 'true'
12862 [revisionflag="changed"]
12863 This option controls whether or not an IP address, given as a CSA domain, is
12864 reversed and looked up in the reverse DNS, as described in more detail in
12865 section <<SECTverifyCSA>>.
12868 oindex:[%dns_ipv4_lookup%]
12870 %dns_ipv4_lookup%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
12873 cindex:[IPv6,DNS lookup for AAAA records]
12874 cindex:[DNS,IPv6 lookup for AAAA records]
12875 When Exim is compiled with IPv6 support, it looks for IPv6 address records
12876 (AAAA and, if configured, A6) as well as IPv4 address records when trying to
12877 find IP addresses for hosts, unless the host's domain matches this list.
12879 This is a fudge to help with name servers that give big delays or otherwise do
12880 not work for the new IPv6 record types. If Exim is handed an IPv6 address
12881 record as a result of an MX lookup, it always recognizes it, and may as a
12882 result make an outgoing IPv6 connection. All this option does is to make Exim
12883 look only for IPv4-style A records when it needs to find an IP address for a
12884 host name. In due course, when the world's name servers have all been upgraded,
12885 there should be no need for this option.
12888 oindex:[%dns_retrans%]
12890 %dns_retrans%, Use: 'main', Type: 'time', Default: '0s'
12893 cindex:[DNS,resolver options]
12894 The options %dns_retrans% and %dns_retry% can be used to set the
12895 retransmission and retry parameters for DNS lookups. Values of zero (the
12896 defaults) leave the system default settings unchanged. The first value is the
12897 time between retries, and the second is the number of retries. It isn't
12898 totally clear exactly how these settings affect the total time a DNS lookup may
12899 take. I haven't found any documentation about timeouts on DNS lookups; these
12900 parameter values are available in the external resolver interface structure,
12901 but nowhere does it seem to describe how they are used or what you might want
12905 oindex:[%dns_retry%]
12907 %dns_retry%, Use: 'main', Type: 'integer', Default: '0'
12910 See %dns_retrans% above.
12915 %drop_cr%, Use: 'main', Type: 'boolean', Default: 'false'
12918 This is an obsolete option that is now a no-op. It used to affect the way Exim
12919 handled CR and LF characters in incoming messages. What happens now is
12920 described in section <<SECTlineendings>>.
12923 oindex:[%envelope_to_remove%]
12925 %envelope_to_remove%, Use: 'main', Type: 'boolean', Default: 'true'
12928 cindex:['Envelope-to:' header line]
12929 Exim's transports have an option for adding an 'Envelope-to:' header to a
12930 message when it is delivered -- in exactly the same way as 'Return-path:' is
12931 handled. 'Envelope-to:' records the original recipient address from the
12932 messages's envelope that caused the delivery to happen. Such headers should not
12933 be present in incoming messages, and this option causes them to be removed at
12934 the time the message is received, to avoid any problems that might occur when a
12935 delivered message is subsequently sent on to some other recipient.
12938 oindex:[%errors_copy%]
12940 %errors_copy%, Use: 'main', Type: 'string list'!!, Default: 'unset'
12943 cindex:[bounce message,copy to other address]
12944 cindex:[copy of bounce message]
12945 Setting this option causes Exim to send bcc copies of bounce messages that it
12946 generates to other addresses. *Note*: this does not apply to bounce messages
12947 coming from elsewhere. The value of the option is a colon-separated list of
12948 items. Each item consists of a pattern, terminated by white space, followed by
12949 a comma-separated list of email addresses. If a pattern contains spaces, it
12950 must be enclosed in double quotes.
12952 Each pattern is processed in the same way as a single item in an address list
12953 (see section <<SECTaddresslist>>). When a pattern matches the recipient of the
12954 bounce message, the message is copied to the addresses on the list. The items
12955 are scanned in order, and once a matching one is found, no further items are
12956 examined. For example:
12959 errors_copy = spqr@mydomain postmaster@mydomain.example :\
12960 rqps@mydomain hostmaster@mydomain.example,\
12961 postmaster@mydomain.example
12965 cindex:[$local_part$]
12966 The address list is expanded before use. The expansion variables
12967 $local_part$ and $domain$ are set from the original recipient of the error
12968 message, and if there was any wildcard matching in the pattern, the expansion
12970 cindex:[numerical variables ($1$ $2$ etc),in %errors_copy%]
12971 variables $0$, $1$, etc. are set in the normal way.
12974 oindex:[%errors_reply_to%]
12976 %errors_reply_to%, Use: 'main', Type: 'string', Default: 'unset'
12979 cindex:[bounce message,'Reply-to:' in]
12980 Exim's bounce and delivery warning messages contain the header line
12982 From: Mail Delivery System <Mailer-Daemon@<qualify-domain>>
12984 where <'qualify-domain'> is the value of the %qualify_domain% option.
12985 Experience shows that people reply to bounce messages. If the
12986 %errors_reply_to% option is set, a 'Reply-To:' header is added to bounce and
12987 warning messages. For example:
12989 errors_reply_to = postmaster@my.domain.example
12991 The value of the option is not expanded. It must specify a valid RFC 2822
12995 oindex:[%exim_group%]
12997 %exim_group%, Use: 'main', Type: 'string', Default: 'compile-time configured'
13000 cindex:[gid (group id),Exim's own]
13001 cindex:[Exim group]
13002 This option changes the gid under which Exim runs when it gives up root
13003 privilege. The default value is compiled into the binary. The value of this
13004 option is used only when %exim_user% is also set. Unless it consists entirely
13005 of digits, the string is looked up using 'getgrnam()', and failure causes a
13006 configuration error. See chapter <<CHAPsecurity>> for a discussion of security
13010 oindex:[%exim_path%]
13012 %exim_path%, Use: 'main', Type: 'string', Default: 'see below'
13015 cindex:[Exim binary, path name]
13016 This option specifies the path name of the Exim binary, which is used when Exim
13017 needs to re-exec itself. The default is set up to point to the file 'exim' in
13018 the directory configured at compile time by the BIN_DIRECTORY setting. It
13019 is necessary to change %exim_path% if, exceptionally, Exim is run from some
13021 *Warning*: Do not use a macro to define the value of this option, because
13022 you will break those Exim utilities that scan the configuration file to find
13023 where the binary is. (They then use the %-bP% option to extract option
13024 settings such as the value of %spool_directory%.)
13027 oindex:[%exim_user%]
13029 %exim_user%, Use: 'main', Type: 'string', Default: 'compile-time configured'
13032 cindex:[uid (user id),Exim's own]
13034 This option changes the uid under which Exim runs when it gives up root
13035 privilege. The default value is compiled into the binary. Ownership of the run
13036 time configuration file and the use of the %-C% and %-D% command line options
13037 is checked against the values in the binary, not what is set here.
13039 Unless it consists entirely of digits, the string is looked up using
13040 'getpwnam()', and failure causes a configuration error. If %exim_group% is
13041 not also supplied, the gid is taken from the result of 'getpwnam()' if it is
13042 used. See chapter <<CHAPsecurity>> for a discussion of security issues.
13045 oindex:[%extra_local_interfaces%]
13047 %extra_local_interfaces%, Use: 'main', Type: 'string list', Default: 'unset'
13050 This option defines network interfaces that are to be considered local when
13051 routing, but which are not used for listening by the daemon. See section
13052 <<SECTreclocipadd>> for details.
13055 oindex:[%extract_addresses_remove_arguments%]
13057 %extract_addresses_remove_ ~arguments%, Use: 'main', Type: 'boolean', Default: 'true'
13060 cindex:[%-t% option]
13061 cindex:[command line,addresses with %-t%]
13062 cindex:[Sendmail compatibility,%-t% option]
13063 According to some Sendmail documentation (Sun, IRIX, HP-UX), if any addresses
13064 are present on the command line when the %-t% option is used to build an
13065 envelope from a message's 'To:', 'Cc:' and 'Bcc:' headers, the command line
13066 addresses are removed from the recipients list. This is also how Smail behaves.
13067 However, other Sendmail documentation (the O'Reilly book) states that command
13068 line addresses are added to those obtained from the header lines. When
13069 %extract_addresses_remove_arguments% is true (the default), Exim subtracts
13070 argument headers. If it is set false, Exim adds rather than removes argument
13074 oindex:[%finduser_retries%]
13076 %finduser_retries%, Use: 'main', Type: 'integer', Default: '0'
13079 cindex:[NIS, looking up users; retrying]
13080 On systems running NIS or other schemes in which user and group information is
13081 distributed from a remote system, there can be times when 'getpwnam()' and
13082 related functions fail, even when given valid data, because things time out.
13083 Unfortunately these failures cannot be distinguished from genuine ``not found''
13084 errors. If %finduser_retries% is set greater than zero, Exim will try that
13085 many extra times to find a user or a group, waiting for one second between
13088 cindex:[_/etc/passwd_, multiple reading of]
13089 You should not set this option greater than zero if your user information is in
13090 a traditional _/etc/passwd_ file, because it will cause Exim needlessly to
13091 search the file multiple times for non-existent users, and also cause delay.
13095 oindex:[%freeze_tell%]
13097 %freeze_tell%, Use: 'main', "Type: 'string list, comma separated'", Default: 'unset'
13100 cindex:[freezing messages,sending a message when freezing]
13101 On encountering certain errors, or when configured to do so in a system filter,
13103 Exim freezes a message. This means that no further delivery attempts take place
13104 until an administrator (or the %auto_thaw% feature) thaws the message. If
13105 %freeze_tell% is set, Exim generates a warning message whenever it freezes
13106 something, unless the message it is freezing is a
13108 bounce message. (Without this exception there is the possibility of looping.)
13109 The warning message is sent to the addresses supplied as the comma-separated
13110 value of this option. If several of the message's addresses cause freezing,
13111 only a single message is sent.
13112 If the freezing was automatic, the reason(s) for freezing can be found in the
13113 message log. If you configure freezing in a filter or ACL, you must arrange for
13114 any logging that you require.
13117 oindex:[%gecos_name%]
13119 %gecos_name%, Use: 'main', Type: 'string'!!, Default: 'unset'
13123 cindex:[``gecos'' field, parsing]
13124 Some operating systems, notably HP-UX, use the ``gecos'' field in the system
13125 password file to hold other information in addition to users' real names. Exim
13126 looks up this field for use when it is creating 'Sender:' or 'From:' headers.
13127 If either %gecos_pattern% or %gecos_name% are unset, the contents of the
13128 field are used unchanged, except that, if an ampersand is encountered, it is
13129 replaced by the user's login name with the first character forced to
13130 upper case, since this is a convention that is observed on many systems.
13132 When these options are set, %gecos_pattern% is treated as a regular expression
13133 that is to be applied to the field (again with & replaced by the login name),
13134 and if it matches, %gecos_name% is expanded and used as the user's name.
13136 cindex:[numerical variables ($1$ $2$ etc),in %gecos_name%]
13137 Numeric variables such as $1$, $2$, etc. can be used in the expansion to
13138 pick up sub-fields that were matched by the pattern. In HP-UX, where the user's
13139 name terminates at the first comma, the following can be used:
13141 gecos_pattern = ([^,]*)
13146 oindex:[%gecos_pattern%]
13148 %gecos_pattern%, Use: 'main', Type: 'string', Default: 'unset'
13151 See %gecos_name% above.
13154 oindex:[%headers_charset%]
13156 %headers_charset%, Use: 'main', Type: 'string', Default: 'see below'
13159 This option sets a default character set for translating from encoded MIME
13160 ``words'' in header lines, when referenced by an $h_xxx$ expansion item. The
13161 default is the value of HEADERS_CHARSET in _Local/Makefile_. The
13162 ultimate default is ISO-8859-1. For more details see the description of header
13163 insertions in section <<SECTexpansionitems>>.
13167 oindex:[%header_maxsize%]
13169 %header_maxsize%, Use: 'main', Type: 'integer', Default: 'see below'
13172 cindex:[header section,maximum size of]
13173 cindex:[limit,size of message header section]
13174 This option controls the overall maximum size of a message's header
13175 section. The default is the value of HEADER_MAXSIZE in
13176 _Local/Makefile_; the default for that is 1M. Messages with larger header
13177 sections are rejected.
13180 oindex:[%header_line_maxsize%]
13182 %header_line_maxsize%, Use: 'main', Type: 'integer', Default: '0'
13185 cindex:[header lines,maximum size of]
13186 cindex:[limit,size of one header line]
13187 This option limits the length of any individual header line in a message, after
13188 all the continuations have been joined together. Messages with individual
13189 header lines that are longer than the limit are rejected. The default value of
13190 zero means ``no limit''.
13195 oindex:[%helo_accept_junk_hosts%]
13197 %helo_accept_junk_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13200 cindex:[HELO,accepting junk data]
13201 cindex:[EHLO,accepting junk data]
13202 Exim checks the syntax of HELO and EHLO commands for incoming SMTP
13203 mail, and gives an error response for invalid data. Unfortunately, there are
13204 some SMTP clients that send syntactic junk. They can be accommodated by setting
13205 this option. Note that this is a syntax check only. See %helo_verify_hosts%
13206 if you want to do semantic checking.
13207 See also %helo_allow_chars% for a way of extending the permitted character
13211 oindex:[%helo_allow_chars%]
13213 %helo_allow_chars%, Use: 'main', Type: 'string', Default: 'unset'
13216 cindex:[HELO,underscores in]
13217 cindex:[EHLO,underscores in]
13218 cindex:[underscore in EHLO/HELO]
13219 This option can be set to a string of rogue characters that are permitted in
13220 all EHLO and HELO names in addition to the standard letters, digits,
13221 hyphens, and dots. If you really must allow underscores, you can set
13223 helo_allow_chars = _
13225 Note that the value is one string, not a list.
13228 oindex:[%helo_lookup_domains%]
13230 %helo_lookup_domains%, Use: 'main', Type: 'domain list'!!, Default: `@:@[]`
13233 cindex:[HELO,forcing reverse lookup]
13234 cindex:[EHLO,forcing reverse lookup]
13235 If the domain given by a client in a HELO or EHLO command matches this
13236 list, a reverse lookup is done in order to establish the host's true name. The
13237 default forces a lookup if the client host gives the server's name or any of
13238 its IP addresses (in brackets), something that broken clients have been seen to
13242 oindex:[%helo_try_verify_hosts%]
13244 %helo_try_verify_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13247 [revisionflag="changed"]
13248 cindex:[HELO verifying, optional]
13249 cindex:[EHLO verifying, optional]
13250 By default, Exim just checks the syntax of HELO and EHLO commands (see
13251 %helo_accept_junk_hosts% and %helo_allow_chars%). However, some sites like to
13252 do more extensive checking of the data supplied by these commands. The ACL
13253 condition `verify = helo` is provided to make this possible. Formerly, it was
13254 necessary also to set this option (%helo_try_verify_hosts%) to force the check
13255 to occur. From release 4.53 onwards, this is no longer necessary. If the check
13256 has not been done before `verify = helo` is encountered, it is done at that
13257 time. Consequently, this option is obsolete. Its specification is retained here
13258 for backwards compatibility.
13260 [revisionflag="changed"]
13261 When an EHLO or HELO command is received, if the calling host matches
13262 %helo_try_verify_hosts%, Exim checks that the host name given in the HELO or
13263 EHLO command either:
13265 - is an IP literal matching the calling address of the host, or
13267 - cindex:[DNS,reverse lookup]
13268 cindex:[reverse DNS lookup]
13269 matches the host name that Exim obtains by doing a reverse lookup of the
13270 calling host address, or
13272 - when looked up using 'gethostbyname()' (or 'getipnodebyname()' when
13273 available) yields the calling host address.
13275 However, the EHLO or HELO command is not rejected if any of the checks
13276 fail. Processing continues, but the result of the check is remembered, and can
13277 be detected later in an ACL by the `verify = helo` condition.
13280 oindex:[%helo_verify_hosts%]
13282 %helo_verify_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13285 [revisionflag="changed"]
13286 cindex:[HELO verifying, mandatory]
13287 cindex:[EHLO verifying, mandatory]
13288 Like %helo_try_verify_hosts%, this option is obsolete, and retained only for
13289 backwards compatibility. For hosts that match this option, Exim checks the host
13290 name given in the HELO or EHLO in the same way as for %helo_try_verify_hosts%.
13291 If the check fails, the HELO or EHLO command is rejected with a 550 error, and
13292 entries are written to the main and reject logs. If a MAIL command is received
13293 before EHLO or HELO, it is rejected with a 503 error.
13296 oindex:[%hold_domains%]
13298 %hold_domains%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
13301 cindex:[domain,delaying delivery]
13302 cindex:[delivery,delaying certain domains]
13303 This option allows mail for particular domains to be held on the queue
13304 manually. The option is overridden if a message delivery is forced with the
13305 %-M%, %-qf%, %-Rf% or %-Sf% options, and also while testing or verifying
13306 addresses using %-bt% or %-bv%. Otherwise, if a domain matches an item in
13307 %hold_domains%, no routing or delivery for that address is done, and it is
13308 deferred every time the message is looked at.
13310 This option is intended as a temporary operational measure for delaying the
13311 delivery of mail while some problem is being sorted out, or some new
13312 configuration tested. If you just want to delay the processing of some
13313 domains until a queue run occurs, you should use %queue_domains% or
13314 %queue_smtp_domains%, not %hold_domains%.
13316 A setting of %hold_domains% does not override Exim's code for removing
13317 messages from the queue if they have been there longer than the longest retry
13318 time in any retry rule. If you want to hold messages for longer than the normal
13319 retry times, insert a dummy retry rule with a long retry time.
13322 oindex:[%host_lookup%]
13324 %host_lookup%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13327 cindex:[host name lookup, forcing]
13328 Exim does not look up the name of a calling host from its IP address unless it
13329 is required to compare against some host list, or the host matches
13330 %helo_try_verify_hosts% or %helo_verify_hosts%, or the host matches this
13331 option (which normally contains IP addresses rather than host names). The
13332 default configuration file contains
13336 which causes a lookup to happen for all hosts. If the expense of these lookups
13337 is felt to be too great, the setting can be changed or removed.
13339 After a successful reverse lookup, Exim does a forward lookup on the name it
13340 has obtained, to verify that it yields the IP address that it started with. If
13341 this check fails, Exim behaves as if the name lookup failed.
13343 cindex:[$host_lookup_failed$]
13344 cindex:[$sender_host_name$]
13345 After any kind of failure, the host name (in $sender_host_name$) remains
13346 unset, and $host_lookup_failed$ is set to the string ``1''. See also
13347 %dns_again_means_nonexist%, %helo_lookup_domains%, and `verify =
13348 reverse_host_lookup` in ACLs.
13351 oindex:[%host_lookup_order%]
13353 %host_lookup_order%, Use: 'main', Type: 'string list', Default: `bydns:byaddr`
13356 This option specifies the order of different lookup methods when Exim is trying
13357 to find a host name from an IP address. The default is to do a DNS lookup
13358 first, and then to try a local lookup (using 'gethostbyaddr()' or equivalent)
13359 if that fails. You can change the order of these lookups, or omit one entirely,
13362 *Warning*: the ``byaddr'' method does not always yield aliases when there are
13363 multiple PTR records in the DNS and the IP address is not listed in
13364 _/etc/hosts_. Different operating systems give different results in this
13365 case. That is why the default tries a DNS lookup first.
13369 oindex:[%host_reject_connection%]
13371 %host_reject_connection%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13374 cindex:[host,rejecting connections from]
13375 If this option is set, incoming SMTP calls from the hosts listed are rejected
13376 as soon as the connection is made.
13377 This option is obsolete, and retained only for backward compatibility, because
13378 nowadays the ACL specified by %acl_smtp_connect% can also reject incoming
13379 connections immediately.
13381 The ability to give an immediate rejection (either by this option or using an
13382 ACL) is provided for use in unusual cases. Many hosts will just try again,
13383 sometimes without much delay. Normally, it is better to use an ACL to reject
13384 incoming messages at a later stage, such as after RCPT commands. See
13385 chapter <<CHAPACL>>.
13388 oindex:[%hosts_connection_nolog%]
13390 %hosts_connection_nolog%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13393 cindex:[host,not logging connections from]
13394 This option defines a list of hosts for which connection logging does not
13395 happen, even though the %smtp_connection% log selector is set. For example,
13396 you might want not to log SMTP connections from local processes, or from
13397 127.0.0.1, or from your local LAN. This option is consulted in the main loop of
13398 the daemon; you should therefore strive to restrict its value to a short inline
13399 list of IP addresses and networks. To disable logging SMTP connections from
13400 local processes, you must create a host list with an empty item. For example:
13402 hosts_connection_nolog = :
13404 If the %smtp_connection% log selector is not set, this option has no effect.
13408 oindex:[%hosts_treat_as_local%]
13410 %hosts_treat_as_local%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
13413 cindex:[local host,domains treated as]
13414 cindex:[host,treated as local]
13415 If this option is set, any host names that match the domain list are treated as
13416 if they were the local host when Exim is scanning host lists obtained from MX
13418 or other sources. Note that the value of this option is a domain list, not a
13419 host list, because it is always used to check host names, not IP addresses.
13421 This option also applies when Exim is matching the special items
13422 `@mx_any`, `@mx_primary`, and `@mx_secondary` in a domain list (see
13423 section <<SECTdomainlist>>), and when checking the %hosts% option in the ^smtp^
13424 transport for the local host (see the %allow_localhost% option in that
13426 See also %local_interfaces%, %extra_local_interfaces%, and chapter
13427 <<CHAPinterfaces>>, which contains a discussion about local network interfaces
13428 and recognising the local host.
13431 oindex:[%ignore_bounce_errors_after%]
13433 %ignore_bounce_errors_after%, Use: 'main', Type: 'time', Default: '10w'
13436 cindex:[bounce message,discarding]
13437 cindex:[discarding bounce message]
13438 This option affects the processing of bounce messages that cannot be delivered,
13439 that is, those that suffer a permanent delivery failure. (Bounce messages that
13440 suffer temporary delivery failures are of course retried in the usual way.)
13442 After a permanent delivery failure, bounce messages are frozen,
13443 because there is no sender to whom they can be returned. When a frozen bounce
13444 message has been on the queue for more than the given time, it is unfrozen at
13445 the next queue run, and a further delivery is attempted. If delivery fails
13446 again, the bounce message is discarded. This makes it possible to keep failed
13447 bounce messages around for a shorter time than the normal maximum retry time
13448 for frozen messages. For example,
13450 ignore_bounce_errors_after = 12h
13452 retries failed bounce message deliveries after 12 hours, discarding any further
13453 failures. If the value of this option is set to a zero time period, bounce
13454 failures are discarded immediately. Setting a very long time (as in the default
13455 value) has the effect of disabling this option. For ways of automatically
13456 dealing with other kinds of frozen message, see %auto_thaw% and
13457 %timeout_frozen_after%.
13460 oindex:[%ignore_fromline_hosts%]
13462 %ignore_fromline_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
13465 cindex:[``From'' line]
13466 cindex:[UUCP,``From'' line]
13467 Some broken SMTP clients insist on sending a UUCP-like ``From'' line before the
13468 headers of a message. By default this is treated as the start of the message's
13469 body, which means that any following headers are not recognized as such. Exim
13470 can be made to ignore it by setting %ignore_fromline_hosts% to match those
13471 hosts that insist on sending it. If the sender is actually a local process
13472 rather than a remote host, and is using %-bs% to inject the messages,
13473 %ignore_fromline_local% must be set to achieve this effect.
13476 oindex:[%ignore_fromline_local%]
13478 %ignore_fromline_local%, Use: 'main', Type: 'boolean', Default: 'false'
13481 See %ignore_fromline_hosts% above.
13484 oindex:[%keep_malformed%]
13486 %keep_malformed%, Use: 'main', Type: 'time', Default: '4d'
13489 This option specifies the length of time to keep messages whose spool files
13490 have been corrupted in some way. This should, of course, never happen. At the
13491 next attempt to deliver such a message, it gets removed. The incident is
13495 oindex:[%ldap_default_servers%]
13497 %ldap_default_servers%, Use: 'main', Type: 'string list', Default: 'unset'
13500 cindex:[LDAP,default servers]
13501 This option provides a list of LDAP servers which are tried in turn when an
13502 LDAP query does not contain a server. See section <<SECTforldaque>> for details
13503 of LDAP queries. This option is available only when Exim has been built with
13507 oindex:[%ldap_version%]
13509 %ldap_version%, Use: 'main', Type: 'integer', Default: 'unset'
13512 cindex:[LDAP protocol version, forcing]
13513 This option can be used to force Exim to set a specific protocol version for
13514 LDAP. If it option is unset, it is shown by the %-bP% command line option as
13515 -1. When this is the case, the default is 3 if LDAP_VERSION3 is defined in
13516 the LDAP headers; otherwise it is 2. This option is available only when Exim
13517 has been built with LDAP support.
13521 oindex:[%local_from_check%]
13523 %local_from_check%, Use: 'main', Type: 'boolean', Default: 'true'
13526 cindex:['Sender:' header line,disabling addition of]
13527 cindex:['From:' header line,disabling checking of]
13528 When a message is submitted locally (that is, not over a TCP/IP connection) by
13529 an untrusted user, Exim removes any existing 'Sender:' header line, and checks
13530 that the 'From:' header line matches the login of the calling user and the
13531 domain specified by %qualify_domain%.
13533 *Note*: An unqualified address (no domain) in the 'From:' header in a
13534 locally submitted message is automatically qualified by Exim, unless the
13535 %-bnq% command line option is used.
13537 You can use %local_from_prefix% and %local_from_suffix% to permit affixes
13538 on the local part. If the 'From:' header line does not match, Exim adds a
13539 'Sender:' header with an address constructed from the calling user's login and
13540 the default qualify domain.
13542 If %local_from_check% is set false, the 'From:' header check is disabled,
13543 and no 'Sender:' header is ever added. If, in addition, you want to retain
13544 'Sender:' header lines supplied by untrusted users, you must also set
13545 %local_sender_retain% to be true.
13547 cindex:[envelope sender]
13548 These options affect only the header lines in the message. The envelope sender
13549 is still forced to be the login id at the qualify domain unless
13550 %untrusted_set_sender% permits the user to supply an envelope sender.
13552 For messages received over TCP/IP, an ACL can specify ``submission mode'' to
13553 request similar header line checking. See section <<SECTthesenhea>>, which has
13554 more details about 'Sender:' processing.
13559 oindex:[%local_from_prefix%]
13561 %local_from_prefix%, Use: 'main', Type: 'string', Default: 'unset'
13564 When Exim checks the 'From:' header line of locally submitted messages for
13565 matching the login id (see %local_from_check% above), it can be configured to
13566 ignore certain prefixes and suffixes in the local part of the address. This is
13567 done by setting %local_from_prefix% and/or %local_from_suffix% to
13568 appropriate lists, in the same form as the %local_part_prefix% and
13569 %local_part_suffix% router options (see chapter <<CHAProutergeneric>>). For
13572 local_from_prefix = *-
13574 is set, a 'From:' line containing
13576 From: anything-user@your.domain.example
13578 will not cause a 'Sender:' header to be added if 'user@your.domain.example'
13579 matches the actual sender address that is constructed from the login name and
13583 oindex:[%local_from_suffix%]
13585 %local_from_suffix%, Use: 'main', Type: 'string', Default: 'unset'
13588 See %local_from_prefix% above.
13591 oindex:[%local_interfaces%]
13593 %local_interfaces%, Use: 'main', Type: 'string list', Default: 'see below'
13596 This option controls which network interfaces are used by the daemon for
13597 listening; they are also used to identify the local host when routing. Chapter
13598 <<CHAPinterfaces>> contains a full description of this option and the related
13601 %daemon_smtp_ports%, %extra_local_interfaces%, %hosts_treat_as_local%,
13602 and %tls_on_connect_ports%.
13604 The default value for %local_interfaces% is
13606 local_interfaces = 0.0.0.0
13608 when Exim is built without IPv6 support; otherwise it is
13610 local_interfaces = <; ::0 ; 0.0.0.0
13614 oindex:[%local_scan_timeout%]
13616 %local_scan_timeout%, Use: 'main', Type: 'time', Default: '5m'
13619 cindex:[timeout,for 'local_scan()' function]
13620 cindex:['local_scan()' function,timeout]
13621 This timeout applies to the 'local_scan()' function (see chapter
13622 <<CHAPlocalscan>>). Zero means ``no timeout''. If the timeout is exceeded, the
13623 incoming message is rejected with a temporary error if it is an SMTP message.
13624 For a non-SMTP message, the message is dropped and Exim ends with a non-zero
13625 code. The incident is logged on the main and reject logs.
13629 oindex:[%local_sender_retain%]
13631 %local_sender_retain%, Use: 'main', Type: 'boolean', Default: 'false'
13634 cindex:['Sender:' header line,retaining from local submission]
13635 When a message is submitted locally (that is, not over a TCP/IP connection) by
13636 an untrusted user, Exim removes any existing 'Sender:' header line. If you
13637 do not want this to happen, you must set %local_sender_retain%, and you must
13638 also set %local_from_check% to be false (Exim will complain if you do not).
13639 See also the ACL modifier `control = suppress_local_fixups`. Section
13640 <<SECTthesenhea>> has more details about 'Sender:' processing.
13645 oindex:[%localhost_number%]
13647 %localhost_number%, Use: 'main', Type: 'string'!!, Default: 'unset'
13650 cindex:[host,locally unique number for]
13651 cindex:[message ids, with multiple hosts]
13652 cindex:[$localhost_number$]
13653 Exim's message ids are normally unique only within the local host. If
13654 uniqueness among a set of hosts is required, each host must set a different
13655 value for the %localhost_number% option. The string is expanded immediately
13656 after reading the configuration file (so that a number can be computed from the
13657 host name, for example) and the result of the expansion must be a number in the
13658 range 0--16 (or 0--10 on operating systems with case-insensitive file systems).
13659 This is available in subsequent string expansions via the variable
13660 $localhost_number$. When %localhost_number is set%, the final two
13661 characters of the message id, instead of just being a fractional part of the
13662 time, are computed from the time and the local host number as described in
13663 section <<SECTmessiden>>.
13667 oindex:[%log_file_path%]
13669 %log_file_path%, Use: 'main', Type: 'string list'!!, Default: 'set at compile time'
13672 cindex:[log,file path for]
13673 This option sets the path which is used to determine the names of Exim's log
13674 files, or indicates that logging is to be to syslog, or both. It is expanded
13675 when Exim is entered, so it can, for example, contain a reference to the host
13676 name. If no specific path is set for the log files at compile or run time, they
13677 are written in a sub-directory called _log_ in Exim's spool directory.
13678 Chapter <<CHAPlog>> contains further details about Exim's logging, and section
13679 <<SECTwhelogwri>> describes how the contents of %log_file_path% are used. If
13680 this string is fixed at your installation (contains no expansion variables) it
13681 is recommended that you do not set this option in the configuration file, but
13682 instead supply the path using LOG_FILE_PATH in _Local/Makefile_ so that
13683 it is available to Exim for logging errors detected early on -- in particular,
13684 failure to read the configuration file.
13687 oindex:[%log_selector%]
13689 %log_selector%, Use: 'main', Type: 'string', Default: 'unset'
13692 cindex:[log,selectors]
13693 This option can be used to reduce or increase the number of things that Exim
13694 writes to its log files. Its argument is made up of names preceded by plus or
13695 minus characters. For example:
13697 log_selector = +arguments -retry_defer
13699 A list of possible names and what they control is given in the chapter on
13700 logging, in section <<SECTlogselector>>.
13703 oindex:[%log_timezone%]
13705 %log_timezone%, Use: 'main', Type: 'boolean', Default: 'false'
13708 cindex:[log,timezone for entries]
13710 cindex:[$tod_zone$]
13711 By default, the timestamps on log lines are in local time without the
13712 timezone. This means that if your timezone changes twice a year, the timestamps
13713 in log lines are ambiguous for an hour when the clocks go back. One way of
13714 avoiding this problem is to set the timezone to UTC. An alternative is to set
13715 %log_timezone% true. This turns on the addition of the timezone offset to
13716 timestamps in log lines. Turning on this option can add quite a lot to the size
13717 of log files because each line is extended by 6 characters. Note that the
13718 $tod_log$ variable contains the log timestamp without the zone, but there is
13719 another variable called $tod_zone$ that contains just the timezone offset.
13722 oindex:[%lookup_open_max%]
13724 %lookup_open_max%, Use: 'main', Type: 'integer', Default: '25'
13727 cindex:[too many open files]
13728 cindex:[open files, too many]
13729 cindex:[file,too many open]
13730 cindex:[lookup,maximum open files]
13731 cindex:[limit,open files for lookups]
13732 This option limits the number of simultaneously open files for single-key
13733 lookups that use regular files (that is, ^lsearch^, ^dbm^, and ^cdb^). Exim
13734 normally keeps these files open during routing, because often the same file is
13735 required several times. If the limit is reached, Exim closes the least recently
13736 used file. Note that if you are using the 'ndbm' library, it actually opens
13737 two files for each logical DBM database, though it still counts as one for the
13738 purposes of %lookup_open_max%. If you are getting ``too many open files''
13739 errors with NDBM, you need to reduce the value of %lookup_open_max%.
13742 oindex:[%max_username_length%]
13744 %max_username_length%, Use: 'main', Type: 'integer', Default: '0'
13747 cindex:[length of login name]
13748 cindex:[user name,maximum length]
13749 cindex:[limit,user name length]
13750 Some operating systems are broken in that they truncate long arguments to
13751 'getpwnam()' to eight characters, instead of returning ``no such user''. If
13752 this option is set greater than zero, any attempt to call 'getpwnam()' with
13753 an argument that is longer behaves as if 'getpwnam()' failed.
13757 oindex:[%message_body_visible%]
13759 %message_body_visible%, Use: 'main', Type: 'integer', Default: '500'
13762 cindex:[body of message,visible size]
13763 cindex:[message body, visible size]
13764 cindex:[$message_body$]
13765 cindex:[$message_body_end$]
13766 This option specifies how much of a message's body is to be included in the
13767 $message_body$ and $message_body_end$ expansion variables.
13770 oindex:[%message_id_header_domain%]
13772 %message_id_header_domain%, Use: 'main', Type: 'string'!!, Default: 'unset'
13775 cindex:['Message-ID:' header line]
13776 If this option is set, the string is expanded and used as the right hand side
13777 (domain) of the 'Message-ID:' header that Exim creates if a
13778 locally-originated incoming message does not have one. ``Locally-originated''
13779 means ``not received over TCP/IP.''
13780 Otherwise, the primary host name is used.
13781 Only letters, digits, dot and hyphen are accepted; any other characters are
13782 replaced by hyphens. If the expansion is forced to fail, or if the result is an
13783 empty string, the option is ignored.
13786 oindex:[%message_id_header_text%]
13788 %message_id_header_text%, Use: 'main', Type: 'string'!!, Default: 'unset'
13791 If this variable is set, the string is expanded and used to augment the text of
13792 the 'Message-id:' header that Exim creates if a locally-originated incoming
13793 message does not have one. The text of this header is required by RFC 2822 to
13794 take the form of an address. By default, Exim uses its internal message id as
13795 the local part, and the primary host name as the domain. If this option is set,
13796 it is expanded, and provided the expansion is not forced to fail, and does not
13797 yield an empty string, the result is inserted into the header immediately
13798 before the @, separated from the internal message id by a dot. Any characters
13799 that are illegal in an address are automatically converted into hyphens. This
13800 means that variables such as $tod_log$ can be used, because the spaces and
13801 colons will become hyphens.
13804 oindex:[%message_logs%]
13806 %message_logs%, Use: 'main', Type: 'boolean', Default: 'true'
13809 cindex:[message log, disabling]
13810 cindex:[log,message log; disabling]
13811 If this option is turned off, per-message log files are not created in the
13812 _msglog_ spool sub-directory. This reduces the amount of disk I/O required by
13813 Exim, by reducing the number of files involved in handling a message from a
13814 minimum of four (header spool file, body spool file, delivery journal, and
13815 per-message log) to three. The other major I/O activity is Exim's main log,
13816 which is not affected by this option.
13819 oindex:[%message_size_limit%]
13821 %message_size_limit%, Use: 'main', Type: 'string'!!, Default: '50M'
13824 cindex:[message,size limit]
13825 cindex:[limit,message size]
13826 cindex:[size of message, limit]
13827 This option limits the maximum size of message that Exim will process. The
13828 value is expanded for each incoming
13829 connection so, for example, it can be made to depend on the IP address of the
13830 remote host for messages arriving via TCP/IP. *Note*: This limit cannot be
13831 made to depend on a message's sender or any other properties of an individual
13832 message, because it has to be advertised in the server's response to EHLO.
13833 String expansion failure causes a temporary error. A value of zero means no
13834 limit, but its use is not recommended. See also %bounce_return_size_limit%.
13836 Incoming SMTP messages are failed with a 552 error if the limit is
13837 exceeded; locally-generated messages either get a stderr message or a delivery
13838 failure message to the sender, depending on the %-oe% setting. Rejection of an
13839 oversized message is logged in both the main and the reject logs. See also the
13840 generic transport option %message_size_limit%, which limits the size of
13841 message that an individual transport can process.
13844 oindex:[%move_frozen_messages%]
13846 %move_frozen_messages%, Use: 'main', Type: 'boolean', Default: 'false'
13849 cindex:[frozen messages,moving]
13850 This option, which is available only if Exim has been built with the setting
13852 SUPPORT_MOVE_FROZEN_MESSAGES=yes
13854 in _Local/Makefile_, causes frozen messages and their message logs to be
13855 moved from the _input_ and _msglog_ directories on the spool to _Finput_
13856 and _Fmsglog_, respectively. There is currently no support in Exim or the
13857 standard utilities for handling such moved messages, and they do not show up in
13858 lists generated by %-bp% or by the Exim monitor.
13861 oindex:[%mua_wrapper%]
13863 %mua_wrapper%, Use: 'main', Type: 'boolean', Default: 'false'
13866 Setting this option true causes Exim to run in a very restrictive mode in which
13867 it passes messages synchronously to a smart host. Chapter <<CHAPnonqueueing>>
13868 contains a full description of this facility.
13872 oindex:[%mysql_servers%]
13874 %mysql_servers%, Use: 'main', Type: 'string list', Default: 'unset'
13877 cindex:[MySQL,server list]
13878 This option provides a list of MySQL servers and associated connection data, to
13879 be used in conjunction with ^mysql^ lookups (see section <<SECTsql>>). The
13880 option is available only if Exim has been built with MySQL support.
13883 oindex:[%never_users%]
13885 %never_users%, Use: 'main', Type: 'string list'!!, Default: 'unset'
13888 [revisionflag="changed"]
13889 This option is expanded just once, at the start of Exim's processing. Local
13890 message deliveries are normally run in processes that are setuid to the
13891 recipient, and remote deliveries are normally run under Exim's own uid and gid.
13892 It is usually desirable to prevent any deliveries from running as root, as a
13895 When Exim is built, an option called FIXED_NEVER_USERS can be set to a
13896 list of users that must not be used for local deliveries. This list is fixed in
13897 the binary and cannot be overridden by the configuration file. By default, it
13898 contains just the single user name ``root''. The %never_users% runtime option
13899 can be used to add more users to the fixed list.
13901 If a message is to be delivered as one of the users on the fixed list or the
13902 %never_users% list, an error occurs, and delivery is deferred. A common
13905 never_users = root:daemon:bin
13907 Including root is redundant if it is also on the fixed list, but it does no
13908 harm. This option overrides the %pipe_as_creator% option of the ^pipe^
13912 oindex:[%oracle_servers%]
13914 %oracle_servers%, Use: 'main', Type: 'string list', Default: 'unset'
13917 cindex:[Oracle,server list]
13918 This option provides a list of Oracle servers and associated connection data,
13919 to be used in conjunction with ^oracle^ lookups (see section <<SECTsql>>). The
13920 option is available only if Exim has been built with Oracle support.
13923 oindex:[%percent_hack_domains%]
13925 %percent_hack_domains%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
13928 cindex:[``percent hack'']
13929 cindex:[source routing,in email address]
13930 cindex:[address,source-routed]
13931 The ``percent hack'' is the convention whereby a local part containing a percent
13932 sign is re-interpreted as a new email address, with the percent replaced by @.
13933 This is sometimes called ``source routing'', though that term is also applied to
13934 RFC 2822 addresses that begin with an @ character. If this option is set, Exim
13935 implements the percent facility for those domains listed, but no others. This
13936 happens before an incoming SMTP address is tested against an ACL.
13938 *Warning*: The ``percent hack'' has often been abused by people who are
13939 trying to get round relaying restrictions. For this reason, it is best avoided
13940 if at all possible. Unfortunately, a number of less security-conscious MTAs
13941 implement it unconditionally. If you are running Exim on a gateway host, and
13942 routing mail through to internal MTAs without processing the local parts, it is
13943 a good idea to reject recipient addresses with percent characters in their
13944 local parts. Exim's default configuration does this.
13947 oindex:[%perl_at_start%]
13949 %perl_at_start%, Use: 'main', Type: 'boolean', Default: 'false'
13952 This option is available only when Exim is built with an embedded Perl
13953 interpreter. See chapter <<CHAPperl>> for details of its use.
13956 oindex:[%perl_startup%]
13958 %perl_startup%, Use: 'main', Type: 'string', Default: 'unset'
13961 This option is available only when Exim is built with an embedded Perl
13962 interpreter. See chapter <<CHAPperl>> for details of its use.
13965 oindex:[%pgsql_servers%]
13967 %pgsql_servers%, Use: 'main', Type: 'string list', Default: 'unset'
13970 cindex:[PostgreSQL lookup type,server list]
13971 This option provides a list of PostgreSQL servers and associated connection
13972 data, to be used in conjunction with ^pgsql^ lookups (see section <<SECTsql>>).
13973 The option is available only if Exim has been built with PostgreSQL support.
13976 oindex:[%pid_file_path%]
13978 %pid_file_path%, Use: 'main', Type: 'string'!!, Default: 'set at compile time'
13981 cindex:[daemon,pid file path]
13982 cindex:[pid file, path for]
13983 This option sets the name of the file to which the Exim daemon writes its
13984 process id. The string is expanded, so it can contain, for example, references
13987 pid_file_path = /var/log/$primary_hostname/exim.pid
13989 If no path is set, the pid is written to the file _exim-daemon.pid_ in Exim's
13991 The value set by the option can be overridden by the %-oP% command line
13992 option. A pid file is not written if a ``non-standard'' daemon is run by means of
13993 the %-oX% option, unless a path is explicitly supplied by %-oP%.
13996 oindex:[%pipelining_advertise_hosts%]
13998 %pipelining_advertise_hosts%, Use: 'main', Type: 'host list'!!, Default: '\*'
14001 cindex:[PIPELINING advertising, suppressing]
14002 This option can be used to suppress the advertisement of the SMTP
14003 PIPELINING extension to specific hosts. When PIPELINING is not
14004 advertised and %smtp_enforce_sync% is true, an Exim server enforces strict
14005 synchronization for each SMTP command and response.
14006 When PIPELINING is advertised, Exim assumes that clients will use it; ``out
14007 of order'' commands that are ``expected'' do not count as protocol errors (see
14008 %smtp_max_synprot_errors%).
14011 oindex:[%preserve_message_logs%]
14013 %preserve_message_logs%, Use: 'main', Type: 'boolean', Default: 'false'
14016 cindex:[message logs, preserving]
14017 If this option is set, message log files are not deleted when messages are
14018 completed. Instead, they are moved to a sub-directory of the spool directory
14019 called _msglog.OLD_, where they remain available for statistical or debugging
14020 purposes. This is a dangerous option to set on systems with any appreciable
14021 volume of mail. Use with care!
14024 oindex:[%primary_hostname%]
14026 %primary_hostname%, Use: 'main', Type: 'string', Default: 'see below'
14029 cindex:[name,of local host]
14030 cindex:[host,name of local]
14031 cindex:[local host,name of]
14032 cindex:[$primary_hostname$]
14033 This specifies the name of the current host. It is used in the default EHLO or
14034 HELO command for outgoing SMTP messages (changeable via the %helo_data% option
14035 in the ^smtp^ transport), and as the default for %qualify_domain%. The value is
14036 also used by default in some SMTP response messages from an Exim server. This
14037 can be changed dynamically by setting %smtp_active_hostname%.
14039 If %primary_hostname% is not set, Exim calls 'uname()' to find the host name.
14040 If this fails, Exim panics and dies. If the name returned by 'uname()' contains
14041 only one component, Exim passes it to 'gethostbyname()' (or 'getipnodebyname()'
14042 when available) in order to obtain the fully qualified version. The variable
14043 $primary_hostname$ contains the host name, whether set explicitly by this
14044 option, or defaulted.
14047 oindex:[%print_topbitchars%]
14049 %print_topbitchars%, Use: 'main', Type: 'boolean', Default: 'false'
14052 cindex:[printing characters]
14053 cindex:[8-bit characters]
14054 By default, Exim considers only those characters whose codes lie in the range
14055 32--126 to be printing characters. In a number of circumstances (for example,
14056 when writing log entries) non-printing characters are converted into escape
14057 sequences, primarily to avoid messing up the layout. If %print_topbitchars% is
14058 set, code values of 128 and above are also considered to be printing
14062 oindex:[%process_log_path%]
14064 %process_log_path%, Use: 'main', Type: 'string', Default: 'unset'
14067 cindex:[process log path]
14068 cindex:[log,process log]
14070 This option sets the name of the file to which an Exim process writes its
14071 ``process log'' when sent a USR1 signal. This is used by the 'exiwhat' utility
14072 script. If this option is unset, the file called _exim-process.info_ in
14073 Exim's spool directory is used. The ability to specify the name explicitly can
14074 be useful in environments where two different Exims are running, using
14075 different spool directories.
14078 oindex:[%prod_requires_admin%]
14080 %prod_requires_admin%, Use: 'main', Type: 'boolean', Default: 'true'
14083 cindex:[%-M% option]
14084 cindex:[%-R% option]
14085 cindex:[%-q% option]
14086 The %-M%, %-R%, and %-q% command-line options require the caller to be an
14087 admin user unless %prod_requires_admin% is set false. See also
14088 %queue_list_requires_admin%.
14091 oindex:[%qualify_domain%]
14093 %qualify_domain%, Use: 'main', Type: 'string', Default: 'see below'
14096 cindex:[domain,for qualifying addresses]
14097 cindex:[address,qualification]
14098 This option specifies the domain name that is added to any envelope sender
14099 addresses that do not have a domain qualification. It also applies to
14100 recipient addresses if %qualify_recipient% is not set.
14102 Unqualified addresses are accepted by default only for locally-generated
14105 Qualification is also applied to addresses in header lines such as 'From:' and
14106 'To:' for locally-generated messages, unless the %-bnq% command line option
14110 Messages from external sources must always contain fully qualified addresses,
14111 unless the sending host matches %sender_unqualified_hosts% or
14112 %recipient_unqualified_hosts% (as appropriate), in which case incoming
14113 addresses are qualified with %qualify_domain% or %qualify_recipient% as
14114 necessary. Internally, Exim always works with fully qualified envelope
14115 addresses. If %qualify_domain% is not set, it defaults to the
14116 %primary_hostname% value.
14119 oindex:[%qualify_recipient%]
14121 %qualify_recipient%, Use: 'main', Type: 'string', Default: 'see below'
14124 This option allows you to specify a different domain for qualifying recipient
14125 addresses to the one that is used for senders. See %qualify_domain% above.
14129 oindex:[%queue_domains%]
14131 %queue_domains%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
14134 cindex:[domain,specifying non-immediate delivery]
14135 cindex:[queueing incoming messages]
14136 cindex:[message,queueing certain domains]
14137 This option lists domains for which immediate delivery is not required.
14138 A delivery process is started whenever a message is received, but only those
14139 domains that do not match are processed. All other deliveries wait until the
14140 next queue run. See also %hold_domains% and %queue_smtp_domains%.
14143 oindex:[%queue_list_requires_admin%]
14145 %queue_list_requires_admin%, Use: 'main', Type: 'boolean', Default: 'true'
14148 cindex:[%-bp% option]
14149 The %-bp% command-line option, which lists the messages that are on the queue,
14150 requires the caller to be an admin user unless %queue_list_requires_admin%
14151 is set false. See also %prod_requires_admin%.
14154 oindex:[%queue_only%]
14156 %queue_only%, Use: 'main', Type: 'boolean', Default: 'false'
14159 cindex:[queueing incoming messages]
14160 cindex:[message,queueing unconditionally]
14161 If %queue_only% is set, a delivery process is not automatically started
14162 whenever a message is received. Instead, the message waits on the queue for the
14163 next queue run. Even if %queue_only% is false, incoming messages may not get
14164 delivered immediately when certain conditions (such as heavy load) occur.
14166 The %-odq% command line has the same effect as %queue_only%. The %-odb% and
14167 %-odi% command line options override %queue_only% unless
14168 %queue_only_override% is set false. See also %queue_only_file%,
14169 %queue_only_load%, and %smtp_accept_queue%.
14172 oindex:[%queue_only_file%]
14174 %queue_only_file%, Use: 'main', Type: 'string', Default: 'unset'
14177 cindex:[queueing incoming messages]
14178 cindex:[message,queueing by file existence]
14179 This option can be set to a colon-separated list of absolute path names, each
14180 one optionally preceded by ``smtp''. When Exim is receiving a message,
14181 it tests for the existence of each listed path using a call to 'stat()'. For
14182 each path that exists, the corresponding queuing option is set.
14183 For paths with no prefix, %queue_only% is set; for paths prefixed by ``smtp'',
14184 %queue_smtp_domains% is set to match all domains. So, for example,
14186 queue_only_file = smtp/some/file
14188 causes Exim to behave as if %queue_smtp_domains% were set to ``\*'' whenever
14189 _/some/file_ exists.
14192 oindex:[%queue_only_load%]
14194 %queue_only_load%, Use: 'main', Type: 'fixed-point', Default: 'unset'
14197 cindex:[load average]
14198 cindex:[queueing incoming messages]
14199 cindex:[message,queueing by load]
14200 If the system load average is higher than this value, incoming messages from
14201 all sources are queued, and no automatic deliveries are started. If this
14202 happens during local or remote SMTP input, all subsequent messages on the same
14203 connection are queued. Deliveries will subsequently be performed by queue
14204 runner processes. This option has no effect on ancient operating systems on
14205 which Exim cannot determine the load average. See also
14206 %deliver_queue_load_max% and %smtp_load_reserve%.
14209 oindex:[%queue_only_override%]
14211 %queue_only_override%, Use: 'main', Type: 'boolean', Default: 'true'
14214 cindex:[queueing incoming messages]
14215 When this option is true, the %-od'x'% command line options override the
14216 setting of %queue_only% or %queue_only_file% in the configuration file. If
14217 %queue_only_override% is set false, the %-od'x'% options cannot be used to
14218 override; they are accepted, but ignored.
14221 oindex:[%queue_run_in_order%]
14223 %queue_run_in_order%, Use: 'main', Type: 'boolean', Default: 'false'
14226 cindex:[queue runner,processing messages in order]
14227 If this option is set, queue runs happen in order of message arrival instead of
14228 in an arbitrary order. For this to happen, a complete list of the entire queue
14229 must be set up before the deliveries start. When the queue is all held in a
14230 single directory (the default),
14232 a single list is created for both the ordered and the non-ordered cases.
14233 However, if %split_spool_directory% is set, a single list is not created when
14234 %queue_run_in_order% is false. In this case, the sub-directories are
14235 processed one at a time (in a random order), and this avoids setting up one
14236 huge list for the whole queue. Thus, setting %queue_run_in_order% with
14237 %split_spool_directory% may degrade performance when the queue is large,
14238 because of the extra work in setting up the single, large list. In most
14239 situations, %queue_run_in_order% should not be set.
14243 oindex:[%queue_run_max%]
14245 %queue_run_max%, Use: 'main', Type: 'integer', Default: '5'
14248 cindex:[queue runner,maximum number of]
14249 This controls the maximum number of queue runner processes that an Exim daemon
14250 can run simultaneously. This does not mean that it starts them all at once,
14251 but rather that if the maximum number are still running when the time comes to
14252 start another one, it refrains from starting another one. This can happen with
14253 very large queues and/or very sluggish deliveries. This option does not,
14254 however, interlock with other processes, so additional queue runners can be
14255 started by other means, or by killing and restarting the daemon.
14257 [revisionflag="changed"]
14258 Setting this option to zero does not suppress queue runs; rather, it disables
14259 the limit, allowing any number of simultaneous queue runner processes to be
14260 run. If you do not want queue runs to occur, omit the %-q%'xx' setting on the
14261 daemon's command line.
14264 oindex:[%queue_smtp_domains%]
14266 %queue_smtp_domains%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
14269 cindex:[queueing incoming messages]
14270 cindex:[message,queueing remote deliveries]
14271 When this option is set, a delivery process is started whenever a message is
14272 received, routing is performed, and local deliveries take place.
14273 However, if any SMTP deliveries are required for domains that match
14274 %queue_smtp_domains%, they are not immediately delivered, but instead the
14275 message waits on the queue for the next queue run. Since routing of the message
14276 has taken place, Exim knows to which remote hosts it must be delivered, and so
14277 when the queue run happens, multiple messages for the same host are delivered
14278 over a single SMTP connection. The %-odqs% command line option causes all SMTP
14279 deliveries to be queued in this way, and is equivalent to setting
14280 %queue_smtp_domains% to ``\*''. See also %hold_domains% and %queue_domains%.
14283 oindex:[%receive_timeout%]
14285 %receive_timeout%, Use: 'main', Type: 'time', Default: '0s'
14288 cindex:[timeout,for non-SMTP input]
14289 This option sets the timeout for accepting a non-SMTP message, that is, the
14290 maximum time that Exim waits when reading a message on the standard input. If
14291 the value is zero, it will wait for ever. This setting is overridden by the
14292 %-or% command line option. The timeout for incoming SMTP messages is
14293 controlled by %smtp_receive_timeout%.
14295 oindex:[%received_header_text%]
14297 %received_header_text%, Use: 'main', Type: 'string'!!, Default: 'see below'
14300 cindex:[customizing, 'Received:' header]
14301 cindex:['Received:' header line,customizing]
14302 This string defines the contents of the 'Received:' message header that is
14303 added to each message, except for the timestamp, which is automatically added
14304 on at the end (preceded by a semicolon). The string is expanded each time it is
14305 used. If the expansion yields an empty string, no 'Received:' header line is
14306 added to the message. Otherwise, the string should start with the text
14307 ``Received:'' and conform to the RFC 2822 specification for 'Received:' header
14308 lines. The default setting is:
14310 [revisionflag="changed"]
14312 received_header_text = Received: \
14313 ${if def:sender_rcvhost {from $sender_rcvhost\n\t}\
14314 {${if def:sender_ident {from ${quote_local_part: $sender_ident} }}\
14315 ${if def:sender_helo_name {(helo=$sender_helo_name)\n\t}}}}\
14316 by $primary_hostname \
14317 ${if def:received_protocol {with $received_protocol}} \
14318 ${if def:tls_cipher {($tls_cipher)\n\t}}\
14319 (Exim $version_number)\n\t\
14320 ${if def:sender_address {(envelope-from <$sender_address>)\n\t}}\
14321 id $message_exim_id\
14322 ${if def:received_for {\n\tfor $received_for}}
14325 The reference to the TLS cipher is omitted when Exim is built without TLS
14326 support. The use of conditional expansions ensures that this works for both
14327 locally generated messages and messages received from remote hosts, giving
14328 header lines such as the following:
14330 Received: from scrooge.carol.example ([192.168.12.25] ident=root)
14331 by marley.carol.example with esmtp (Exim 4.00)
14332 (envelope-from <bob@carol.example>)
14333 id 16IOWa-00019l-00
14334 for chas@dickens.example; Tue, 25 Dec 2001 14:43:44 +0000
14335 Received: by scrooge.carol.example with local (Exim 4.00)
14336 id 16IOWW-000083-00; Tue, 25 Dec 2001 14:43:41 +0000
14338 Until the body of the message has been received, the timestamp is the time when
14339 the message started to be received. Once the body has arrived, and all policy
14340 checks have taken place, the timestamp is updated to the time at which the
14341 message was accepted.
14344 oindex:[%received_headers_max%]
14346 %received_headers_max%, Use: 'main', Type: 'integer', Default: '30'
14349 cindex:[loop,prevention]
14350 cindex:[mail loop prevention]
14351 cindex:['Received:' header line,counting]
14352 When a message is to be delivered, the number of 'Received:' headers is
14353 counted, and if it is greater than this parameter, a mail loop is assumed to
14354 have occurred, the delivery is abandoned, and an error message is generated.
14355 This applies to both local and remote deliveries.
14358 oindex:[%recipient_unqualified_hosts%]
14360 %recipient_unqualified_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
14363 cindex:[unqualified addresses]
14364 cindex:[host,unqualified addresses from]
14365 This option lists those hosts from which Exim is prepared to accept unqualified
14366 recipient addresses in message envelopes. The addresses are made fully
14367 qualified by the addition of the %qualify_recipient% value. This option also
14368 affects message header lines. Exim does not reject unqualified recipient
14369 addresses in headers, but it qualifies them only if the message came from a
14370 host that matches %recipient_unqualified_hosts%,
14371 or if the message was submitted locally (not using TCP/IP), and the %-bnq%
14372 option was not set.
14375 oindex:[%recipients_max%]
14377 %recipients_max%, Use: 'main', Type: 'integer', Default: '0'
14380 cindex:[limit,number of recipients]
14381 cindex:[recipient,maximum number]
14382 If this option is set greater than zero, it specifies the maximum number of
14383 original recipients for any message. Additional recipients that are generated
14384 by aliasing or forwarding do not count. SMTP messages get a 452 response for
14385 all recipients over the limit; earlier recipients are delivered as normal.
14386 Non-SMTP messages with too many recipients are failed, and no deliveries are
14389 cindex:[RCPT,maximum number of incoming]
14390 Note that the RFCs specify that an SMTP server should accept at least 100
14391 RCPT commands in a single message.
14394 oindex:[%recipients_max_reject%]
14396 %recipients_max_reject%, Use: 'main', Type: 'boolean', Default: 'false'
14399 If this option is set true, Exim rejects SMTP messages containing too many
14400 recipients by giving 552 errors to the surplus RCPT commands, and a 554
14401 error to the eventual DATA command. Otherwise (the default) it gives a 452
14402 error to the surplus RCPT commands and accepts the message on behalf of the
14403 initial set of recipients. The remote server should then re-send the message
14404 for the remaining recipients at a later time.
14407 oindex:[%remote_max_parallel%]
14409 %remote_max_parallel%, Use: 'main', Type: 'integer', Default: '2'
14412 cindex:[delivery,parallelism for remote]
14413 This option controls parallel delivery of one message to a number of remote
14414 hosts. If the value is less than 2, parallel delivery is disabled, and Exim
14415 does all the remote deliveries for a message one by one. Otherwise, if a single
14416 message has to be delivered to more than one remote host, or if several copies
14417 have to be sent to the same remote host, up to %remote_max_parallel%
14418 deliveries are done simultaneously. If more than %remote_max_parallel%
14419 deliveries are required, the maximum number of processes are started, and as
14420 each one finishes, another is begun. The order of starting processes is the
14421 same as if sequential delivery were being done, and can be controlled by the
14422 %remote_sort_domains% option. If parallel delivery takes place while running
14423 with debugging turned on, the debugging output from each delivery process is
14424 tagged with its process id.
14426 This option controls only the maximum number of parallel deliveries for one
14427 message in one Exim delivery process. Because Exim has no central queue
14428 manager, there is no way of controlling the total number of simultaneous
14429 deliveries if the configuration allows a delivery attempt as soon as a message
14432 cindex:[number of deliveries]
14433 cindex:[delivery,maximum number of]
14434 If you want to control the total number of deliveries on the system, you
14435 need to set the %queue_only% option. This ensures that all incoming messages
14436 are added to the queue without starting a delivery process. Then set up an Exim
14437 daemon to start queue runner processes at appropriate intervals (probably
14438 fairly often, for example, every minute), and limit the total number of queue
14439 runners by setting the %queue_run_max% parameter. Because each queue runner
14440 delivers only one message at a time, the maximum number of deliveries that can
14441 then take place at once is %queue_run_max% multiplied by
14442 %remote_max_parallel%.
14444 If it is purely remote deliveries you want to control, use
14445 %queue_smtp_domains% instead of %queue_only%. This has the added benefit of
14446 doing the SMTP routing before queuing, so that several messages for the same
14447 host will eventually get delivered down the same connection.
14450 oindex:[%remote_sort_domains%]
14452 %remote_sort_domains%, Use: 'main', Type: 'domain list'!!, Default: 'unset'
14455 cindex:[sorting remote deliveries]
14456 cindex:[delivery,sorting remote]
14457 When there are a number of remote deliveries for a message, they are sorted by
14458 domain into the order given by this list. For example,
14460 remote_sort_domains = *.cam.ac.uk:*.uk
14462 would attempt to deliver to all addresses in the 'cam.ac.uk' domain first, then
14463 to those in the %uk% domain, then to any others.
14466 oindex:[%retry_data_expire%]
14468 %retry_data_expire%, Use: 'main', Type: 'time', Default: '7d'
14471 cindex:[hints database,data expiry]
14472 This option sets a ``use before'' time on retry information in Exim's hints
14473 database. Any older retry data is ignored. This means that, for example, once a
14474 host has not been tried for 7 days, Exim behaves as if it has no knowledge of
14478 oindex:[%retry_interval_max%]
14480 %retry_interval_max%, Use: 'main', Type: 'time', Default: '24h'
14483 cindex:[retry,limit on interval]
14484 cindex:[limit,on retry interval]
14485 Chapter <<CHAPretry>> describes Exim's mechanisms for controlling the intervals
14486 between delivery attempts for messages that cannot be delivered straight away.
14487 This option sets an overall limit to the length of time between retries.
14490 oindex:[%return_path_remove%]
14492 %return_path_remove%, Use: 'main', Type: 'boolean', Default: 'true'
14495 cindex:['Return-path:' header line,removing]
14496 RFC 2821, section 4.4, states that an SMTP server must insert a 'Return-path:'
14497 header line into a message when it makes a ``final delivery''. The 'Return-path:'
14498 header preserves the sender address as received in the MAIL command. This
14499 description implies that this header should not be present in an incoming
14500 message. If %return_path_remove% is true, any existing 'Return-path:'
14501 headers are removed from messages at the time they are received. Exim's
14502 transports have options for adding 'Return-path:' headers at the time of
14503 delivery. They are normally used only for final local deliveries.
14506 oindex:[%return_size_limit%]
14508 %return_size_limit%, Use: 'main', Type: 'integer', Default: '100K'
14511 This option is an obsolete synonym for %bounce_return_size_limit%.
14514 oindex:[%rfc1413_hosts%]
14516 %rfc1413_hosts%, Use: 'main', Type: 'host list'!!, Default: '\*'
14520 cindex:[host,for RFC 1413 calls]
14521 RFC 1413 identification calls are made to any client host which matches an item
14525 oindex:[%rfc1413_query_timeout%]
14527 %rfc1413_query_timeout%, Use: 'main', Type: 'time', Default: '30s'
14530 cindex:[RFC 1413,query timeout]
14531 cindex:[timeout,for RFC 1413 call]
14532 This sets the timeout on RFC 1413 identification calls. If it is set to zero,
14533 no RFC 1413 calls are ever made.
14536 oindex:[%sender_unqualified_hosts%]
14538 %sender_unqualified_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
14541 cindex:[unqualified addresses]
14542 cindex:[host,unqualified addresses from]
14543 This option lists those hosts from which Exim is prepared to accept unqualified
14544 sender addresses. The addresses are made fully qualified by the addition of
14545 %qualify_domain%. This option also affects message header lines. Exim does not
14546 reject unqualified addresses in headers that contain sender addresses, but it
14547 qualifies them only if the message came from a host that matches
14548 %sender_unqualified_hosts%,
14549 or if the message was submitted locally (not using TCP/IP), and the %-bnq%
14550 option was not set.
14553 oindex:[%smtp_accept_keepalive%]
14555 %smtp_accept_keepalive%, Use: 'main', Type: 'boolean', Default: 'true'
14558 cindex:[keepalive,on incoming connection]
14559 This option controls the setting of the SO_KEEPALIVE option on incoming
14560 TCP/IP socket connections. When set, it causes the kernel to probe idle
14561 connections periodically, by sending packets with ``old'' sequence numbers. The
14562 other end of the connection should send an acknowledgement if the connection is
14563 still okay or a reset if the connection has been aborted. The reason for doing
14564 this is that it has the beneficial effect of freeing up certain types of
14565 connection that can get stuck when the remote host is disconnected without
14566 tidying up the TCP/IP call properly. The keepalive mechanism takes several
14567 hours to detect unreachable hosts.
14571 oindex:[%smtp_accept_max%]
14573 %smtp_accept_max%, Use: 'main', Type: 'integer', Default: '20'
14576 cindex:[limit,incoming SMTP connections]
14577 cindex:[SMTP,incoming connection count]
14579 This option specifies the maximum number of simultaneous incoming SMTP calls
14580 that Exim will accept. It applies only to the listening daemon; there is no
14581 control (in Exim) when incoming SMTP is being handled by 'inetd'. If the value
14582 is set to zero, no limit is applied. However, it is required to be non-zero if
14583 either %smtp_accept_max_per_host% or %smtp_accept_queue% is set. See also
14584 %smtp_accept_reserve%.
14588 oindex:[%smtp_accept_max_nonmail%]
14590 %smtp_accept_max_nonmail%, Use: 'main', Type: 'integer', Default: '10'
14593 cindex:[limit,non-mail SMTP commands]
14594 cindex:[SMTP,limiting non-mail commands]
14595 Exim counts the number of ``non-mail'' commands in an SMTP session, and drops the
14596 connection if there are too many. This option defines ``too many''. The check
14597 catches some denial-of-service attacks, repeated failing AUTHs, or a mad
14598 client looping sending EHLO, for example. The check is applied only if the
14599 client host matches %smtp_accept_max_nonmail_hosts%.
14601 When a new message is expected, one occurrence of RSET is not counted. This
14602 allows a client to send one RSET between messages (this is not necessary,
14603 but some clients do it). Exim also allows one uncounted occurence of HELO
14604 or EHLO, and one occurrence of STARTTLS between messages. After
14605 starting up a TLS session, another EHLO is expected, and so it too is not
14606 counted. The first occurrence of AUTH in a connection, or immediately
14607 following STARTTLS is not counted. Otherwise, all commands other than
14608 MAIL, RCPT, DATA, and QUIT are counted.
14611 oindex:[%smtp_accept_max_nonmail_hosts%]
14613 %smtp_accept_max_nonmail_hosts%, Use: 'main', Type: 'host list'!!, Default: '\*'
14616 You can control which hosts are subject to the %smtp_accept_max_nonmail%
14617 check by setting this option. The default value makes it apply to all hosts. By
14618 changing the value, you can exclude any badly-behaved hosts that you have to
14623 oindex:[%smtp_accept_max_per_connection%]
14625 %smtp_accept_max_per_connection%, Use: 'main', Type: 'integer', Default: '1000'
14628 cindex:[SMTP incoming message count, limiting]
14629 cindex:[limit,messages per SMTP connection]
14630 The value of this option limits the number of MAIL commands that Exim is
14631 prepared to accept over a single SMTP connection, whether or not each command
14632 results in the transfer of a message. After the limit is reached, a 421
14633 response is given to subsequent MAIL commands. This limit is a safety
14634 precaution against a client that goes mad (incidents of this type have been
14638 oindex:[%smtp_accept_max_per_host%]
14640 %smtp_accept_max_per_host%, Use: 'main', Type: 'string'!!, Default: 'unset'
14643 cindex:[limit,SMTP connections from one host]
14644 cindex:[host,limiting SMTP connections from]
14645 This option restricts the number of simultaneous IP connections from a single
14646 host (strictly, from a single IP address) to the Exim daemon. The option is
14647 expanded, to enable different limits to be applied to different hosts by
14648 reference to $sender_host_address$. Once the limit is reached, additional
14649 connection attempts from the same host are rejected with error code 421. The
14650 default value of zero imposes no limit. If this option is set, it is required
14651 that %smtp_accept_max% be non-zero.
14653 *Warning*: When setting this option you should not use any expansion
14654 constructions that take an appreciable amount of time. The expansion and test
14655 happen in the main daemon loop, in order to reject additional connections
14656 without forking additional processes (otherwise a denial-of-service attack
14657 could cause a vast number or processes to be created). While the daemon is
14658 doing this processing, it cannot accept any other incoming connections.
14662 oindex:[%smtp_accept_queue%]
14664 %smtp_accept_queue%, Use: 'main', Type: 'integer', Default: '0'
14667 cindex:[SMTP,incoming connection count]
14668 cindex:[queueing incoming messages]
14669 cindex:[message,queueing by SMTP connection count]
14670 If the number of simultaneous incoming SMTP calls handled via the listening
14671 daemon exceeds this value, messages received by SMTP are just placed on the
14672 queue; no delivery processes are started automatically. A value of zero implies
14673 no limit, and clearly any non-zero value is useful only if it is less than the
14674 %smtp_accept_max% value (unless that is zero). See also %queue_only%,
14675 %queue_only_load%, %queue_smtp_domains%, and the various %-od% command
14679 oindex:[%smtp_accept_queue_per_connection%]
14681 %smtp_accept_queue_per_connection%, Use: 'main', Type: 'integer', Default: '10'
14684 cindex:[queueing incoming messages]
14685 cindex:[message,queueing by message count]
14686 This option limits the number of delivery processes that Exim starts
14687 automatically when receiving messages via SMTP, whether via the daemon or by
14688 the use of %-bs% or %-bS%. If the value of the option is greater than zero,
14689 and the number of messages received in a single SMTP session exceeds this
14690 number, subsequent messages are placed on the queue, but no delivery processes
14691 are started. This helps to limit the number of Exim processes when a server
14692 restarts after downtime and there is a lot of mail waiting for it on other
14693 systems. On large systems, the default should probably be increased, and on
14694 dial-in client systems it should probably be set to zero (that is, disabled).
14697 oindex:[%smtp_accept_reserve%]
14699 %smtp_accept_reserve%, Use: 'main', Type: 'integer', Default: '0'
14702 cindex:[SMTP,incoming call count]
14703 cindex:[host,reserved]
14704 When %smtp_accept_max% is set greater than zero, this option specifies a
14705 number of SMTP connections that are reserved for connections from the hosts
14706 that are specified in %smtp_reserve_hosts%. The value set in
14707 %smtp_accept_max% includes this reserve pool. The specified hosts are not
14708 restricted to this number of connections; the option specifies a minimum number
14709 of connection slots for them, not a maximum. It is a guarantee that that group
14710 of hosts can always get at least %smtp_accept_reserve% connections.
14712 For example, if %smtp_accept_max% is set to 50 and %smtp_accept_reserve% is
14713 set to 5, once there are 45 active connections (from any hosts), new
14714 connections are accepted only from hosts listed in %smtp_reserve_hosts%.
14715 See also %smtp_accept_max_per_host%.
14718 oindex:[%smtp_active_hostname%]
14720 %smtp_active_hostname%, Use: 'main', Type: 'string'!!, Default: 'unset'
14723 cindex:[host,name in SMTP responses]
14724 cindex:[SMTP,host name in responses]
14725 cindex:[$primary_hostname$]
14726 This option is provided for multi-homed servers that want to masquerade as
14727 several different hosts. At the start of an SMTP connection, its value is
14728 expanded and used instead of the value of $primary_hostname$ in SMTP
14729 responses. For example, it is used as domain name in the response to an
14730 incoming HELO or EHLO command.
14732 cindex:[$smtp_active_hostname$]
14733 It is also used in HELO commands for callout verification. The active hostname
14734 is placed in the $smtp_active_hostname$ variable, which is saved with any
14735 messages that are received. It is therefore available for use in routers and
14736 transports when the message is later delivered.
14738 If this option is unset, or if its expansion is forced to fail, or if the
14739 expansion results in an empty string, the value of $primary_hostname$ is
14740 used. Other expansion failures cause a message to be written to the main and
14741 panic logs, and the SMTP command receives a temporary error. Typically, the
14742 value of %smtp_active_hostname% depends on the incoming interface address.
14746 smtp_active_hostname = ${if eq{$interface_address}{10.0.0.1}\
14747 {cox.mydomain}{box.mydomain}}
14751 oindex:[%smtp_banner%]
14753 %smtp_banner%, Use: 'main', Type: 'string'!!, Default: 'see below'
14756 cindex:[SMTP,welcome banner]
14757 cindex:[banner for SMTP]
14758 cindex:[welcome banner for SMTP]
14759 cindex:[customizing,SMTP banner]
14760 This string, which is expanded every time it is used, is output as the initial
14761 positive response to an SMTP connection. The default setting is:
14764 smtp_banner = $smtp_active_hostname ESMTP Exim \
14765 $version_number $tod_full
14768 Failure to expand the string causes a panic error. If you want to create a
14769 multiline response to the initial SMTP connection, use ``\n'' in the string at
14770 appropriate points, but not at the end. Note that the 220 code is not included
14771 in this string. Exim adds it automatically (several times in the case of a
14772 multiline response).
14775 oindex:[%smtp_check_spool_space%]
14777 %smtp_check_spool_space%, Use: 'main', Type: 'boolean', Default: 'true'
14780 cindex:[checking disk space]
14781 cindex:[disk space, checking]
14782 cindex:[spool directory,checking space]
14783 When this option is set, if an incoming SMTP session encounters the SIZE
14784 option on a MAIL command, it checks that there is enough space in the
14785 spool directory's partition to accept a message of that size, while still
14786 leaving free the amount specified by %check_spool_space% (even if that value
14787 is zero). If there isn't enough space, a temporary error code is returned.
14790 oindex:[%smtp_connect_backlog%]
14792 %smtp_connect_backlog%, Use: 'main', Type: 'integer', Default: '20'
14795 cindex:[connection backlog]
14796 cindex:[SMTP,connection backlog]
14797 cindex:[backlog of connections]
14798 This option specifies a maximum number of waiting SMTP connections. Exim passes
14799 this value to the TCP/IP system when it sets up its listener. Once this number
14800 of connections are waiting for the daemon's attention, subsequent connection
14801 attempts are refused at the TCP/IP level. At least, that is what the manuals
14802 say; in some circumstances such connection attempts have been observed to time
14803 out instead. For large systems it is probably a good idea to increase the
14804 value (to 50, say). It also gives some protection against denial-of-service
14805 attacks by SYN flooding.
14808 oindex:[%smtp_enforce_sync%]
14810 %smtp_enforce_sync%, Use: 'main', Type: 'boolean', Default: 'true'
14813 cindex:[SMTP,synchronization checking]
14814 cindex:[synchronization checking in SMTP]
14815 The SMTP protocol specification requires the client to wait for a response from
14816 the server at certain points in the dialogue. Without PIPELINING these
14817 synchronization points are after every command; with PIPELINING they are
14818 fewer, but they still exist.
14820 Some spamming sites send out a complete set of SMTP commands without waiting
14821 for any response. Exim protects against this by rejecting a message if the
14822 client has sent further input when it should not have. The error response ``554
14823 SMTP synchronization error'' is sent, and the connection is dropped. Testing for
14824 this error cannot be perfect because of transmission delays (unexpected input
14825 may be on its way but not yet received when Exim checks). However, it does
14826 detect many instances.
14828 The check can be globally disabled by setting %smtp_enforce_sync% false.
14829 If you want to disable the check selectively (for example, only for certain
14830 hosts), you can do so by an appropriate use of a %control% modifier in an ACL
14831 (see section <<SECTcontrols>>). See also %pipelining_advertise_hosts%.
14835 oindex:[%smtp_etrn_command%]
14837 %smtp_etrn_command%, Use: 'main', Type: 'string'!!, Default: 'unset'
14840 cindex:[ETRN,command to be run]
14842 If this option is set, the given command is run whenever an SMTP ETRN
14843 command is received from a host that is permitted to issue such commands (see
14844 chapter <<CHAPACL>>). The string is split up into separate arguments which are
14845 independently expanded. The expansion variable $domain$ is set to the
14846 argument of the ETRN command, and no syntax checking is done on it. For
14849 smtp_etrn_command = /etc/etrn_command $domain $sender_host_address
14851 A new process is created to run the command, but Exim does not wait for it to
14852 complete. Consequently, its status cannot be checked. If the command cannot be
14853 run, a line is written to the panic log, but the ETRN caller still receives
14854 a 250 success response. Exim is normally running under its own uid when
14855 receiving SMTP, so it is not possible for it to change the uid before running
14859 oindex:[%smtp_etrn_serialize%]
14861 %smtp_etrn_serialize%, Use: 'main', Type: 'boolean', Default: 'true'
14864 cindex:[ETRN,serializing]
14865 When this option is set, it prevents the simultaneous execution of more than
14866 one identical command as a result of ETRN in an SMTP connection. See
14867 section <<SECTETRN>> for details.
14870 oindex:[%smtp_load_reserve%]
14872 %smtp_load_reserve%, Use: 'main', Type: 'fixed-point', Default: 'unset'
14875 cindex:[load average]
14876 If the system load average ever gets higher than this, incoming SMTP calls are
14877 accepted only from those hosts that match an entry in %smtp_reserve_hosts%.
14878 If %smtp_reserve_hosts% is not set, no incoming SMTP calls are accepted when
14879 the load is over the limit. The option has no effect on ancient operating
14880 systems on which Exim cannot determine the load average. See also
14881 %deliver_queue_load_max% and %queue_only_load%.
14885 oindex:[%smtp_max_synprot_errors%]
14887 %smtp_max_synprot_errors%, Use: 'main', Type: 'integer', Default: '3'
14890 cindex:[SMTP,limiting syntax and protocol errors]
14891 cindex:[limit,SMTP syntax and protocol errors]
14892 Exim rejects SMTP commands that contain syntax or protocol errors. In
14893 particular, a syntactically invalid email address, as in this command:
14895 RCPT TO:<abc xyz@a.b.c>
14897 causes immediate rejection of the command, before any other tests are done.
14898 (The ACL cannot be run if there is no valid address to set up for it.) An
14899 example of a protocol error is receiving RCPT before MAIL. If there are
14900 too many syntax or protocol errors in one SMTP session, the connection is
14901 dropped. The limit is set by this option.
14903 cindex:[PIPELINING,expected errors]
14904 When the PIPELINING extension to SMTP is in use, some protocol errors are
14905 ``expected'', for instance, a RCPT command after a rejected MAIL command.
14906 Exim assumes that PIPELINING will be used if it advertises it (see
14907 %pipelining_advertise_hosts%), and in this situation, ``expected'' errors do
14908 not count towards the limit.
14912 oindex:[%smtp_max_unknown_commands%]
14914 %smtp_max_unknown_commands%, Use: 'main', Type: 'integer', Default: '3'
14917 cindex:[SMTP,limiting unknown commands]
14918 cindex:[limit,unknown SMTP commands]
14919 If there are too many unrecognized commands in an incoming SMTP session, an
14920 Exim server drops the connection. This is a defence against some kinds of abuse
14923 into making connections to SMTP ports; in these circumstances, a number of
14924 non-SMTP command lines are sent first.
14928 oindex:[%smtp_ratelimit_hosts%]
14930 %smtp_ratelimit_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
14933 cindex:[SMTP,rate limiting]
14934 cindex:[limit,rate of message arrival]
14935 cindex:[RCPT,rate limiting]
14936 Some sites find it helpful to be able to limit the rate at which certain hosts
14937 can send them messages, and the rate at which an individual message can specify
14938 recipients. When a host matches %smtp_ratelimit_hosts%, the values of
14939 %smtp_ratelimit_mail% and %smtp_ratelimit_rcpt% are used to control the
14940 rate of acceptance of MAIL and RCPT commands in a single SMTP session,
14941 respectively. Each option, if set, must contain a set of four comma-separated
14944 - A threshold, before which there is no rate limiting.
14946 - An initial time delay. Unlike other times in Exim, numbers with decimal
14947 fractional parts are allowed here.
14949 - A factor by which to increase the delay each time.
14951 - A maximum value for the delay. This should normally be less than 5 minutes,
14952 because after that time, the client is liable to timeout the SMTP command.
14954 For example, these settings have been used successfully at the site which
14955 first suggested this feature, for controlling mail from their customers:
14957 smtp_ratelimit_mail = 2,0.5s,1.05,4m
14958 smtp_ratelimit_rcpt = 4,0.25s,1.015,4m
14960 The first setting specifies delays that are applied to MAIL commands after
14961 two have been received over a single connection. The initial delay is 0.5
14962 seconds, increasing by a factor of 1.05 each time. The second setting applies
14963 delays to RCPT commands when more than four occur in a single message.
14965 It is also possible to configure delays explicitly in ACLs. See section
14966 <<SECTACLmodi>> for details.
14970 oindex:[%smtp_ratelimit_mail%]
14972 %smtp_ratelimit_mail%, Use: 'main', Type: 'string', Default: 'unset'
14975 See %smtp_ratelimit_hosts% above.
14978 oindex:[%smtp_ratelimit_rcpt%]
14980 %smtp_ratelimit_rcpt%, Use: 'main', Type: 'string', Default: 'unset'
14983 See %smtp_ratelimit_hosts% above.
14986 oindex:[%smtp_receive_timeout%]
14988 %smtp_receive_timeout%, Use: 'main', Type: 'time', Default: '5m'
14991 cindex:[timeout,for SMTP input]
14992 cindex:[SMTP timeout, input]
14993 This sets a timeout value for SMTP reception. It applies to all forms of SMTP
14994 input, including batch SMTP. If a line of input (either an SMTP command or a
14995 data line) is not received within this time, the SMTP connection is dropped and
14996 the message is abandoned.
14997 A line is written to the log containing one of the following messages:
14999 SMTP command timeout on connection from...
15000 SMTP data timeout on connection from...
15002 The former means that Exim was expecting to read an SMTP command; the latter
15003 means that it was in the DATA phase, reading the contents of a message.
15006 cindex:[%-os% option]
15007 The value set by this option can be overridden by the
15008 %-os% command-line option. A setting of zero time disables the timeout, but
15009 this should never be used for SMTP over TCP/IP. (It can be useful in some cases
15010 of local input using %-bs% or %-bS%.) For non-SMTP input, the reception
15011 timeout is controlled by %receive_timeout% and %-or%.
15014 oindex:[%smtp_reserve_hosts%]
15016 %smtp_reserve_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
15019 This option defines hosts for which SMTP connections are reserved; see
15020 %smtp_accept_reserve% and %smtp_load_reserve% above.
15023 oindex:[%smtp_return_error_details%]
15025 %smtp_return_error_details%, Use: 'main', Type: 'boolean', Default: 'false'
15028 cindex:[SMTP,details policy failures]
15029 cindex:[policy control rejection, returning details]
15030 In the default state, Exim uses bland messages such as
15031 ``Administrative prohibition'' when it rejects SMTP commands for policy
15032 reasons. Many sysadmins like this because it gives away little information
15033 to spammers. However, some other syadmins who are applying strict checking
15034 policies want to give out much fuller information about failures. Setting
15035 %smtp_return_error_details% true causes Exim to be more forthcoming. For
15036 example, instead of ``Administrative prohibition'', it might give:
15038 550-Rejected after DATA: '>' missing at end of address:
15039 550 failing address in "From" header is: <user@dom.ain
15043 oindex:[%spamd_address%]
15045 %spamd_address%, Use: 'main', Type: 'string', Default: `127.0.0.1 783`
15048 This option is available when Exim is compiled with the content-scanning
15049 extension. It specifies how Exim connects to SpamAssassin's %spamd% daemon. See
15050 section <<SECTscanspamass>> for more details.
15054 oindex:[%split_spool_directory%]
15056 %split_spool_directory%, Use: 'main', Type: 'boolean', Default: 'false'
15059 cindex:[multiple spool directories]
15060 cindex:[spool directory,split]
15061 cindex:[directories, multiple]
15062 If this option is set, it causes Exim to split its input directory into 62
15063 subdirectories, each with a single alphanumeric character as its name. The
15064 sixth character of the message id is used to allocate messages to
15065 subdirectories; this is the least significant base-62 digit of the time of
15066 arrival of the message.
15068 Splitting up the spool in this way may provide better performance on systems
15069 where there are long mail queues, by reducing the number of files in any one
15070 directory. The msglog directory is also split up in a similar way to the input
15071 directory; however, if %preserve_message_logs% is set, all old msglog files
15072 are still placed in the single directory _msglog.OLD_.
15074 It is not necessary to take any special action for existing messages when
15075 changing %split_spool_directory%. Exim notices messages that are in the
15076 ``wrong'' place, and continues to process them. If the option is turned off after
15077 a period of being on, the subdirectories will eventually empty and be
15078 automatically deleted.
15080 When %split_spool_directory% is set, the behaviour of queue runner processes
15081 changes. Instead of creating a list of all messages in the queue, and then
15082 trying to deliver each one in turn, it constructs a list of those in one
15083 sub-directory and tries to deliver them, before moving on to the next
15084 sub-directory. The sub-directories are processed in a random order. This
15085 spreads out the scanning of the input directories, and uses less memory. It is
15086 particularly beneficial when there are lots of messages on the queue. However,
15087 if %queue_run_in_order% is set, none of this new processing happens. The
15088 entire queue has to be scanned and sorted before any deliveries can start.
15091 oindex:[%spool_directory%]
15093 %spool_directory%, Use: 'main', Type: 'string'!!, Default: 'set at compile time'
15096 cindex:[spool directory,path to]
15097 This defines the directory in which Exim keeps its spool, that is, the messages
15098 it is waiting to deliver. The default value is taken from the compile-time
15099 configuration setting, if there is one. If not, this option must be set. The
15100 string is expanded, so it can contain, for example, a reference to
15101 $primary_hostname$.
15103 If the spool directory name is fixed on your installation, it is recommended
15104 that you set it at build time rather than from this option, particularly if the
15105 log files are being written to the spool directory (see %log_file_path%).
15106 Otherwise log files cannot be used for errors that are detected early on, such
15107 as failures in the configuration file.
15109 By using this option to override the compiled-in path, it is possible to run
15110 tests of Exim without using the standard spool.
15112 oindex:[%sqlite_lock_timeout%]
15114 %sqlite_lock_timeout%, Use: 'main', Type: 'time', Default: '5s'
15117 [revisionflag="changed"]
15118 cindex:[sqlite,lock timeout]
15119 This option controls the timeout that the ^sqlite^ lookup uses when trying to
15120 access an SQLite database. See section <<SECTsqlite>> for more details.
15123 oindex:[%strip_excess_angle_brackets%]
15125 %strip_excess_angle_brackets%, Use: 'main', Type: 'boolean', Default: 'false'
15128 cindex:[angle brackets, excess]
15129 If this option is set, redundant pairs of angle brackets round ``route-addr''
15130 items in addresses are stripped. For example, `\<\<xxx@a.b.c.d\>\>` is treated
15131 as `<xxx@a.b.c.d>`. If this is in the envelope and the message is passed on
15132 to another MTA, the excess angle brackets are not passed on. If this option is
15133 not set, multiple pairs of angle brackets cause a syntax error.
15136 oindex:[%strip_trailing_dot%]
15138 %strip_trailing_dot%, Use: 'main', Type: 'boolean', Default: 'false'
15141 cindex:[trailing dot on domain]
15142 cindex:[dot,trailing on domain]
15143 If this option is set, a trailing dot at the end of a domain in an address is
15144 ignored. If this is in the envelope and the message is passed on to another
15145 MTA, the dot is not passed on. If this option is not set, a dot at the end of a
15146 domain causes a syntax error.
15147 However, addresses in header lines are checked only when an ACL requests header
15151 oindex:[%syslog_duplication%]
15153 %syslog_duplication%, Use: 'main', Type: 'boolean', Default: 'true'
15156 cindex:[syslog,duplicate log lines; suppressing]
15157 When Exim is logging to syslog, it writes the log lines for its three
15158 separate logs at different syslog priorities so that they can in principle
15159 be separated on the logging hosts. Some installations do not require this
15160 separation, and in those cases, the duplication of certain log lines is a
15161 nuisance. If %syslog_duplication% is set false, only one copy of any
15162 particular log line is written to syslog. For lines that normally go to
15163 both the main log and the reject log, the reject log version (possibly
15164 containing message header lines) is written, at LOG_NOTICE priority.
15165 Lines that normally go to both the main and the panic log are written at
15166 the LOG_ALERT priority.
15169 oindex:[%syslog_facility%]
15171 %syslog_facility%, Use: 'main', Type: 'string', Default: 'unset'
15174 cindex:[syslog,facility; setting]
15175 This option sets the syslog ``facility'' name, used when Exim is logging to
15176 syslog. The value must be one of the strings ``mail'', ``user'', ``news'', ``uucp'',
15177 ``daemon'', or ``local'x'##'' where 'x' is a digit between 0 and 7. If this
15178 option is unset, ``mail'' is used. See chapter <<CHAPlog>> for details of Exim's
15183 oindex:[%syslog_processname%]
15185 %syslog_processname%, Use: 'main', Type: 'string', Default: `exim`
15188 cindex:[syslog,process name; setting]
15189 This option sets the syslog ``ident'' name, used when Exim is logging to syslog.
15190 The value must be no longer than 32 characters. See chapter <<CHAPlog>> for
15191 details of Exim's logging.
15195 oindex:[%syslog_timestamp%]
15197 %syslog_timestamp%, Use: 'main', Type: 'boolean', Default: 'true'
15200 cindex:[syslog,timestamps]
15201 If %syslog_timestamp% is set false, the timestamps on Exim's log lines are
15202 omitted when these lines are sent to syslog. See chapter <<CHAPlog>> for
15203 details of Exim's logging.
15206 oindex:[%system_filter%]
15208 %system_filter%, Use: 'main', Type: 'string'!!, Default: 'unset'
15211 cindex:[filter,system filter]
15212 cindex:[system filter,specifying]
15213 cindex:[Sieve filter,not available for system filter]
15214 This option specifies an Exim filter file that is applied to all messages at
15215 the start of each delivery attempt, before any routing is done. System filters
15216 must be Exim filters; they cannot be Sieve filters. If the system filter
15217 generates any deliveries to files or pipes, or any new mail messages, the
15218 appropriate %system_filter_..._transport% option(s) must be set, to define
15219 which transports are to be used. Details of this facility are given in chapter
15220 <<CHAPsystemfilter>>.
15223 oindex:[%system_filter_directory_transport%]
15225 %system_filter_directory_transport%, Use: 'main', Type: 'string'!!, Default: 'unset'
15228 cindex:[$address_file$]
15229 This sets the name of the transport driver that is to be used when the
15230 %save% command in a system message filter specifies a path ending in ``/'',
15231 implying delivery of each message into a separate file in some directory.
15232 During the delivery, the variable $address_file$ contains the path name.
15235 oindex:[%system_filter_file_transport%]
15237 %system_filter_file_transport%, Use: 'main', Type: 'string'!!, Default: 'unset'
15240 cindex:[file,transport for system filter]
15241 This sets the name of the transport driver that is to be used when the %save%
15242 command in a system message filter specifies a path not ending in ``/''. During
15243 the delivery, the variable $address_file$ contains the path name.
15245 oindex:[%system_filter_group%]
15247 %system_filter_group%, Use: 'main', Type: 'string', Default: 'unset'
15250 cindex:[gid (group id),system filter]
15251 This option is used only when %system_filter_user% is also set. It sets the
15252 gid under which the system filter is run, overriding any gid that is associated
15253 with the user. The value may be numerical or symbolic.
15255 oindex:[%system_filter_pipe_transport%]
15257 %system_filter_pipe_transport%, Use: 'main', Type: 'string'!!, Default: 'unset'
15260 cindex:[^pipe^ transport,for system filter]
15261 cindex:[$address_pipe$]
15262 This specifies the transport driver that is to be used when a %pipe% command is
15263 used in a system filter. During the delivery, the variable $address_pipe$
15264 contains the pipe command.
15267 oindex:[%system_filter_reply_transport%]
15269 %system_filter_reply_transport%, Use: 'main', Type: 'string'!!, Default: 'unset'
15272 cindex:[^autoreply^ transport,for system filter]
15273 This specifies the transport driver that is to be used when a %mail% command is
15274 used in a system filter.
15276 oindex:[%system_filter_user%]
15278 %system_filter_user%, Use: 'main', Type: 'string', Default: 'unset'
15281 cindex:[uid (user id),system filter]
15282 If this option is not set, the system filter is run in the main Exim delivery
15283 process, as root. When the option is set, the system filter runs in a separate
15284 process, as the given user. Unless the string consists entirely of digits, it
15285 is looked up in the password data. Failure to find the named user causes a
15286 configuration error. The gid is either taken from the password data, or
15287 specified by %system_filter_group%. When the uid is specified numerically,
15288 %system_filter_group% is required to be set.
15290 If the system filter generates any pipe, file, or reply deliveries, the uid
15291 under which the filter is run is used when transporting them, unless a
15292 transport option overrides. Normally you should set %system_filter_user% if
15293 your system filter generates these kinds of delivery.
15296 oindex:[%tcp_nodelay%]
15298 %tcp_nodelay%, Use: 'main', Type: 'boolean', Default: 'true'
15301 cindex:[daemon,TCP_NODELAY on sockets]
15302 cindex:[Nagle algorithm]
15303 cindex:[TCP_NODELAY on listening sockets]
15304 If this option is set false, it stops the Exim daemon setting the
15305 TCP_NODELAY option on its listening sockets. Setting TCP_NODELAY
15306 turns off the ``Nagle algorithm'', which is a way of improving network
15307 performance in interactive (character-by-character) situations. Turning it off
15308 should improve Exim's performance a bit, so that is what happens by default.
15309 However, it appears that some broken clients cannot cope, and time out. Hence
15310 this option. It affects only those sockets that are set up for listening by the
15311 daemon. Sockets created by the smtp transport for delivering mail always set
15315 oindex:[%timeout_frozen_after%]
15317 %timeout_frozen_after%, Use: 'main', Type: 'time', Default: '0s'
15320 cindex:[frozen messages,timing out]
15321 cindex:[timeout,frozen messages]
15322 If %timeout_frozen_after% is set to a time greater than zero, a frozen
15323 message of any kind that has been on the queue for longer than the given
15324 time is automatically cancelled at the next queue run. If it is a bounce
15325 message, it is just discarded; otherwise, a bounce is sent to the sender, in a
15326 similar manner to cancellation by the %-Mg% command line option. If you want
15327 to timeout frozen bounce messages earlier than other kinds of frozen message,
15328 see %ignore_bounce_errors_after%.
15331 oindex:[%timezone%]
15333 %timezone%, Use: 'main', Type: 'string', Default: 'unset'
15336 cindex:[timezone, setting]
15337 The value of %timezone% is used to set the environment variable TZ while
15338 running Exim (if it is different on entry). This ensures that all timestamps
15339 created by Exim are in the required timezone. If you want all your timestamps
15340 to be in UTC (aka GMT) you should set
15344 The default value is taken from TIMEZONE_DEFAULT in _Local/Makefile_,
15345 or, if that is not set, from the value of the TZ environment variable when Exim
15346 is built. If %timezone% is set to the empty string, either at build or run
15347 time, any existing TZ variable is removed from the environment when Exim
15348 runs. This is appropriate behaviour for obtaining wall-clock time on some, but
15349 unfortunately not all, operating systems.
15352 oindex:[%tls_advertise_hosts%]
15354 %tls_advertise_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
15357 cindex:[TLS,advertising]
15358 cindex:[encryption,on SMTP connection]
15359 cindex:[SMTP,encrypted connection]
15360 When Exim is built with support for TLS encrypted connections, the availability
15361 of the STARTTLS command to set up an encrypted session is advertised in
15362 response to EHLO only to those client hosts that match this option. See
15363 chapter <<CHAPTLS>> for details of Exim's support for TLS.
15366 oindex:[%tls_certificate%]
15368 %tls_certificate%, Use: 'main', Type: 'string'!!, Default: 'unset'
15371 cindex:[TLS,server certificate; location of]
15372 cindex:[certificate for server, location of]
15373 The value of this option is expanded, and must then be the absolute path to a
15374 file which contains the server's certificates. The server's private key is also
15375 assumed to be in this file if %tls_privatekey% is unset. See chapter <<CHAPTLS>>
15376 for further details.
15378 *Note*: The certificates defined by this option are used only when Exim is
15379 receiving incoming messages as a server. If you want to supply certificates for
15380 use when sending messages as a client, you must set the %tls_certificate%
15381 option in the relevant ^smtp^ transport.
15386 %tls_crl%, Use: 'main', Type: 'string'!!, Default: 'unset'
15389 cindex:[TLS,server certificate revocation list]
15390 cindex:[certificate,revocation list for server]
15391 This option specifies a certificate revocation list. The expanded value must
15392 be the name of a file that contains a CRL in PEM format.
15395 oindex:[%tls_dhparam%]
15397 %tls_dhparam%, Use: 'main', Type: 'string'!!, Default: 'unset'
15400 cindex:[TLS,D-H parameters for server]
15401 The value of this option is expanded, and must then be the absolute path to
15402 a file which contains the server's DH parameter values.
15403 This is used only for OpenSSL. When Exim is linked with GnuTLS, this option is
15404 ignored. See section <<SECTopenvsgnu>> for further details.
15407 oindex:[%tls_on_connect_ports%]
15409 %tls_on_connect_ports%, Use: 'main', Type: 'string list', Default: 'unset'
15412 This option specifies a list of incoming SSMTP (aka SMTPS) ports that should
15413 operate the obsolete SSMTP (SMTPS) protocol, where a TLS session is immediately
15414 set up without waiting for the client to issue a STARTTLS command. For
15415 further details, see section <<SECTsupobssmt>>.
15419 oindex:[%tls_privatekey%]
15421 %tls_privatekey%, Use: 'main', Type: 'string'!!, Default: 'unset'
15424 cindex:[TLS,server private key; location of]
15425 The value of this option is expanded, and must then be the absolute path to a
15426 file which contains the server's private key. If this option is unset, the
15427 private key is assumed to be in the same file as the server's certificates. See
15428 chapter <<CHAPTLS>> for further details.
15431 oindex:[%tls_remember_esmtp%]
15433 %tls_remember_esmtp%, Use: 'main', Type: 'boolean', Default: 'false'
15436 cindex:[TLS,esmtp state; remembering]
15437 cindex:[TLS,broken clients]
15438 If this option is set true, Exim violates the RFCs by remembering that it is in
15439 ``esmtp'' state after successfully negotiating a TLS session. This provides
15440 support for broken clients that fail to send a new EHLO after starting a
15444 oindex:[%tls_require_ciphers%]
15446 %tls_require_ciphers%, Use: 'main', Type: 'string'!!, Default: 'unset'
15449 cindex:[TLS,requiring specific ciphers]
15450 cindex:[cipher,requiring specific]
15451 This option controls which ciphers can be used for incoming TLS connections.
15452 The ^smtp^ transport has an option of the same name for controlling outgoing
15453 connections. This option is expanded for each connection, so can be varied for
15454 different clients if required. The value of this option must be a list of
15455 permitted cipher suites. The OpenSSL and GnuTLS libraries handle cipher control
15456 in somewhat different ways.
15458 If GnuTLS is being used, the client controls the preference order of the
15461 Details are given in sections <<SECTreqciphssl>> and <<SECTreqciphgnu>>.
15464 oindex:[%tls_try_verify_hosts%]
15466 %tls_try_verify_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
15469 cindex:[TLS,client certificate verification]
15470 cindex:[certificate,verification of client]
15471 See %tls_verify_hosts% below.
15474 oindex:[%tls_verify_certificates%]
15476 %tls_verify_certificates%, Use: 'main', Type: 'string'!!, Default: 'unset'
15479 cindex:[TLS,client certificate verification]
15480 cindex:[certificate,verification of client]
15481 The value of this option is expanded, and must then be the absolute path to
15482 a file containing permitted certificates for clients that
15483 match %tls_verify_hosts% or %tls_try_verify_hosts%. Alternatively, if you
15484 are using OpenSSL, you can set %tls_verify_certificates% to the name of a
15485 directory containing certificate files. This does not work with GnuTLS; the
15486 option must be set to the name of a single file if you are using GnuTLS.
15489 oindex:[%tls_verify_hosts%]
15491 %tls_verify_hosts%, Use: 'main', Type: 'host list'!!, Default: 'unset'
15494 cindex:[TLS,client certificate verification]
15495 cindex:[certificate,verification of client]
15496 This option, along with %tls_try_verify_hosts%, controls the checking of
15497 certificates from clients.
15498 The expected certificates are defined by %tls_verify_certificates%, which
15499 must be set. A configuration error occurs if either %tls_verify_hosts% or
15500 %tls_try_verify_hosts% is set and %tls_verify_certificates% is not set.
15502 Any client that matches %tls_verify_hosts% is constrained by
15503 %tls_verify_certificates%. The client must present one of the listed
15504 certificates. If it does not, the connection is aborted.
15506 A weaker form of checking is provided by %tls_try_verify_hosts%. If a client
15507 matches this option (but not %tls_verify_hosts%), Exim requests a
15508 certificate and checks it against %tls_verify_certificates%, but does not
15509 abort the connection if there is no certificate or if it does not match. This
15510 state can be detected in an ACL, which makes it possible to implement policies
15511 such as ``accept for relay only if a verified certificate has been received, but
15512 accept for local delivery if encrypted, even without a verified certificate''.
15514 Client hosts that match neither of these lists are not asked to present
15518 oindex:[%trusted_groups%]
15520 %trusted_groups%, Use: 'main', Type: 'string list'!!, Default: 'unset'
15523 [revisionflag="changed"]
15524 cindex:[trusted group]
15525 cindex:[group,trusted]
15526 This option is expanded just once, at the start of Exim's processing. If this
15527 option is set, any process that is running in one of the listed groups, or
15528 which has one of them as a supplementary group, is trusted. The groups can be
15529 specified numerically or by name. See section <<SECTtrustedadmin>> for details
15530 of what trusted callers are permitted to do. If neither %trusted_groups% nor
15531 %trusted_users% is set, only root and the Exim user are trusted.
15534 oindex:[%trusted_users%]
15536 %trusted_users%, Use: 'main', Type: 'string list'!!, Default: 'unset'
15539 [revisionflag="changed"]
15540 cindex:[trusted user]
15541 cindex:[user,trusted]
15542 This option is expanded just once, at the start of Exim's processing. If this
15543 option is set, any process that is running as one of the listed users is
15544 trusted. The users can be specified numerically or by name. See section
15545 <<SECTtrustedadmin>> for details of what trusted callers are permitted to do.
15546 If neither %trusted_groups% nor %trusted_users% is set, only root and the Exim
15549 oindex:[%unknown_login%]
15551 %unknown_login%, Use: 'main', Type: 'string'!!, Default: 'unset'
15554 cindex:[uid (user id),unknown caller]
15555 cindex:[$caller_uid$]
15556 This is a specialized feature for use in unusual configurations. By default, if
15557 the uid of the caller of Exim cannot be looked up using 'getpwuid()', Exim
15558 gives up. The %unknown_login% option can be used to set a login name to be
15559 used in this circumstance. It is expanded, so values like %user\$caller_uid%
15560 can be set. When %unknown_login% is used, the value of %unknown_username% is
15561 used for the user's real name (gecos field), unless this has been set by the
15565 oindex:[%unknown_username%]
15567 %unknown_username%, Use: 'main', Type: 'string', Default: 'unset'
15570 See %unknown_login%.
15573 oindex:[%untrusted_set_sender%]
15575 %untrusted_set_sender%, Use: 'main', Type: 'address list'!!, Default: 'unset'
15578 cindex:[trusted user]
15579 cindex:[sender,setting by untrusted user]
15580 cindex:[untrusted user, setting sender]
15581 cindex:[user,untrusted setting sender]
15582 cindex:[envelope sender]
15583 When an untrusted user submits a message to Exim using the standard input, Exim
15584 normally creates an envelope sender address from the user's login and the
15585 default qualification domain. Data from the %-f% option (for setting envelope
15586 senders on non-SMTP messages) or the SMTP MAIL command (if %-bs% or %-bS%
15587 is used) is ignored.
15589 However, untrusted users are permitted to set an empty envelope sender address,
15590 to declare that a message should never generate any bounces. For example:
15592 exim -f '<>' user@domain.example
15594 cindex:[$sender_ident$]
15595 The %untrusted_set_sender% option allows you to permit untrusted users to set
15596 other envelope sender addresses in a controlled way. When it is set, untrusted
15597 users are allowed to set envelope sender addresses that match any of the
15598 patterns in the list. Like all address lists, the string is expanded. The
15599 identity of the user is in $sender_ident$, so you can, for example, restrict
15600 users to setting senders that start with their login ids
15601 followed by a hyphen
15602 by a setting like this:
15604 untrusted_set_sender = ^$sender_ident-
15606 If you want to allow untrusted users to set envelope sender addresses without
15607 restriction, you can use
15609 untrusted_set_sender = *
15611 The %untrusted_set_sender% option applies to all forms of local input, but
15612 only to the setting of the envelope sender. It does not permit untrusted users
15613 to use the other options which trusted user can use to override message
15614 parameters. Furthermore, it does not stop Exim from removing an existing
15615 'Sender:' header in the message, or from adding a 'Sender:' header if
15616 necessary. See %local_sender_retain% and %local_from_check% for ways of
15617 overriding these actions. The handling of the 'Sender:' header is also
15618 described in section <<SECTthesenhea>>.
15620 The log line for a message's arrival shows the envelope sender following ``<=''.
15621 For local messages, the user's login always follows, after ``U=''. In %-bp%
15622 displays, and in the Exim monitor, if an untrusted user sets an envelope sender
15623 address, the user's login is shown in parentheses after the sender address.
15626 oindex:[%uucp_from_pattern%]
15628 %uucp_from_pattern%, Use: 'main', Type: 'string', Default: 'see below'
15631 cindex:[``From'' line]
15632 cindex:[UUCP,``From'' line]
15633 Some applications that pass messages to an MTA via a command line interface use
15634 an initial line starting with ``From'' to pass the envelope sender. In
15635 particular, this is used by UUCP software. Exim recognizes such a line by means
15636 of a regular expression that is set in %uucp_from_pattern%. When the pattern
15637 matches, the sender address is constructed by expanding the contents of
15638 %uucp_from_sender%, provided that the caller of Exim is a trusted user. The
15639 default pattern recognizes lines in the following two forms:
15641 From ph10 Fri Jan 5 12:35 GMT 1996
15642 From ph10 Fri, 7 Jan 97 14:00:00 GMT
15644 The pattern can be seen by running
15646 exim -bP uucp_from_pattern
15648 It checks only up to the hours and minutes, and allows for a 2-digit or 4-digit
15649 year in the second case. The first word after ``From'' is matched in the regular
15650 expression by a parenthesized subpattern. The default value for
15651 %uucp_from_sender% is ``$1'', which therefore just uses this first word
15652 (``ph10'' in the example above) as the message's sender. See also
15653 %ignore_fromline_hosts%.
15656 oindex:[%uucp_from_sender%]
15658 %uucp_from_sender%, Use: 'main', Type: 'string'!!, Default: `\$1`
15661 See %uucp_from_pattern% above.
15664 oindex:[%warn_message_file%]
15666 %warn_message_file%, Use: 'main', Type: 'string', Default: 'unset'
15669 cindex:[warning of delay,customizing the message]
15670 cindex:[customizing,warning message]
15671 This option defines a template file containing paragraphs of text to be used
15672 for constructing the warning message which is sent by Exim when a message has
15673 been on the queue for a specified amount of time, as specified by
15674 %delay_warning%. Details of the file's contents are given in chapter
15675 <<CHAPemsgcust>>. See also %bounce_message_file%.
15678 oindex:[%write_rejectlog%]
15680 %write_rejectlog%, Use: 'main', Type: 'boolean', Default: 'true'
15683 cindex:[reject log,disabling]
15684 If this option is set false, Exim no longer writes anything to the reject log.
15685 See chapter <<CHAPlog>> for details of what Exim writes to its logs.
15690 ////////////////////////////////////////////////////////////////////////////
15691 ////////////////////////////////////////////////////////////////////////////
15693 [[CHAProutergeneric]]
15694 Generic options for routers
15695 ---------------------------
15696 cindex:[options,generic; for routers]
15697 cindex:[generic options,router]
15698 This chapter describes the generic options that apply to all routers.
15699 Those that are preconditions are marked with !? in the ``use'' field.
15701 For a general description of how a router operates, see sections
15702 <<SECTrunindrou>> and <<SECTrouprecon>>. The latter specifies the order in
15703 which the preconditions are tested. The order of expansion of the options that
15704 provide data for a transport is: %errors_to%, %headers_add%, %headers_remove%,
15709 oindex:[%address_data%]
15711 %address_data%, Use: 'routers', Type: 'string'!!, Default: 'unset'
15714 [revisionflag="changed"]
15715 cindex:[router,data attached to address]
15716 The string is expanded just before the router is run, that is, after all the
15717 precondition tests have succeeded. If the expansion is forced to fail, the
15718 router declines, the value of %address_data% remains unchanged, and the %more%
15719 option controls what happens next. Other expansion failures cause delivery of
15720 the address to be deferred.
15722 cindex:[$address_data$]
15723 When the expansion succeeds, the value is retained with the address, and can be
15724 accessed using the variable $address_data$ in the current router, subsequent
15725 routers, and the eventual transport.
15727 *Warning*: if the current or any subsequent router is a ^redirect^ router
15728 that runs a user's filter file, the contents of $address_data$ are accessible
15729 in the filter. This is not normally a problem, because such data is usually
15730 either not confidential or it ``belongs'' to the current user, but if you do
15731 put confidential data into $address_data$ you need to remember this point.
15733 Even if the router declines or passes, the value of $address_data$ remains
15734 with the address, though it can be changed by another %address_data% setting
15735 on a subsequent router. If a router generates child addresses, the value of
15736 $address_data$ propagates to them. This also applies to the special kind of
15737 ``child'' that is generated by a router with the %unseen% option.
15739 The idea of %address_data% is that you can use it to look up a lot of data for
15740 the address once, and then pick out parts of the data later. For example, you
15741 could use a single LDAP lookup to return a string of the form
15743 uid=1234 gid=5678 mailbox=/mail/xyz forward=/home/xyz/.forward
15745 In the transport you could pick out the mailbox by a setting such as
15747 file = ${extract{mailbox}{$address_data}}
15749 This makes the configuration file less messy, and also reduces the number of
15750 lookups (though Exim does cache lookups).
15752 The %address_data% facility is also useful as a means of passing information
15753 from one router to another, and from a router to a transport. In addition, if
15755 cindex:[$sender_address_data$]
15756 cindex:[$address_data$]
15757 When $address_data$ is set by a router when verifying a recipient address from
15758 an ACL, it remains available for use in the rest of the ACL statement. After
15759 verifying a sender, the value is transferred to $sender_address_data$.
15764 oindex:[%address_test%]
15766 %address_test%, Use: 'routers'!?, Type: 'boolean', Default: 'true'
15769 cindex:[%-bt% option]
15770 cindex:[router,skipping when address testing]
15771 If this option is set false, the router is skipped when routing is being tested
15772 by means of the %-bt% command line option. This can be a convenience when your
15773 first router sends messages to an external scanner, because it saves you
15774 having to set the ``already scanned'' indicator when testing real address
15779 oindex:[%cannot_route_message%]
15781 %cannot_route_message%, Use: 'routers', Type: 'string'!!, Default: 'unset'
15784 cindex:[router,customizing ``cannot route'' message]
15785 cindex:[customizing,``cannot route'' message]
15786 This option specifies a text message that is used when an address cannot be
15787 routed because Exim has run out of routers. The default message is ``Unrouteable
15788 address''. This option is useful only on routers that have %more% set false, or
15789 on the very last router in a configuration, because the value that is used is
15790 taken from the last router that inspects an address. For example, using the
15791 default configuration, you could put:
15793 cannot_route_message = Remote domain not found in DNS
15795 on the first (^dnslookup^) router, and
15797 cannot_route_message = Unknown local user
15799 on the final router that checks for local users. If string expansion fails, the
15800 default message is used.
15801 Unless the expansion failure was explicitly forced, a message about the failure
15802 is written to the main and panic logs, in addition to the normal message about
15803 the routing failure.
15806 oindex:[%caseful_local_part%]
15808 %caseful_local_part%, Use: 'routers', Type: 'boolean', Default: 'false'
15811 cindex:[case of local parts]
15812 cindex:[router,case of local parts]
15813 By default, routers handle the local parts of addresses in a case-insensitive
15814 manner, though the actual case is preserved for transmission with the message.
15815 If you want the case of letters to be significant in a router, you must set
15816 this option true. For individual router options that contain address or local
15817 part lists (for example, %local_parts%), case-sensitive matching can be turned
15818 on by ``+caseful'' as a list item. See section <<SECTcasletadd>> for more details.
15820 cindex:[$local_part$]
15821 cindex:[$original_local_part$]
15822 cindex:[$parent_local_part$]
15823 The value of the $local_part$ variable is forced to lower case while a
15824 router is running unless %caseful_local_part% is set. When a router assigns
15825 an address to a transport, the value of $local_part$ when the transport runs
15826 is the same as it was in the router. Similarly, when a router generates child
15827 addresses by aliasing or forwarding, the values of $original_local_part$
15828 and $parent_local_part$ are those that were used by the redirecting router.
15830 This option applies to the processing of an address by a router. When a
15831 recipient address is being processed in an ACL, there is a separate %control%
15832 modifier that can be used to specify case-sensitive processing within the ACL
15833 (see section <<SECTcontrols>>).
15837 oindex:[%check_local_user%]
15839 %check_local_user%, Use: 'routers'!?, Type: 'boolean', Default: 'false'
15842 cindex:[local user, checking in router]
15843 cindex:[router,checking for local user]
15844 cindex:[_/etc/passwd_]
15846 When this option is true, Exim checks that the local part of the recipient
15847 address (with affixes removed if relevant) is the name of an account on the
15848 local system. The check is done by calling the 'getpwnam()' function rather
15849 than trying to read _/etc/passwd_ directly. This means that other methods of
15850 holding password data (such as NIS) are supported. If the local part is a local
15851 user, $home$ is set from the password data, and can be tested in other
15852 preconditions that are evaluated after this one (the order of evaluation is
15853 given in section <<SECTrouprecon>>). However, the value of $home$ can be
15854 overridden by %router_home_directory%. If the local part is not a local user,
15855 the router is skipped.
15857 If you want to check that the local part is either the name of a local user
15858 or matches something else, you cannot combine %check_local_user% with a
15859 setting of %local_parts%, because that specifies the logical 'and' of the
15860 two conditions. However, you can use a ^passwd^ lookup in a %local_parts%
15861 setting to achieve this. For example:
15863 local_parts = passwd;$local_part : lsearch;/etc/other/users
15865 Note, however, that the side effects of %check_local_user% (such as setting
15866 up a home directory) do not occur when a ^passwd^ lookup is used in a
15867 %local_parts% (or any other) precondition.
15871 oindex:[%condition%]
15873 %condition%, Use: 'routers'!?, Type: 'string'!!, Default: 'unset'
15876 cindex:[router,customized precondition]
15877 This option specifies a general precondition test that has to succeed for the
15878 router to be called. The %condition% option is the last precondition to be
15879 evaluated (see section <<SECTrouprecon>>). The string is expanded, and if the
15880 result is a forced failure, or an empty string, or one of the strings ``0'' or
15881 ``no'' or ``false'' (checked without regard to the case of the letters), the router
15882 is skipped, and the address is offered to the next one.
15884 If the result is any other value, the router is run (as this is the last
15885 precondition to be evaluated, all the other preconditions must be true).
15887 The %condition% option provides a means of applying custom conditions to the
15888 running of routers. Note that in the case of a simple conditional expansion,
15889 the default expansion values are exactly what is wanted. For example:
15891 condition = ${if >{$message_age}{600}}
15893 Because of the default behaviour of the string expansion, this is equivalent to
15895 condition = ${if >{$message_age}{600}{true}{}}
15898 If the expansion fails (other than forced failure) delivery is deferred. Some
15899 of the other precondition options are common special cases that could in fact
15900 be specified using %condition%.
15904 oindex:[%debug_print%]
15906 %debug_print%, Use: 'routers', Type: 'string'!!, Default: 'unset'
15909 cindex:[testing,variables in drivers]
15910 If this option is set and debugging is enabled (see the %-d% command line
15911 option), the string is expanded and included in the debugging output.
15912 If expansion of the string fails, the error message is written to the debugging
15913 output, and Exim carries on processing.
15914 This option is provided to help with checking out the values of variables and
15915 so on when debugging router configurations. For example, if a %condition%
15916 option appears not to be working, %debug_print% can be used to output the
15917 variables it references. The output happens after checks for %domains%,
15918 %local_parts%, and %check_local_user% but before any other preconditions are
15919 tested. A newline is added to the text if it does not end with one.
15923 oindex:[%disable_logging%]
15925 %disable_logging%, Use: 'routers', Type: 'boolean', Default: 'false'
15928 If this option is set true, nothing is logged for any routing errors
15929 or for any deliveries caused by this router. You should not set this option
15930 unless you really, really know what you are doing. See also the generic
15931 transport option of the same name.
15936 %domains%, Use: 'routers'!?, Type: 'domain list'!!, Default: 'unset'
15939 cindex:[router,restricting to specific domains]
15940 cindex:[$domain_data$]
15941 If this option is set, the router is skipped unless the current domain matches
15942 the list. If the match is achieved by means of a file lookup, the data that the
15943 lookup returned for the domain is placed in $domain_data$ for use in string
15944 expansions of the driver's private options. See section <<SECTrouprecon>> for a
15945 list of the order in which preconditions are evaluated.
15951 %driver%, Use: 'routers', Type: 'string', Default: 'unset'
15954 This option must always be set. It specifies which of the available routers is
15959 oindex:[%errors_to%]
15961 %errors_to%, Use: 'routers', Type: 'string'!!, Default: 'unset'
15964 cindex:[envelope sender]
15965 cindex:[router,changing address for errors]
15966 If a router successfully handles an address, it may queue the address for
15967 delivery or it may generate child addresses. In both cases, if there is a
15968 delivery problem during later processing, the resulting bounce message is sent
15969 to the address that results from expanding this string, provided that the
15970 address verifies successfully. %errors_to% is expanded before %headers_add%,
15971 %headers_remove%, and %transport%.
15973 If the option is unset, or the expansion is forced to fail, or the result of
15974 the expansion fails to verify, the errors address associated with the incoming
15975 address is used. At top level, this is the envelope sender. A non-forced
15976 expansion failure causes delivery to be deferred.
15978 If an address for which %errors_to% has been set ends up being delivered over
15979 SMTP, the envelope sender for that delivery is the %errors_to% value, so that
15980 any bounces that are generated by other MTAs on the delivery route are also
15981 sent there. The most common use of %errors_to% is probably to direct mailing
15982 list bounces to the manager of the list, as described in section
15983 <<SECTmailinglists>>.
15985 The %errors_to% setting associated with an address can be overridden if it
15986 subsequently passes through other routers that have their own %errors_to%
15988 or if it is delivered by a transport with a %return_path% setting.
15990 You can set %errors_to% to the empty string by either of these settings:
15995 An expansion item that yields an empty string has the same effect. If you do
15996 this, a locally detected delivery error for addresses processed by this router
15997 no longer gives rise to a bounce message; the error is discarded. If the
15998 address is delivered to a remote host, the return path is set to `<>`, unless
15999 overridden by the %return_path% option on the transport.
16001 cindex:[$address_data$]
16002 If for some reason you want to discard local errors, but use a non-empty
16003 MAIL command for remote delivery, you can preserve the original return
16004 path in $address_data$ in the router, and reinstate it in the transport by
16005 setting %return_path%.
16011 %expn%, Use: 'routers'!?, Type: 'boolean', Default: 'true'
16014 cindex:[address,testing]
16015 cindex:[testing,addresses]
16016 cindex:[EXPN,router skipping]
16017 cindex:[router,skipping for EXPN]
16018 If this option is turned off, the router is skipped when testing an address
16019 as a result of processing an SMTP EXPN command. You might, for example,
16020 want to turn it off on a router for users' _.forward_ files, while leaving it
16021 on for the system alias file.
16022 See section <<SECTrouprecon>> for a list of the order in which preconditions
16025 The use of the SMTP EXPN command is controlled by an ACL (see chapter
16026 <<CHAPACL>>). When Exim is running an EXPN command, it is similar to testing
16027 an address with %-bt%. Compare VRFY, whose counterpart is %-bv%.
16031 oindex:[%fail_verify%]
16033 %fail_verify%, Use: 'routers', Type: 'boolean', Default: 'false'
16036 cindex:[router,forcing verification failure]
16037 Setting this option has the effect of setting both %fail_verify_sender% and
16038 %fail_verify_recipient% to the same value.
16042 oindex:[%fail_verify_recipient%]
16044 %fail_verify_recipient%, Use: 'routers', Type: 'boolean', Default: 'false'
16047 If this option is true and an address is accepted by this router when
16048 verifying a recipient, verification fails.
16052 oindex:[%fail_verify_sender%]
16054 %fail_verify_sender%, Use: 'routers', Type: 'boolean', Default: 'false'
16057 If this option is true and an address is accepted by this router when
16058 verifying a sender, verification fails.
16062 oindex:[%fallback_hosts%]
16064 %fallback_hosts%, Use: 'routers', Type: 'string list', Default: 'unset'
16067 [revisionflag="changed"]
16068 cindex:[router,fallback hosts]
16069 cindex:[fallback,hosts specified on router]
16070 String expansion is not applied to this option. The argument must be a
16071 colon-separated list of host names or IP addresses. The list separator can be
16072 changed (see section <<SECTlistconstruct>>), and a port can be specified with
16073 each name or address. In fact, the format of each item is exactly the same as
16074 defined for the list of hosts in a ^manualroute^ router (see section
16075 <<SECTformatonehostitem>>).
16077 If a router queues an address for a remote transport, this host list is
16078 associated with the address, and used instead of the transport's fallback host
16079 list. If %hosts_randomize% is set on the transport, the order of the list is
16080 randomized for each use. See the %fallback_hosts% option of the ^smtp^
16081 transport for further details.
16086 %group%, Use: 'routers', Type: 'string'!!, Default: 'see below'
16089 cindex:[gid (group id),local delivery]
16090 cindex:[local transports,uid and gid]
16091 cindex:[transport,local]
16092 cindex:[router,setting group]
16093 When a router queues an address for a transport, and the transport does not
16094 specify a group, the group given here is used when running the delivery
16096 The group may be specified numerically or by name. If expansion fails, the
16097 error is logged and delivery is deferred.
16098 The default is unset, unless %check_local_user% is set, when the default
16099 is taken from the password information. See also %initgroups% and %user% and
16100 the discussion in chapter <<CHAPenvironment>>.
16104 oindex:[%headers_add%]
16106 %headers_add%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16109 [revisionflag="changed"]
16110 cindex:[header lines,adding]
16111 cindex:[router,adding header lines]
16112 This option specifies a string of text that is expanded at routing time, and
16113 associated with any addresses that are accepted by the router. However, this
16114 option has no effect when an address is just being verified. The way in which
16115 the text is used to add header lines at transport time is described in section
16116 <<SECTheadersaddrem>>. New header lines are not actually added until the
16117 message is in the process of being transported. This means that references to
16118 header lines in string expansions in the transport's configuration do not
16119 ``see'' the added header lines.
16121 The %headers_add% option is expanded after %errors_to%, but before
16122 %headers_remove% and %transport%. If the expanded string is empty, or if the
16123 expansion is forced to fail, the option has no effect. Other expansion failures
16124 are treated as configuration errors.
16126 *Warning 1*: The %headers_add% option cannot be used for a ^redirect^
16127 router that has the %one_time% option set.
16129 [revisionflag="changed"]
16130 *Warning 2*: If the %unseen% option is set on the router, all header additions
16131 are deleted when the address is passed on to subsequent routers.
16136 oindex:[%headers_remove%]
16138 %headers_remove%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16141 [revisionflag="changed"]
16142 cindex:[header lines,removing]
16143 cindex:[router,removing header lines]
16144 This option specifies a string of text that is expanded at routing time, and
16145 associated with any addresses that are accepted by the router. However, this
16146 option has no effect when an address is just being verified. The way in which
16147 the text is used to remove header lines at transport time is described in
16148 section <<SECTheadersaddrem>>. Header lines are not actually removed until the
16149 message is in the process of being transported. This means that references to
16150 header lines in string expansions in the transport's configuration still
16151 ``see'' the original header lines.
16153 The %headers_remove% option is expanded after %errors_to% and %headers_add%,
16154 but before %transport%. If the expansion is forced to fail, the option has no
16155 effect. Other expansion failures are treated as configuration errors.
16157 *Warning 1*: The %headers_remove% option cannot be used for a ^redirect^
16158 router that has the %one_time% option set.
16160 [revisionflag="changed"]
16161 *Warning 2*: If the %unseen% option is set on the router, all header removal
16162 requests are deleted when the address is passed on to subsequent routers.
16166 oindex:[%ignore_target_hosts%]
16168 %ignore_target_hosts%, Use: 'routers', Type: 'host list'!!, Default: 'unset'
16171 cindex:[IP address,discarding]
16172 cindex:[router,discarding IP addresses]
16173 Although this option is a host list, it should normally contain IP address
16174 entries rather than names. If any host that is looked up by the router has an
16175 IP address that matches an item in this list, Exim behaves as if that IP
16176 address did not exist. This option allows you to cope with rogue DNS entries
16179 remote.domain.example. A 127.0.0.1
16183 ignore_target_hosts = 127.0.0.1
16185 on the relevant router. If all the hosts found by a ^dnslookup^ router are
16186 discarded in this way, the router declines. In a conventional configuration, an
16187 attempt to mail to such a domain would normally provoke the ``unrouteable
16188 domain'' error, and an attempt to verify an address in the domain would fail.
16190 Similarly, if %ignore_target_hosts% is set on an ^ipliteral^ router, the
16191 router declines if presented with one of the listed addresses.
16193 This option may also be useful for ignoring link-local and site-local IPv6
16194 addresses. Because, like all host lists, the value of %ignore_target_hosts%
16195 is expanded before use as a list, it is possible to make it dependent on the
16196 domain that is being routed.
16198 cindex:[$host_address$]
16199 During its expansion, $host_address$ is set to the IP address that is being
16202 oindex:[%initgroups%]
16204 %initgroups%, Use: 'routers', Type: 'boolean', Default: 'false'
16207 cindex:[additional groups]
16208 cindex:[groups, additional]
16209 cindex:[local transports,uid and gid]
16210 cindex:[transport,local]
16211 If the router queues an address for a transport, and this option is true, and
16212 the uid supplied by the router is not overridden by the transport, the
16213 'initgroups()' function is called when running the transport to ensure that
16214 any additional groups associated with the uid are set up. See also %group% and
16215 %user% and the discussion in chapter <<CHAPenvironment>>.
16219 oindex:[%local_part_prefix%]
16221 %local_part_prefix%, Use: 'routers'!?, Type: 'string list', Default: 'unset'
16224 cindex:[router,prefix for local part]
16225 cindex:[prefix,for local part; used in router]
16226 If this option is set, the router is skipped unless the local part starts with
16227 one of the given strings, or %local_part_prefix_optional% is true. See section
16228 <<SECTrouprecon>> for a list of the order in which preconditions are evaluated.
16230 The list is scanned from left to right, and the first prefix that matches is
16231 used. A limited form of wildcard is available; if the prefix begins with an
16232 asterisk, it matches the longest possible sequence of arbitrary characters at
16233 the start of the local part. An asterisk should therefore always be followed by
16234 some character that does not occur in normal local parts.
16235 cindex:[multiple mailboxes]
16236 cindex:[mailbox,multiple]
16237 Wildcarding can be used to set up multiple user mailboxes, as described in
16238 section <<SECTmulbox>>.
16240 [revisionflag="changed"]
16241 cindex:[$local_part$]
16242 cindex:[$local_part_prefix$]
16243 During the testing of the %local_parts% option, and while the router is
16244 running, the prefix is removed from the local part, and is available in the
16245 expansion variable $local_part_prefix$. When a message is being delivered, if
16246 the router accepts the address, this remains true during subsequent delivery by
16247 a transport. In particular, the local part that is transmitted in the RCPT
16248 command for LMTP, SMTP, and BSMTP deliveries has the prefix removed by default.
16249 This behaviour can be overridden by setting %rcpt_include_affixes% true on the
16250 relevant transport.
16252 [revisionflag="changed"]
16253 When an address is being verified, %local_part_prefix% affects only the
16254 behaviour of the router. If the callout feature of verification is in use, this
16255 means that the full address, including the prefix, will be used during the
16258 The prefix facility is commonly used to handle local parts of the form
16259 %owner-something%. Another common use is to support local parts of the form
16260 %real-username% to bypass a user's _.forward_ file -- helpful when trying to
16261 tell a user their forwarding is broken -- by placing a router like this one
16262 immediately before the router that handles _.forward_ files:
16266 local_part_prefix = real-
16268 transport = local_delivery
16270 If both %local_part_prefix% and %local_part_suffix% are set for a router,
16271 both conditions must be met if not optional. Care must be taken if wildcards
16272 are used in both a prefix and a suffix on the same router. Different
16273 separator characters must be used to avoid ambiguity.
16276 oindex:[%local_part_prefix_optional%]
16278 %local_part_prefix_optional%, Use: 'routers', Type: 'boolean', Default: 'false'
16281 See %local_part_prefix% above.
16285 oindex:[%local_part_suffix%]
16287 %local_part_suffix%, Use: 'routers'!?, Type: 'string list', Default: 'unset'
16290 cindex:[router,suffix for local part]
16291 cindex:[suffix for local part, used in router]
16292 This option operates in the same way as %local_part_prefix%, except that the
16293 local part must end (rather than start) with the given string, the
16294 %local_part_suffix_optional% option determines whether the suffix is
16295 mandatory, and the wildcard \* character, if present, must be the last
16296 character of the suffix. This option facility is commonly used to handle local
16297 parts of the form %something-request% and multiple user mailboxes of the form
16301 oindex:[%local_part_suffix_optional%]
16303 %local_part_suffix_optional%, Use: 'routers', Type: 'boolean', Default: 'false'
16306 See %local_part_suffix% above.
16310 oindex:[%local_parts%]
16312 %local_parts%, Use: 'routers'!?, Type: 'local part list'!!, Default: 'unset'
16315 cindex:[router,restricting to specific local parts]
16316 cindex:[local part,checking in router]
16317 The router is run only if the local part of the address matches the list.
16318 See section <<SECTrouprecon>> for a list of the order in which preconditions
16320 section <<SECTlocparlis>> for a discussion of local part lists. Because the
16321 string is expanded, it is possible to make it depend on the domain, for
16324 local_parts = dbm;/usr/local/specials/$domain
16326 cindex:[$local_part_data$]
16327 If the match is achieved by a lookup, the data that the lookup returned
16328 for the local part is placed in the variable $local_part_data$ for use in
16329 expansions of the router's private options. You might use this option, for
16330 example, if you have a large number of local virtual domains, and you want to
16331 send all postmaster mail to the same place without having to set up an alias in
16332 each virtual domain:
16336 local_parts = postmaster
16337 data = postmaster@real.domain.example
16342 oindex:[%log_as_local%]
16344 %log_as_local%, Use: 'routers', Type: 'boolean', Default: 'see below'
16347 cindex:[log,delivery line]
16348 cindex:[delivery,log line format]
16349 Exim has two logging styles for delivery, the idea being to make local
16350 deliveries stand out more visibly from remote ones. In the ``local'' style, the
16351 recipient address is given just as the local part, without a domain. The use of
16352 this style is controlled by this option. It defaults to true for the ^accept^
16353 router, and false for all the others.
16359 %more%, Use: 'routers', Type: 'boolean'!!, Default: 'true'
16362 The result of string expansion for this option must be a valid boolean value,
16363 that is, one of the strings ``yes'', ``no'', ``true'', or ``false''. Any other
16364 result causes an error, and delivery is deferred. If the expansion is forced to
16365 fail, the default value for the option (true) is used. Other failures cause
16366 delivery to be deferred.
16368 If this option is set false, and the router declines to handle the address, no
16369 further routers are tried, routing fails, and the address is bounced.
16370 cindex:[%self% option] However, if the router explicitly passes an address to
16371 the following router by means of the setting
16375 or otherwise, the setting of %more% is ignored. Also, the setting of %more%
16376 does not affect the behaviour if one of the precondition tests fails. In that
16377 case, the address is always passed to the next router.
16379 [revisionflag="changed"]
16380 Note that %address_data% is not considered to be a precondition. If its
16381 expansion is forced to fail, the router declines, and the value of %more%
16382 controls what happens next.
16386 oindex:[%pass_on_timeout%]
16388 %pass_on_timeout%, Use: 'routers', Type: 'boolean', Default: 'false'
16391 cindex:[timeout,of router]
16392 cindex:[router,timeout]
16393 If a router times out during a host lookup, it normally causes deferral of the
16394 address. If %pass_on_timeout% is set, the address is passed on to the next
16395 router, overriding %no_more%. This may be helpful for systems that are
16396 intermittently connected to the Internet, or those that want to pass to a smart
16397 host any messages that cannot immediately be delivered.
16399 There are occasional other temporary errors that can occur while doing DNS
16400 lookups. They are treated in the same way as a timeout, and this option
16401 applies to all of them.
16405 oindex:[%pass_router%]
16407 %pass_router%, Use: 'routers', Type: 'string', Default: 'unset'
16410 cindex:[router,go to after ``pass'']
16411 When a router returns ``pass'', the address is normally handed on to the next
16412 router in sequence. This can be changed by setting %pass_router% to the name
16413 of another router. However (unlike %redirect_router%) the named router must be
16414 below the current router, to avoid loops. Note that this option applies only to
16415 the special case of ``pass''. It does not apply when a router returns ``decline''.
16419 oindex:[%redirect_router%]
16421 %redirect_router%, Use: 'routers', Type: 'string', Default: 'unset'
16424 cindex:[router,start at after redirection]
16425 Sometimes an administrator knows that it is pointless to reprocess addresses
16426 generated from alias or forward files with the same router again. For
16427 example, if an alias file translates real names into login ids there is no
16428 point searching the alias file a second time, especially if it is a large file.
16430 The %redirect_router% option can be set to the name of any router instance. It
16431 causes the routing of any generated addresses to start at the named router
16432 instead of at the first router. This option has no effect if the router in
16433 which it is set does not generate new addresses.
16437 oindex:[%require_files%]
16439 %require_files%, Use: 'routers'!?, Type: 'string list'!!, Default: 'unset'
16442 cindex:[file,requiring for router]
16443 cindex:[router,requiring file existence]
16444 This option provides a general mechanism for predicating the running of a
16445 router on the existence or non-existence of certain files or directories.
16446 Before running a router, as one of its precondition tests, Exim works its way
16447 through the %require_files% list, expanding each item separately.
16449 Because the list is split before expansion, any colons in expansion items must
16450 be doubled, or the facility for using a different list separator must be used.
16451 If any expansion is forced to fail, the item is ignored. Other expansion
16452 failures cause routing of the address to be deferred.
16454 If any expanded string is empty, it is ignored. Otherwise, except as described
16455 below, each string must be a fully qualified file path, optionally preceded by
16456 ``!''. The paths are passed to the 'stat()' function to test for the existence
16457 of the files or directories. The router is skipped if any paths not preceded by
16458 ``!'' do not exist, or if any paths preceded by ``!'' do exist.
16461 If 'stat()' cannot determine whether a file exists or not, delivery of
16462 the message is deferred. This can happen when NFS-mounted filesystems are
16465 This option is checked after the %domains%, %local_parts%, and %senders%
16466 options, so you cannot use it to check for the existence of a file in which to
16467 look up a domain, local part, or sender. (See section <<SECTrouprecon>> for a
16468 full list of the order in which preconditions are evaluated.) However, as
16469 these options are all expanded, you can use the %exists% expansion condition to
16470 make such tests. The %require_files% option is intended for checking files
16471 that the router may be going to use internally, or which are needed by a
16472 transport (for example _.procmailrc_).
16474 During delivery, the 'stat()' function is run as root, but there is a
16475 facility for some checking of the accessibility of a file by another user.
16476 This is not a proper permissions check, but just a ``rough'' check that
16477 operates as follows:
16479 If an item in a %require_files% list does not contain any forward slash
16480 characters, it is taken to be the user (and optional group, separated by a
16481 comma) to be checked for subsequent files in the list. If no group is specified
16482 but the user is specified symbolically, the gid associated with the uid is
16485 require_files = mail:/some/file
16486 require_files = $local_part:$home/.procmailrc
16488 If a user or group name in a %require_files% list does not exist, the
16489 %require_files% condition fails.
16491 Exim performs the check by scanning along the components of the file path, and
16492 checking the access for the given uid and gid. It checks for ``x'' access on
16493 directories, and ``r'' access on the final file. Note that this means that file
16494 access control lists, if the operating system has them, are ignored.
16496 *Warning 1*: When the router is being run to verify addresses for an
16497 incoming SMTP message, Exim is not running as root, but under its own uid. This
16498 may affect the result of a %require_files% check. In particular, 'stat()'
16499 may yield the error EACCES (``Permission denied''). This means that the Exim
16500 user is not permitted to read one of the directories on the file's path.
16502 *Warning 2*: Even when Exim is running as root while delivering a message,
16503 'stat()' can yield EACCES for a file in an NFS directory that is mounted
16504 without root access.
16506 In this case, if a check for access by a particular user is requested, Exim
16507 creates a subprocess that runs as that user, and tries the check again in that
16510 The default action for handling an unresolved EACCES is to consider it to
16511 be caused by a configuration error,
16513 and routing is deferred because the existence or non-existence of the file
16514 cannot be determined. However, in some circumstances it may be desirable to
16515 treat this condition as if the file did not exist. If the file name (or the
16516 exclamation mark that precedes the file name for non-existence) is preceded by
16517 a plus sign, the EACCES error is treated as if the file did not exist. For
16520 require_files = +/some/file
16522 If the router is not an essential part of verification (for example, it
16523 handles users' _.forward_ files), another solution is to set the %verify%
16524 option false so that the router is skipped when verifying.
16528 oindex:[%retry_use_local_part%]
16530 %retry_use_local_part%, Use: 'routers', Type: 'boolean', Default: 'see below'
16533 cindex:[hints database,retry keys]
16534 cindex:[local part,in retry keys]
16535 When a delivery suffers a temporary routing failure, a retry record is created
16536 in Exim's hints database. For addresses whose routing depends only on the
16537 domain, the key for the retry record should not involve the local part, but for
16538 other addresses, both the domain and the local part should be included.
16539 Usually, remote routing is of the former kind, and local routing is of the
16542 This option controls whether the local part is used to form the key for retry
16543 hints for addresses that suffer temporary errors while being handled by this
16544 router. The default value is true for any router that has %check_local_user%
16545 set, and false otherwise. Note that this option does not apply to hints keys
16546 for transport delays; they are controlled by a generic transport option of the
16549 The setting of %retry_use_local_part% applies only to the router on which it
16550 appears. If the router generates child addresses, they are routed
16551 independently; this setting does not become attached to them.
16555 oindex:[%router_home_directory%]
16557 %router_home_directory%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16560 cindex:[router,home directory for]
16561 cindex:[home directory,for router]
16563 This option sets a home directory for use while the router is running. (Compare
16564 %transport_home_directory%, which sets a home directory for later
16565 transporting.) In particular, if used on a ^redirect^ router, this option
16566 sets a value for $home$ while a filter is running. The value is expanded;
16567 forced expansion failure causes the option to be ignored -- other failures
16568 cause the router to defer.
16570 Expansion of %router_home_directory% happens immediately after the
16571 %check_local_user% test (if configured), before any further expansions take
16573 (See section <<SECTrouprecon>> for a list of the order in which preconditions
16575 While the router is running, %router_home_directory% overrides the value of
16576 $home$ that came from %check_local_user%.
16578 When a router accepts an address and routes it to a transport (including the
16579 cases when a redirect router generates a pipe, file, or autoreply delivery),
16580 the home directory setting for the transport is taken from the first of these
16581 values that is set:
16583 - The %home_directory% option on the transport;
16585 - The %transport_home_directory% option on the router;
16587 - The password data if %check_local_user% is set on the router;
16589 - The %router_home_directory% option on the router.
16591 In other words, %router_home_directory% overrides the password data for the
16592 router, but not for the transport.
16598 %self%, Use: 'routers', Type: 'string', Default: 'freeze'
16601 cindex:[MX record,pointing to local host]
16602 cindex:[local host,MX pointing to]
16603 This option applies to those routers that use a recipient address to find a
16604 list of remote hosts. Currently, these are the ^dnslookup^, ^ipliteral^,
16605 and ^manualroute^ routers.
16606 Certain configurations of the ^queryprogram^ router can also specify a list
16608 Usually such routers are configured to send the message to a remote host via an
16609 ^smtp^ transport. The %self% option specifies what happens when the first
16610 host on the list turns out to be the local host.
16611 The way in which Exim checks for the local host is described in section
16612 <<SECTreclocipadd>>.
16614 Normally this situation indicates either an error in Exim's configuration (for
16615 example, the router should be configured not to process this domain), or an
16616 error in the DNS (for example, the MX should not point to this host). For this
16617 reason, the default action is to log the incident, defer the address, and
16618 freeze the message. The following alternatives are provided for use in special
16622 Delivery of the message is tried again later, but the message is not frozen.
16624 %reroute%: <'domain'>::
16625 The domain is changed to the given domain, and the address is passed back to
16626 be reprocessed by the routers. No rewriting of headers takes place. This
16627 behaviour is essentially a redirection.
16629 %reroute: rewrite:% <'domain'>::
16630 The domain is changed to the given domain, and the address is passed back to be
16631 reprocessed by the routers. Any headers that contain the original domain are
16635 The router passes the address to the next router, or to the router named in the
16636 %pass_router% option if it is set.
16637 cindex:[%more% option]
16638 This overrides %no_more%.
16640 cindex:[$self_hostname$]
16641 During subsequent routing and delivery, the variable $self_hostname$ contains
16642 the name of the local host that the router encountered. This can be used to
16643 distinguish between different cases for hosts with multiple names. The
16649 ensures that only those addresses that routed to the local host are passed on.
16650 Without %no_more%, addresses that were declined for other reasons would also
16651 be passed to the next router.
16654 Delivery fails and an error report is generated.
16657 cindex:[local host,sending to]
16658 The anomaly is ignored and the address is queued for the transport. This
16659 setting should be used with extreme caution. For an ^smtp^ transport, it makes
16660 sense only in cases where the program that is listening on the SMTP port is not
16661 this version of Exim. That is, it must be some other MTA, or Exim with a
16662 different configuration file that handles the domain in another way.
16668 %senders%, Use: 'routers'!?, Type: 'address list'!!, Default: 'unset'
16671 cindex:[router,checking senders]
16672 If this option is set, the router is skipped unless the message's sender
16673 address matches something on the list.
16674 See section <<SECTrouprecon>> for a list of the order in which preconditions
16677 There are issues concerning verification when the running of routers is
16678 dependent on the sender. When Exim is verifying the address in an %errors_to%
16679 setting, it sets the sender to the null string. When using the %-bt% option to
16680 check a configuration file, it is necessary also to use the %-f% option to set
16681 an appropriate sender. For incoming mail, the sender is unset when verifying
16682 the sender, but is available when verifying any recipients. If the SMTP
16683 VRFY command is enabled, it must be used after MAIL if the sender
16687 oindex:[%translate_ip_address%]
16689 %translate_ip_address%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16692 cindex:[IP address,translating]
16693 cindex:[packet radio]
16694 cindex:[router,IP address translation]
16695 There exist some rare networking situations (for example, packet radio) where
16696 it is helpful to be able to translate IP addresses generated by normal routing
16697 mechanisms into other IP addresses, thus performing a kind of manual IP
16698 routing. This should be done only if the normal IP routing of the TCP/IP stack
16699 is inadequate or broken. Because this is an extremely uncommon requirement, the
16700 code to support this option is not included in the Exim binary unless
16701 SUPPORT_TRANSLATE_IP_ADDRESS=yes is set in _Local/Makefile_.
16703 cindex:[$host_address$]
16704 The %translate_ip_address% string is expanded for every IP address generated
16705 by the router, with the generated address set in $host_address$. If the
16706 expansion is forced to fail, no action is taken.
16707 For any other expansion error, delivery of the message is deferred.
16708 If the result of the expansion is an IP address, that replaces the original
16709 address; otherwise the result is assumed to be a host name -- this is looked up
16710 using 'gethostbyname()' (or 'getipnodebyname()' when available) to produce
16711 one or more replacement IP addresses. For example, to subvert all IP addresses
16712 in some specific networks, this could be added to a router:
16715 translate_ip_address = \
16716 ${lookup{${mask:$host_address/26}}lsearch{/some/file}{$value}fail}}
16719 The file would contain lines like
16721 10.2.3.128/26 some.host
16722 10.8.4.34/26 10.44.8.15
16724 You should not make use of this facility unless you really understand what you
16729 oindex:[%transport%]
16731 %transport%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16734 This option specifies the transport to be used when a router accepts an address
16735 and sets it up for delivery. A transport is never needed if a router is used
16736 only for verification. The value of the option is expanded at routing time,
16737 after the expansion of %errors_to%, %headers_add%, and %headers_remove%, and
16738 result must be the name of one of the configured transports. If it is not,
16739 delivery is deferred.
16741 The %transport% option is not used by the ^redirect^ router, but it does have
16742 some private options that set up transports for pipe and file deliveries (see
16743 chapter <<CHAPredirect>>).
16747 oindex:[%transport_current_directory%]
16749 %transport_current_directory%, Use: 'routers', Type: 'string'!!, Default: 'unset'
16752 cindex:[current directory for local transport]
16753 This option associates a current directory with any address that is routed
16754 to a local transport. This can happen either because a transport is
16755 explicitly configured for the router, or because it generates a delivery to a
16756 file or a pipe. During the delivery process (that is, at transport time), this
16757 option string is expanded and is set as the current directory, unless
16758 overridden by a setting on the transport.
16759 If the expansion fails for any reason, including forced failure, an error is
16760 logged, and delivery is deferred.
16761 See chapter <<CHAPenvironment>> for details of the local delivery environment.
16766 oindex:[%transport_home_directory%]
16768 %transport_home_directory%, Use: 'routers', Type: 'string'!!, Default: 'see below'
16771 cindex:[home directory,for local transport]
16772 This option associates a home directory with any address that is routed to a
16773 local transport. This can happen either because a transport is explicitly
16774 configured for the router, or because it generates a delivery to a file or a
16775 pipe. During the delivery process (that is, at transport time), the option
16776 string is expanded and is set as the home directory, unless overridden by a
16777 setting of %home_directory% on the transport.
16778 If the expansion fails for any reason, including forced failure, an error is
16779 logged, and delivery is deferred.
16781 If the transport does not specify a home directory, and
16782 %transport_home_directory% is not set for the router, the home directory for
16783 the tranport is taken from the password data if %check_local_user% is set for
16784 the router. Otherwise it is taken from %router_home_directory% if that option
16785 is set; if not, no home directory is set for the transport.
16787 See chapter <<CHAPenvironment>> for further details of the local delivery
16795 %unseen%, Use: 'routers', Type: 'boolean'!!, Default: 'false'
16798 cindex:[router,carrying on after success]
16799 The result of string expansion for this option must be a valid boolean value,
16800 that is, one of the strings ``yes'', ``no'', ``true'', or ``false''. Any other
16801 result causes an error, and delivery is deferred. If the expansion is forced to
16802 fail, the default value for the option (false) is used. Other failures cause
16803 delivery to be deferred.
16805 When this option is set true, routing does not cease if the router accepts the
16806 address. Instead, a copy of the incoming address is passed to the next router,
16807 overriding a false setting of %more%. There is little point in setting %more%
16808 false if %unseen% is always true, but it may be useful in cases when the value
16809 of %unseen% contains expansion items (and therefore, presumably, is sometimes
16810 true and sometimes false).
16812 [revisionflag="changed"]
16813 cindex:[copy of message (%unseen% option)]
16814 The %unseen% option can be used to cause copies of messages to be delivered to
16815 some other destination, while also carrying out a normal delivery. In effect,
16816 the current address is made into a ``parent'' that has two children -- one that
16817 is delivered as specified by this router, and a clone that goes on to be routed
16818 further. For this reason, %unseen% may not be combined with the %one_time%
16819 option in a ^redirect^ router.
16821 *Warning*: Header lines added to the address (or specified for removal) by this
16822 router or by previous routers affect the ``unseen'' copy of the message only.
16823 The clone that continues to be processed by further routers starts with no
16824 added headers and none specified for removal. However, any data that was set by
16825 the %address_data% option in the current or previous routers is passed on.
16826 Setting the %unseen% option has a similar effect to the %unseen% command
16827 qualifier in filter files.
16833 %user%, Use: 'routers', Type: 'string'!!, Default: 'see below'
16836 cindex:[uid (user id),local delivery]
16837 cindex:[local transports,uid and gid]
16838 cindex:[transport,local]
16839 cindex:[router,user for filter processing]
16840 cindex:[filter,user for processing]
16841 When a router queues an address for a transport, and the transport does not
16842 specify a user, the user given here is used when running the delivery process.
16843 The user may be specified numerically or by name. If expansion fails, the
16844 error is logged and delivery is deferred.
16845 This user is also used by the ^redirect^ router when running a filter file.
16846 The default is unset, except when %check_local_user% is set. In this case,
16847 the default is taken from the password information. If the user is specified as
16848 a name, and %group% is not set, the group associated with the user is used. See
16849 also %initgroups% and %group% and the discussion in chapter <<CHAPenvironment>>.
16855 %verify%, Use: 'routers'!?, Type: 'boolean', Default: 'true'
16858 Setting this option has the effect of setting %verify_sender% and
16859 %verify_recipient% to the same value.
16862 oindex:[%verify_only%]
16864 %verify_only%, Use: 'routers'!?, Type: 'boolean', Default: 'false'
16867 cindex:[EXPN,with %verify_only%]
16868 cindex:[%-bv% option]
16869 cindex:[router,used only when verifying]
16870 If this option is set, the router is used only when verifying an address or
16871 testing with the %-bv% option, not when actually doing a delivery, testing
16872 with the %-bt% option, or running the SMTP EXPN command. It can be further
16873 restricted to verifying only senders or recipients by means of %verify_sender%
16874 and %verify_recipient%.
16876 *Warning*: When the router is being run to verify addresses for an incoming
16877 SMTP message, Exim is not running as root, but under its own uid. If the router
16878 accesses any files, you need to make sure that they are accessible to the Exim
16882 oindex:[%verify_recipient%]
16884 %verify_recipient%, Use: 'routers'!?, Type: 'boolean', Default: 'true'
16887 If this option is false, the router is skipped when verifying recipient
16889 or testing recipient verification using %-bv%.
16890 See section <<SECTrouprecon>> for a list of the order in which preconditions
16894 oindex:[%verify_sender%]
16896 %verify_sender%, Use: 'routers'!?, Type: 'boolean', Default: 'true'
16899 If this option is false, the router is skipped when verifying sender addresses
16900 or testing sender verification using %-bvs%.
16901 See section <<SECTrouprecon>> for a list of the order in which preconditions
16909 ////////////////////////////////////////////////////////////////////////////
16910 ////////////////////////////////////////////////////////////////////////////
16914 cindex:[^accept^ router]
16915 cindex:[routers,^accept^]
16916 The ^accept^ router has no private options of its own. Unless it is being used
16917 purely for verification (see %verify_only%) a transport is required to be
16918 defined by the generic %transport% option. If the preconditions that are
16919 specified by generic options are met, the router accepts the address and queues
16920 it for the given transport. The most common use of this router is for setting
16921 up deliveries to local mailboxes. For example:
16925 domains = mydomain.example
16927 transport = local_delivery
16929 The %domains% condition in this example checks the domain of the address, and
16930 %check_local_user% checks that the local part is the login of a local user.
16931 When both preconditions are met, the ^accept^ router runs, and queues the
16932 address for the ^local_delivery^ transport.
16939 ////////////////////////////////////////////////////////////////////////////
16940 ////////////////////////////////////////////////////////////////////////////
16943 The dnslookup router
16944 --------------------
16945 cindex:[^dnslookup^ router]
16946 cindex:[routers,^dnslookup^]
16947 The ^dnslookup^ router looks up the hosts that handle mail for the
16948 recipient's domain in the DNS. A transport must always be set for this router,
16949 unless %verify_only% is set.
16951 If SRV support is configured (see %check_srv% below), Exim first searches for
16952 SRV records. If none are found, or if SRV support is not configured,
16953 MX records are looked up. If no MX records exist, address records are sought.
16954 However, %mx_domains% can be set to disable the direct use of address records.
16956 MX records of equal priority are sorted by Exim into a random order. Exim then
16957 looks for address records for the host names obtained from MX or SRV records.
16958 When a host has more than one IP address, they are sorted into a random order,
16959 except that IPv6 addresses are always sorted before IPv4 addresses. If all the
16960 IP addresses found are discarded by a setting of the %ignore_target_hosts%
16961 generic option, the router declines.
16963 Unless they have the highest priority (lowest MX value), MX records that point
16964 to the local host, or to any host name that matches %hosts_treat_as_local%,
16965 are discarded, together with any other MX records of equal or lower priority.
16967 cindex:[MX record,pointing to local host]
16968 cindex:[local host,MX pointing to]
16969 cindex:[%self% option,in ^dnslookup^ router]
16970 If the host pointed to by the highest priority MX record, or looked up as an
16971 address record, is the local host, or matches %hosts_treat_as_local%, what
16972 happens is controlled by the generic %self% option.
16975 [[SECTprowitdnsloo]]
16976 Problems with DNS lookups
16977 ~~~~~~~~~~~~~~~~~~~~~~~~~
16978 There have been problems with DNS servers when SRV records are looked up.
16979 Some mis-behaving servers return a DNS error or timeout when a non-existent
16980 SRV record is sought. Similar problems have in the past been reported for
16981 MX records. The global %dns_again_means_nonexist% option can help with this
16982 problem, but it is heavy-handed because it is a global option.
16984 For this reason, there are two options, %srv_fail_domains% and
16985 %mx_fail_domains%, that control what happens when a DNS lookup in a
16986 ^dnslookup^ router results in a DNS failure or a ``try again'' response. If an
16987 attempt to look up an SRV or MX record causes one of these results, and the
16988 domain matches the relevant list, Exim behaves as if the DNS had responded ``no
16989 such record''. In the case of an SRV lookup, this means that the router proceeds
16990 to look for MX records; in the case of an MX lookup, it proceeds to look for A
16991 or AAAA records, unless the domain matches %mx_domains%, in which case routing
16997 Private options for dnslookup
16998 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
16999 cindex:[options,^dnslookup^ router]
17000 The private options for the ^dnslookup^ router are as follows:
17002 oindex:[%check_secondary_mx%]
17004 %check_secondary_mx%, Use: 'dnslookup', Type: 'boolean', Default: 'false'
17007 cindex:[MX record,checking for secondary]
17008 If this option is set, the router declines unless the local host is found in
17009 (and removed from) the list of hosts obtained by MX lookup. This can be used to
17010 process domains for which the local host is a secondary mail exchanger
17011 differently to other domains. The way in which Exim decides whether a host is
17012 the local host is described in section <<SECTreclocipadd>>.
17015 oindex:[%check_srv%]
17017 %check_srv%, Use: 'dnslookup', Type: 'string'!!, Default: 'unset'
17020 cindex:[SRV record,enabling use of]
17021 The ^dnslookup^ router supports the use of SRV records (see RFC 2782) in
17022 addition to MX and address records. The support is disabled by default. To
17023 enable SRV support, set the %check_srv% option to the name of the service
17024 required. For example,
17028 looks for SRV records that refer to the normal smtp service. The option is
17029 expanded, so the service name can vary from message to message or address
17030 to address. This might be helpful if SRV records are being used for a
17031 submission service. If the expansion is forced to fail, the %check_srv%
17032 option is ignored, and the router proceeds to look for MX records in the
17035 When the expansion succeeds, the router searches first for SRV records for
17036 the given service (it assumes TCP protocol). A single SRV record with a
17037 host name that consists of just a single dot indicates ``no such service for
17038 this domain''; if this is encountered, the router declines. If other kinds of
17039 SRV record are found, they are used to construct a host list for delivery
17040 according to the rules of RFC 2782. MX records are not sought in this case.
17042 When no SRV records are found, MX records (and address records) are sought in
17043 the traditional way. In other words, SRV records take precedence over MX
17044 records, just as MX records take precedence over address records. Note that
17045 this behaviour is not sanctioned by RFC 2782, though a previous draft RFC
17046 defined it. It is apparently believed that MX records are sufficient for email
17047 and that SRV records should not be used for this purpose. However, SRV records
17048 have an additional ``weight'' feature which some people might find useful when
17049 trying to split an SMTP load between hosts of different power.
17051 See section <<SECTprowitdnsloo>> above for a discussion of Exim's behaviour when
17052 there is a DNS lookup error.
17056 oindex:[%mx_domains%]
17058 %mx_domains%, Use: 'dnslookup', Type: 'domain list'!!, Default: 'unset'
17061 cindex:[MX record,required to exist]
17062 cindex:[SRV record,required to exist]
17063 A domain that matches %mx_domains% is required to have either an MX or an SRV
17064 record in order to be recognised. (The name of this option could be improved.)
17065 For example, if all the mail hosts in 'fict.example' are known to have MX
17066 records, except for those in 'discworld.fict.example', you could use this
17069 mx_domains = ! *.discworld.fict.example : *.fict.example
17071 This specifies that messages addressed to a domain that matches the list but
17072 has no MX record should be bounced immediately instead of being routed using
17073 the address record.
17076 oindex:[%mx_fail_domains%]
17078 %mx_fail_domains%, Use: 'dnslookup', Type: 'domain list'!!, Default: 'unset'
17081 If the DNS lookup for MX records for one of the domains in this list causes a
17082 DNS lookup error, Exim behaves as if no MX records were found. See section
17083 <<SECTprowitdnsloo>> for more discussion.
17088 oindex:[%qualify_single%]
17090 %qualify_single%, Use: 'dnslookup', Type: 'boolean', Default: 'true'
17093 cindex:[DNS,resolver options]
17094 cindex:[DNS,qualifying single-component names]
17095 When this option is true, the resolver option RES_DEFNAMES is set for DNS
17096 lookups. Typically, but not standardly, this causes the resolver to qualify
17097 single-component names with the default domain. For example, on a machine
17098 called 'dictionary.ref.example', the domain 'thesaurus' would be changed to
17099 'thesaurus.ref.example' inside the resolver. For details of what your resolver
17100 actually does, consult your man pages for 'resolver' and 'resolv.conf'.
17104 oindex:[%rewrite_headers%]
17106 %rewrite_headers%, Use: 'dnslookup', Type: 'boolean', Default: 'true'
17109 cindex:[rewriting,header lines]
17110 cindex:[header lines,rewriting]
17111 If the domain name in the address that is being processed is not fully
17112 qualified, it may be expanded to its full form by a DNS lookup. For example, if
17113 an address is specified as 'dormouse@teaparty', the domain might be
17114 expanded to 'teaparty.wonderland.fict.example'. Domain expansion can also
17115 occur as a result of setting the %widen_domains% option. If %rewrite_headers%
17116 is true, all occurrences of the abbreviated domain name in any 'Bcc:', 'Cc:',
17117 'From:', 'Reply-to:', 'Sender:', and 'To:' header lines of the message are
17118 rewritten with the full domain name.
17120 This option should be turned off only when it is known that no message is
17121 ever going to be sent outside an environment where the abbreviation makes
17124 When an MX record is looked up in the DNS and matches a wildcard record, name
17125 servers normally return a record containing the name that has been looked up,
17126 making it impossible to detect whether a wildcard was present or not. However,
17127 some name servers have recently been seen to return the wildcard entry. If the
17128 name returned by a DNS lookup begins with an asterisk, it is not used for
17132 oindex:[%same_domain_copy_routing%]
17134 %same_domain_copy_routing%, Use: 'dnslookup', Type: 'boolean', Default: 'false'
17137 cindex:[address,copying routing]
17138 Addresses with the same domain are normally routed by the ^dnslookup^ router
17139 to the same list of hosts. However, this cannot be presumed, because the router
17140 options and preconditions may refer to the local part of the address. By
17141 default, therefore, Exim routes each address in a message independently. DNS
17142 servers run caches, so repeated DNS lookups are not normally expensive, and in
17143 any case, personal messages rarely have more than a few recipients.
17145 If you are running mailing lists with large numbers of subscribers at the same
17146 domain, and you are using a ^dnslookup^ router which is independent of the
17147 local part, you can set %same_domain_copy_routing% to bypass repeated DNS
17148 lookups for identical domains in one message. In this case, when ^dnslookup^
17149 routes an address to a remote transport, any other unrouted addresses in the
17150 message that have the same domain are automatically given the same routing
17151 without processing them independently,
17152 provided the following conditions are met:
17154 - No router that processed the address specified %headers_add% or
17157 - The router did not change the address in any way, for example, by ``widening''
17163 oindex:[%search_parents%]
17165 %search_parents%, Use: 'dnslookup', Type: 'boolean', Default: 'false'
17168 cindex:[DNS,resolver options]
17169 When this option is true, the resolver option RES_DNSRCH is set for DNS
17170 lookups. This is different from the %qualify_single% option in that it applies
17171 to domains containing dots. Typically, but not standardly, it causes the
17172 resolver to search for the name in the current domain and in parent domains.
17173 For example, on a machine in the 'fict.example' domain, if looking up
17174 'teaparty.wonderland' failed, the resolver would try
17175 'teaparty.wonderland.fict.example'. For details of what your resolver
17176 actually does, consult your man pages for 'resolver' and 'resolv.conf'.
17178 Setting this option true can cause problems in domains that have a wildcard MX
17179 record, because any domain that does not have its own MX record matches the
17184 oindex:[%srv_fail_domains%]
17186 %srv_fail_domains%, Use: 'dnslookup', Type: 'domain list'!!, Default: 'unset'
17189 If the DNS lookup for SRV records for one of the domains in this list causes a
17190 DNS lookup error, Exim behaves as if no SRV records were found. See section
17191 <<SECTprowitdnsloo>> for more discussion.
17196 oindex:[%widen_domains%]
17198 %widen_domains%, Use: 'dnslookup', Type: 'string list', Default: 'unset'
17201 cindex:[domain,partial; widening]
17202 If a DNS lookup fails and this option is set, each of its strings in turn is
17203 added onto the end of the domain, and the lookup is tried again. For example,
17206 widen_domains = fict.example:ref.example
17208 is set and a lookup of 'klingon.dictionary' fails,
17209 'klingon.dictionary.fict.example' is looked up, and if this fails,
17210 'klingon.dictionary.ref.example' is tried. Note that the %qualify_single%
17211 and %search_parents% options can cause some widening to be undertaken inside
17214 [revisionflag="changed"]
17215 %widen_domains% is not applied to sender addresses when verifying, unless
17216 %rewrite_headers% is false (not the default).
17220 Effect of qualify_single and search_parents
17221 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
17222 When a domain from an envelope recipient is changed by the resolver as a result
17223 of the %qualify_single% or %search_parents% options, Exim rewrites the
17224 corresponding address in the message's header lines unless %rewrite_headers%
17225 is set false. Exim then re-routes the address, using the full domain.
17227 These two options affect only the DNS lookup that takes place inside the router
17228 for the domain of the address that is being routed. They do not affect lookups
17229 such as that implied by
17233 that may happen while processing a router precondition before the router is
17234 entered. No widening ever takes place for these lookups.
17244 ////////////////////////////////////////////////////////////////////////////
17245 ////////////////////////////////////////////////////////////////////////////
17247 The ipliteral router
17248 --------------------
17249 cindex:[^ipliteral^ router]
17250 cindex:[domain literal,routing]
17251 cindex:[routers,^ipliteral^]
17252 This router has no private options. Unless it is being used purely for
17253 verification (see %verify_only%) a transport is required to be defined by the
17254 generic %transport% option. The router accepts the address if its domain part
17255 takes the form of an RFC 2822 domain literal, that is, an IP address enclosed
17256 in square brackets. For example, this router handles the address
17260 by setting up delivery to the host with that IP address.
17262 cindex:[%self% option,in ^ipliteral^ router]
17263 If the IP address matches something in %ignore_target_hosts%, the router
17264 declines. If an IP literal turns out to refer to the local host, the generic
17265 %self% option determines what happens.
17267 The RFCs require support for domain literals; however, their use is
17268 controversial in today's Internet. If you want to use this router, you must
17269 also set the main configuration option %allow_domain_literals%. Otherwise,
17270 Exim will not recognize the domain literal syntax in addresses.
17274 ////////////////////////////////////////////////////////////////////////////
17275 ////////////////////////////////////////////////////////////////////////////
17277 The iplookup router
17278 -------------------
17279 cindex:[^iplookup^ router]
17280 cindex:[routers,^iplookup^]
17281 The ^iplookup^ router was written to fulfil a specific requirement in
17282 Cambridge University (which in fact no longer exists). For this reason, it is
17283 not included in the binary of Exim by default. If you want to include it, you
17286 ROUTER_IPLOOKUP=yes
17288 in your _Local/Makefile_ configuration file.
17290 The ^iplookup^ router routes an address by sending it over a TCP or UDP
17291 connection to one or more specific hosts. The host can then return the same or
17292 a different address -- in effect rewriting the recipient address in the
17293 message's envelope. The new address is then passed on to subsequent routers. If
17294 this process fails, the address can be passed on to other routers, or delivery
17297 Background, for those that are interested: We have an Oracle database of all
17298 Cambridge users, and one of the items of data it maintains for each user is
17299 where to send mail addressed to 'user@cam.ac.uk'. The MX records for
17300 'cam.ac.uk' point to a central machine that has a large alias list that is
17301 abstracted from the database. Mail from outside is switched by this system, and
17302 originally internal mail was also done this way. However, this resulted in a
17303 fair number of messages travelling from some of our larger systems to the
17304 switch and back again. The Oracle machine now runs a UDP service that can be
17305 called by the ^iplookup^ router in Exim to find out where 'user@cam.ac.uk'
17306 addresses really have to go; this saves passing through the central switch, and
17307 in many cases saves doing any remote delivery at all.
17309 Since ^iplookup^ is just a rewriting router, a transport must not be
17311 cindex:[options,^iplookup^ router]
17316 %hosts%, Use: 'iplookup', Type: 'string', Default: 'unset'
17319 This option must be supplied. Its value is a colon-separated list of host
17320 names. The hosts are looked up using 'gethostbyname()'
17321 (or 'getipnodebyname()' when available)
17322 and are tried in order until one responds to the query. If none respond, what
17323 happens is controlled by %optional%.
17326 oindex:[%optional%]
17328 %optional%, Use: 'iplookup', Type: 'boolean', Default: 'false'
17331 If %optional% is true, if no response is obtained from any host, the address is
17332 passed to the next router, overriding %no_more%. If %optional% is false,
17333 delivery to the address is deferred.
17338 %port%, Use: 'iplookup', Type: 'integer', Default: '0'
17341 cindex:[port,^iplookup^ router]
17342 This option must be supplied. It specifies the port number for the TCP or UDP
17346 oindex:[%protocol%]
17348 %protocol%, Use: 'iplookup', Type: 'string', Default: 'udp'
17351 This option can be set to ``udp'' or ``tcp'' to specify which of the two protocols
17357 %query%, Use: 'iplookup', Type: 'string'!!, Default: `\$local_part@\$domain \$local_part@\$domain`
17360 This defines the content of the query that is sent to the remote hosts. The
17361 repetition serves as a way of checking that a response is to the correct query
17362 in the default case (see %response_pattern% below).
17367 %reroute%, Use: 'iplookup', Type: 'string'!!, Default: 'unset'
17370 If this option is not set, the rerouted address is precisely the byte string
17371 returned by the remote host, up to the first white space, if any. If set, the
17372 string is expanded to form the rerouted address. It can include parts matched
17373 in the response by %response_pattern% by means of numeric variables such as
17374 $1$, $2$, etc. The variable $0$ refers to the entire input string,
17375 whether or not a pattern is in use. In all cases, the rerouted address must end
17376 up in the form 'local_part@domain'.
17379 oindex:[%response_pattern%]
17381 %response_pattern%, Use: 'iplookup', Type: 'string', Default: 'unset'
17384 This option can be set to a regular expression that is applied to the string
17385 returned from the remote host. If the pattern does not match the response, the
17386 router declines. If %response_pattern% is not set, no checking of the response
17387 is done, unless the query was defaulted, in which case there is a check that
17388 the text returned after the first white space is the original address. This
17389 checks that the answer that has been received is in response to the correct
17390 question. For example, if the response is just a new domain, the following
17393 response_pattern = ^([^@]+)$
17394 reroute = $local_part@$1
17400 %timeout%, Use: 'iplookup', Type: 'time', Default: '5s'
17403 This specifies the amount of time to wait for a response from the remote
17404 machine. The same timeout is used for the 'connect()' function for a TCP
17405 call. It does not apply to UDP.
17410 ////////////////////////////////////////////////////////////////////////////
17411 ////////////////////////////////////////////////////////////////////////////
17413 The manualroute router
17414 ----------------------
17415 cindex:[^manualroute^ router]
17416 cindex:[routers,^manualroute^]
17417 cindex:[domain,manually routing]
17418 The ^manualroute^ router is so-called because it provides a way of manually
17419 routing an address according to its domain. It is mainly used when you want to
17420 route addresses to remote hosts according to your own rules, bypassing the
17421 normal DNS routing that looks up MX records. However, ^manualroute^ can also
17422 route to local transports, a facility that may be useful if you want to save
17423 messages for dial-in hosts in local files.
17425 The ^manualroute^ router compares a list of domain patterns with the domain it
17426 is trying to route. If there is no match, the router declines. Each pattern has
17427 associated with it a list of hosts and some other optional data, which may
17428 include a transport. The combination of a pattern and its data is called a
17429 ``routing rule''. For patterns that do not have an associated transport, the
17430 generic %transport% option must specify a transport, unless the router is being
17431 used purely for verification (see %verify_only%).
17434 In the case of verification, matching the domain pattern is sufficient for the
17435 router to accept the address. When actually routing an address for delivery,
17436 an address that matches a domain pattern is queued for the associated
17437 transport. If the transport is not a local one, a host list must be associated
17438 with the pattern; IP addresses are looked up for the hosts, and these are
17439 passed to the transport along with the mail address. For local transports, a
17440 host list is optional. If it is present, it is passed in $host$ as a single
17443 The list of routing rules can be provided as an inline string in %route_list%,
17444 or the data can be obtained by looking up the domain in a file or database by
17445 setting %route_data%. Only one of these settings may appear in any one
17446 instance of ^manualroute^. The format of routing rules is described below,
17447 following the list of private options.
17451 Private options for manualroute
17452 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
17454 cindex:[options,^manualroute^ router]
17455 The private options for the ^manualroute^ router are as follows:
17458 oindex:[%host_find_failed%]
17460 %host_find_failed%, Use: 'manualroute', Type: 'string', Default: 'freeze'
17463 This option controls what happens when ^manualroute^ tries to find an IP
17464 address for a host, and the host does not exist. The option can be set to one
17473 The default assumes that this state is a serious configuration error. The
17474 difference between ``pass'' and ``decline'' is that the former forces the address
17475 to be passed to the next router (or the router defined by %pass_router%),
17476 cindex:[%more% option]
17477 overriding %no_more%, whereas the latter passes the address to the next router
17478 only if %more% is true.
17480 This option applies only to a definite ``does not exist'' state; if a host lookup
17481 gets a temporary error, delivery is deferred unless the generic
17482 %pass_on_timeout% option is set.
17485 oindex:[%hosts_randomize%]
17487 %hosts_randomize%, Use: 'manualroute', Type: 'boolean', Default: 'false'
17490 cindex:[randomized host list]
17491 cindex:[host,list of; randomized]
17492 If this option is set, the order of the items in a host list in a routing rule
17493 is randomized each time the list is used, unless an option in the routing rule
17494 overrides (see below). Randomizing the order of a host list can be used to do
17495 crude load sharing. However, if more than one mail address is routed by the
17496 same router to the same host list, the host lists are considered to be the same
17497 (even though they may be randomized into different orders) for the purpose of
17498 deciding whether to batch the deliveries into a single SMTP transaction.
17500 When %hosts_randomize% is true, a host list may be split
17501 into groups whose order is separately randomized. This makes it possible to
17502 set up MX-like behaviour. The boundaries between groups are indicated by an
17503 item that is just `+` in the host list. For example:
17505 route_list = * host1:host2:host3:+:host4:host5
17507 The order of the first three hosts and the order of the last two hosts is
17508 randomized for each use, but the first three always end up before the last two.
17509 If %hosts_randomize% is not set, a `+` item in the list is ignored. If a
17510 randomized host list is passed to an ^smtp^ transport that also has
17511 %hosts_randomize set%, the list is not re-randomized.
17514 oindex:[%route_data%]
17516 %route_data%, Use: 'manualroute', Type: 'string'!!, Default: 'unset'
17519 If this option is set, it must expand to yield the data part of a routing rule.
17520 Typically, the expansion string includes a lookup based on the domain. For
17523 route_data = ${lookup{$domain}dbm{/etc/routes}}
17525 If the expansion is forced to fail, or the result is an empty string, the
17526 router declines. Other kinds of expansion failure cause delivery to be
17530 oindex:[%route_list%]
17532 %route_list%, Use: 'manualroute', "Type: 'string list, semicolon-separated'", Default: 'unset'
17535 This string is a list of routing rules, in the form defined below. Note that,
17536 unlike most string lists, the items are separated by semicolons. This is so
17537 that they may contain colon-separated host lists.
17540 oindex:[%same_domain_copy_routing%]
17542 %same_domain_copy_routing%, Use: 'manualroute', Type: 'boolean', Default: 'false'
17545 cindex:[address,copying routing]
17546 Addresses with the same domain are normally routed by the ^manualroute^ router
17547 to the same list of hosts. However, this cannot be presumed, because the router
17548 options and preconditions may refer to the local part of the address. By
17549 default, therefore, Exim routes each address in a message independently. DNS
17550 servers run caches, so repeated DNS lookups are not normally expensive, and in
17551 any case, personal messages rarely have more than a few recipients.
17553 If you are running mailing lists with large numbers of subscribers at the same
17554 domain, and you are using a ^manualroute^ router which is independent of the
17555 local part, you can set %same_domain_copy_routing% to bypass repeated DNS
17556 lookups for identical domains in one message. In this case, when ^manualroute^
17557 routes an address to a remote transport, any other unrouted addresses in the
17558 message that have the same domain are automatically given the same routing
17559 without processing them independently. However, this is only done if
17560 %headers_add% and %headers_remove% are unset.
17565 Routing rules in route_list
17566 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
17567 The value of %route_list% is a string consisting of a sequence of routing
17568 rules, separated by semicolons. If a semicolon is needed in a rule, it can be
17569 entered as two semicolons. Alternatively, the list separator can be changed as
17570 described (for colon-separated lists) in section <<SECTlistconstruct>>.
17571 Empty rules are ignored. The format of each rule is
17573 <domain pattern> <list of hosts> <options>
17575 The following example contains two rules, each with a simple domain pattern and
17580 dict.ref.example mail-1.ref.example:mail-2.ref.example ; \
17581 thes.ref.example mail-3.ref.example:mail-4.ref.example
17584 The three parts of a rule are separated by white space. The pattern and the
17585 list of hosts can be enclosed in quotes if necessary, and if they are, the
17586 usual quoting rules apply. Each rule in a %route_list% must start with a
17587 single domain pattern, which is the only mandatory item in the rule. The
17588 pattern is in the same format as one item in a domain list (see section
17589 <<SECTdomainlist>>),
17590 except that it may not be the name of an interpolated file.
17591 That is, it may be wildcarded, or a regular expression, or a file or database
17592 lookup (with semicolons doubled, because of the use of semicolon as a separator
17593 in a %route_list%).
17595 The rules in %route_list% are searched in order until one of the patterns
17596 matches the domain that is being routed. The list of hosts and then options are
17597 then used as described below. If there is no match, the router declines. When
17598 %route_list% is set, %route_data% must not be set.
17602 Routing rules in route_data
17603 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
17604 The use of %route_list% is convenient when there are only a small number of
17605 routing rules. For larger numbers, it is easier to use a file or database to
17606 hold the routing information, and use the %route_data% option instead.
17607 The value of %route_data% is a list of hosts, followed by (optional) options.
17608 Most commonly, %route_data% is set as a string that contains an
17609 expansion lookup. For example, suppose we place two routing rules in a file
17612 dict.ref.example: mail-1.ref.example:mail-2.ref.example
17613 thes.ref.example: mail-3.ref.example:mail-4.ref.example
17615 This data can be accessed by setting
17617 route_data = ${lookup{$domain}lsearch{/the/file/name}}
17619 Failure of the lookup results in an empty string, causing the router to
17620 decline. However, you do not have to use a lookup in %route_data%. The only
17621 requirement is that the result of expanding the string is a list of hosts,
17622 possibly followed by options, separated by white space. The list of hosts must
17623 be enclosed in quotes if it contains white space.
17628 Format of the list of hosts
17629 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
17630 [revisionflag="changed"]
17631 A list of hosts, whether obtained via %route_data% or %route_list%, is always
17632 separately expanded before use. If the expansion fails, the router declines.
17633 The result of the expansion must be a colon-separated list of names and/or
17634 IP addresses, optionally also including ports. The format of each item in the
17635 list is described in the next section. The list separator can be changed as
17636 described in section <<SECTlistconstruct>>.
17638 If the list of hosts was obtained from a %route_list% item, the following
17639 variables are set during its expansion:
17641 - cindex:[numerical variables ($1$ $2$ etc),in ^manualroute^ router]
17642 If the domain was matched against a regular expression, the numeric variables
17643 $1$, $2$, etc. may be set. For example:
17646 route_list = ^domain(\d+) host-$1.text.example
17649 - $0$ is always set to the entire domain.
17651 - $1$ is also set when partial matching is done in a file lookup.
17654 If the pattern that matched the domain was a lookup item, the data that was
17655 looked up is available in the expansion variable $value$. For example:
17658 route_list = lsearch;;/some/file.routes $value
17661 Note the doubling of the semicolon in the pattern that is necessary because
17662 semicolon is the default route list separator.
17666 [[SECTformatonehostitem]]
17667 Format of one host item
17668 ~~~~~~~~~~~~~~~~~~~~~~~
17669 [revisionflag="changed"]
17670 Each item in the list of hosts is either a host name or an IP address,
17671 optionally with an attached port number. When no port is given, an IP address
17672 is not enclosed in brackets. When a port is specified, it overrides the port
17673 specification on the transport. The port is separated from the name or address
17674 by a colon. This leads to some complications:
17676 [revisionflag="changed"]
17677 - Because colon is the default separator for the list of hosts, either
17678 the colon that specifies a port must be doubled, or the list separator must
17679 be changed. The following two examples have the same effect:
17681 route_list = * "host1.tld::1225 : host2.tld::1226"
17682 route_list = * "<+ host1.tld:1225 + host2.tld:1226"
17684 [revisionflag="changed"]
17685 - When IPv6 addresses are involved, it gets worse, because they contain
17686 colons of their own. To make this case easier, it is permitted to
17687 enclose an IP address (either v4 or v6) in square brackets if a port
17688 number follows. For example:
17690 route_list = * "</ [10.1.1.1]:1225 / [::1]:1226"
17694 [[SECThostshowused]]
17695 How the list of hosts is used
17696 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
17697 When an address is routed to an ^smtp^ transport by ^manualroute^, each of
17698 the hosts is tried, in the order specified, when carrying out the SMTP
17699 delivery. However, the order can be changed by setting the %hosts_randomize%
17700 option, either on the router (see section <<SECTprioptman>> above), or on the
17703 Hosts may be listed by name or by IP address. An unadorned name in the list of
17704 hosts is interpreted as a host name. A name that is followed by `/MX` is
17705 interpreted as an indirection to a sublist of hosts obtained by looking up MX
17706 records in the DNS. For example:
17708 route_list = * x.y.z:p.q.r/MX:e.f.g
17710 [revisionflag="changed"]
17711 If this feature is used with a port specifier, the port must come last. For
17714 route_list = * dom1.tld/mx::1225
17716 If the %hosts_randomize% option is set, the order of the items in the list is
17717 randomized before any lookups are done. Exim then scans the list; for any name
17718 that is not followed by `/MX` it looks up an IP address. If this turns out to
17719 be an interface on the local host and the item is not the first in the list,
17720 Exim discards it and any subsequent items. If it is the first item, what
17721 happens is controlled by the
17722 cindex:[%self% option,in ^manualroute^ router]
17723 %self% option of the router.
17725 A name on the list that is followed by `/MX` is replaced with the list of
17726 hosts obtained by looking up MX records for the name. This is always a DNS
17727 lookup; the %bydns% and %byname% options (see section <<SECThowoptused>> below)
17728 are not relevant here. The order of these hosts is determined by the preference
17729 values in the MX records, according to the usual rules. Because randomizing
17730 happens before the MX lookup, it does not affect the order that is defined by
17733 If the local host is present in the sublist obtained from MX records, but is
17734 not the most preferred host in that list, it and any equally or less
17735 preferred hosts are removed before the sublist is inserted into the main list.
17737 If the local host is the most preferred host in the MX list, what happens
17738 depends on where in the original list of hosts the `/MX` item appears. If it
17739 is not the first item (that is, there are previous hosts in the main list),
17740 Exim discards this name and any subsequent items in the main list.
17742 If the MX item is first in the list of hosts, and the local host is the
17743 most preferred host, what happens is controlled by the %self% option of the
17746 DNS failures when lookup up the MX records are treated in the same way as DNS
17747 failures when looking up IP addresses: %pass_on_timeout% and
17748 %host_find_failed% are used when relevant.
17750 The generic %ignore_target_hosts% option applies to all hosts in the list,
17751 whether obtained from an MX lookup or not.
17756 How the options are used
17757 ~~~~~~~~~~~~~~~~~~~~~~~~
17758 The options are a sequence of words; in practice no more than three are ever
17759 present. One of the words can be the name of a transport; this overrides the
17760 %transport% option on the router for this particular routing rule only. The
17761 other words (if present) control randomization of the list of hosts on a
17762 per-rule basis, and how the IP addresses of the hosts are to be found when
17763 routing to a remote transport. These options are as follows:
17765 - %randomize%: randomize the order of the hosts in this list, overriding the
17766 setting of %hosts_randomize% for this routing rule only.
17768 - %no_randomize%: do not randomize the order of the hosts in this list,
17769 overriding the setting of %hosts_randomize% for this routing rule only.
17771 - %byname%: use 'getipnodebyname()' ('gethostbyname()' on older systems) to
17772 find IP addresses. This function may ultimately cause a DNS lookup, but it may
17773 also look in _/etc/hosts_ or other sources of information.
17775 - %bydns%: look up address records for the hosts directly in the DNS; fail if
17776 no address records are found. If there is a temporary DNS error (such as a
17777 timeout), delivery is deferred.
17782 route_list = domain1 host1:host2:host3 randomize bydns;\
17783 domain2 host4:host5
17786 If neither %byname% nor %bydns% is given, Exim behaves as follows: First, a DNS
17787 lookup is done. If this yields anything other than HOST_NOT_FOUND, that
17788 result is used. Otherwise, Exim goes on to try a call to 'getipnodebyname()'
17789 or 'gethostbyname()', and the result of the lookup is the result of that
17792 *Warning*: It has been discovered that on some systems, if a DNS lookup
17793 called via 'getipnodebyname()' times out, HOST_NOT_FOUND is returned
17794 instead of TRY_AGAIN. That is why the default action is to try a DNS
17795 lookup first. Only if that gives a definite ``no such host'' is the local
17800 If no IP address for a host can be found, what happens is controlled by the
17801 %host_find_failed% option.
17804 When an address is routed to a local transport, IP addresses are not looked up.
17805 The host list is passed to the transport in the $host$ variable.
17809 Manualroute examples
17810 ~~~~~~~~~~~~~~~~~~~~
17811 In some of the examples that follow, the presence of the %remote_smtp%
17812 transport, as defined in the default configuration file, is assumed:
17814 - cindex:[smart host,example router]
17815 The ^manualroute^ router can be used to forward all external mail to a
17816 'smart host'. If you have set up, in the main part of the configuration, a
17817 named domain list that contains your local domains, for example,
17819 domainlist local_domains = my.domain.example
17821 you can arrange for all other domains to be routed to a smart host by making
17822 your first router something like this:
17825 driver = manualroute
17826 domains = !+local_domains
17827 transport = remote_smtp
17828 route_list = * smarthost.ref.example
17830 This causes all non-local addresses to be sent to the single host
17831 'smarthost.ref.example'. If a colon-separated list of smart hosts is given,
17832 they are tried in order
17833 (but you can use %hosts_randomize% to vary the order each time).
17834 Another way of configuring the same thing is this:
17837 driver = manualroute
17838 transport = remote_smtp
17839 route_list = !+local_domains smarthost.ref.example
17841 There is no difference in behaviour between these two routers as they stand.
17842 However, they behave differently if %no_more% is added to them. In the first
17843 example, the router is skipped if the domain does not match the %domains%
17844 precondition; the following router is always tried. If the router runs, it
17845 always matches the domain and so can never decline. Therefore, %no_more% would
17846 have no effect. In the second case, the router is never skipped; it always
17847 runs. However, if it doesn't match the domain, it declines. In this case
17848 %no_more% would prevent subsequent routers from running.
17850 - cindex:[mail hub example]
17851 A 'mail hub' is a host which receives mail for a number of domains via MX
17852 records in the DNS and delivers it via its own private routing mechanism. Often
17853 the final destinations are behind a firewall, with the mail hub being the one
17854 machine that can connect to machines both inside and outside the firewall. The
17855 ^manualroute^ router is usually used on a mail hub to route incoming messages
17856 to the correct hosts. For a small number of domains, the routing can be inline,
17857 using the %route_list% option, but for a larger number a file or database
17858 lookup is easier to manage.
17860 If the domain names are in fact the names of the machines to which the mail is
17861 to be sent by the mail hub, the configuration can be quite simple. For
17865 driver = manualroute
17866 transport = remote_smtp
17867 route_list = *.rhodes.tvs.example $domain
17869 This configuration routes domains that match `*.rhodes.tvs.example` to hosts
17870 whose names are the same as the mail domains. A similar approach can be taken
17871 if the host name can be obtained from the domain name by a string manipulation
17872 that the expansion facilities can handle. Otherwise, a lookup based on the
17873 domain can be used to find the host:
17876 driver = manualroute
17877 transport = remote_smtp
17878 route_data = ${lookup {$domain} cdb {/internal/host/routes}}
17880 The result of the lookup must be the name or IP address of the host (or
17881 hosts) to which the address is to be routed. If the lookup fails, the route
17882 data is empty, causing the router to decline. The address then passes to the
17885 - cindex:[batched SMTP output example]
17886 cindex:[SMTP,batched outgoing; example]
17887 You can use ^manualroute^ to deliver messages to pipes or files in batched
17888 SMTP format for onward transportation by some other means. This is one way of
17889 storing mail for a dial-up host when it is not connected. The route list entry
17890 can be as simple as a single domain name in a configuration like this:
17893 driver = manualroute
17894 transport = batchsmtp_appendfile
17895 route_list = saved.domain.example
17897 though often a pattern is used to pick up more than one domain. If there are
17898 several domains or groups of domains with different transport requirements,
17899 different transports can be listed in the routing information:
17903 driver = manualroute
17905 *.saved.domain1.example $domain batch_appendfile; \
17906 *.saved.domain2.example \
17907 ${lookup{$domain}dbm{/domain2/hosts}{$value}fail} \
17913 The first of these just passes the domain in the $host$ variable, which
17914 doesn't achieve much (since it is also in $domain$), but the second does a
17915 file lookup to find a value to pass, causing the router to decline to handle
17916 the address if the lookup fails.
17918 - cindex:[UUCP,example of router for]
17919 Routing mail directly to UUCP software is a specific case of the use of
17920 ^manualroute^ in a gateway to another mail environment. This is an example of
17921 one way it can be done:
17928 command = /usr/local/bin/uux -r - \
17929 ${substr_-5:$host}!rmail ${local_part}
17930 return_fail_output = true
17935 driver = manualroute
17937 ${lookup{$domain}lsearch{/usr/local/exim/uucphosts}}
17940 The file _/usr/local/exim/uucphosts_ contains entries like
17942 darksite.ethereal.example: darksite.UUCP
17944 It can be set up more simply without adding and removing ``.UUCP'' but this way
17945 makes clear the distinction between the domain name
17946 'darksite.ethereal.example' and the UUCP host name 'darksite'.
17955 ////////////////////////////////////////////////////////////////////////////
17956 ////////////////////////////////////////////////////////////////////////////
17959 The queryprogram router
17960 -----------------------
17961 cindex:[^queryprogram^ router]
17962 cindex:[routers,^queryprogram^]
17963 cindex:[routing,by external program]
17964 The ^queryprogram^ router routes an address by running an external command and
17965 acting on its output. This is an expensive way to route, and is intended mainly
17966 for use in lightly-loaded systems, or for performing experiments. However, if
17967 it is possible to use the precondition options (%domains%, %local_parts%,
17968 etc) to skip this router for most addresses, it could sensibly be used in
17969 special cases, even on a busy host. There are the following private options:
17970 cindex:[options,^queryprogram^ router]
17974 %command%, Use: 'queryprogram', Type: 'string'!!, Default: 'unset'
17977 This option must be set. It specifies the command that is to be run. The
17978 command is split up into a command name and arguments, and then each is
17979 expanded separately (exactly as for a ^pipe^ transport, described in chapter
17980 <<CHAPpipetransport>>).
17983 oindex:[%command_group%]
17985 %command_group%, Use: 'queryprogram', Type: 'string', Default: 'unset'
17988 cindex:[gid (group id),in ^queryprogram^ router]
17989 This option specifies a gid to be set when running the command. It must be set
17990 if %command_user% specifies a numerical uid. If it begins with a digit, it is
17991 interpreted as the numerical value of the gid. Otherwise it is looked up using
17995 oindex:[%command_user%]
17997 %command_user%, Use: 'queryprogram', Type: 'string', Default: 'unset'
18000 cindex:[uid (user id),for ^queryprogram^]
18001 This option must be set. It specifies the uid which is set when running the
18002 command. If it begins with a digit it is interpreted as the numerical value of
18003 the uid. Otherwise, it is looked up using 'getpwnam()' to obtain a value for
18004 the uid and, if %command_group% is not set, a value for the gid also.
18007 oindex:[%current_directory%]
18009 %current_directory%, Use: 'queryprogram', Type: 'string', Default: '/'
18012 This option specifies an absolute path which is made the current directory
18013 before running the command.
18018 %timeout%, Use: 'queryprogram', Type: 'time', Default: '1h'
18021 If the command does not complete within the timeout period, its process group
18022 is killed and the message is frozen. A value of zero time specifies no
18026 The standard output of the command is connected to a pipe, which is read when
18027 the command terminates. It should consist of a single line of output,
18028 containing up to five fields, separated by white space. The maximum length of
18029 the line is 1023 characters. Longer lines are silently truncated. The first
18030 field is one of the following words (case-insensitive):
18032 - 'Accept': routing succeeded; the remaining fields specify what to do (see
18035 - 'Decline': the router declines; pass the address to the next router, unless
18038 - 'Fail': routing failed; do not pass the address to any more routers. Any
18039 subsequent text on the line is an error message. If the router is run as part
18040 of address verification during an incoming SMTP message, the message is
18041 included in the SMTP response.
18043 - 'Defer': routing could not be completed at this time; try again later. Any
18044 subsequent text on the line is an error message which is logged. It is not
18045 included in any SMTP response.
18047 - 'Freeze': the same as 'defer', except that the message is frozen.
18049 - 'Pass': pass the address to the next router (or the router specified by
18050 %pass_router%), overriding %no_more%.
18052 - 'Redirect': the message is redirected. The remainder of the line is a list of
18053 new addresses, which are routed independently, starting with the first router,
18054 or the router specified by %redirect_router%, if set.
18056 When the first word is 'accept', the remainder of the line consists of a
18057 number of keyed data values, as follows (split into two lines here, to fit on
18060 ACCEPT TRANSPORT=<transport> HOSTS=<list of hosts>
18061 LOOKUP=byname|bydns DATA=<text>
18063 The data items can be given in any order, and all are optional. If no transport
18064 is included, the transport specified by the generic %transport% option is used.
18065 The list of hosts and the lookup type are needed only if the transport is an
18066 ^smtp^ transport that does not itself supply a list of hosts.
18068 The format of the list of hosts is the same as for the ^manualroute^ router.
18069 As well as host names and IP addresses with optional port numbers, as described
18070 in section <<SECTformatonehostitem>>, it may contain names followed by `/MX` to
18071 specify sublists of hosts that are obtained by looking up MX records (see
18072 section <<SECThostshowused>>).
18074 If the lookup type is not specified, Exim behaves as follows when trying to
18075 find an IP address for each host: First, a DNS lookup is done. If this yields
18076 anything other than HOST_NOT_FOUND, that result is used. Otherwise, Exim
18077 goes on to try a call to 'getipnodebyname()' or 'gethostbyname()', and the
18078 result of the lookup is the result of that call.
18080 cindex:[$address_data$]
18081 If the DATA field is set, its value is placed in the $address_data$
18082 variable. For example, this return line
18084 accept hosts=x1.y.example:x2.y.example data="rule1"
18086 routes the address to the default transport, passing a list of two hosts. When
18087 the transport runs, the string ``rule1'' is in $address_data$.
18092 ////////////////////////////////////////////////////////////////////////////
18093 ////////////////////////////////////////////////////////////////////////////
18096 The redirect router
18097 -------------------
18098 cindex:[^redirect^ router]
18099 cindex:[routers,^redirect^]
18100 cindex:[alias file,in a ^redirect^ router]
18101 cindex:[address redirection,^redirect^ router]
18102 The ^redirect^ router handles several kinds of address redirection. Its most
18103 common uses are for resolving local part aliases from a central alias file
18104 (usually called _/etc/aliases_) and for handling users' personal _.forward_
18105 files, but it has many other potential uses. The incoming address can be
18106 redirected in several different ways:
18108 - It can be replaced by one or more new addresses which are themselves routed
18111 - It can be routed to be delivered to a given file or directory.
18113 - It can be routed to be delivered to a specified pipe command.
18115 - It can cause an automatic reply to be generated.
18117 - It can be forced to fail, with a custom error message.
18119 - It can be temporarily deferred.
18121 - It can be discarded.
18123 The generic %transport% option must not be set for ^redirect^ routers.
18124 However, there are some private options which define transports for delivery to
18125 files and pipes, and for generating autoreplies. See the %file_transport%,
18126 %pipe_transport% and %reply_transport% descriptions below.
18132 The router operates by interpreting a text string which it obtains either by
18133 expanding the contents of the %data% option, or by reading the entire contents
18134 of a file whose name is given in the %file% option. These two options are
18135 mutually exclusive. The first is commonly used for handling system aliases, in
18136 a configuration like this:
18140 data = ${lookup{$local_part}lsearch{/etc/aliases}}
18142 If the lookup fails, the expanded string in this example is empty. When the
18143 expansion of %data% results in an empty string, the router declines. A forced
18144 expansion failure also causes the router to decline; other expansion failures
18145 cause delivery to be deferred.
18147 A configuration using %file% is commonly used for handling users' _.forward_
18153 file = $home/.forward
18156 If the file does not exist, or causes no action to be taken (for example, it is
18157 empty or consists only of comments), the router declines. *Warning*: This
18158 is not the case when the file contains syntactically valid items that happen to
18159 yield empty addresses, for example, items containing only RFC 2822 address
18164 Forward files and address verification
18165 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18166 cindex:[address redirection,while verifying]
18167 It is usual to set %no_verify% on ^redirect^ routers which handle users'
18168 _.forward_ files, as in the example above. There are two reasons for this:
18170 - When Exim is receiving an incoming SMTP message from a remote host, it is
18171 running under the Exim uid, not as root.
18172 No additional groups are set up, even if the Exim uid is a member of other
18173 groups (that is, the 'initgroups()' function is not run).
18174 Exim is unable to change uid to read the file as the user, and it may not be
18175 able to read it as the Exim user. So in practice the router may not be able to
18178 - However, even when the router can operate, the existence of a _.forward_ file
18179 is unimportant when verifying an address. What should be checked is whether the
18180 local part is a valid user name or not. Cutting out the redirection processing
18181 saves some resources.
18188 Interpreting redirection data
18189 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18190 cindex:[Sieve filter,specifying in redirection data]
18191 cindex:[filter,specifying in redirection data]
18192 The contents of the data string, whether obtained from %data% or %file%, can be
18193 interpreted in two different ways:
18195 - If the %allow_filter% option is set true, and the data begins with the text
18196 ``#Exim filter'' or ``#Sieve filter'', it is interpreted as a list of
18197 'filtering' instructions in the form of an Exim or Sieve filter file,
18198 respectively. Details of the syntax and semantics of filter files are described
18199 in a separate document entitled 'Exim's interfaces to mail filtering'; this
18200 document is intended for use by end users.
18202 - Otherwise, the data must be a comma-separated list of redirection items, as
18203 described in the next section.
18205 When a message is redirected to a file (a ``mail folder''), the file name given
18206 in a non-filter redirection list must always be an absolute path. A filter may
18207 generate a relative path -- how this is handled depends on the transport's
18208 configuration. See section <<SECTfildiropt>> for a discussion of this issue for
18209 the ^appendfile^ transport.
18213 [[SECTitenonfilred]]
18214 Items in a non-filter redirection list
18215 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18216 cindex:[address redirection,non-filter list items]
18217 When the redirection data is not an Exim or Sieve filter, for example, if it
18218 comes from a conventional alias or forward file, it consists of a list of
18219 addresses, file names, pipe commands, or certain special items (see section
18220 <<SECTspecitredli>> below). The special items can be individually enabled or
18221 disabled by means of options whose names begin with %allow_% or %forbid_%,
18222 depending on their default values. The items in the list are separated by
18223 commas or newlines.
18224 If a comma is required in an item, the entire item must be enclosed in double
18227 Lines starting with a # character are comments, and are ignored, and # may
18228 also appear following a comma, in which case everything between the # and the
18229 next newline character is ignored.
18231 If an item is entirely enclosed in double quotes, these are removed. Otherwise
18232 double quotes are retained because some forms of mail address require their use
18233 (but never to enclose the entire address). In the following description,
18234 ``item'' refers to what remains after any surrounding double quotes have been
18237 cindex:[$local_part$]
18238 *Warning*: If you use an Exim expansion to construct a redirection address,
18239 and the expansion contains a reference to $local_part$, you should make use
18240 of the %quote_local_part% expansion operator, in case the local part contains
18241 special characters. For example, to redirect all mail for the domain
18242 'obsolete.example', retaining the existing local part, you could use this
18245 data = ${quote_local_part:$local_part}@newdomain.example
18251 Redirecting to a local mailbox
18252 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18253 cindex:[routing,loops in]
18254 cindex:[loop while routing, avoidance of]
18255 cindex:[address redirection,to local mailbox]
18256 A redirection item may safely be the same as the address currently under
18257 consideration. This does not cause a routing loop, because a router is
18258 automatically skipped if any ancestor of the address that is being processed
18259 is the same as the current address and was processed by the current router.
18260 Such an address is therefore passed to the following routers, so it is handled
18261 as if there were no redirection. When making this loop-avoidance test, the
18262 complete local part, including any prefix or suffix, is used.
18264 cindex:[address redirection,local part without domain]
18265 Specifying the same local part without a domain is a common usage in personal
18266 filter files when the user wants to have messages delivered to the local
18267 mailbox and also forwarded elsewhere. For example, the user whose login is
18268 'cleo' might have a _.forward_ file containing this:
18270 cleo, cleopatra@egypt.example
18272 cindex:[backslash in alias file]
18273 cindex:[alias file,backslash in]
18274 For compatibility with other MTAs, such unqualified local parts may be
18275 preceeded by ``\'', but this is not a requirement for loop prevention. However,
18276 it does make a difference if more than one domain is being handled
18279 If an item begins with ``\'' and the rest of the item parses as a valid RFC 2822
18280 address that does not include a domain, the item is qualified using the domain
18281 of the incoming address. In the absence of a leading ``\'', unqualified
18282 addresses are qualified using the value in %qualify_recipient%, but you can
18283 force the incoming domain to be used by setting %qualify_preserve_domain%.
18285 Care must be taken if there are alias names for local users.
18286 Consider an MTA handling a single local domain where the system alias file
18291 Now suppose that Sam (whose login id is 'spqr') wants to save copies of
18292 messages in the local mailbox, and also forward copies elsewhere. He creates
18295 Sam.Reman, spqr@reme.elsewhere.example
18297 With these settings, an incoming message addressed to 'Sam.Reman' fails. The
18298 ^redirect^ router for system aliases does not process 'Sam.Reman' the
18299 second time round, because it has previously routed it,
18300 and the following routers presumably cannot handle the alias. The forward file
18301 should really contain
18303 spqr, spqr@reme.elsewhere.example
18305 but because this is such a common error, the %check_ancestor% option (see
18306 below) exists to provide a way to get round it. This is normally set on a
18307 ^redirect^ router that is handling users' _.forward_ files.
18311 [[SECTspecitredli]]
18312 Special items in redirection lists
18313 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18314 In addition to addresses, the following types of item may appear in redirection
18315 lists (that is, in non-filter redirection data):
18317 - cindex:[pipe,in redirection list]
18318 cindex:[address redirection,to pipe]
18319 An item is treated as a pipe command if it begins with ``|'' and does not parse
18320 as a valid RFC 2822 address that includes a domain. A transport for running the
18321 command must be specified by the %pipe_transport% option.
18322 Normally, either the router or the transport specifies a user and a group under
18323 which to run the delivery. The default is to use the Exim user and group.
18325 Single or double quotes can be used for enclosing the individual arguments of
18326 the pipe command; no interpretation of escapes is done for single quotes. If
18327 the command contains a comma character, it is necessary to put the whole item
18328 in double quotes, for example:
18330 "|/some/command ready,steady,go"
18332 since items in redirection lists are terminated by commas. Do not, however,
18333 quote just the command. An item such as
18335 |"/some/command ready,steady,go"
18337 is interpreted as a pipe with a rather strange command name, and no arguments.
18339 - cindex:[file,in redirection list]
18340 cindex:[address redirection,to file]
18341 An item is interpreted as a path name if it begins with ``/'' and does not parse
18342 as a valid RFC 2822 address that includes a domain. For example,
18344 /home/world/minbari
18346 is treated as a file name, but
18348 /s=molari/o=babylon/@x400gate.way
18350 is treated as an address. For a file name, a transport must be specified using
18351 the %file_transport% option. However, if the generated path name ends with a
18352 forward slash character, it is interpreted as a directory name rather than a
18353 file name, and %directory_transport% is used instead.
18355 Normally, either the router or the transport specifies a user and a group under
18356 which to run the delivery. The default is to use the Exim user and group.
18358 cindex:[_/dev/null_]
18359 However, if a redirection item is the path _/dev/null_, delivery to it is
18360 bypassed at a high level, and the log entry shows ``\*\*bypassed\*\*''
18361 instead of a transport name. In this case the user and group are not used.
18363 - cindex:[included address list]
18364 cindex:[address redirection,included external list]
18365 If an item is of the form
18367 :include:<path name>
18369 a list of further items is taken from the given file and included at that
18370 point. *Note*: such a file can not be a filter file; it is just an out-of-line
18371 addition to the list. The items in the included list are separated by commas or
18372 newlines and are not subject to expansion. If this is the first item in an
18373 alias list in an ^lsearch^ file, a colon must be used to terminate the alias
18374 name. This example is incorrect:
18376 list1 :include:/opt/lists/list1
18378 It must be given as
18380 list1: :include:/opt/lists/list1
18382 - cindex:[address redirection,to black hole]
18383 Sometimes you want to throw away mail to a particular local part. Making the
18384 %data% option expand to an empty string does not work, because that causes the
18385 router to decline. Instead, the alias item
18386 cindex:[black hole]
18387 cindex:[abandoning mail]
18391 can be used. It does what its name implies. No delivery is done, and no error
18392 message is generated. This has the same effect as specifing _/dev/null_, but
18393 can be independently disabled.
18395 *Warning*: If `:blackhole:` appears anywhere in a redirection list, no
18396 delivery is done for the original local part, even if other redirection items
18397 are present. If you are generating a multi-item list (for example, by reading a
18398 database) and need the ability to provide a no-op item, you must use
18401 - cindex:[delivery,forcing failure]
18402 cindex:[delivery,forcing deferral]
18403 cindex:[failing delivery,forcing]
18404 cindex:[deferred delivery, forcing]
18405 cindex:[customizing,failure message]
18406 An attempt to deliver a particular address can be deferred or forced to fail by
18407 redirection items of the form
18412 respectively. When a redirection list contains such an item, it applies to the
18413 entire redirection; any other items in the list are ignored (':blackhole:' is
18414 different). Any text following ':fail:' or ':defer:' is placed in the error
18415 text associated with the failure. For example, an alias file might contain:
18417 X.Employee: :fail: Gone away, no forwarding address
18419 In the case of an address that is being verified from an ACL or as the subject
18421 cindex:[VRFY error text, display of]
18422 VRFY command, the text is included in the SMTP error response by
18424 cindex:[EXPN error text, display of]
18425 The text is not included in the response to an EXPN command.
18427 cindex:[$acl_verify_message$]
18428 In an ACL, an explicitly provided message overrides the default, but the
18429 default message is available in the variable $acl_verify_message$ and can
18430 therefore be included in a custom message if this is desired. Exim sends a 451
18431 SMTP code for a ':defer:', and 550 for ':fail:'. In non-SMTP cases the text
18432 is included in the error message that Exim generates.
18434 Normally the error text is the rest of the redirection list -- a comma does not
18435 terminate it -- but a newline does act as a terminator. Newlines are not
18436 normally present in alias expansions. In ^lsearch^ lookups they are removed as
18437 part of the continuation process, but they may exist in other kinds of lookup
18438 and in ':include:' files.
18440 During routing for message delivery (as opposed to verification), a redirection
18441 containing ':fail:' causes an immediate failure of the incoming address,
18442 whereas ':defer:' causes the message to remain on the queue so that a
18443 subsequent delivery attempt can happen at a later time. If an address is
18444 deferred for too long, it will ultimately fail, because the normal retry
18447 - cindex:[alias file,exception to default]
18448 Sometimes it is useful to use a single-key search type with a default (see
18449 chapter <<CHAPfdlookup>>) to look up aliases. However, there may be a need for
18450 exceptions to the default. These can be handled by aliasing them to
18454 This differs from ':fail:' in that it causes the ^redirect^ router to decline,
18455 whereas ':fail:' forces routing to fail. A lookup which results in an empty
18456 redirection list has the same effect.
18460 Duplicate addresses
18461 ~~~~~~~~~~~~~~~~~~~
18462 cindex:[duplicate addresses]
18463 cindex:[address duplicate, discarding]
18464 cindex:[pipe,duplicated]
18465 Exim removes duplicate addresses from the list to which it is delivering, so as
18466 to deliver just one copy to each address. This does not apply to deliveries
18467 routed to pipes by different immediate parent addresses, but an indirect
18468 aliasing scheme of the type
18470 pipe: |/some/command $local_part
18474 does not work with a message that is addressed to both local parts, because
18475 when the second is aliased to the intermediate local part ``pipe'' it gets
18476 discarded as being the same as a previously handled address. However, a scheme
18479 localpart1: |/some/command $local_part
18480 localpart2: |/some/command $local_part
18482 does result in two different pipe deliveries, because the immediate parents of
18483 the pipes are distinct.
18487 Repeated redirection expansion
18488 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18489 cindex:[repeated redirection expansion]
18490 cindex:[address redirection,repeated for each delivery attempt]
18491 When a message cannot be delivered to all of its recipients immediately,
18492 leading to two or more delivery attempts, redirection expansion is carried out
18493 afresh each time for those addresses whose children were not all previously
18494 delivered. If redirection is being used as a mailing list, this can lead to new
18495 members of the list receiving copies of old messages. The %one_time% option
18496 can be used to avoid this.
18499 Errors in redirection lists
18500 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
18501 cindex:[address redirection,errors]
18502 If %skip_syntax_errors% is set, a malformed address that causes a parsing
18503 error is skipped, and an entry is written to the main log. This may be useful
18504 for mailing lists that are automatically managed. Otherwise, if an error is
18505 detected while generating the list of new addresses, the original address is
18506 deferred. See also %syntax_errors_to%.
18510 Private options for the redirect router
18511 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
18513 cindex:[options,^redirect^ router]
18514 The private options for the ^redirect^ router are as follows:
18517 oindex:[%allow_defer%]
18519 %allow_defer%, Use: 'redirect', Type: 'boolean', Default: 'false'
18522 Setting this option allows the use of ':defer:' in non-filter redirection
18524 or the %defer% command in an Exim filter file.
18527 oindex:[%allow_fail%]
18529 %allow_fail%, Use: 'redirect', Type: 'boolean', Default: 'false'
18532 cindex:[failing delivery,from filter]
18533 If this option is true, the ':fail:' item can be used in a redirection list,
18534 and the %fail% command may be used in a filter file.
18537 oindex:[%allow_filter%]
18539 %allow_filter%, Use: 'redirect', Type: 'boolean', Default: 'false'
18542 cindex:[filter,enabling use of]
18543 cindex:[Sieve filter,enabling use of]
18544 Setting this option allows Exim to interpret redirection data that starts with
18545 ``#Exim filter'' or ``#Sieve filter'' as a set of filtering instructions. There
18546 are some features of Exim filter files that some administrators may wish to
18547 lock out; see the %forbid_filter_xxx% options below.
18549 It is also possible to lock out Exim filters or Sieve filters while allowing
18550 the other type; see %forbid_exim_filter% and %forbid_sieve_filter%.
18553 The filter is run using the uid and gid set by the generic %user% and %group%
18554 options. These take their defaults from the password data if
18555 %check_local_user% is set, so in the normal case of users' personal filter
18556 files, the filter is run as the relevant user. When %allow_filter% is set
18557 true, Exim insists that either %check_local_user% or %user% is set.
18561 oindex:[%allow_freeze%]
18563 %allow_freeze%, Use: 'redirect', Type: 'boolean', Default: 'false'
18566 cindex:[freezing messages,allowing in filter]
18567 Setting this option allows the use of the %freeze% command in an Exim filter.
18568 This command is more normally encountered in system filters, and is disabled by
18569 default for redirection filters because it isn't something you usually want to
18570 let ordinary users do.
18574 oindex:[%check_ancestor%]
18576 %check_ancestor%, Use: 'redirect', Type: 'boolean', Default: 'false'
18579 This option is concerned with handling generated addresses that are the same
18580 as some address in the list of redirection ancestors of the current address.
18581 Although it is turned off by default in the code, it is set in the default
18582 configuration file for handling users' _.forward_ files. It is recommended
18583 for this use of the ^redirect^ router.
18585 When %check_ancestor% is set, if a generated address (including the domain) is
18586 the same as any ancestor of the current address, it is replaced by a copy of
18587 the current address. This helps in the case where local part A is aliased to B,
18588 and B has a _.forward_ file pointing back to A. For example, within a single
18589 domain, the local part ``Joe.Bloggs'' is aliased to ``jb'' and _~jb/.forward_
18592 \Joe.Bloggs, <other item(s)>
18594 Without the %check_ancestor% setting, either local part (``jb'' or ``joe.bloggs'')
18595 gets processed once by each router and so ends up as it was originally. If ``jb''
18596 is the real mailbox name, mail to ``jb'' gets delivered (having been turned into
18597 ``joe.bloggs'' by the _.forward_ file and back to ``jb'' by the alias), but mail
18598 to ``joe.bloggs'' fails. Setting %check_ancestor% on the ^redirect^ router that
18599 handles the _.forward_ file prevents it from turning ``jb'' back into
18600 ``joe.bloggs'' when that was the original address. See also the %repeat_use%
18604 oindex:[%check_group%]
18606 %check_group%, Use: 'redirect', Type: 'boolean', Default: 'see below'
18609 When the %file% option is used, the group owner of the file is checked only
18610 when this option is set. The permitted groups are those listed in the
18611 %owngroups% option, together with the user's default group if
18612 %check_local_user% is set. If the file has the wrong group, routing is
18613 deferred. The default setting for this option is true if %check_local_user%
18614 is set and the %modemask% option permits the group write bit, or if the
18615 %owngroups% option is set. Otherwise it is false, and no group check occurs.
18619 oindex:[%check_owner%]
18621 %check_owner%, Use: 'redirect', Type: 'boolean', Default: 'see below'
18624 When the %file% option is used, the owner of the file is checked only when this
18625 option is set. If %check_local_user% is set, the local user is permitted;
18626 otherwise the owner must be one of those listed in the %owners% option. The
18627 default value for this option is true if %check_local_user% or %owners% is
18628 set. Otherwise the default is false, and no owner check occurs.
18633 %data%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
18636 This option is mutually exclusive with %file%. One or other of them must be
18637 set, but not both. The contents of %data% are expanded, and then used as the
18638 list of forwarding items, or as a set of filtering instructions. If the
18639 expansion is forced to fail, or the result is an empty string or a string that
18640 has no effect (consists entirely of comments), the router declines.
18642 When filtering instructions are used, the string must begin with ``#Exim
18643 filter'', and all comments in the string, including this initial one, must be
18644 terminated with newline characters. For example:
18647 data = #Exim filter\n\
18648 if $h_to: contains Exim then save $home/mail/exim endif
18651 If you are reading the data from a database where newlines cannot be included,
18652 you can use the $\{sg\}$ expansion item to turn the escape string of your
18653 choice into a newline.
18656 oindex:[%directory_transport%]
18658 %directory_transport%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
18661 A ^redirect^ router sets up a direct delivery to a directory when a path name
18662 ending with a slash is specified as a new ``address''. The transport used is
18663 specified by this option, which, after expansion, must be the name of a
18664 configured transport. This should normally be an ^appendfile^ transport.
18669 %file%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
18672 This option specifies the name of a file that contains the redirection data. It
18673 is mutually exclusive with the %data% option. The string is expanded before
18674 use; if the expansion is forced to fail, the router declines. Other expansion
18675 failures cause delivery to be deferred. The result of a successful expansion
18676 must be an absolute path. The entire file is read and used as the redirection
18677 data. If the data is an empty string or a string that has no effect (consists
18678 entirely of comments), the router declines.
18680 cindex:[NFS,checking for file existence]
18681 If the attempt to open the file fails with a ``does not exist'' error, Exim
18682 runs a check on the containing directory,
18683 unless %ignore_enotdir% is true (see below).
18684 If the directory does not appear to exist, delivery is deferred. This can
18685 happen when users' _.forward_ files are in NFS-mounted directories, and there
18686 is a mount problem. If the containing directory does exist, but the file does
18687 not, the router declines.
18690 oindex:[%file_transport%]
18692 %file_transport%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
18695 cindex:[$address_file$]
18696 A ^redirect^ router sets up a direct delivery to a file when a path name not
18697 ending in a slash is specified as a new ``address''. The transport used is
18698 specified by this option, which, after expansion, must be the name of a
18699 configured transport. This should normally be an ^appendfile^ transport. When
18700 it is running, the file name is in $address_file$.
18703 oindex:[%forbid_blackhole%]
18705 %forbid_blackhole%, Use: 'redirect', Type: 'boolean', Default: 'false'
18708 If this option is true, the ':blackhole:' item may not appear in a redirection
18712 oindex:[%forbid_exim_filter%]
18714 %forbid_exim_filter%, Use: 'redirect', Type: 'boolean', Default: 'false'
18717 If this option is set true, only Sieve filters are permitted when
18718 %allow_filter% is true.
18723 oindex:[%forbid_file%]
18725 %forbid_file%, Use: 'redirect', Type: 'boolean', Default: 'false'
18728 cindex:[delivery,to file; forbidding]
18729 cindex:[Sieve filter,forbidding delivery to a file]
18730 cindex:[Sieve filter,``keep'' facility; disabling]
18731 If this option is true, this router may not generate a new address that
18732 specifies delivery to a local file or directory, either from a filter or from a
18733 conventional forward file. This option is forced to be true if %one_time% is
18734 set. It applies to Sieve filters as well as to Exim filters, but if true, it
18735 locks out the Sieve's ``keep'' facility.
18738 oindex:[%forbid_filter_dlfunc%]
18740 %forbid_filter_dlfunc%, Use: 'redirect', Type: 'boolean', Default: 'false'
18743 [revisionflag="changed"]
18744 cindex:[filter,locking out certain features]
18745 If this option is true, string expansions in Exim filters are not allowed to
18746 make use of the %dlfunc% expansion facility to run dynamically loaded
18750 oindex:[%forbid_filter_existstest%]
18752 %forbid_filter_existstest%, Use: 'redirect', Type: 'boolean', Default: 'false'
18755 [revisionflag="changed"]
18756 cindex:[expansion,statting a file]
18757 If this option is true, string expansions in Exim filters are not allowed to
18758 make use of the %exists% condition or the %stat% expansion item.
18761 oindex:[%forbid_filter_logwrite%]
18763 %forbid_filter_logwrite%, Use: 'redirect', Type: 'boolean', Default: 'false'
18766 If this option is true, use of the logging facility in Exim filters is not
18767 permitted. Logging is in any case available only if the filter is being run
18768 under some unprivileged uid (which is normally the case for ordinary users'
18772 oindex:[%forbid_filter_lookup%]
18774 %forbid_filter_lookup%, Use: 'redirect', Type: 'boolean', Default: 'false'
18777 If this option is true, string expansions in Exim filter files are not allowed
18778 to make use of %lookup% items.
18781 oindex:[%forbid_filter_perl%]
18783 %forbid_filter_perl%, Use: 'redirect', Type: 'boolean', Default: 'false'
18786 This option has an effect only if Exim is built with embedded Perl support. If
18787 it is true, string expansions in Exim filter files are not allowed to make use
18788 of the embedded Perl support.
18791 oindex:[%forbid_filter_readfile%]
18793 %forbid_filter_readfile%, Use: 'redirect', Type: 'boolean', Default: 'false'
18796 If this option is true, string expansions in Exim filter files are not allowed
18797 to make use of %readfile% items.
18800 oindex:[%forbid_filter_readsocket%]
18802 %forbid_filter_readsocket%, Use: 'redirect', Type: 'boolean', Default: 'false'
18805 If this option is true, string expansions in Exim filter files are not allowed
18806 to make use of %readsocket% items.
18809 oindex:[%forbid_filter_reply%]
18811 %forbid_filter_reply%, Use: 'redirect', Type: 'boolean', Default: 'false'
18814 If this option is true, this router may not generate an automatic reply
18815 message. Automatic replies can be generated only from Exim
18817 or Sieve filter files, not from traditional forward files.
18819 This option is forced to be true if %one_time% is set.
18822 oindex:[%forbid_filter_run%]
18824 %forbid_filter_run%, Use: 'redirect', Type: 'boolean', Default: 'false'
18827 If this option is true, string expansions in Exim filter files are not allowed
18828 to make use of %run% items.
18831 oindex:[%forbid_include%]
18833 %forbid_include%, Use: 'redirect', Type: 'boolean', Default: 'false'
18836 If this option is true, items of the form
18838 :include:<path name>
18840 are not permitted in non-filter redirection lists.
18843 oindex:[%forbid_pipe%]
18845 %forbid_pipe%, Use: 'redirect', Type: 'boolean', Default: 'false'
18848 cindex:[delivery,to pipe; forbidding]
18849 If this option is true, this router may not generate a new address which
18850 specifies delivery to a pipe, either from an Exim filter or from a conventional
18851 forward file. This option is forced to be true if %one_time% is set.
18854 oindex:[%forbid_sieve_filter%]
18856 %forbid_sieve_filter%, Use: 'redirect', Type: 'boolean', Default: 'false'
18859 If this option is set true, only Exim filters are permitted when
18860 %allow_filter% is true.
18865 oindex:[%hide_child_in_errmsg%]
18867 %hide_child_in_errmsg%, Use: 'redirect', Type: 'boolean', Default: 'false'
18870 cindex:[bounce message,redirection details; suppressing]
18871 If this option is true, it prevents Exim from quoting a child address if it
18872 generates a bounce or delay message for it. Instead it says ``an address
18873 generated from <''the top level address'>'. Of course, this applies only to
18874 bounces generated locally. If a message is forwarded to another host, 'its'
18875 bounce may well quote the generated address.
18878 oindex:[%ignore_eacces%]
18880 %ignore_eacces%, Use: 'redirect', Type: 'boolean', Default: 'false'
18884 If this option is set and an attempt to open a redirection file yields the
18885 EACCES error (permission denied), the ^redirect^ router behaves as if the
18886 file did not exist.
18889 oindex:[%ignore_enotdir%]
18891 %ignore_enotdir%, Use: 'redirect', Type: 'boolean', Default: 'false'
18895 If this option is set and an attempt to open a redirection file yields the
18896 ENOTDIR error (something on the path is not a directory), the ^redirect^
18897 router behaves as if the file did not exist.
18899 Setting %ignore_enotdir% has another effect as well: When a ^redirect^
18900 router that has the %file% option set discovers that the file does not exist
18901 (the ENOENT error), it tries to 'stat()' the parent directory, as a check
18902 against unmounted NFS directories. If the parent can not be statted, delivery
18903 is deferred. However, it seems wrong to do this check when %ignore_enotdir% is
18904 set, because that option tells Exim to ignore ``something on the path is not a
18905 directory'' (the ENOTDIR error). This is a confusing area, because it seems
18906 that some operating systems give ENOENT where others give ENOTDIR.
18910 oindex:[%include_directory%]
18912 %include_directory%, Use: 'redirect', Type: 'string', Default: 'unset'
18915 If this option is set, the path names of any ':include:' items in a redirection
18916 list must start with this directory.
18919 oindex:[%modemask%]
18921 %modemask%, Use: 'redirect', Type: 'octal integer', Default: '022'
18924 This specifies mode bits which must not be set for a file specified by the
18925 %file% option. If any of the forbidden bits are set, delivery is deferred.
18928 oindex:[%one_time%]
18930 %one_time%, Use: 'redirect', Type: 'boolean', Default: 'false'
18933 cindex:[one-time aliasing/forwarding expansion]
18934 cindex:[alias file,one-time expansion]
18935 cindex:[forward file,one-time expansion]
18936 cindex:[mailing lists,one-time expansion]
18937 cindex:[address redirection,one-time expansion]
18938 Sometimes the fact that Exim re-evaluates aliases and reprocesses redirection
18939 files each time it tries to deliver a message causes a problem when one or more
18940 of the generated addresses fails be delivered at the first attempt. The problem
18941 is not one of duplicate delivery -- Exim is clever enough to handle that -- but
18942 of what happens when the redirection list changes during the time that the
18943 message is on Exim's queue. This is particularly true in the case of mailing
18944 lists, where new subscribers might receive copies of messages that were posted
18945 before they subscribed.
18947 If %one_time% is set and any addresses generated by the router fail to deliver
18948 at the first attempt, the failing addresses are added to the message as ``top
18949 level'' addresses, and the parent address that generated them is marked
18950 ``delivered''. Thus, redirection does not happen again at the next delivery
18953 *Warning 1*: Any header line addition or removal that is specified by this
18954 router would be lost if delivery did not succeed at the first attempt. For this
18955 reason, the %headers_add% and %headers_remove% generic options are not
18956 permitted when %one_time% is set.
18958 *Warning 2*: To ensure that the router generates only addresses (as opposed
18959 to pipe or file deliveries or auto-replies) %forbid_file%, %forbid_pipe%,
18960 and %forbid_filter_reply% are forced to be true when %one_time% is set.
18962 [revisionflag="changed"]
18963 *Warning 3*: The %unseen% generic router option may not be set with %one_time%.
18965 The original top-level address is remembered with each of the generated
18966 addresses, and is output in any log messages. However, any intermediate parent
18967 addresses are not recorded. This makes a difference to the log only if
18968 %all_parents% log selector is set. It is expected that %one_time% will
18969 typically be used for mailing lists, where there is normally just one level of
18975 %owners%, Use: 'redirect', Type: 'string list', Default: 'unset'
18978 cindex:[ownership,alias file]
18979 cindex:[ownership,forward file]
18980 cindex:[alias file,ownership]
18981 cindex:[forward file,ownership]
18982 This specifies a list of permitted owners for the file specified by %file%.
18983 This list is in addition to the local user when %check_local_user% is set.
18984 See %check_owner% above.
18987 oindex:[%owngroups%]
18989 %owngroups%, Use: 'redirect', Type: 'string list', Default: 'unset'
18992 This specifies a list of permitted groups for the file specified by %file%. The
18993 list is in addition to the local user's primary group when %check_local_user%
18994 is set. See %check_group% above.
18997 oindex:[%pipe_transport%]
18999 %pipe_transport%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19002 cindex:[$address_pipe$]
19003 A ^redirect^ router sets up a direct delivery to a pipe when a string starting
19004 with a vertical bar character is specified as a new ``address''. The transport
19005 used is specified by this option, which, after expansion, must be the name of a
19006 configured transport. This should normally be a ^pipe^ transport. When the
19007 transport is run, the pipe command is in $address_pipe$.
19010 oindex:[%qualify_domain%]
19012 %qualify_domain%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19015 cindex:[$qualify_recipient$]
19016 If this option is set and an unqualified address (one without a domain) is
19017 generated, it is qualified with the domain specified by expanding this string,
19018 instead of the global setting in %qualify_recipient%. If the expansion fails,
19019 the router declines. If you want to revert to the default, you can have the
19020 expansion generate $qualify_recipient$.
19023 oindex:[%qualify_preserve_domain%]
19025 %qualify_preserve_domain%, Use: 'redirect', Type: 'boolean', Default: 'false'
19028 cindex:[domain,in redirection; preserving]
19029 cindex:[preserving domain in redirection]
19030 cindex:[address redirection,domain; preserving]
19031 If this is set and an unqualified address (one without a domain) is generated,
19032 it is qualified with the domain of the
19033 parent address (the immediately preceding ancestor) instead of the local
19034 %qualify_domain% or global %qualify_recipient% value.
19037 oindex:[%repeat_use%]
19039 %repeat_use%, Use: 'redirect', Type: 'boolean', Default: 'true'
19042 If this option is set false, the router is skipped for a child address that has
19043 any ancestor that was routed by this router. This test happens before any of
19044 the other preconditions are tested. Exim's default anti-looping rules skip
19045 only when the ancestor is the same as the current address. See also
19046 %check_ancestor% above and the generic %redirect_router% option.
19049 oindex:[%reply_transport%]
19051 %reply_transport%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19054 A ^redirect^ router sets up an automatic reply when a %mail% or %vacation%
19055 command is used in a filter file. The transport used is specified by this
19056 option, which, after expansion, must be the name of a configured transport.
19057 This should normally be an ^autoreply^ transport. Other transports are
19058 unlikely to do anything sensible or useful.
19063 %rewrite%, Use: 'redirect', Type: 'boolean', Default: 'true'
19066 cindex:[address redirection,disabling rewriting]
19067 If this option is set false, addresses generated by the router are not
19068 subject to address rewriting. Otherwise, they are treated like new addresses
19069 and are rewritten according to the global rewriting rules.
19072 oindex:[%sieve_subaddress%]
19074 %sieve_subaddress%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19077 [revisionflag="changed"]
19078 The value of this option is passed to a Sieve filter to specify the
19079 :subaddress part of an address.
19082 oindex:[%sieve_useraddress%]
19084 %sieve_useraddress%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19087 [revisionflag="changed"]
19088 The value of this option is passed to a Sieve filter to specify the :user part
19089 of an address. However, if it is unset, the entire original local part
19090 (including any prefix or suffix) is used for :user.
19094 oindex:[%sieve_vacation_directory%]
19096 %sieve_vacation_directory%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19099 [revisionflag="changed"]
19100 cindex:[Sieve filter,vacation directory]
19101 To enable the ``vacation'' extension for Sieve filters, you must set
19102 %sieve_vacation_directory% to the directory where vacation databases are held
19103 (do not put anything else in that directory), and ensure that the
19104 %reply_transport% option refers to an ^autoreply^ transport. Each user needs
19105 their own directory; Exim will create it if necessary.
19110 oindex:[%skip_syntax_errors%]
19112 %skip_syntax_errors%, Use: 'redirect', Type: 'boolean', Default: 'false'
19115 cindex:[forward file,broken]
19116 cindex:[address redirection,broken files]
19117 cindex:[alias file,broken]
19118 cindex:[broken alias or forward files]
19119 cindex:[ignoring faulty addresses]
19120 cindex:[skipping faulty addresses]
19121 cindex:[error,skipping bad syntax]
19122 If %skip_syntax_errors% is set, syntactically malformed addresses in
19123 non-filter redirection data are skipped, and each failing address is logged. If
19124 %syntax_errors_to% is set, a message is sent to the address it defines,
19125 giving details of the failures. If %syntax_errors_text% is set, its contents
19126 are expanded and placed at the head of the error message generated by
19127 %syntax_errors_to%. Usually it is appropriate to set %syntax_errors_to% to
19128 be the same address as the generic %errors_to% option. The
19129 %skip_syntax_errors% option is often used when handling mailing lists.
19131 If all the addresses in a redirection list are skipped because of syntax
19132 errors, the router declines to handle the original address, and it is passed to
19133 the following routers.
19135 If %skip_syntax_errors% is set when an Exim filter is interpreted, any syntax
19136 error in the filter causes filtering to be abandoned without any action being
19137 taken. The incident is logged, and the router declines to handle the address,
19138 so it is passed to the following routers.
19140 cindex:[Sieve filter,syntax errors in]
19141 Syntax errors in a Sieve filter file cause the ``keep'' action to occur. This
19142 action is specified by RFC 3028. The values of %skip_syntax_errors%,
19143 %syntax_errors_to%, and %syntax_errors_text% are not used.
19145 %skip_syntax_errors% can be used to specify that errors in users' forward
19146 lists or filter files should not prevent delivery. The %syntax_errors_to%
19147 option, used with an address that does not get redirected, can be used to
19148 notify users of these errors, by means of a router like this:
19155 file = $home/.forward
19156 file_transport = address_file
19157 pipe_transport = address_pipe
19158 reply_transport = address_reply
19161 syntax_errors_to = real-$local_part\$domain
19162 syntax_errors_text = \
19163 This is an automatically generated message. An error has\n\
19164 been found in your .forward file. Details of the error are\n\
19165 reported below. While this error persists, you will receive\n\
19166 a copy of this message for every message that is addressed\n\
19167 to you. If your .forward file is a filter file, or if it is\n\
19168 a non-filter file containing no valid forwarding addresses,\n\
19169 a copy of each incoming message will be put in your normal\n\
19170 mailbox. If a non-filter file contains at least one valid\n\
19171 forwarding address, forwarding to the valid addresses will\n\
19172 happen, and those will be the only deliveries that occur.
19175 You also need a router to ensure that local addresses that are prefixed by
19176 `real-` are recognized, but not forwarded or filtered. For example, you could
19177 put this immediately before the ^userforward^ router:
19182 local_part_prefix = real-
19183 transport = local_delivery
19187 oindex:[%syntax_errors_text%]
19189 %syntax_errors_text%, Use: 'redirect', Type: 'string'!!, Default: 'unset'
19192 See %skip_syntax_errors% above.
19195 oindex:[%syntax_errors_to%]
19197 %syntax_errors_to%, Use: 'redirect', Type: 'string', Default: 'unset'
19200 See %skip_syntax_errors% above.
19207 ////////////////////////////////////////////////////////////////////////////
19208 ////////////////////////////////////////////////////////////////////////////
19210 [[CHAPenvironment]]
19211 [titleabbrev="Environment for local transports"]
19212 Environment for running local transports
19213 ----------------------------------------
19214 cindex:[local transports,environment for]
19215 cindex:[environment for local transports]
19216 cindex:[transport,local; environment for]
19217 Local transports handle deliveries to files and pipes. (The ^autoreply^
19218 transport can be thought of as similar to a pipe.) Exim always runs transports
19219 in subprocesses, under specified uids and gids. Typical deliveries to local
19220 mailboxes run under the uid and gid of the local user.
19222 Exim also sets a specific current directory while running the transport; for
19223 some transports a home directory setting is also relevant. The ^pipe^
19224 transport is the only one that sets up environment variables; see section
19225 <<SECTpipeenv>> for details.
19227 The values used for the uid, gid, and the directories may come from several
19228 different places. In many cases, the router that handles the address associates
19229 settings with that address as a result of its %check_local_user%, %group%, or
19230 %user% options. However, values may also be given in the transport's own
19231 configuration, and these override anything that comes from the router.
19235 Concurrent deliveries
19236 ~~~~~~~~~~~~~~~~~~~~~
19237 cindex:[concurrent deliveries]
19238 cindex:[simultaneous deliveries]
19239 If two different messages for the same local recpient arrive more or less
19240 simultaneously, the two delivery processes are likely to run concurrently. When
19241 the ^appendfile^ transport is used to write to a file, Exim applies locking
19242 rules to stop concurrent processes from writing to the same file at the same
19245 However, when you use a ^pipe^ transport, it is up to you to arrange any
19246 locking that is needed. Here is a silly example:
19250 command = /bin/sh -c 'cat >>/some/file'
19252 This is supposed to write the message at the end of the file. However, if two
19253 messages arrive at the same time, the file will be scrambled. You can use the
19254 %exim_lock% utility program (see section <<SECTmailboxmaint>>) to lock a file
19255 using the same algorithm that Exim itself uses.
19263 cindex:[local transports,uid and gid]
19264 cindex:[transport,local; uid and gid]
19265 All transports have the options %group% and %user%. If %group% is set, it
19266 overrides any group that the router set in the address, even if %user% is not
19267 set for the transport. This makes it possible, for example, to run local mail
19268 delivery under the uid of the recipient (set by the router), but in a special
19269 group (set by the transport). For example:
19272 # User/group are set by check_local_user in this router
19276 transport = group_delivery
19279 # This transport overrides the group
19281 driver = appendfile
19282 file = /var/spool/mail/$local_part
19285 If %user% is set for a transport, its value overrides what is set in the
19286 address. If %user% is non-numeric and %group% is not set, the gid associated
19287 with the user is used. If %user% is numeric, %group% must be set.
19289 cindex:[%initgroups% option]
19290 When the uid is taken from the transport's configuration, the 'initgroups()'
19291 function is called for the groups associated with that uid if the %initgroups%
19292 option is set for the transport. When the uid is not specified by the
19293 transport, but is associated with the address by a router, the option for
19294 calling 'initgroups()' is taken from the router configuration.
19296 cindex:[^pipe^ transport,uid for]
19297 The ^pipe^ transport contains the special option %pipe_as_creator%. If this
19298 is set and %user% is not set, the uid of the process that called Exim to
19299 receive the message is used, and if %group% is not set, the corresponding
19300 original gid is also used.
19304 Current and home directories
19305 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
19306 cindex:[current directory for local transport]
19307 cindex:[home directory,for local transport]
19308 cindex:[transport,local; home directory for]
19309 cindex:[transport,local; current directory for]
19310 Routers may set current and home directories for local transports by means of
19311 the %transport_current_directory% and %transport_home_directory% options.
19312 However, if the transport's %current_directory% or %home_directory% options
19313 are set, they override the router's values. In detail, the home directory
19314 for a local transport is taken from the first of these values that is set:
19316 - The %home_directory% option on the transport;
19318 - The %transport_home_directory% option on the router;
19320 - The password data if %check_local_user% is set on the router;
19322 - The %router_home_directory% option on the router.
19324 The current directory is taken from the first of these values that is set:
19326 - The %current_directory% option on the transport;
19328 - The %transport_current_directory% option on the router.
19331 If neither the router nor the transport sets a current directory, Exim uses the
19332 value of the home directory, if it is set. Otherwise it sets the current
19333 directory to _/_ before running a local transport.
19337 Expansion variables derived from the address
19338 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
19340 cindex:[$local_part$]
19341 cindex:[$original_domain$]
19342 Normally a local delivery is handling a single address, and in that case the
19343 variables such as $domain$ and $local_part$ are set during local deliveries.
19344 However, in some circumstances more than one address may be handled at once
19345 (for example, while writing batch SMTP for onward transmission by some other
19346 means). In this case, the variables associated with the local part are never
19347 set, $domain$ is set only if all the addresses have the same domain, and
19348 $original_domain$ is never set.
19356 ////////////////////////////////////////////////////////////////////////////
19357 ////////////////////////////////////////////////////////////////////////////
19359 [[CHAPtransportgeneric]]
19360 Generic options for transports
19361 ------------------------------
19363 cindex:[generic options,transport]
19364 cindex:[options,generic; for transports]
19365 cindex:[transport,generic options for]
19366 The following generic options apply to all transports:
19369 oindex:[%body_only%]
19371 %body_only%, Use: 'transports', Type: 'boolean', Default: 'false'
19374 cindex:[transport,body only]
19375 cindex:[message,transporting body only]
19376 cindex:[body of message,transporting]
19377 If this option is set, the message's headers are not transported. It is
19378 mutually exclusive with %headers_only%. If it is used with the ^appendfile^ or
19379 ^pipe^ transports, the settings of %message_prefix% and %message_suffix%
19380 should be checked, because this option does not automatically suppress them.
19383 oindex:[%current_directory%]
19385 %current_directory%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19388 cindex:[transport,current directory for]
19389 This specifies the current directory that is to be set while running the
19390 transport, overriding any value that may have been set by the router.
19391 If the expansion fails for any reason, including forced failure, an error is
19392 logged, and delivery is deferred.
19395 oindex:[%disable_logging%]
19397 %disable_logging%, Use: 'transports', Type: 'boolean', Default: 'false'
19400 If this option is set true, nothing is logged for any
19401 deliveries by the transport or for any
19402 transport errors. You should not set this option unless you really, really know
19403 what you are doing.
19406 oindex:[%debug_print%]
19408 %debug_print%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19411 cindex:[testing,variables in drivers]
19412 If this option is set and debugging is enabled (see the %-d% command line
19413 option), the string is expanded and included in the debugging output when the
19415 If expansion of the string fails, the error message is written to the debugging
19416 output, and Exim carries on processing.
19417 This facility is provided to help with checking out the values of variables and
19418 so on when debugging driver configurations. For example, if a %headers_add%
19419 option is not working properly, %debug_print% could be used to output the
19420 variables it references. A newline is added to the text if it does not end with
19424 oindex:[%delivery_date_add%]
19426 %delivery_date_add%, Use: 'transports', Type: 'boolean', Default: 'false'
19429 cindex:['Delivery-date:' header line]
19430 If this option is true, a 'Delivery-date:' header is added to the message. This
19431 gives the actual time the delivery was made. As this is not a standard header,
19432 Exim has a configuration option (%delivery_date_remove%) which requests its
19433 removal from incoming messages, so that delivered messages can safely be resent
19434 to other recipients.
19439 %driver%, Use: 'transports', Type: 'string', Default: 'unset'
19442 This specifies which of the available transport drivers is to be used.
19443 There is no default, and this option must be set for every transport.
19446 oindex:[%envelope_to_add%]
19448 %envelope_to_add%, Use: 'transports', Type: 'boolean', Default: 'false'
19451 cindex:['Envelope-to:' header line]
19452 If this option is true, an 'Envelope-to:' header is added to the message. This
19453 gives the original address(es) in the incoming envelope that caused this
19454 delivery to happen. More than one address may be present if the transport is
19455 configured to handle several addresses at once, or if more than one original
19456 address was redirected to the same final address. As this is not a standard
19457 header, Exim has a configuration option (%envelope_to_remove%) which requests
19458 its removal from incoming messages, so that delivered messages can safely be
19459 resent to other recipients.
19464 %group%, Use: 'transports', Type: 'string'!!, Default: 'Exim group'
19467 cindex:[transport,group; specifying]
19468 This option specifies a gid for running the transport process, overriding any
19469 value that the router supplies, and also overriding any value associated with
19470 %user% (see below).
19473 oindex:[%headers_add%]
19475 %headers_add%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19478 cindex:[header lines,adding in transport]
19479 cindex:[transport,header lines; adding]
19480 This option specifies a string of text that is expanded and added to the header
19481 portion of a message as it is transported, as described in section
19482 <<SECTheadersaddrem>>. Additional header lines can also be specified by routers.
19483 If the result of the expansion is an empty string, or if the expansion is
19484 forced to fail, no action is taken. Other expansion failures are treated as
19485 errors and cause the delivery to be deferred.
19489 oindex:[%headers_only%]
19491 %headers_only%, Use: 'transports', Type: 'boolean', Default: 'false'
19494 cindex:[transport,header lines only]
19495 cindex:[message,transporting headers only]
19496 cindex:[header lines,transporting]
19497 If this option is set, the message's body is not transported. It is mutually
19498 exclusive with %body_only%. If it is used with the ^appendfile^ or ^pipe^
19499 transports, the settings of %message_prefix% and %message_suffix% should be
19500 checked, since this option does not automatically suppress them.
19503 oindex:[%headers_remove%]
19505 %headers_remove%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19508 cindex:[header lines,removing]
19509 cindex:[transport,header lines; removing]
19510 This option specifies a string that is expanded into a list of header names;
19511 these headers are omitted from the message as it is transported, as described
19512 in section <<SECTheadersaddrem>>. Header removal can also be specified by
19513 routers. If the result of the expansion is an empty string, or if the expansion
19514 is forced to fail, no action is taken. Other expansion failures are treated as
19515 errors and cause the delivery to be deferred.
19519 oindex:[%headers_rewrite%]
19521 %headers_rewrite%, Use: 'transports', Type: 'string', Default: 'unset'
19524 cindex:[transport,header lines; rewriting]
19525 cindex:[rewriting,at transport time]
19526 This option allows addresses in header lines to be rewritten at transport time,
19527 that is, as the message is being copied to its destination. The contents of the
19528 option are a colon-separated list of rewriting rules. Each rule is in exactly
19529 the same form as one of the general rewriting rules that are applied when a
19530 message is received. These are described in chapter <<CHAPrewrite>>. For example,
19533 headers_rewrite = a@b c@d f : \
19537 changes %a@b% into %c@d% in 'From:' header lines, and %x@y% into %w@z% in
19538 all address-bearing header lines. The rules are applied to the header lines
19539 just before they are written out at transport time, so they affect only those
19540 copies of the message that pass through the transport. However, only the
19541 message's original header lines, and any that were added by a system filter,
19542 are rewritten. If a router or transport adds header lines, they are
19543 not affected by this option. These rewriting rules are 'not' applied to the
19544 envelope. You can change the return path using %return_path%, but you cannot
19545 change envelope recipients at this time.
19548 oindex:[%home_directory%]
19550 %home_directory%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19553 cindex:[transport,home directory for]
19555 This option specifies a home directory setting for the transport, overriding
19556 any value that may be set by the router. The home directory is placed in
19557 $home$ while expanding the transport's private options. It is also used as
19558 the current directory if no current directory is set by the
19559 %current_directory% option on the transport or the
19560 %transport_current_directory% option on the router.
19561 If the expansion fails for any reason, including forced failure, an error is
19562 logged, and delivery is deferred.
19565 oindex:[%initgroups%]
19567 %initgroups%, Use: 'transports', Type: 'boolean', Default: 'false'
19570 cindex:[additional groups]
19571 cindex:[groups, additional]
19572 cindex:[transport,group; additional]
19573 If this option is true and the uid for the delivery process is provided by the
19574 transport, the 'initgroups()' function is called when running the transport
19575 to ensure that any additional groups associated with the uid are set up.
19578 oindex:[%message_size_limit%]
19580 %message_size_limit%, Use: 'transports', Type: 'string'!!, Default: '0'
19583 cindex:[limit,message size per transport]
19584 cindex:[size of message, limit]
19585 cindex:[transport,message size; limiting]
19586 This option controls the size of messages passed through the transport. It is
19587 expanded before use; the result of the expansion must be a sequence of digits,
19588 optionally followed by K or M.
19589 If the expansion fails for any reason, including forced failure, or if the
19590 result is not of the required form, delivery is deferred.
19591 If the value is greater than zero and the size of a message exceeds this
19592 limit, the address is failed. If there is any chance that the resulting bounce
19593 message could be routed to the same transport, you should ensure that
19594 %return_size_limit% is less than the transport's %message_size_limit%, as
19595 otherwise the bounce message will fail to get delivered.
19599 oindex:[%rcpt_include_affixes%]
19601 %rcpt_include_affixes%, Use: 'transports', Type: 'boolean', Default: 'false'
19604 cindex:[prefix,for local part; including in envelope]
19605 cindex:[suffix,for local part; including in envelope]
19606 cindex:[local part,prefix]
19607 cindex:[local part,suffix]
19608 When this option is false (the default), and an address that has had any
19609 affixes (prefixes or suffixes) removed from the local part is delivered by any
19610 form of SMTP or LMTP, the affixes are not included. For example, if a router
19613 local_part_prefix = *-
19615 routes the address 'abc-xyz@some.domain' to an SMTP transport, the envelope
19618 RCPT TO:<xyz@some.domain>
19620 [revisionflag="changed"]
19621 This is also the case when an ACL-time callout is being used to verify a
19624 If %rcpt_include_affixes% is set true, the whole local part is included in
19625 the RCPT command. This option applies to BSMTP deliveries by the
19626 ^appendfile^ and ^pipe^ transports as well as to the ^lmtp^ and ^smtp^
19630 oindex:[%retry_use_local_part%]
19632 %retry_use_local_part%, Use: 'transports', Type: 'boolean', Default: 'see below'
19635 cindex:[hints database,retry keys]
19636 When a delivery suffers a temporary failure, a retry record is created
19637 in Exim's hints database. For remote deliveries, the key for the retry record
19638 is based on the name and/or IP address of the failing remote host. For local
19639 deliveries, the key is normally the entire address, including both the local
19640 part and the domain. This is suitable for most common cases of local delivery
19641 temporary failure -- for example, exceeding a mailbox quota should delay only
19642 deliveries to that mailbox, not to the whole domain.
19644 However, in some special cases you may want to treat a temporary local delivery
19645 as a failure associated with the domain, and not with a particular local part.
19646 (For example, if you are storing all mail for some domain in files.) You can do
19647 this by setting %retry_use_local_part% false.
19649 For all the local transports, its default value is true. For remote transports,
19650 the default value is false for tidiness, but changing the value has no effect
19651 on a remote transport in the current implementation.
19654 oindex:[%return_path%]
19656 %return_path%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19659 cindex:[envelope sender]
19660 cindex:[transport,return path; changing]
19661 cindex:[return path,changing in transport]
19662 If this option is set, the string is expanded at transport time and replaces
19663 the existing return path (envelope sender) value in the copy of the message
19664 that is being delivered. An empty return path is permitted. This feature is
19665 designed for remote deliveries, where the value of this option is used in the
19666 SMTP MAIL command. If you set %return_path% for a local transport, the
19667 only effect is to change the address that is placed in the 'Return-path:'
19668 header line, if one is added to the message (see the next option).
19670 cindex:[$return_path$]
19671 The expansion can refer to the existing value via $return_path$. This is
19672 either the message's envelope sender, or an address set by the
19673 %errors_to% option on a router. If the expansion is forced to fail, no
19674 replacement occurs; if it fails for another reason, delivery is deferred. This
19675 option can be used to support VERP (Variable Envelope Return Paths) -- see
19676 chapter <<CHAPSMTP>>.
19678 *Note*: If a delivery error is detected locally,
19679 including the case when a remote server rejects a message at SMTP time,
19680 the bounce message is not sent to the value of this option, but to the
19681 previously set errors address (which defaults to the incoming sender address).
19685 oindex:[%return_path_add%]
19687 %return_path_add%, Use: 'transports', Type: 'boolean', Default: 'false'
19690 cindex:['Return-path:' header line]
19691 If this option is true, a 'Return-path:' header is added to the message.
19692 Although the return path is normally available in the prefix line of BSD
19693 mailboxes, this is commonly not displayed by MUAs, and so the user does not
19694 have easy access to it.
19696 RFC 2821 states that the 'Return-path:' header is added to a message ``when the
19697 delivery SMTP server makes the final delivery''. This implies that this header
19698 should not be present in incoming messages. Exim has a configuration option,
19699 %return_path_remove%, which requests removal of this header from incoming
19700 messages, so that delivered messages can safely be resent to other recipients.
19703 oindex:[%shadow_condition%]
19705 %shadow_condition%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19708 See %shadow_transport% below.
19711 oindex:[%shadow_transport%]
19713 %shadow_transport%, Use: 'transports', Type: 'string', Default: 'unset'
19716 cindex:[shadow transport]
19717 cindex:[transport,shadow]
19718 A local transport may set the %shadow_transport% option to the name of another
19719 local transport. Shadow remote transports are not supported.
19721 Whenever a delivery to the main transport succeeds, and either
19722 %shadow_condition% is unset, or its expansion does not result in the empty
19723 string or one of the strings ``0'' or ``no'' or ``false'', the message is also passed
19724 to the shadow transport, with the same delivery address or addresses.
19725 If expansion fails, no action is taken except that non-forced expansion
19726 failures cause a log line to be written.
19728 The result of the shadow transport is discarded and does not affect the
19729 subsequent processing of the message. Only a single level of shadowing is
19730 provided; the %shadow_transport% option is ignored on any transport when it is
19731 running as a shadow. Options concerned with output from pipes are also ignored.
19733 The log line for the successful delivery has an item added on the end, of the
19736 ST=<shadow transport name>
19738 If the shadow transport did not succeed, the error message is put in
19739 parentheses afterwards.
19741 Shadow transports can be used for a number of different purposes, including
19742 keeping more detailed log information than Exim normally provides, and
19743 implementing automatic acknowledgement policies based on message headers that
19744 some sites insist on.
19747 oindex:[%transport_filter%]
19749 %transport_filter%, Use: 'transports', Type: 'string'!!, Default: 'unset'
19752 cindex:[transport,filter]
19753 cindex:[filter,transport filter]
19754 This option sets up a filtering (in the Unix shell sense) process for messages
19755 at transport time. It should not be confused with mail filtering as set up by
19756 individual users or via a system filter.
19758 When the message is about to be written out, the command specified by
19759 %transport_filter% is started up in a separate process, and the entire message,
19760 including the header lines, is passed to it on its standard input (this in fact
19761 is done from a third process, to avoid deadlock). The command must be specified
19762 as an absolute path.
19764 The lines of the message that are written to the transport filter are
19765 terminated by newline (``\n''). The message is passed to the filter before any
19766 SMTP-specific processing, such as turning ``\n'' into ``\r\n'' and escaping
19767 lines beginning with a dot, and also before any processing implied by the
19768 settings of %check_string% and %escape_string% in the ^appendfile^ or ^pipe^
19771 The standard error for the filter process is set to the same destination as its
19772 standard output; this is read and written to the message's ultimate
19773 destination. The filter can perform any transformations it likes, but of course
19774 should take care not to break RFC 2822 syntax. A demonstration Perl script is
19775 provided in _util/transport-filter.pl_; this makes a few arbitrary
19776 modifications just to show the possibilities. Exim does not check the result,
19777 except to test for a final newline when SMTP is in use. All messages
19778 transmitted over SMTP must end with a newline, so Exim supplies one if it is
19781 [revisionflag="changed"]
19782 cindex:[content scanning,per user]
19783 A transport filter can be used to provide content-scanning on a per-user basis
19784 at delivery time if the only required effect of the scan is to modify the
19785 message. For example, a content scan could insert a new header line containing
19786 a spam score. This could be interpreted by a filter in the user's MUA. It is
19787 not possible to discard a message at this stage.
19790 A problem might arise if the filter increases the size of a message that is
19791 being sent down an SMTP connection. If the receiving SMTP server has indicated
19792 support for the SIZE parameter, Exim will have sent the size of the message
19793 at the start of the SMTP session. If what is actually sent is substantially
19794 more, the server might reject the message. This can be worked round by setting
19795 the %size_addition% option on the ^smtp^ transport, either to allow for
19796 additions to the message, or to disable the use of SIZE altogether.
19798 cindex:[$pipe_addresses$]
19799 The value of the %transport_filter% option is the command string for starting
19800 the filter, which is run directly from Exim, not under a shell. The string is
19801 parsed by Exim in the same way as a command string for the ^pipe^ transport:
19802 Exim breaks it up into arguments and then expands each argument separately. The
19803 special argument $pipe_addresses$ is replaced by a number of arguments, one
19804 for each address that applies to this delivery. (This isn't an ideal name for
19805 this feature here, but as it was already implemented for the ^pipe^
19806 transport, it seemed sensible not to change it.)
19809 cindex:[$host_address$]
19810 The expansion variables $host$ and $host_address$ are available when the
19811 transport is a remote one. They contain the name and IP address of the host to
19812 which the message is being sent. For example:
19815 transport_filter = /some/directory/transport-filter.pl \
19816 $host $host_address $sender_address $pipe_addresses
19819 The filter process is run under the same uid and gid as the normal delivery.
19820 For remote deliveries this is the Exim uid/gid by default.
19822 The command should normally yield a zero return code. A non-zero code is taken
19823 to mean that the transport filter failed in some way. Delivery of the message
19824 is deferred. It is not possible to cause a message to be bounced from a
19828 If a transport filter is set on an autoreply transport, the original message is
19829 passed through the filter as it is being copied into the newly generated
19830 message, which happens if the %return_message% option is set.
19833 oindex:[%transport_filter_timeout%]
19835 %transport_filter_timeout%, Use: 'transports', Type: 'time', Default: '5m'
19838 [revisionflag="changed"]
19839 cindex:[transport filter, timeout]
19840 When Exim is reading the output of a transport filter, it a applies a timeout
19841 that can be set by this option. Exceeding the timeout is normally treated as a
19842 temporary delivery failure. However, if a transport filter is used with a
19843 ^pipe^ transport, a timeout in the transport filter is treated in the same way
19844 as a timeout in the pipe command itself. By default, a timeout is a hard error,
19845 but if the ^pipe^ transport's %timeout_defer% option is set true, it becomes a
19852 %user%, Use: 'transports', Type: 'string'!!, Default: 'Exim user'
19855 cindex:[uid (user id),local delivery]
19856 cindex:[transport user, specifying]
19857 This option specifies the user under whose uid the delivery process is to be
19858 run, overriding any uid that may have been set by the router. If the user is
19859 given as a name, the uid is looked up from the password data, and the
19860 associated group is taken as the value of the gid to be used if the %group%
19863 For deliveries that use local transports, a user and group are normally
19864 specified explicitly or implicitly (for example, as a result of
19865 %check_local_user%) by the router or transport.
19867 cindex:[hints database,access by remote transport]
19868 For remote transports, you should leave this option unset unless you really are
19869 sure you know what you are doing. When a remote transport is running, it needs
19870 to be able to access Exim's hints databases, because each host may have its own
19878 ////////////////////////////////////////////////////////////////////////////
19879 ////////////////////////////////////////////////////////////////////////////
19882 [titleabbrev="Address batching"]
19883 Address batching in local transports
19884 ------------------------------------
19885 cindex:[transport,local; address batching in]
19886 The only remote transport (^smtp^) is normally configured to handle more than
19887 one address at a time, so that when several addresses are routed to the same
19888 remote host, just one copy of the message is sent. Local transports, however,
19889 normally handle one address at a time. That is, a separate instance of the
19890 transport is run for each address that is routed to the transport. A separate
19891 copy of the message is delivered each time.
19893 cindex:[batched local delivery]
19894 cindex:[%batch_max%]
19895 cindex:[%batch_id%]
19896 In special cases, it may be desirable to handle several addresses at once in a
19897 local transport, for example:
19899 - In an ^appendfile^ transport, when storing messages in files for later
19900 delivery by some other means, a single copy of the message with multiple
19901 recipients saves space.
19903 - In an ^lmtp^ transport, when delivering over ``local SMTP'' to some process,
19904 a single copy saves time, and is the normal way LMTP is expected to work.
19906 - In a ^pipe^ transport, when passing the message
19907 to a scanner program or
19908 to some other delivery mechanism such as UUCP, multiple recipients may be
19911 The three local transports (^appendfile^, ^lmtp^, and ^pipe^) all have
19912 the same options for controlling multiple (``batched'') deliveries, namely
19913 %batch_max% and %batch_id%. To save repeating the information for each
19914 transport, these options are described here.
19916 The %batch_max% option specifies the maximum number of addresses that can be
19917 delivered together in a single run of the transport. Its default value is one.
19918 When more than one address is routed to a transport that has a %batch_max%
19919 value greater than one, the addresses are delivered in a batch (that is, in a
19920 single run of the transport), subject to certain conditions:
19922 - cindex:[$local_part$]
19923 If any of the transport's options contain a reference to $local_part$, no
19924 batching is possible.
19926 - cindex:[$domain$]
19927 If any of the transport's options contain a reference to $domain$, only
19928 addresses with the same domain are batched.
19930 - cindex:[customizing,batching condition]
19931 If %batch_id% is set, it is expanded for each address, and only those
19932 addresses with the same expanded value are batched. This allows you to specify
19933 customized batching conditions.
19934 Failure of the expansion for any reason, including forced failure, disables
19935 batching, but it does not stop the delivery from taking place.
19937 - Batched addresses must also have the same errors address (where to send
19938 delivery errors), the same header additions and removals, the same user and
19939 group for the transport, and if a host list is present, the first host must
19942 cindex:['Envelope-to:' header line]
19943 If the generic %envelope_to_add% option is set for the transport, the
19944 'Envelope-to:' header that is added to the message contains all the addresses
19945 that are batched together.
19947 The ^appendfile^ and ^pipe^ transports have an option called %use_bsmtp%,
19948 which causes them to deliver the message in ``batched SMTP'' format, with the
19949 envelope represented as SMTP commands. The %check_string% and %escape_string%
19950 options are forced to the values
19953 escape_string = ".."
19955 when batched SMTP is in use. A full description of the batch SMTP mechanism is
19956 given in section <<SECTbatchSMTP>>. The ^lmtp^ transport does not have a
19957 %use_bsmtp% option, because it always delivers using the SMTP protocol.
19959 cindex:[^pipe^ transport,with multiple addresses]
19960 cindex:[$pipe_addresses$]
19961 If you are not using BSMTP, but are using a ^pipe^ transport, you can include
19962 $pipe_addresses$ as part of the command. This is not a true variable; it is
19963 a bit of magic that causes each of the recipient addresses to be inserted into
19964 the command as a separate argument. This provides a way of accessing all the
19965 addresses that are being delivered in the batch.
19967 If you are using a batching ^appendfile^ transport without %use_bsmtp%, the
19968 only way to preserve the recipient addresses is to set the %envelope_to_add%
19969 option. This causes an 'Envelope-to:' header line to be added to the message,
19970 containing all the recipients.
19974 ////////////////////////////////////////////////////////////////////////////
19975 ////////////////////////////////////////////////////////////////////////////
19978 The appendfile transport
19979 ------------------------
19980 cindex:[^appendfile^ transport]
19981 cindex:[transports,^appendfile^]
19982 cindex:[directory creation]
19983 cindex:[creating directories]
19984 The ^appendfile^ transport delivers a message by appending it to an existing
19985 file, or by creating an entirely new file in a specified directory. Single
19986 files to which messages are appended can be in the traditional Unix mailbox
19987 format, or optionally in the MBX format supported by the Pine MUA and
19988 University of Washington IMAP daemon, 'inter alia'. When each message is
19989 being delivered as a separate file, ``maildir'' format can optionally be used to
19990 give added protection against failures that happen part-way through the
19991 delivery. A third form of separate-file delivery known as ``mailstore'' is also
19992 supported. For all file formats, Exim attempts to create as many levels of
19993 directory as necessary, provided that %create_directory% is set.
19995 The code for the optional formats is not included in the Exim binary by
19996 default. It is necessary to set SUPPORT_MBX, SUPPORT_MAILDIR and/or
19997 SUPPORT_MAILSTORE in _Local/Makefile_ to have the appropriate code
20000 cindex:[quota,system]
20001 Exim recognises system quota errors, and generates an appropriate message. Exim
20002 also supports its own quota control within the transport, for use when the
20003 system facility is unavailable or cannot be used for some reason.
20005 If there is an error while appending to a file (for example, quota exceeded or
20006 partition filled), Exim attempts to reset the file's length and last
20007 modification time back to what they were before. If there is an error while
20008 creating an entirely new file, the new file is removed.
20010 Before appending to a file, a number of security checks are made, and the
20011 file is locked. A detailed description is given below, after the list of
20014 ^appendfile^ is most commonly used for local deliveries to users' mailboxes.
20015 However, it can also be used as a pseudo-remote transport for putting messages
20016 into files for remote delivery by some means other than Exim. ``Batch SMTP''
20017 format is often used in this case (see the %use_bsmtp% option).
20022 The file and directory options
20023 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
20024 The %file% option specifies a single file, to which the message is appended;
20025 the %directory% option specifies a directory, in which a new file containing
20026 the message is created. Only one of these two options can be set, and for
20027 normal deliveries to mailboxes, one of them 'must' be set.
20029 cindex:[$address_file$]
20030 cindex:[$local_part$]
20031 However, ^appendfile^ is also used for delivering messages to files or
20032 directories whose names (or parts of names) are obtained from alias,
20033 forwarding, or filtering operations (for example, a %save% command in a user's
20034 Exim filter). When such a transport is running, $local_part$ contains the
20035 local part that was aliased or forwarded, and $address_file$ contains the
20036 name (or partial name) of the file or directory generated by the redirection
20037 operation. There are two cases:
20039 - If neither %file% nor %directory% is set, the redirection operation
20040 must specify an absolute path (one that begins with `/`). This is the most
20041 common case when users with local accounts use filtering to sort mail into
20042 different folders. See for example, the ^address_file^ transport in the
20043 default configuration. If the path ends with a slash, it is assumed to be the
20044 name of a directory. A delivery to a directory can also be forced by setting
20045 %maildir_format% or %mailstore_format%.
20047 - If %file% or %directory% is set for a delivery from a redirection, it is used
20048 to determine the file or directory name for the delivery. Normally, the
20049 contents of $address_file$ are used in some way in the string expansion.
20052 cindex:[Sieve filter,configuring ^appendfile^]
20053 cindex:[Sieve filter,relative mailbox path handling]
20054 As an example of the second case, consider an environment where users do not
20055 have home directories. They may be permitted to use Exim filter commands of the
20060 or Sieve filter commands of the form:
20062 require "fileinto";
20063 fileinto "folder23";
20065 In this situation, the expansion of %file% or %directory% in the transport must
20066 transform the relative path into an appropriate absolute file name. In the case
20067 of Sieve filters, the name 'inbox' must be handled. It is the name that is
20068 used as a result of a ``keep'' action in the filter. This example shows one way
20069 of handling this requirement:
20072 file = ${if eq{$address_file}{inbox} \
20073 {/var/mail/$local_part} \
20074 {${if eq{${substr_0_1:$address_file}}{/} \
20076 {$home/mail/$address_file} \
20081 With this setting of %file%, 'inbox' refers to the standard mailbox location,
20082 absolute paths are used without change, and other folders are in the _mail_
20083 directory within the home directory.
20085 *Note 1*: While processing an Exim filter, a relative path such as
20086 _folder23_ is turned into an absolute path if a home directory is known to
20087 the router. In particular, this is the case if %check_local_user% is set. If
20088 you want to prevent this happening at routing time, you can set
20089 %router_home_directory% empty. This forces the router to pass the relative
20090 path to the transport.
20092 *Note 2*: An absolute path in $address_file$ is not treated specially;
20093 the %file% or %directory% option is still used if it is set.
20098 Private options for appendfile
20099 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
20100 cindex:[options,^appendfile^ transport]
20104 oindex:[%allow_fifo%]
20106 %allow_fifo%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20109 cindex:[fifo (named pipe)]
20110 cindex:[named pipe (fifo)]
20111 cindex:[pipe,named (fifo)]
20112 Setting this option permits delivery to named pipes (FIFOs) as well as to
20113 regular files. If no process is reading the named pipe at delivery time, the
20114 delivery is deferred.
20117 oindex:[%allow_symlink%]
20119 %allow_symlink%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20122 cindex:[symbolic link,to mailbox]
20123 cindex:[mailbox,symbolic link]
20124 By default, ^appendfile^ will not deliver if the path name for the file is
20125 that of a symbolic link. Setting this option relaxes that constraint, but there
20126 are security issues involved in the use of symbolic links. Be sure you know
20127 what you are doing if you set this. Details of exactly what this option affects
20128 are included in the discussion which follows this list of options.
20131 oindex:[%batch_id%]
20133 %batch_id%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20136 See the description of local delivery batching in chapter <<CHAPbatching>>.
20137 However, batching is automatically disabled for ^appendfile^ deliveries that
20138 happen as a result of forwarding or aliasing or other redirection directly to a
20142 oindex:[%batch_max%]
20144 %batch_max%, Use: 'appendfile', Type: 'integer', Default: '1'
20147 See the description of local delivery batching in chapter <<CHAPbatching>>.
20150 oindex:[%check_group%]
20152 %check_group%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20155 When this option is set, the group owner of the file defined by the %file%
20156 option is checked to see that it is the same as the group under which the
20157 delivery process is running. The default setting is false because the default
20158 file mode is 0600, which means that the group is irrelevant.
20161 oindex:[%check_owner%]
20163 %check_owner%, Use: 'appendfile', Type: 'boolean', Default: 'true'
20166 When this option is set, the owner of the file defined by the %file% option is
20167 checked to ensure that it is the same as the user under which the delivery
20168 process is running.
20171 oindex:[%check_string%]
20173 %check_string%, Use: 'appendfile', Type: 'string', Default: 'see below'
20176 cindex:[``From'' line]
20177 As ^appendfile^ writes the message, the start of each line is tested for
20178 matching %check_string%, and if it does, the initial matching characters are
20179 replaced by the contents of %escape_string%. The value of %check_string% is a
20180 literal string, not a regular expression, and the case of any letters it
20181 contains is significant.
20183 If %use_bsmtp% is set the values of %check_string% and %escape_string% are
20184 forced to ``.'' and ``..'' respectively, and any settings in the configuration are
20185 ignored. Otherwise, they default to ``From '' and ``>From '' when the %file% option
20186 is set, and unset when
20187 any of the %directory%, %maildir%, or %mailstore% options are set.
20189 The default settings, along with %message_prefix% and %message_suffix%, are
20190 suitable for traditional ``BSD'' mailboxes, where a line beginning with ``From
20191 '' indicates the start of a new message. All four options need changing if
20192 another format is used. For example, to deliver to mailboxes in MMDF format:
20193 cindex:[MMDF format mailbox]
20194 cindex:[mailbox,MMDF format]
20196 check_string = "\1\1\1\1\n"
20197 escape_string = "\1\1\1\1 \n"
20198 message_prefix = "\1\1\1\1\n"
20199 message_suffix = "\1\1\1\1\n"
20201 oindex:[%create_directory%]
20203 %create_directory%, Use: 'appendfile', Type: 'boolean', Default: 'true'
20206 cindex:[directory creation]
20207 When this option is true, Exim attempts to create any missing superior
20208 directories for the file that it is about to write. A created directory's mode
20209 is given by the %directory_mode% option.
20211 The group ownership of a newly created directory is highly dependent on the
20212 operating system (and possibly the file system) that is being used. For
20213 example, in Solaris, if the parent directory has the setgid bit set, its group
20214 is propagated to the child; if not, the currently set group is used. However,
20215 in FreeBSD, the parent's group is always used.
20219 oindex:[%create_file%]
20221 %create_file%, Use: 'appendfile', Type: 'string', Default: 'anywhere'
20224 This option constrains the location of files and directories that are created
20225 by this transport. It applies to files defined by the %file% option and
20226 directories defined by the %directory% option. In the case of maildir delivery,
20227 it applies to the top level directory, not the maildir directories beneath.
20229 The option must be set to one of the words ``anywhere'', ``inhome'', or
20230 ``belowhome''. In the second and third cases, a home directory must have been set
20231 for the transport. This option is not useful when an explicit file name is
20232 given for normal mailbox deliveries. It is intended for the case when file
20233 names are generated from users' _.forward_ files. These are usually handled
20234 by an ^appendfile^ transport called %address_file%. See also
20238 oindex:[%directory%]
20240 %directory%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20243 This option is mutually exclusive with the %file% option, but one of %file% or
20244 %directory% must be set, unless the delivery is the direct result of a
20245 redirection (see section <<SECTfildiropt>>).
20247 When %directory% is set, the string is expanded, and the message is delivered
20248 into a new file or files in or below the given directory, instead of being
20249 appended to a single mailbox file. A number of different formats are provided
20250 (see %maildir_format% and %mailstore_format%), and see section <<SECTopdir>>
20251 for further details of this form of delivery.
20254 oindex:[%directory_file%]
20256 %directory_file%, Use: 'appendfile', Type: 'string'!!, Default: `q\$\{base62{co}\$tod_epoch\}-\$inode`
20261 When %directory% is set, but neither %maildir_format% nor %mailstore_format%
20262 is set, ^appendfile^ delivers each message into a file whose name is obtained
20263 by expanding this string. The default value generates a unique name from the
20264 current time, in base 62 form, and the inode of the file. The variable
20265 $inode$ is available only when expanding this option.
20268 oindex:[%directory_mode%]
20270 %directory_mode%, Use: 'appendfile', Type: 'octal integer', Default: '0700'
20273 If ^appendfile^ creates any directories as a result of the %create_directory%
20274 option, their mode is specified by this option.
20277 oindex:[%escape_string%]
20279 %escape_string%, Use: 'appendfile', Type: 'string', Default: 'see description'
20282 See %check_string% above.
20287 %file%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20290 This option is mutually exclusive with the %directory% option, but one of
20291 %file% or %directory% must be set, unless the delivery is the direct result of
20292 a redirection (see section <<SECTfildiropt>>). The %file% option specifies a
20293 single file, to which the message is appended. One or more of
20294 %use_fcntl_lock%, %use_flock_lock%, or %use_lockfile% must be set with
20297 cindex:[NFS,lock file]
20298 cindex:[locking files]
20299 cindex:[lock files]
20300 If you are using more than one host to deliver over NFS into the same
20301 mailboxes, you should always use lock files.
20303 The string value is expanded for each delivery, and must yield an absolute
20304 path. The most common settings of this option are variations on one of these
20307 file = /var/spool/mail/$local_part
20308 file = /home/$local_part/inbox
20311 cindex:[``sticky'' bit]
20312 In the first example, all deliveries are done into the same directory. If Exim
20313 is configured to use lock files (see %use_lockfile% below) it must be able to
20314 create a file in the directory, so the ``sticky'' bit must be turned on for
20315 deliveries to be possible, or alternatively the %group% option can be used to
20316 run the delivery under a group id which has write access to the directory.
20320 oindex:[%file_format%]
20322 %file_format%, Use: 'appendfile', Type: 'string', Default: 'unset'
20325 cindex:[file,mailbox; checking existing format]
20326 This option requests the transport to check the format of an existing file
20327 before adding to it. The check consists of matching a specific string at the
20328 start of the file. The value of the option consists of an even number of
20329 colon-separated strings. The first of each pair is the test string, and the
20330 second is the name of a transport. If the transport associated with a matched
20331 string is not the current transport, control is passed over to the other
20332 transport. For example, suppose the standard ^local_delivery^ transport has
20336 file_format = "From : local_delivery :\
20337 \1\1\1\1\n : local_mmdf_delivery"
20340 Mailboxes that begin with ``From'' are still handled by this transport, but if a
20341 mailbox begins with four binary ones followed by a newline, control is passed
20342 to a transport called %local_mmdf_delivery%, which presumably is configured
20343 to do the delivery in MMDF format. If a mailbox does not exist or is empty, it
20344 is assumed to match the current transport. If the start of a mailbox doesn't
20345 match any string, or if the transport named for a given string is not defined,
20346 delivery is deferred.
20349 oindex:[%file_must_exist%]
20351 %file_must_exist%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20354 If this option is true, the file specified by the %file% option must exist, and
20355 an error occurs if it does not. Otherwise, it is created if it does not exist.
20358 oindex:[%lock_fcntl_timeout%]
20360 %lock_fcntl_timeout%, Use: 'appendfile', Type: 'time', Default: '0s'
20363 cindex:[timeout,mailbox locking]
20364 cindex:[mailbox locking,blocking and non-blocking]
20365 cindex:[locking files]
20366 By default, the ^appendfile^ transport uses non-blocking calls to 'fcntl()'
20367 when locking an open mailbox file. If the call fails, the delivery process
20368 sleeps for %lock_interval% and tries again, up to %lock_retries% times.
20369 Non-blocking calls are used so that the file is not kept open during the wait
20370 for the lock; the reason for this is to make it as safe as possible for
20371 deliveries over NFS in the case when processes might be accessing an NFS
20372 mailbox without using a lock file. This should not be done, but
20373 misunderstandings and hence misconfigurations are not unknown.
20375 On a busy system, however, the performance of a non-blocking lock approach is
20376 not as good as using a blocking lock with a timeout. In this case, the waiting
20377 is done inside the system call, and Exim's delivery process acquires the lock
20378 and can proceed as soon as the previous lock holder releases it.
20380 If %lock_fcntl_timeout% is set to a non-zero time, blocking locks, with that
20381 timeout, are used. There may still be some retrying: the maximum number of
20384 (lock_retries * lock_interval) / lock_fcntl_timeout
20386 rounded up to the next whole number. In other words, the total time during
20387 which ^appendfile^ is trying to get a lock is roughly the same, unless
20388 %lock_fcntl_timeout% is set very large.
20390 You should consider setting this option if you are getting a lot of delayed
20391 local deliveries because of errors of the form
20393 failed to lock mailbox /some/file (fcntl)
20397 oindex:[%lock_flock_timeout%]
20399 %lock_flock_timeout%, Use: 'appendfile', Type: 'time', Default: '0s'
20402 This timeout applies to file locking when using 'flock()' (see %use_flock%);
20403 the timeout operates in a similar manner to %lock_fcntl_timeout%.
20406 oindex:[%lock_interval%]
20408 %lock_interval%, Use: 'appendfile', Type: 'time', Default: '3s'
20411 This specifies the time to wait between attempts to lock the file. See below
20412 for details of locking.
20415 oindex:[%lock_retries%]
20417 %lock_retries%, Use: 'appendfile', Type: 'integer', Default: '10'
20420 This specifies the maximum number of attempts to lock the file. A value of zero
20421 is treated as 1. See below for details of locking.
20424 oindex:[%lockfile_mode%]
20426 %lockfile_mode%, Use: 'appendfile', Type: 'octal integer', Default: '0600'
20429 This specifies the mode of the created lock file, when a lock file is being
20430 used (see %use_lockfile%).
20433 oindex:[%lockfile_timeout%]
20435 %lockfile_timeout%, Use: 'appendfile', Type: 'time', Default: '30m'
20438 cindex:[timeout,mailbox locking]
20439 When a lock file is being used (see %use_lockfile%), if a lock file already
20440 exists and is older than this value, it is assumed to have been left behind by
20441 accident, and Exim attempts to remove it.
20444 oindex:[%mailbox_filecount%]
20446 %mailbox_filecount%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20449 cindex:[mailbox,specifying size of]
20450 cindex:[size,of mailbox]
20451 If this option is set, it is expanded, and the result is taken as the current
20452 number of files in the mailbox. It must be a decimal number, optionally
20453 followed by K or M. This provides a way of obtaining this information from an
20454 external source that maintains the data.
20457 oindex:[%mailbox_size%]
20459 %mailbox_size%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20462 cindex:[mailbox,specifying size of]
20463 cindex:[size,of mailbox]
20464 If this option is set, it is expanded, and the result is taken as the current
20465 size the mailbox. It must be a decimal number, optionally followed by K or M.
20466 This provides a way of obtaining this information from an external source that
20467 maintains the data. This is likely to be helpful for maildir deliveries where
20468 it is computationally expensive to compute the size of a mailbox.
20472 oindex:[%maildir_format%]
20474 %maildir_format%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20477 cindex:[maildir format,specifying]
20478 If this option is set with the %directory% option, the delivery is into a new
20479 file, in the ``maildir'' format that is used by other mail software. When the
20480 transport is activated directly from a ^redirect^ router (for example, the
20481 ^address_file^ transport in the default configuration), setting
20482 %maildir_format% causes the path received from the router to be treated as a
20483 directory, whether or not it ends with `/`. This option is available only if
20484 SUPPORT_MAILDIR is present in _Local/Makefile_. See section
20485 <<SECTmaildirdelivery>> below for further details.
20488 oindex:[%maildir_quota_directory_regex%]
20490 %maildir_quota_directory_regex%, Use: 'appendfile', Type: 'string', Default: 'See below'
20493 cindex:[maildir format,quota; directories included in]
20494 cindex:[quota,maildir; directories included in]
20495 This option is relevant only when %maildir_use_size_file% is set. It defines
20496 a regular expression for specifying directories that should be included in the
20497 quota calculation. The default value is
20499 maildir_quota_directory_regex = ^(?:cur|new|\..*)$
20501 which includes the _cur_ and _new_ directories, and any maildir++ folders
20502 (directories whose names begin with a dot). If you want to exclude the
20504 folder from the count (as some sites do), you need to change this setting to
20506 maildir_quota_directory_regex = ^(?:cur|new|\.(?!Trash).*)$
20508 This uses a negative lookahead in the regular expression to exclude the
20509 directory whose name is _.Trash_.
20512 oindex:[%maildir_retries%]
20514 %maildir_retries%, Use: 'appendfile', Type: 'integer', Default: '10'
20517 This option specifies the number of times to retry when writing a file in
20518 ``maildir'' format. See section <<SECTmaildirdelivery>> below.
20521 oindex:[%maildir_tag%]
20523 %maildir_tag%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20526 This option applies only to deliveries in maildir format, and is described in
20527 section <<SECTmaildirdelivery>> below.
20530 oindex:[%maildir_use_size_file%]
20532 %maildir_use_size_file%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20535 cindex:[maildir format,_maildirsize_ file]
20536 Setting this option true enables support for _maildirsize_ files. Exim
20537 creates a _maildirsize_ file in a maildir if one does not exist, taking the
20538 quota from the %quota% option of the transport. If %quota% is unset, the value
20539 is zero. See section <<SECTmaildirdelivery>> below for further details.
20542 oindex:[%mailstore_format%]
20544 %mailstore_format%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20547 cindex:[mailstore format,specifying]
20548 If this option is set with the %directory% option, the delivery is into two new
20549 files in ``mailstore'' format. The option is available only if
20550 SUPPORT_MAILSTORE is present in _Local/Makefile_. See section
20551 <<SECTopdir>> below for further details.
20554 oindex:[%mailstore_prefix%]
20556 %mailstore_prefix%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20559 This option applies only to deliveries in mailstore format, and is described in
20560 section <<SECTopdir>> below.
20563 oindex:[%mailstore_suffix%]
20565 %mailstore_suffix%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20568 This option applies only to deliveries in mailstore format, and is described in
20569 section <<SECTopdir>> below.
20572 oindex:[%mbx_format%]
20574 %mbx_format%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20577 cindex:[locking files]
20578 cindex:[file,locking]
20579 cindex:[file,MBX format]
20580 cindex:[MBX format, specifying]
20581 This option is available only if Exim has been compiled with SUPPORT_MBX
20582 set in _Local/Makefile_. If %mbx_format% is set with the %file% option,
20583 the message is appended to the mailbox file in MBX format instead of
20584 traditional Unix format. This format is supported by Pine4 and its associated
20585 IMAP and POP daemons, by means of the 'c-client' library that they all use.
20587 *Note*: The %message_prefix% and %message_suffix% options are not
20588 automatically changed by the use of %mbx_format%. They should normally be set
20589 empty when using MBX format, so this option almost always appears in this
20597 If none of the locking options are mentioned in the configuration,
20598 %use_mbx_lock% is assumed and the other locking options default to false. It
20599 is possible to specify the other kinds of locking with %mbx_format%, but
20600 %use_fcntl_lock% and %use_mbx_lock% are mutually exclusive. MBX locking
20601 interworks with 'c-client', providing for shared access to the mailbox. It
20602 should not be used if any program that does not use this form of locking is
20603 going to access the mailbox, nor should it be used if the mailbox file is NFS
20604 mounted, because it works only when the mailbox is accessed from a single host.
20606 If you set %use_fcntl_lock% with an MBX-format mailbox, you cannot use
20607 the standard version of 'c-client', because as long as it has a mailbox open
20608 (this means for the whole of a Pine or IMAP session), Exim will not be able to
20609 append messages to it.
20612 oindex:[%message_prefix%]
20614 %message_prefix%, Use: 'appendfile', Type: 'string'!!, Default: 'see below'
20617 cindex:[``From'' line]
20618 The string specified here is expanded and output at the start of every message.
20619 The default is unset unless %file% is specified and %use_bsmtp% is not set, in
20623 message_prefix = "From ${if def:return_path{$return_path}\
20624 {MAILER-DAEMON}} $tod_bsdinbox\n"
20629 oindex:[%message_suffix%]
20631 %message_suffix%, Use: 'appendfile', Type: 'string'!!, Default: 'see below'
20634 The string specified here is expanded and output at the end of every message.
20635 The default is unset unless %file% is specified and %use_bsmtp% is not set, in
20636 which case it is a single newline character. The suffix can be suppressed by
20645 %mode%, Use: 'appendfile', Type: 'octal integer', Default: '0600'
20648 If the output file is created, it is given this mode. If it already exists and
20649 has wider permissions, they are reduced to this mode. If it has narrower
20650 permissions, an error occurs unless %mode_fail_narrower% is false. However,
20651 if the delivery is the result of a %save% command in a filter file specifing a
20652 particular mode, the mode of the output file is always forced to take that
20653 value, and this option is ignored.
20656 oindex:[%mode_fail_narrower%]
20658 %mode_fail_narrower%, Use: 'appendfile', Type: 'boolean', Default: 'true'
20661 This option applies in the case when an existing mailbox file has a narrower
20662 mode than that specified by the %mode% option. If %mode_fail_narrower% is
20663 true, the delivery is deferred (``mailbox has the wrong mode''); otherwise Exim
20664 continues with the delivery attempt, using the existing mode of the file.
20667 oindex:[%notify_comsat%]
20669 %notify_comsat%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20672 If this option is true, the 'comsat' daemon is notified after every successful
20673 delivery to a user mailbox. This is the daemon that notifies logged on users
20674 about incoming mail.
20679 %quota%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20682 cindex:[quota,imposed by Exim]
20683 This option imposes a limit on the size of the file to which Exim is appending,
20684 or to the total space used in the directory tree when the %directory% option is
20685 set. In the latter case, computation of the space used is expensive, because
20686 all the files in the directory (and any sub-directories) have to be
20687 individually inspected and their sizes summed.
20688 (See %quota_size_regex% and %maildir_use_size_file% for ways to avoid this
20689 in environments where users have no shell access to their mailboxes).
20691 As there is no interlock against two simultaneous deliveries into a
20692 multi-file mailbox, it is possible for the quota to be overrun in this case.
20693 For single-file mailboxes, of course, an interlock is a necessity.
20695 A file's size is taken as its 'used' value. Because of blocking effects, this
20696 may be a lot less than the actual amount of disk space allocated to the file.
20697 If the sizes of a number of files are being added up, the rounding effect can
20698 become quite noticeable, especially on systems that have large block sizes.
20699 Nevertheless, it seems best to stick to the 'used' figure, because this is
20700 the obvious value which users understand most easily.
20702 [revisionflag="changed"]
20703 The value of the option is expanded, and must then be a numerical value
20704 (decimal point allowed), optionally followed by one of the letters K, M, or G,
20705 for kilobytes, megabytes, or gigabytes. If Exim is running on a system with
20706 large file support (Linux and FreeBSD have this), mailboxes larger than 2G can
20709 *Note*: A value of zero is interpreted as ``no quota''.
20711 The expansion happens while Exim is running as root, before it changes uid for
20712 the delivery. This means that files that are inaccessible to the end user can
20713 be used to hold quota values that are looked up in the expansion. When delivery
20714 fails because this quota is exceeded, the handling of the error is as for
20715 system quota failures.
20717 By default, Exim's quota checking mimics system quotas, and restricts the
20718 mailbox to the specified maximum size, though the value is not accurate to the
20719 last byte, owing to separator lines and additional headers that may get added
20720 during message delivery. When a mailbox is nearly full, large messages may get
20721 refused even though small ones are accepted, because the size of the current
20722 message is added to the quota when the check is made. This behaviour can be
20723 changed by setting %quota_is_inclusive% false. When this is done, the check
20724 for exceeding the quota does not include the current message. Thus, deliveries
20725 continue until the quota has been exceeded; thereafter, no further messages are
20726 delivered. See also %quota_warn_threshold%.
20729 oindex:[%quota_directory%]
20731 %quota_directory%, Use: 'appendfile', Type: 'string'!!, Default: 'unset'
20734 This option defines the directory to check for quota purposes when delivering
20735 into individual files. The default is the delivery directory, or, if a file
20736 called _maildirfolder_ exists in a maildir directory, the parent of the
20737 delivery directory.
20740 oindex:[%quota_filecount%]
20742 %quota_filecount%, Use: 'appendfile', Type: 'string'!!, Default: '0'
20745 This option applies when the %directory% option is set. It limits the total
20746 number of files in the directory (compare the inode limit in system quotas). It
20747 can only be used if %quota% is also set. The value is expanded; an expansion
20748 failure causes delivery to be deferred.
20751 oindex:[%quota_is_inclusive%]
20753 %quota_is_inclusive%, Use: 'appendfile', Type: 'boolean', Default: 'true'
20759 oindex:[%quota_size_regex%]
20761 %quota_size_regex%, Use: 'appendfile', Type: 'string', Default: 'unset'
20764 This option applies when one of the delivery modes that writes a separate file
20765 for each message is being used. When Exim wants to find the size of one of
20766 these files in order to test the quota, it first checks %quota_size_regex%.
20767 If this is set to a regular expression that matches the file name, and it
20768 captures one string, that string is interpreted as a representation of the
20769 file's size. The value of %quota_size_regex% is not expanded.
20771 This feature is useful only when users have no shell access to their mailboxes
20772 -- otherwise they could defeat the quota simply by renaming the files. This
20773 facility can be used with maildir deliveries, by setting %maildir_tag% to add
20774 the file length to the file name. For example:
20776 maildir_tag = ,S=$message_size
20777 quota_size_regex = ,S=(\d+)
20779 [revisionflag="changed"]
20780 An alternative to $message_size$ is $message_linecount$, which contains the
20781 number of lines in the message.
20783 The regular expression should not assume that the length is at the end of the
20784 file name (even though %maildir_tag% puts it there) because maildir MUAs
20785 sometimes add other information onto the ends of message file names.
20789 oindex:[%quota_warn_message%]
20791 %quota_warn_message%, Use: 'appendfile', Type: 'string'!!, Default: 'see below'
20794 See below for the use of this option. If it is not set when
20795 %quota_warn_threshold% is set, it defaults to
20798 quota_warn_message = "\
20799 To: $local_part@$domain\n\
20800 Subject: Your mailbox\n\n\
20801 This message is automatically created \
20802 by mail delivery software.\n\n\
20803 The size of your mailbox has exceeded \
20804 a warning threshold that is\n\
20805 set by the system administrator.\n"
20810 oindex:[%quota_warn_threshold%]
20812 %quota_warn_threshold%, Use: 'appendfile', Type: 'string'!!, Default: '0'
20815 cindex:[quota,warning threshold]
20816 cindex:[mailbox,size warning]
20817 cindex:[size,of mailbox]
20818 This option is expanded in the same way as %quota% (see above). If the
20819 resulting value is greater than zero, and delivery of the message causes the
20820 size of the file or total space in the directory tree to cross the given
20821 threshold, a warning message is sent. If %quota% is also set, the threshold may
20822 be specified as a percentage of it by following the value with a percent sign.
20826 quota_warn_threshold = 75%
20828 If %quota% is not set, a setting of %quota_warn_threshold% that ends with a
20829 percent sign is ignored.
20831 [revisionflag="changed"]
20832 The warning message itself is specified by the %quota_warn_message% option,
20833 and it must start with a 'To:' header line containing the recipient(s) of the
20834 warning message. These do not necessarily have to include the recipient(s) of
20835 the original message. A 'Subject:' line should also normally be supplied. You
20836 can include any other header lines that you want.
20838 The %quota% option does not have to be set in order to use this option; they
20839 are independent of one another except when the threshold is specified as a
20843 oindex:[%use_bsmtp%]
20845 %use_bsmtp%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20848 cindex:[envelope sender]
20849 If this option is set true, ^appendfile^ writes messages in ``batch SMTP''
20850 format, with the envelope sender and recipient(s) included as SMTP commands. If
20851 you want to include a leading HELO command with such messages, you can do
20852 so by setting the %message_prefix% option. See section <<SECTbatchSMTP>> for
20853 details of batch SMTP.
20856 oindex:[%use_crlf%]
20858 %use_crlf%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20861 cindex:[carriage return]
20863 This option causes lines to be terminated with the two-character CRLF sequence
20864 (carriage return, linefeed) instead of just a linefeed character. In the case
20865 of batched SMTP, the byte sequence written to the file is then an exact image
20866 of what would be sent down a real SMTP connection.
20868 The contents of the %message_prefix% and %message_suffix% options are written
20869 verbatim, so must contain their own carriage return characters if these are
20870 needed. In cases where these options have non-empty defaults, the values end
20871 with a single linefeed, so they
20873 be changed to end with `\r\n` if %use_crlf% is set.
20876 oindex:[%use_fcntl_lock%]
20878 %use_fcntl_lock%, Use: 'appendfile', Type: 'boolean', Default: 'see below'
20881 This option controls the use of the 'fcntl()' function to lock a file for
20882 exclusive use when a message is being appended. It is set by default unless
20883 %use_flock_lock% is set. Otherwise, it should be turned off only if you know
20884 that all your MUAs use lock file locking. When both %use_fcntl_lock% and
20885 %use_flock_lock% are unset, %use_lockfile% must be set.
20888 oindex:[%use_flock_lock%]
20890 %use_flock_lock%, Use: 'appendfile', Type: 'boolean', Default: 'false'
20893 This option is provided to support the use of 'flock()' for file locking, for
20894 the few situations where it is needed. Most modern operating systems support
20895 'fcntl()' and 'lockf()' locking, and these two functions interwork with
20896 each other. Exim uses 'fcntl()' locking by default.
20898 This option is required only if you are using an operating system where
20899 'flock()' is used by programs that access mailboxes (typically MUAs), and
20900 where 'flock()' does not correctly interwork with 'fcntl()'. You can use
20901 both 'fcntl()' and 'flock()' locking simultaneously if you want.
20903 cindex:[Solaris,'flock()' support]
20904 Not all operating systems provide 'flock()'. Some versions of Solaris do not
20905 have it (and some, I think, provide a not quite right version built on top of
20906 'lockf()'). If the OS does not have 'flock()', Exim will be built without
20907 the ability to use it, and any attempt to do so will cause a configuration
20910 *Warning*: 'flock()' locks do not work on NFS files (unless 'flock()'
20911 is just being mapped onto 'fcntl()' by the OS).
20914 oindex:[%use_lockfile%]
20916 %use_lockfile%, Use: 'appendfile', Type: 'boolean', Default: 'see below'
20919 If this option is turned off, Exim does not attempt to create a lock file when
20920 appending to a mailbox file. In this situation, the only locking is by
20921 'fcntl()'. You should only turn %use_lockfile% off if you are absolutely
20922 sure that every MUA that is ever going to look at your users' mailboxes uses
20923 'fcntl()' rather than a lock file, and even then only when you are not
20924 delivering over NFS from more than one host.
20926 cindex:[NFS,lock file]
20927 In order to append to an NFS file safely from more than one host, it is
20928 necessary to take out a lock 'before' opening the file, and the lock file
20929 achieves this. Otherwise, even with 'fcntl()' locking, there is a risk of
20932 The %use_lockfile% option is set by default unless %use_mbx_lock% is set. It
20933 is not possible to turn both %use_lockfile% and %use_fcntl_lock% off, except
20934 when %mbx_format% is set.
20937 oindex:[%use_mbx_lock%]
20939 %use_mbx_lock%, Use: 'appendfile', Type: 'boolean', Default: 'see below'
20942 This option is available only if Exim has been compiled with SUPPORT_MBX
20943 set in _Local/Makefile_. Setting the option specifies that special MBX
20944 locking rules be used. It is set by default if %mbx_format% is set and none of
20945 the locking options are mentioned in the configuration. The locking rules are
20946 the same as are used by the 'c-client' library that underlies Pine and the
20947 IMAP4 and POP daemons that come with it (see the discussion below). The rules
20948 allow for shared access to the mailbox. However, this kind of locking does not
20949 work when the mailbox is NFS mounted.
20951 You can set %use_mbx_lock% with either (or both) of %use_fcntl_lock% and
20952 %use_flock_lock% to control what kind of locking is used in implementing the
20953 MBX locking rules. The default is to use 'fcntl()' if %use_mbx_lock% is set
20954 without %use_fcntl_lock% or %use_flock_lock%.
20960 Operational details for appending
20961 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
20962 cindex:[appending to a file]
20963 cindex:[file,appending]
20964 Before appending to a file, the following preparations are made:
20966 - If the name of the file is _/dev/null_, no action is taken, and a success
20969 - cindex:[directory creation]
20970 If any directories on the file's path are missing, Exim creates them if the
20971 %create_directory% option is set. A created directory's mode is given by the
20972 %directory_mode% option.
20974 - If %file_format% is set, the format of an existing file is checked. If this
20975 indicates that a different transport should be used, control is passed to that
20978 - cindex:[file,locking]
20979 cindex:[locking files]
20980 cindex:[NFS,lock file]
20981 If %use_lockfile% is set, a lock file is built in a way that will work
20982 reliably over NFS, as follows:
20985 . Create a ``hitching post'' file whose name is that of the lock file with the
20986 current time, primary host name, and process id added, by opening for writing
20987 as a new file. If this fails with an access error, delivery is deferred.
20989 . Close the hitching post file, and hard link it to the lock file name.
20991 . If the call to 'link()' succeeds, creation of the lock file has succeeded.
20992 Unlink the hitching post name.
20994 . Otherwise, use 'stat()' to get information about the hitching post file, and
20995 then unlink hitching post name. If the number of links is exactly two, creation
20996 of the lock file succeeded but something (for example, an NFS server crash and
20997 restart) caused this fact not to be communicated to the 'link()' call.
20999 . If creation of the lock file failed, wait for %lock_interval% and try again,
21000 up to %lock_retries% times. However, since any program that writes to a
21001 mailbox should complete its task very quickly, it is reasonable to time out old
21002 lock files that are normally the result of user agent and system crashes. If an
21003 existing lock file is older than %lockfile_timeout% Exim attempts to unlink it
21004 before trying again.
21007 - A call is made to 'lstat()' to discover whether the main file exists, and if
21008 so, what its characteristics are. If 'lstat()' fails for any reason other
21009 than non-existence, delivery is deferred.
21011 - cindex:[symbolic link,to mailbox]
21012 cindex:[mailbox,symbolic link]
21013 If the file does exist and is a symbolic link, delivery is deferred, unless the
21014 %allow_symlink% option is set, in which case the ownership of the link is
21015 checked, and then 'stat()' is called to find out about the real file, which
21016 is then subjected to the checks below. The check on the top-level link
21017 ownership prevents one user creating a link for another's mailbox in a sticky
21018 directory, though allowing symbolic links in this case is definitely not a good
21019 idea. If there is a chain of symbolic links, the intermediate ones are not
21022 - If the file already exists but is not a regular file, or if the file's owner
21023 and group (if the group is being checked -- see %check_group% above) are
21024 different from the user and group under which the delivery is running,
21025 delivery is deferred.
21027 - If the file's permissions are more generous than specified, they are reduced.
21028 If they are insufficient, delivery is deferred, unless %mode_fail_narrower%
21029 is set false, in which case the delivery is tried using the existing
21032 - The file's inode number is saved, and the file is then opened for appending.
21033 If this fails because the file has vanished, ^appendfile^ behaves as if it
21034 hadn't existed (see below). For any other failures, delivery is deferred.
21036 - If the file is opened successfully, check that the inode number hasn't
21037 changed, that it is still a regular file, and that the owner and permissions
21038 have not changed. If anything is wrong, defer delivery and freeze the message.
21040 - If the file did not exist originally, defer delivery if the %file_must_exist%
21041 option is set. Otherwise, check that the file is being created in a permitted
21042 directory if the %create_file% option is set (deferring on failure), and then
21043 open for writing as a new file, with the O_EXCL and O_CREAT options,
21044 except when dealing with a symbolic link (the %allow_symlink% option must be
21045 set). In this case, which can happen if the link points to a non-existent file,
21046 the file is opened for writing using O_CREAT but not O_EXCL, because
21047 that prevents link following.
21049 - cindex:[loop,while file testing]
21050 If opening fails because the file exists, obey the tests given above for
21051 existing files. However, to avoid looping in a situation where the file is
21052 being continuously created and destroyed, the exists/not-exists loop is broken
21053 after 10 repetitions, and the message is then frozen.
21055 - If opening fails with any other error, defer delivery.
21057 - cindex:[file,locking]
21058 cindex:[locking files]
21059 Once the file is open, unless both %use_fcntl_lock% and %use_flock_lock%
21060 are false, it is locked using 'fcntl()' or 'flock()' or both. If
21061 %use_mbx_lock% is false, an exclusive lock is requested in each case.
21062 However, if %use_mbx_lock% is true,
21063 Exim takes out a shared lock on the open file,
21064 and an exclusive lock on the file whose name is
21066 /tmp/.<device-number>.<inode-number>
21068 using the device and inode numbers of the open mailbox file, in accordance with
21069 the MBX locking rules.
21071 If Exim fails to lock the file, there are two possible courses of action,
21072 depending on the value of the locking timeout. This is obtained from
21073 %lock_fcntl_timeout% or %lock_flock_timeout%, as appropriate.
21075 If the timeout value is zero, the file is closed, Exim waits for
21076 %lock_interval%, and then goes back and re-opens the file as above and tries
21077 to lock it again. This happens up to %lock_retries% times, after which the
21078 delivery is deferred.
21080 If the timeout has a value greater than zero, blocking calls to 'fcntl()' or
21081 'flock()' are used (with the given timeout), so there has already been some
21082 waiting involved by the time locking fails. Nevertheless, Exim does not give up
21083 immediately. It retries up to
21085 (lock_retries * lock_interval) / <timeout>
21087 times (rounded up).
21090 At the end of delivery, Exim closes the file (which releases the 'fcntl()'
21091 and/or 'flock()' locks) and then deletes the lock file if one was created.
21095 Operational details for delivery to a new file
21096 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
21097 cindex:[delivery,to single file]
21098 cindex:[``From'' line]
21099 When the %directory% option is set instead of %file%, each message is delivered
21100 into a newly-created file or set of files. When ^appendfile^ is activated
21101 directly from a ^redirect^ router, neither %file% nor %directory% is normally
21102 set, because the path for delivery is supplied by the router. (See for example,
21103 the ^address_file^ transport in the default configuration.) In this case,
21104 delivery is to a new file if either the path name ends in `/`, or the
21105 %maildir_format% or %mailstore_format% option is set.
21107 No locking is required while writing the message to a new file, so the various
21108 locking options of the transport are ignored. The ``From'' line that by default
21109 separates messages in a single file is not normally needed, nor is the escaping
21110 of message lines that start with ``From'', and there is no need to ensure a
21111 newline at the end of each message. Consequently, the default values for
21112 %check_string%, %message_prefix%, and %message_suffix% are all unset when
21113 any of %directory%, %maildir_format%, or %mailstore_format% is set.
21115 If Exim is required to check a %quota% setting, it adds up the sizes of all the
21116 files in the delivery directory by default. However, you can specify a
21117 different directory by setting %quota_directory%. Also, for maildir deliveries
21118 (see below) the _maildirfolder_ convention is honoured.
21121 cindex:[maildir format]
21122 cindex:[mailstore format]
21123 There are three different ways in which delivery to individual files can be
21124 done, controlled by the settings of the %maildir_format% and
21125 %mailstore_format% options. Note that code to support maildir or mailstore
21126 formats is not included in the binary unless SUPPORT_MAILDIR or
21127 SUPPORT_MAILSTORE, respectively, is set in _Local/Makefile_.
21129 cindex:[directory creation]
21130 In all three cases an attempt is made to create the directory and any necessary
21131 sub-directories if they do not exist, provided that the %create_directory%
21132 option is set (the default). The location of a created directory can be
21133 constrained by setting %create_file%. A created directory's mode is given by
21134 the %directory_mode% option. If creation fails, or if the %create_directory%
21135 option is not set when creation is required, delivery is deferred.
21139 [[SECTmaildirdelivery]]
21142 cindex:[maildir format,description of]
21143 If the %maildir_format% option is true, Exim delivers each message by writing
21144 it to a file whose name is _tmp/<stime>.H<mtime>P<pid>.<host>_ in the
21145 given directory. If the delivery is successful, the file is renamed into the
21146 _new_ subdirectory.
21148 In the file name, <'stime'> is the current time of day in seconds, and
21149 <'mtime'> is the microsecond fraction of the time. After a maildir delivery,
21150 Exim checks that the time-of-day clock has moved on by at least one microsecond
21151 before terminating the delivery process. This guarantees uniqueness for the
21152 file name. However, as a precaution, Exim calls 'stat()' for the file before
21153 opening it. If any response other than ENOENT (does not exist) is given,
21154 Exim waits 2 seconds and tries again, up to %maildir_retries% times.
21156 cindex:[quota,in maildir delivery]
21158 If Exim is required to check a %quota% setting before a maildir delivery, and
21159 %quota_directory% is not set, it looks for a file called _maildirfolder_ in
21160 the maildir directory (alongside _new_, _cur_, _tmp_). If this exists,
21161 Exim assumes the directory is a maildir++ folder directory, which is one level
21162 down from the user's top level mailbox directory. This causes it to start at
21163 the parent directory instead of the current directory when calculating the
21164 amount of space used.
21166 One problem with delivering into a multi-file mailbox is that it is
21167 computationally expensive to compute the size of the mailbox for quota
21168 checking. Various approaches have been taken to reduce the amount of work
21169 needed. The next two sections describe two of them. A third alternative is to
21170 use some external process for maintaining the size data, and use the expansion
21171 of the %mailbox_size% option as a way of importing it into Exim.
21176 Using tags to record message sizes
21177 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
21178 If %maildir_tag% is set, the string is expanded for each delivery.
21179 When the maildir file is renamed into the _new_ sub-directory, the
21180 tag is added to its name. However, if adding the tag takes the length of the
21181 name to the point where the test 'stat()' call fails with ENAMETOOLONG,
21182 the tag is dropped and the maildir file is created with no tag.
21184 cindex:[$message_size$]
21185 Tags can be used to encode the size of files in their names; see
21186 %quota_size_regex% above for an example. The expansion of %maildir_tag% happens
21187 after the message has been written. The value of the $message_size$ variable is
21188 set to the number of bytes actually written. If the expansion is forced to
21189 fail, the tag is ignored, but a non-forced failure causes delivery to be
21190 deferred. The expanded tag may contain any printing characters except ``/''.
21191 Non-printing characters in the string are ignored; if the resulting string is
21192 empty, it is ignored. If it starts with an alphanumeric character, a leading
21197 Using a maildirsize file
21198 ~~~~~~~~~~~~~~~~~~~~~~~~
21199 cindex:[quota,in maildir delivery]
21200 cindex:[maildir format,_maildirsize_ file]
21201 If %maildir_use_size_file% is true, Exim implements the maildir++ rules for
21202 storing quota and message size information in a file called _maildirsize_
21203 within the maildir directory. If this file does not exist, Exim creates it,
21204 setting the quota from the %quota% option of the transport. If the maildir
21205 directory itself does not exist, it is created before any attempt to write a
21206 _maildirsize_ file.
21208 The _maildirsize_ file is used to hold information about the sizes of
21209 messages in the maildir, thus speeding up quota calculations. The quota value
21210 in the file is just a cache; if the quota is changed in the transport, the new
21211 value overrides the cached value when the next message is delivered. The cache
21212 is maintained for the benefit of other programs that access the maildir and
21213 need to know the quota.
21215 If the %quota% option in the transport is unset or zero, the _maildirsize_
21216 file is maintained (with a zero quota setting), but no quota is imposed.
21218 A regular expression is available for controlling which directories in the
21219 maildir participate in quota calculations. See the description of the
21220 %maildir_quota_directory_regex% option above for details.
21226 cindex:[mailstore format,description of]
21227 If the %mailstore_format% option is true, each message is written as two files
21228 in the given directory. A unique base name is constructed from the message id
21229 and the current delivery process, and the files that are written use this base
21230 name plus the suffixes _.env_ and _.msg_. The _.env_ file contains the
21231 message's envelope, and the _.msg_ file contains the message itself. The base
21232 name is placed in the variable $mailstore_basename$.
21234 During delivery, the envelope is first written to a file with the suffix
21235 _.tmp_. The _.msg_ file is then written, and when it is complete, the
21236 _.tmp_ file is renamed as the _.env_ file. Programs that access messages in
21237 mailstore format should wait for the presence of both a _.msg_ and a _.env_
21238 file before accessing either of them. An alternative approach is to wait for
21239 the absence of a _.tmp_ file.
21241 The envelope file starts with any text defined by the %mailstore_prefix%
21242 option, expanded and terminated by a newline if there isn't one. Then follows
21243 the sender address on one line, then all the recipient addresses, one per line.
21244 There can be more than one recipient only if the %batch_max% option is set
21245 greater than one. Finally, %mailstore_suffix% is expanded and the result
21246 appended to the file, followed by a newline if it does not end with one.
21248 [revisionflag="changed"]
21249 If expansion of %mailstore_prefix% or %mailstore_suffix% ends with a forced
21250 failure, it is ignored. Other expansion errors are treated as serious
21251 configuration errors, and delivery is deferred. The variable
21252 $mailstore_basename$ is available for use during these expansions.
21256 Non-special new file delivery
21257 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
21258 If neither %maildir_format% nor %mailstore_format% is set, a single new file
21259 is created directly in the named directory. For example, when delivering
21260 messages into files in batched SMTP format for later delivery to some host (see
21261 section <<SECTbatchSMTP>>), a setting such as
21263 directory = /var/bsmtp/$host
21265 might be used. A message is written to a file with a temporary name, which is
21266 then renamed when the delivery is complete. The final name is obtained by
21267 expanding the contents of the %directory_file% option.
21274 ////////////////////////////////////////////////////////////////////////////
21275 ////////////////////////////////////////////////////////////////////////////
21277 The autoreply transport
21278 -----------------------
21279 cindex:[transports,^autoreply^]
21280 cindex:[^autoreply^ transport]
21281 The ^autoreply^ transport is not a true transport in that it does not cause
21282 the message to be transmitted. Instead, it generates a new mail message.
21284 If the router that passes the message to this transport does not have the
21285 %unseen% option set, the original message (for the current recipient) is not
21286 delivered anywhere. However, when the %unseen% option is set on the router that
21287 passes the message to this transport, routing of the address continues, so
21288 another router can set up a normal message delivery.
21291 The ^autoreply^ transport is usually run as the result of mail filtering, a
21292 ``vacation'' message being the standard example. However, it can also be run
21293 directly from a router like any other transport. To reduce the possibility of
21294 message cascades, messages created by the ^autoreply^ transport always have
21295 empty envelope sender addresses, like bounce messages.
21297 The parameters of the message to be sent can be specified in the configuration
21298 by options described below. However, these are used only when the address
21299 passed to the transport does not contain its own reply information. When the
21300 transport is run as a consequence of a
21302 or %vacation% command in a filter file, the parameters of the message are
21303 supplied by the filter, and passed with the address. The transport's options
21304 that define the message are then ignored (so they are not usually set in this
21305 case). The message is specified entirely by the filter or by the transport; it
21306 is never built from a mixture of options. However, the %file_optional%,
21307 %mode%, and %return_message% options apply in all cases.
21309 ^Autoreply^ is implemented as a local transport. When used as a result of a
21310 command in a user's filter file, ^autoreply^ normally runs under the uid and
21311 gid of the user, and with appropriate current and home directories (see chapter
21312 <<CHAPenvironment>>).
21314 There is a subtle difference between routing a message to a ^pipe^ transport
21315 that generates some text to be returned to the sender, and routing it to an
21316 ^autoreply^ transport. This difference is noticeable only if more than one
21317 address from the same message is so handled. In the case of a pipe, the
21318 separate outputs from the different addresses are gathered up and returned to
21319 the sender in a single message, whereas if ^autoreply^ is used, a separate
21320 message is generated for each address that is passed to it.
21322 Non-printing characters are not permitted in the header lines generated for the
21323 message that ^autoreply^ creates, with the exception of newlines that are
21324 immediately followed by white space. If any non-printing characters are found,
21325 the transport defers.
21326 Whether characters with the top bit set count as printing characters or not is
21327 controlled by the %print_topbitchars% global option.
21329 If any of the generic options for manipulating headers (for example,
21330 %headers_add%) are set on an ^autoreply^ transport, they apply to the copy of
21331 the original message that is included in the generated message when
21332 %return_message% is set. They do not apply to the generated message itself.
21334 cindex:[$sender_address$]
21335 If the ^autoreply^ transport receives return code 2 from Exim when it submits
21336 the message, indicating that there were no recipients, it does not treat this
21337 as an error. This means that autoreplies sent to $sender_address$ when this
21338 is empty (because the incoming message is a bounce message) do not cause
21339 problems. They are just discarded.
21343 Private options for autoreply
21344 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
21345 cindex:[options,^autoreply^ transport]
21349 %bcc%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21352 This specifies the addresses that are to receive ``blind carbon copies'' of the
21353 message when the message is specified by the transport.
21358 %cc%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21361 This specifies recipients of the message and the contents of the 'Cc:' header
21362 when the message is specified by the transport.
21367 %file%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21370 The contents of the file are sent as the body of the message when the message
21371 is specified by the transport. If both %file% and %text% are set, the text
21372 string comes first.
21375 oindex:[%file_expand%]
21377 %file_expand%, Use: 'autoreply', Type: 'boolean', Default: 'false'
21380 If this is set, the contents of the file named by the %file% option are
21381 subjected to string expansion as they are added to the message.
21384 oindex:[%file_optional%]
21386 %file_optional%, Use: 'autoreply', Type: 'boolean', Default: 'false'
21389 If this option is true, no error is generated if the file named by the %file%
21390 option or passed with the address does not exist or cannot be read.
21395 %from%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21398 This specifies the contents of the 'From:' header when the message is specified
21404 %headers%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21407 This specifies additional RFC 2822 headers that are to be added to the message when
21408 the message is specified by the transport. Several can be given by using ``\n''
21409 to separate them. There is no check on the format.
21414 %log%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21417 This option names a file in which a record of every message sent is logged when
21418 the message is specified by the transport.
21423 %mode%, Use: 'autoreply', Type: 'octal integer', Default: '0600'
21426 If either the log file or the ``once'' file has to be created, this mode is
21430 oindex:[%never_mail%]
21432 %never_mail%, Use: 'autoreply', Type: 'address list'!!, Default: 'unset'
21435 If any run of the transport creates a message with a recipient that matches any
21436 item in the list, that recipient is quietly discarded. If all recipients are
21437 discarded, no message is created.
21443 %once%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21446 This option names a file or DBM database in which a record of each 'To:'
21447 recipient is kept when the message is specified by the transport. *Note*: This
21448 does not apply to 'Cc:' or 'Bcc:' recipients.
21450 If %once% is unset, or is set to an empty string, the message is always sent.
21451 By default, if %once% is set to a non-empty file name, the message
21452 is not sent if a potential recipient is already listed in the database.
21453 However, if the %once_repeat% option specifies a time greater than zero, the
21454 message is sent if that much time has elapsed since a message was last sent to
21455 this recipient. A setting of zero time for %once_repeat% (the default) prevents
21456 a message from being sent a second time -- in this case, zero means infinity.
21458 If %once_file_size% is zero, a DBM database is used to remember recipients, and
21459 it is allowed to grow as large as necessary. If %once_file_size% is set greater
21460 than zero, it changes the way Exim implements the %once% option. Instead of
21461 using a DBM file to record every recipient it sends to, it uses a regular file,
21462 whose size will never get larger than the given value.
21464 In the file, Exim keeps a linear list of recipient addresses and the times at
21465 which they were sent messages. If the file is full when a new address needs to
21466 be added, the oldest address is dropped. If %once_repeat% is not set, this
21467 means that a given recipient may receive multiple messages, but at
21468 unpredictable intervals that depend on the rate of turnover of addresses in the
21469 file. If %once_repeat% is set, it specifies a maximum time between repeats.
21472 oindex:[%once_file_size%]
21474 %once_file_size%, Use: 'autoreply', Type: 'integer', Default: '0'
21480 oindex:[%once_repeat%]
21482 %once_repeat%, Use: 'autoreply', Type: 'time'!!, Default: '0s'
21486 After expansion, the value of this option must be a valid time value.
21489 oindex:[%reply_to%]
21491 %reply_to%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21494 This specifies the contents of the 'Reply-To:' header when the message is
21495 specified by the transport.
21498 oindex:[%return_message%]
21500 %return_message%, Use: 'autoreply', Type: 'boolean', Default: 'false'
21503 If this is set, a copy of the original message is returned with the new
21504 message, subject to the maximum size set in the %return_size_limit% global
21505 configuration option.
21510 %subject%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21513 This specifies the contents of the 'Subject:' header when the message is
21514 specified by the transport.
21516 It is tempting to quote the original subject in automatic responses. For
21519 subject = Re: $h_subject:
21521 There is a danger in doing this, however. It may allow a third party to
21522 subscribe your users to an opt-in mailing list, provided that the list accepts
21523 bounce messages as subscription confirmations. Well-managed lists require a
21524 non-bounce message to confirm a subscription, so the danger is relatively
21531 %text%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21534 This specifies a single string to be used as the body of the message when the
21535 message is specified by the transport. If both %text% and %file% are set, the
21541 %to%, Use: 'autoreply', Type: 'string'!!, Default: 'unset'
21544 This specifies recipients of the message and the contents of the 'To:' header
21545 when the message is specified by the transport.
21550 ////////////////////////////////////////////////////////////////////////////
21551 ////////////////////////////////////////////////////////////////////////////
21556 cindex:[transports,^lmtp^]
21557 cindex:[^lmtp^ transport]
21558 cindex:[LMTP,over a pipe]
21559 cindex:[LMTP,over a socket]
21560 The ^lmtp^ transport runs the LMTP protocol (RFC 2033) over a pipe to a
21562 or by interacting with a Unix domain socket.
21563 This transport is something of a cross between the ^pipe^ and ^smtp^
21564 transports. Exim also has support for using LMTP over TCP/IP; this is
21565 implemented as an option for the ^smtp^ transport. Because LMTP is expected
21566 to be of minority interest, the default build-time configure in _src/EDITME_
21567 has it commented out. You need to ensure that
21571 is present in your _Local/Makefile_ in order to have the ^lmtp^ transport
21572 included in the Exim binary.
21574 cindex:[options,^lmtp^ transport]
21575 The private options of the ^lmtp^ transport are as follows:
21577 oindex:[%batch_id%]
21579 %batch_id%, Use: 'lmtp', Type: 'string'!!, Default: 'unset'
21582 See the description of local delivery batching in chapter <<CHAPbatching>>.
21585 oindex:[%batch_max%]
21587 %batch_max%, Use: 'lmtp', Type: 'integer', Default: '1'
21590 This limits the number of addresses that can be handled in a single delivery.
21591 Most LMTP servers can handle several addresses at once, so it is normally a
21592 good idea to increase this value. See the description of local delivery
21593 batching in chapter <<CHAPbatching>>.
21598 %command%, Use: 'lmtp', Type: 'string'!!, Default: 'unset'
21601 This option must be set if %socket% is not set. The string is a command which
21602 is run in a separate process. It is split up into a command name and list of
21603 arguments, each of which is separately expanded (so expansion cannot change the
21604 number of arguments). The command is run directly, not via a shell. The message
21605 is passed to the new process using the standard input and output to operate the
21608 oindex:[%ignore_quota%]
21610 %ignore_quota%, Use: 'lmtp', Type: 'boolean', Default: 'false'
21613 [revisionflag="changed"]
21614 cindex:[LMTP,ignoring quota errors]
21615 If this option is set true, the string `IGNOREQUOTA` is added to RCPT commands,
21616 provided that the LMTP server has advertised support for IGNOREQUOTA in its
21617 response to the LHLO command.
21622 %socket%, Use: 'lmtp', Type: 'string'!!, Default: 'unset'
21625 This option must be set if %command% is not set. The result of expansion must
21626 be the name of a Unix domain socket. The transport connects to the socket and
21627 delivers the message to it using the LMTP protocol.
21632 %timeout%, Use: 'lmtp', Type: 'time', Default: '5m'
21635 The transport is aborted if the created process
21636 or Unix domain socket
21637 does not respond to LMTP commands or message input within this timeout.
21640 Here is an example of a typical LMTP transport:
21644 command = /some/local/lmtp/delivery/program
21648 This delivers up to 20 addresses at a time, in a mixture of domains if
21649 necessary, running as the user 'exim'.
21653 ////////////////////////////////////////////////////////////////////////////
21654 ////////////////////////////////////////////////////////////////////////////
21656 [[CHAPpipetransport]]
21659 cindex:[transports,^pipe^]
21660 cindex:[^pipe^ transport]
21661 The ^pipe^ transport is used to deliver messages via a pipe to a command
21662 running in another process.
21665 use of ^pipe^ as a pseudo-remote transport for passing messages to some other
21666 delivery mechanism (such as UUCP). Another is the use by individual users to
21667 automatically process their incoming messages. The ^pipe^ transport can be
21668 used in one of the following ways:
21670 - cindex:[$local_part$]
21671 A router routes one address to a transport in the normal way, and the
21672 transport is configured as a ^pipe^ transport. In this case, $local_part$
21673 contains the local part of the address (as usual), and the command that is run
21674 is specified by the %command% option on the transport.
21676 - cindex:[$pipe_addresses$]
21677 If the %batch_max% option is set greater than 1 (the default), the transport
21678 can be called upon to handle more than one address in a single run. In this
21679 case, $local_part$ is not set (because it is not unique). However, the
21680 pseudo-variable $pipe_addresses$ (described in section <<SECThowcommandrun>>
21681 below) contains all the addresses that are being handled.
21683 - cindex:[$address_pipe$]
21684 A router redirects an address directly to a pipe command (for example, from an
21685 alias or forward file). In this case, $local_part$ contains the local part
21686 that was redirected, and $address_pipe$ contains the text of the pipe
21687 command itself. The %command% option on the transport is ignored.
21690 The ^pipe^ transport is a non-interactive delivery method. Exim can also
21691 deliver messages over pipes using the LMTP interactive protocol. This is
21692 implemented by the ^lmtp^ transport.
21694 In the case when ^pipe^ is run as a consequence of an entry in a local user's
21695 _.forward_ file, the command runs under the uid and gid of that user. In other
21696 cases, the uid and gid have to be specified explicitly, either on the transport
21697 or on the router that handles the address. Current and ``home'' directories are
21698 also controllable. See chapter <<CHAPenvironment>> for details of the local
21699 delivery environment.
21703 Concurrent delivery
21704 ~~~~~~~~~~~~~~~~~~~
21705 If two messages arrive at almost the same time, and both are routed to a pipe
21706 delivery, the two pipe transports may be run concurrently. You must ensure that
21707 any pipe commands you set up are robust against this happening. If the commands
21708 write to a file, the %exim_lock% utility might be of use.
21713 Returned status and data
21714 ~~~~~~~~~~~~~~~~~~~~~~~~
21715 cindex:[^pipe^ transport,returned data]
21716 If the command exits with a non-zero return code, the delivery is deemed to
21717 have failed, unless either the %ignore_status% option is set (in which case
21718 the return code is treated as zero), or the return code is one of those listed
21719 in the %temp_errors% option, which are interpreted as meaning ``try again
21720 later''. In this case, delivery is deferred. Details of a permanent failure are
21721 logged, but are not included in the bounce message, which merely contains
21722 ``local delivery failed''.
21724 If the return code is greater than 128 and the command being run is a shell
21725 script, it normally means that the script was terminated by a signal whose
21726 value is the return code minus 128.
21728 If Exim is unable to run the command (that is, if 'execve()' fails), the
21729 return code is set to 127. This is the value that a shell returns if it is
21730 asked to run a non-existent command. The wording for the log line suggests that
21731 a non-existent command may be the problem.
21733 The %return_output% option can affect the result of a pipe delivery. If it is
21734 set and the command produces any output on its standard output or standard
21735 error streams, the command is considered to have failed, even if it gave a zero
21736 return code or if %ignore_status% is set. The output from the command is
21737 included as part of the bounce message. The %return_fail_output% option is
21738 similar, except that output is returned only when the command exits with a
21739 failure return code, that is, a value other than zero or a code that matches
21744 [[SECThowcommandrun]]
21745 How the command is run
21746 ~~~~~~~~~~~~~~~~~~~~~~
21747 cindex:[^pipe^ transport,path for command]
21748 The command line is (by default) broken down into a command name and arguments
21749 by the ^pipe^ transport itself. The %allow_commands% and %restrict_to_path%
21750 options can be used to restrict the commands that may be run.
21752 cindex:[quoting,in pipe command]
21753 Unquoted arguments are delimited by white space. If an argument appears in
21754 double quotes, backslash is interpreted as an escape character in the usual
21755 way. If an argument appears in single quotes, no escaping is done.
21757 String expansion is applied to the command line except when it comes from a
21758 traditional _.forward_ file (commands from a filter file are expanded). The
21759 expansion is applied to each argument in turn rather than to the whole line.
21760 For this reason, any string expansion item that contains white space must be
21761 quoted so as to be contained within a single argument. A setting such as
21763 command = /some/path ${if eq{$local_part}{postmaster}{xxx}{yyy}}
21765 will not work, because the expansion item gets split between several
21766 arguments. You have to write
21768 command = /some/path "${if eq{$local_part}{postmaster}{xxx}{yyy}}"
21770 to ensure that it is all in one argument. The expansion is done in this way,
21771 argument by argument, so that the number of arguments cannot be changed as a
21772 result of expansion, and quotes or backslashes in inserted variables do not
21773 interact with external quoting.
21775 cindex:[transport,filter]
21776 cindex:[filter,transport filter]
21777 cindex:[$pipe_addresses$]
21778 Special handling takes place when an argument consists of precisely the text
21779 `\$pipe_addresses\}`. This is not a general expansion variable; the only
21780 place this string is recognized is when it appears as an argument for a pipe or
21781 transport filter command. It causes each address that is being handled to be
21782 inserted in the argument list at that point 'as a separate argument'. This
21783 avoids any problems with spaces or shell metacharacters, and is of use when a
21784 ^pipe^ transport is handling groups of addresses in a batch.
21786 After splitting up into arguments and expansion, the resulting command is run
21787 in a subprocess directly from the transport, 'not' under a shell. The
21788 message that is being delivered is supplied on the standard input, and the
21789 standard output and standard error are both connected to a single pipe that is
21790 read by Exim. The %max_output% option controls how much output the command may
21791 produce, and the %return_output% and %return_fail_output% options control
21792 what is done with it.
21794 Not running the command under a shell (by default) lessens the security risks
21795 in cases when a command from a user's filter file is built out of data that was
21796 taken from an incoming message. If a shell is required, it can of course be
21797 explicitly specified as the command to be run. However, there are circumstances
21798 where existing commands (for example, in _.forward_ files) expect to be run
21799 under a shell and cannot easily be modified. To allow for these cases, there is
21800 an option called %use_shell%, which changes the way the ^pipe^ transport
21801 works. Instead of breaking up the command line as just described, it expands it
21802 as a single string and passes the result to _/bin/sh_. The
21803 %restrict_to_path% option and the $pipe_addresses$ facility cannot be used
21804 with %use_shell%, and the whole mechanism is inherently less secure.
21809 Environment variables
21810 ~~~~~~~~~~~~~~~~~~~~~
21811 cindex:[^pipe^ transport,environment for command]
21812 cindex:[environment for pipe transport]
21813 The environment variables listed below are set up when the command is invoked.
21814 This list is a compromise for maximum compatibility with other MTAs. Note that
21815 the %environment% option can be used to add additional variables to this
21819 `DOMAIN ` the domain of the address
21820 `HOME ` the home directory, if set
21821 `HOST ` the host name when called from a router (see below)
21822 `LOCAL_PART ` see below
21823 `LOCAL_PART_PREFIX ` see below
21824 `LOCAL_PART_SUFFIX ` see below
21825 `LOGNAME ` see below
21826 `MESSAGE_ID ` Exim's local ID for the message
21827 `PATH ` as specified by the %path% option below
21828 `QUALIFY_DOMAIN ` the sender qualification domain
21829 `RECIPIENT ` the complete recipient address
21830 `SENDER ` the sender of the message (empty if a bounce)
21832 `TZ ` the value of the %timezone% option, if set
21836 When a ^pipe^ transport is called directly from (for example) an ^accept^
21837 router, LOCAL_PART is set to the local part of the address. When it is
21838 called as a result of a forward or alias expansion, LOCAL_PART is set to
21839 the local part of the address that was expanded. In both cases, any affixes are
21840 removed from the local part, and made available in LOCAL_PART_PREFIX and
21841 LOCAL_PART_SUFFIX, respectively. LOGNAME and USER are set to the
21842 same value as LOCAL_PART for compatibility with other MTAs.
21845 HOST is set only when a ^pipe^ transport is called from a router that
21846 associates hosts with an address, typically when using ^pipe^ as a
21847 pseudo-remote transport. HOST is set to the first host name specified by
21851 If the transport's generic %home_directory% option is set, its value is used
21852 for the HOME environment variable. Otherwise, a home directory may be set
21853 by the router's %transport_home_directory% option, which defaults to the
21854 user's home directory if %check_local_user% is set.
21857 Private options for pipe
21858 ~~~~~~~~~~~~~~~~~~~~~~~~
21859 cindex:[options,^pipe^ transport]
21863 oindex:[%allow_commands%]
21865 %allow_commands%, Use: 'pipe', Type: 'string list'!!, Default: 'unset'
21868 cindex:[^pipe^ transport,permitted commands]
21869 The string is expanded, and is then interpreted as a colon-separated list of
21870 permitted commands. If %restrict_to_path% is not set, the only commands
21871 permitted are those in the %allow_commands% list. They need not be absolute
21872 paths; the %path% option is still used for relative paths. If
21873 %restrict_to_path% is set with %allow_commands%, the command must either be
21874 in the %allow_commands% list, or a name without any slashes that is found on
21875 the path. In other words, if neither %allow_commands% nor %restrict_to_path%
21876 is set, there is no restriction on the command, but otherwise only commands
21877 that are permitted by one or the other are allowed. For example, if
21879 allow_commands = /usr/bin/vacation
21881 and %restrict_to_path% is not set, the only permitted command is
21882 _/usr/bin/vacation_. The %allow_commands% option may not be set if
21883 %use_shell% is set.
21886 oindex:[%batch_id%]
21888 %batch_id%, Use: 'pipe', Type: 'string'!!, Default: 'unset'
21891 See the description of local delivery batching in chapter <<CHAPbatching>>.
21894 oindex:[%batch_max%]
21896 %batch_max%, Use: 'pipe', Type: 'integer', Default: '1'
21899 This limits the number of addresses that can be handled in a single delivery.
21900 See the description of local delivery batching in chapter <<CHAPbatching>>.
21903 oindex:[%check_string%]
21905 %check_string%, Use: 'pipe', Type: 'string', Default: 'unset'
21908 As ^pipe^ writes the message, the start of each line is tested for matching
21909 %check_string%, and if it does, the initial matching characters are replaced
21910 by the contents of %escape_string%, provided both are set. The value of
21911 %check_string% is a literal string, not a regular expression, and the case of
21912 any letters it contains is significant. When %use_bsmtp% is set, the contents
21913 of %check_string% and %escape_string% are forced to values that implement the
21914 SMTP escaping protocol. Any settings made in the configuration file are
21920 %command%, Use: 'pipe', Type: 'string'!!, Default: 'unset'
21923 This option need not be set when ^pipe^ is being used to deliver to pipes
21924 obtained directly from address redirections. In other cases, the option must be
21925 set, to provide a command to be run. It need not yield an absolute path (see
21926 the %path% option below). The command is split up into separate arguments by
21927 Exim, and each argument is separately expanded, as described in section
21928 <<SECThowcommandrun>> above.
21931 oindex:[%environment%]
21933 %environment%, Use: 'pipe', Type: 'string'!!, Default: 'unset'
21936 cindex:[^pipe^ transport,environment for command]
21937 cindex:[environment for ^pipe^ transport]
21938 This option is used to add additional variables to the environment in which the
21939 command runs (see section <<SECTpipeenv>> for the default list). Its value is a
21940 string which is expanded, and then interpreted as a colon-separated list of
21941 environment settings of the form ``<''name'>=<'value'>'.
21944 oindex:[%escape_string%]
21946 %escape_string%, Use: 'pipe', Type: 'string', Default: 'unset'
21949 See %check_string% above.
21952 oindex:[%freeze_exec_fail%]
21954 %freeze_exec_fail%, Use: 'pipe', Type: 'boolean', Default: 'false'
21957 cindex:[exec failure]
21958 cindex:[failure of exec]
21959 cindex:[^pipe^ transport,failure of exec]
21960 Failure to exec the command in a pipe transport is by default treated like
21961 any other failure while running the command. However, if %freeze_exec_fail%
21962 is set, failure to exec is treated specially, and causes the message to be
21963 frozen, whatever the setting of %ignore_status%.
21966 oindex:[%ignore_status%]
21968 %ignore_status%, Use: 'pipe', Type: 'boolean', Default: 'false'
21971 If this option is true, the status returned by the subprocess that is set up to
21972 run the command is ignored, and Exim behaves as if zero had been returned.
21973 Otherwise, a non-zero status or termination by signal causes an error return
21974 from the transport unless the status value is one of those listed in
21975 %temp_errors%; these cause the delivery to be deferred and tried again later.
21977 [revisionflag="changed"]
21978 *Note*: This option does not apply to timeouts, which do not return a status.
21979 See the %timeout_defer% option for how timeouts are handled.
21982 oindex:[%log_defer_output%]
21984 %log_defer_output%, Use: 'pipe', Type: 'boolean', Default: 'false'
21987 cindex:[^pipe^ transport,logging output]
21988 If this option is set, and the status returned by the command is
21989 one of the codes listed in %temp_errors% (that is, delivery was deferred),
21990 and any output was produced, the first line of it is written to the main log.
21993 oindex:[%log_fail_output%]
21995 %log_fail_output%, Use: 'pipe', Type: 'boolean', Default: 'false'
21998 If this option is set, and the command returns any output, and also ends with a
21999 return code that is neither zero nor one of the return codes listed in
22000 %temp_errors% (that is, the delivery failed), the first line of output is
22001 written to the main log.
22003 This option and %log_output% are mutually exclusive. Only one of them may be
22008 oindex:[%log_output%]
22010 %log_output%, Use: 'pipe', Type: 'boolean', Default: 'false'
22013 If this option is set and the command returns any output, the first line of
22014 output is written to the main log, whatever the return code.
22016 This option and %log_fail_output% are mutually exclusive. Only one of them
22021 oindex:[%max_output%]
22023 %max_output%, Use: 'pipe', Type: 'integer', Default: '20K'
22026 This specifies the maximum amount of output that the command may produce on its
22027 standard output and standard error file combined. If the limit is exceeded, the
22028 process running the command is killed. This is intended as a safety measure to
22029 catch runaway processes. The limit is applied independently of the settings of
22030 the options that control what is done with such output (for example,
22031 %return_output%). Because of buffering effects, the amount of output may
22032 exceed the limit by a small amount before Exim notices.
22035 oindex:[%message_prefix%]
22037 %message_prefix%, Use: 'pipe', Type: 'string'!!, Default: 'see below'
22040 The string specified here is expanded and output at the start of every message.
22041 The default is unset if %use_bsmtp% is set. Otherwise it is
22045 From ${if def:return_path{$return_path}{MAILER-DAEMON}}\
22051 cindex:[``From'' line]
22052 This is required by the commonly used _/usr/bin/vacation_ program.
22053 However, it must 'not' be present if delivery is to the Cyrus IMAP server,
22054 or to the %tmail% local delivery agent. The prefix can be suppressed by setting
22060 oindex:[%message_suffix%]
22062 %message_suffix%, Use: 'pipe', Type: 'string'!!, Default: 'see below'
22065 The string specified here is expanded and output at the end of every message.
22066 The default is unset if %use_bsmtp% is set. Otherwise it is a single newline.
22067 The suffix can be suppressed by setting
22075 %path%, Use: 'pipe', Type: 'string', Default: `/bin:/usr/bin`
22078 This option specifies the string that is set up in the PATH environment
22079 variable of the subprocess. If the %command% option does not yield an absolute
22080 path name, the command is sought in the PATH directories, in the usual way.
22081 *Warning*: This does not apply to a command specified as a transport
22085 oindex:[%pipe_as_creator%]
22087 %pipe_as_creator%, Use: 'pipe', Type: 'boolean', Default: 'false'
22090 cindex:[uid (user id),local delivery]
22091 If the generic %user% option is not set and this option is true, the delivery
22092 process is run under the uid that was in force when Exim was originally called
22093 to accept the message. If the group id is not otherwise set (via the generic
22094 %group% option), the gid that was in force when Exim was originally called to
22095 accept the message is used.
22098 oindex:[%restrict_to_path%]
22100 %restrict_to_path%, Use: 'pipe', Type: 'boolean', Default: 'false'
22103 When this option is set, any command name not listed in %allow_commands% must
22104 contain no slashes. The command is searched for only in the directories listed
22105 in the %path% option. This option is intended for use in the case when a pipe
22106 command has been generated from a user's _.forward_ file. This is usually
22107 handled by a ^pipe^ transport called %address_pipe%.
22110 oindex:[%return_fail_output%]
22112 %return_fail_output%, Use: 'pipe', Type: 'boolean', Default: 'false'
22115 If this option is true, and the command produced any output and ended with a
22116 return code other than zero or one of the codes listed in %temp_errors% (that
22117 is, the delivery failed), the output is returned in the bounce message.
22118 However, if the message has a null sender (that is, it is itself a bounce
22119 message), output from the command is discarded.
22121 This option and %return_output% are mutually exclusive. Only one of them may
22126 oindex:[%return_output%]
22128 %return_output%, Use: 'pipe', Type: 'boolean', Default: 'false'
22131 If this option is true, and the command produced any output, the delivery is
22132 deemed to have failed whatever the return code from the command, and the output
22133 is returned in the bounce message. Otherwise, the output is just discarded.
22134 However, if the message has a null sender (that is, it is a bounce message),
22135 output from the command is always discarded, whatever the setting of this
22138 This option and %return_fail_output% are mutually exclusive. Only one of them
22143 oindex:[%temp_errors%]
22145 %temp_errors%, Use: 'pipe', Type: 'string list', Default: 'see below'
22148 cindex:[^pipe^ transport,temporary failure]
22149 This option contains either a colon-separated list of numbers, or a single
22150 asterisk. If %ignore_status% is false
22151 and %return_output% is not set,
22152 and the command exits with a non-zero return code, the failure is treated as
22153 temporary and the delivery is deferred if the return code matches one of the
22154 numbers, or if the setting is a single asterisk. Otherwise, non-zero return
22155 codes are treated as permanent errors. The default setting contains the codes
22156 defined by EX_TEMPFAIL and EX_CANTCREAT in _sysexits.h_. If Exim is
22157 compiled on a system that does not define these macros, it assumes values of 75
22158 and 73, respectively.
22163 %timeout%, Use: 'pipe', Type: 'time', Default: '1h'
22166 If the command fails to complete within this time, it is killed. This normally
22167 causes the delivery to fail (but see %timeout_defer%). A zero time interval
22168 specifies no timeout. In order to ensure that any subprocesses created by the
22169 command are also killed, Exim makes the initial process a process group leader,
22170 and kills the whole process group on a timeout. However, this can be defeated
22171 if one of the processes starts a new process group.
22173 oindex:[%timeout_defer%]
22175 %timeout_defer%, Use: 'pipe', Type: 'boolean', Default: 'false'
22178 [revisionflag="changed"]
22179 A timeout in a ^pipe^ transport, either in the command that the transport runs,
22180 or in a transport filter that is associated with it, is by default treated as a
22181 hard error, and the delivery fails. However, if %timeout_defer% is set true,
22182 both kinds of timeout become temporary errors, causing the delivery to be
22188 %umask%, Use: 'pipe', Type: 'octal integer', Default: '022'
22191 This specifies the umask setting for the subprocess that runs the command.
22194 oindex:[%use_bsmtp%]
22196 %use_bsmtp%, Use: 'pipe', Type: 'boolean', Default: 'false'
22199 cindex:[envelope sender]
22200 If this option is set true, the ^pipe^ transport writes messages in ``batch
22201 SMTP'' format, with the envelope sender and recipient(s) included as SMTP
22202 commands. If you want to include a leading HELO command with such messages,
22203 you can do so by setting the %message_prefix% option. See section
22204 <<SECTbatchSMTP>> for details of batch SMTP.
22207 oindex:[%use_crlf%]
22209 %use_crlf%, Use: 'pipe', Type: 'boolean', Default: 'false'
22212 cindex:[carriage return]
22214 This option causes lines to be terminated with the two-character CRLF sequence
22215 (carriage return, linefeed) instead of just a linefeed character. In the case
22216 of batched SMTP, the byte sequence written to the pipe is then an exact image
22217 of what would be sent down a real SMTP connection.
22219 The contents of the %message_prefix% and %message_suffix% options are written
22220 verbatim, so must contain their own carriage return characters if these are
22221 needed. Since the default values for both %message_prefix% and
22222 %message_suffix% end with a single linefeed, their values
22224 be changed to end with `\r\n` if %use_crlf% is set.
22227 oindex:[%use_shell%]
22229 %use_shell%, Use: 'pipe', Type: 'boolean', Default: 'false'
22232 cindex:[$pipe_addresses$]
22233 If this option is set, it causes the command to be passed to _/bin/sh_
22234 instead of being run directly from the transport, as described in section
22235 <<SECThowcommandrun>>. This is less secure, but is needed in some situations
22236 where the command is expected to be run under a shell and cannot easily be
22237 modified. The %allow_commands% and %restrict_to_path% options, and the
22238 `\$pipe_addresses` facility are incompatible with %use_shell%. The
22239 command is expanded as a single string, and handed to _/bin/sh_ as data for
22244 Using an external local delivery agent
22245 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
22246 cindex:[local delivery,using an external agent]
22247 cindex:['procmail']
22248 cindex:[external local delivery]
22249 cindex:[delivery,'procmail']
22250 cindex:[delivery,by external agent]
22251 The ^pipe^ transport can be used to pass all messages that require local
22252 delivery to a separate local delivery agent such as %procmail%. When doing
22253 this, care must be taken to ensure that the pipe is run under an appropriate
22254 uid and gid. In some configurations one wants this to be a uid that is trusted
22255 by the delivery agent to supply the correct sender of the message. It may be
22256 necessary to recompile or reconfigure the delivery agent so that it trusts an
22257 appropriate user. The following is an example transport and router
22258 configuration for %procmail%:
22263 command = /usr/local/bin/procmail -d $local_part
22267 check_string = "From "
22268 escape_string = ">From "
22276 transport = procmail_pipe
22279 In this example, the pipe is run as the local user, but with the group set to
22280 'mail'. An alternative is to run the pipe as a specific user such as 'mail'
22281 or 'exim', but in this case you must arrange for %procmail% to trust that
22282 user to supply a correct sender address. If you do not specify either a %group%
22283 or a %user% option, the pipe command is run as the local user. The home
22284 directory is the user's home directory by default.
22286 Note that the command that the pipe transport runs does 'not' begin with
22290 as shown in the %procmail% documentation, because Exim does not by default use
22291 a shell to run pipe commands.
22294 The next example shows a transport and a router for a system where local
22295 deliveries are handled by the Cyrus IMAP server.
22299 local_delivery_cyrus:
22301 command = /usr/cyrus/bin/deliver \
22302 -m ${substr_1:$local_part_suffix} -- $local_part
22314 local_part_suffix = .*
22315 transport = local_delivery_cyrus
22318 Note the unsetting of %message_prefix% and %message_suffix%, and the use of
22319 %return_output% to cause any text written by Cyrus to be returned to the
22323 ////////////////////////////////////////////////////////////////////////////
22324 ////////////////////////////////////////////////////////////////////////////
22329 cindex:[transports,^smtp^]
22330 cindex:[^smtp^ transport]
22331 The ^smtp^ transport delivers messages over TCP/IP connections using the SMTP
22332 or LMTP protocol. The list of hosts to try can either be taken from the address
22333 that is being processed (having been set up by the router), or specified
22334 explicitly for the transport. Timeout and retry processing (see chapter
22335 <<CHAPretry>>) is applied to each IP address independently.
22338 Multiple messages on a single connection
22339 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
22340 The sending of multiple messages over a single TCP/IP connection can arise in
22343 - If a message contains more than %max_rcpt% (see below) addresses that are
22344 routed to the same host, more than one copy of the message has to be sent to
22345 that host. In this situation, multiple copies may be sent in a single run of
22346 the ^smtp^ transport over a single TCP/IP connection. (What Exim actually does
22347 when it has too many addresses to send in one message also depends on the value
22348 of the global %remote_max_parallel% option. Details are given in section
22349 <<SECToutSMTPTCP>>.)
22351 - cindex:[hints database,remembering routing]
22352 When a message has been successfully delivered over a TCP/IP connection, Exim
22353 looks in its hints database to see if there are any other messages awaiting a
22354 connection to the same host. If there are, a new delivery process is started
22355 for one of them, and the current TCP/IP connection is passed on to it. The new
22356 process may in turn send multiple copies and possibly create yet another
22360 For each copy sent over the same TCP/IP connection, a sequence counter is
22361 incremented, and if it ever gets to the value of %connection_max_messages%,
22362 no further messages are sent over that connection.
22366 Use of the \$host variable
22367 ~~~~~~~~~~~~~~~~~~~~~~~~~~
22369 cindex:[$host_address$]
22370 At the start of a run of the ^smtp^ transport, the values of $host$ and
22371 $host_address$ are the name and IP address of the first host on the host list
22372 passed by the router. However, when the transport is about to connect to a
22373 specific host, and while it is connected to that host, $host$ and
22374 $host_address$ are set to the values for that host. These are the values
22375 that are in force when the %helo_data%, %hosts_try_auth%, %interface%,
22376 %serialize_hosts%, and the various TLS options are expanded.
22380 Private options for smtp
22381 ~~~~~~~~~~~~~~~~~~~~~~~~
22382 cindex:[options,^smtp^ transport]
22383 The private options of the ^smtp^ transport are as follows:
22386 oindex:[%allow_localhost%]
22388 %allow_localhost%, Use: 'smtp', Type: 'boolean', Default: 'false'
22391 cindex:[local host,sending to]
22392 cindex:[fallback,hosts specified on transport]
22393 When a host specified in %hosts% or %fallback_hosts% (see below) turns out to
22394 be the local host, or is listed in %hosts_treat_as_local%, delivery is
22395 deferred by default. However, if %allow_localhost% is set, Exim goes on to do
22396 the delivery anyway. This should be used only in special cases when the
22397 configuration ensures that no looping will result (for example, a differently
22398 configured Exim is listening on the port to which the message is sent).
22401 oindex:[%authenticated_sender%]
22403 %authenticated_sender%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
22407 When Exim has authenticated as a client, this option sets a value for the
22408 AUTH= item on outgoing MAIL commands, overriding any existing
22409 authenticated sender value. If the string expansion is forced to fail, the
22410 option is ignored. Other expansion failures cause delivery to be deferred. If
22411 the result of expansion is an empty string, that is also ignored.
22413 If the SMTP session is not authenticated, the expansion of
22414 %authenticated_sender% still happens (and can cause the delivery to be
22415 deferred if it fails), but no AUTH= item is added to MAIL commands.
22417 This option allows you to use the ^smtp^ transport in LMTP mode to
22418 deliver mail to Cyrus IMAP and provide the proper local part as the
22419 ``authenticated sender'', via a setting such as:
22421 authenticated_sender = $local_part
22423 This removes the need for IMAP subfolders to be assigned special ACLs to
22424 allow direct delivery to those subfolders.
22426 Because of expected uses such as that just described for Cyrus (when no
22427 domain is involved), there is no checking on the syntax of the provided
22431 oindex:[%command_timeout%]
22433 %command_timeout%, Use: 'smtp', Type: 'time', Default: '5m'
22436 This sets a timeout for receiving a response to an SMTP command that has been
22437 sent out. It is also used when waiting for the initial banner line from the
22438 remote host. Its value must not be zero.
22441 oindex:[%connect_timeout%]
22443 %connect_timeout%, Use: 'smtp', Type: 'time', Default: '5m'
22446 This sets a timeout for the 'connect()' function, which sets up a TCP/IP call
22447 to a remote host. A setting of zero allows the system timeout (typically
22448 several minutes) to act. To have any effect, the value of this option must be
22449 less than the system timeout. However, it has been observed that on some
22450 systems there is no system timeout, which is why the default value for this
22451 option is 5 minutes, a value recommended by RFC 1123.
22454 oindex:[%connection_max_messages%]
22456 %connection_max_messages%, Use: 'smtp', Type: 'integer', Default: '500'
22459 cindex:[SMTP,passed connection]
22460 cindex:[SMTP,multiple deliveries]
22461 cindex:[multiple SMTP deliveries]
22462 This controls the maximum number of separate message deliveries that are sent
22463 over a single TCP/IP connection. If the value is zero, there is no limit.
22464 For testing purposes, this value can be overridden by the %-oB% command line
22468 oindex:[%data_timeout%]
22470 %data_timeout%, Use: 'smtp', Type: 'time', Default: '5m'
22473 This sets a timeout for the transmission of each block in the data portion of
22474 the message. As a result, the overall timeout for a message depends on the size
22475 of the message. Its value must not be zero. See also %final_timeout%.
22478 oindex:[%delay_after_cutoff%]
22480 %delay_after_cutoff%, Use: 'smtp', Type: 'boolean', Default: 'true'
22483 This option controls what happens when all remote IP addresses for a given
22484 domain have been inaccessible for so long that they have passed their retry
22487 In the default state, if the next retry time has not been reached for any of
22488 them, the address is bounced without trying any deliveries. In other words,
22489 Exim delays retrying an IP address after the final cutoff time until a new
22490 retry time is reached, and can therefore bounce an address without ever trying
22491 a delivery, when machines have been down for a long time. Some people are
22492 unhappy at this prospect, so...
22494 If %delay_after_cutoff% is set false, Exim behaves differently. If all IP
22495 addresses are past their final cutoff time, Exim tries to deliver to those
22496 IP addresses that have not been tried since the message arrived. If there are
22497 none, of if they all fail, the address is bounced. In other words, it does not
22498 delay when a new message arrives, but immediately tries those expired IP
22499 addresses that haven't been tried since the message arrived. If there is a
22500 continuous stream of messages for the dead hosts, unsetting
22501 %delay_after_cutoff% means that there will be many more attempts to deliver
22505 oindex:[%dns_qualify_single%]
22507 %dns_qualify_single%, Use: 'smtp', Type: 'boolean', Default: 'true'
22510 If the %hosts% or %fallback_hosts% option is being used,
22511 and the %gethostbyname% option is false,
22512 the RES_DEFNAMES resolver option is set. See the %qualify_single% option
22513 in chapter <<CHAPdnslookup>> for more details.
22516 oindex:[%dns_search_parents%]
22518 %dns_search_parents%, Use: 'smtp', Type: 'boolean', Default: 'false'
22521 cindex:[%search_parents%]
22522 If the %hosts% or %fallback_hosts% option is being used, and the
22523 %gethostbyname% option is false, the RES_DNSRCH resolver option is set.
22524 See the %search_parents% option in chapter <<CHAPdnslookup>> for more details.
22528 oindex:[%fallback_hosts%]
22530 %fallback_hosts%, Use: 'smtp', Type: 'string list', Default: 'unset'
22533 [revisionflag="changed"]
22534 cindex:[fallback,hosts specified on transport]
22535 String expansion is not applied to this option. The argument must be a
22536 colon-separated list of host names or IP addresses, optionally also including
22537 port numbers, though the separator can be changed, as described in section
22538 <<SECTlistconstruct>>. Each individual item in the list is the same as an item
22539 in a %route_list% setting for the ^manualroute^ router, as described in section
22540 <<SECTformatonehostitem>>.
22542 Fallback hosts can also be specified on routers, which associate them with the
22543 addresses they process. As for the %hosts% option without %hosts_override%,
22544 %fallback_hosts% specified on the transport is used only if the address does
22545 not have its own associated fallback host list. Unlike %hosts%, a setting of
22546 %fallback_hosts% on an address is not overridden by %hosts_override%. However,
22547 %hosts_randomize% does apply to fallback host lists.
22549 If Exim is unable to deliver to any of the hosts for a particular address, and
22550 the errors are not permanent rejections, the address is put on a separate
22551 transport queue with its host list replaced by the fallback hosts, unless the
22552 address was routed via MX records and the current host was in the original MX
22553 list. In that situation, the fallback host list is not used.
22555 Once normal deliveries are complete, the fallback queue is delivered by
22556 re-running the same transports with the new host lists. If several failing
22557 addresses have the same fallback hosts (and %max_rcpt% permits it), a single
22558 copy of the message is sent.
22560 The resolution of the host names on the fallback list is controlled by the
22561 %gethostbyname% option, as for the %hosts% option. Fallback hosts apply
22562 both to cases when the host list comes with the address and when it is taken
22563 from %hosts%. This option provides a ``use a smart host only if delivery fails''
22567 oindex:[%final_timeout%]
22569 %final_timeout%, Use: 'smtp', Type: 'time', Default: '10m'
22572 This is the timeout that applies while waiting for the response to the final
22573 line containing just ``.'' that terminates a message. Its value must not be zero.
22576 oindex:[%gethostbyname%]
22578 %gethostbyname%, Use: 'smtp', Type: 'boolean', Default: 'false'
22581 If this option is true when the %hosts% and/or %fallback_hosts% options are
22582 being used, names are looked up using 'gethostbyname()'
22583 (or 'getipnodebyname()' when available)
22584 instead of using the DNS. Of course, that function may in fact use the DNS, but
22585 it may also consult other sources of information such as _/etc/hosts_.
22587 oindex:[%helo_data%]
22589 %helo_data%, Use: 'smtp', Type: 'string'!!, Default: `\$primary_hostname`
22592 cindex:[HELO argument, setting]
22593 cindex:[EHLO argument, setting]
22594 The value of this option is expanded, and used as the argument for the EHLO
22595 or HELO command that starts the outgoing SMTP session.
22600 %hosts%, Use: 'smtp', Type: 'string list'!!, Default: 'unset'
22603 Hosts are associated with an address by a router such as ^dnslookup^, which
22604 finds the hosts by looking up the address domain in the DNS, or by
22605 ^manualroute^, which has lists of hosts in its configuration. However,
22606 email addresses can be passed to the ^smtp^ transport by any router, and not
22607 all of them can provide an associated list of hosts.
22609 The %hosts% option specifies a list of hosts to be used if the address being
22610 processed does not have any hosts associated with it. The hosts specified by
22611 %hosts% are also used, whether or not the address has its own hosts, if
22612 %hosts_override% is set.
22614 [revisionflag="changed"]
22615 The string is first expanded, before being interpreted as a colon-separated
22616 list of host names or IP addresses, possibly including port numbers. The
22617 separator may be changed to something other than colon, as described in section
22618 <<SECTlistconstruct>>. Each individual item in the list is the same as an item
22619 in a %route_list% setting for the ^manualroute^ router, as described in section
22620 <<SECTformatonehostitem>>. However, note that the `/MX` facility of the
22621 ^manualroute^ router is not available here.
22623 If the expansion fails, delivery is deferred. Unless the failure was caused by
22624 the inability to complete a lookup, the error is logged to the panic log as
22625 well as the main log. Host names are looked up either by searching directly for
22626 address records in the DNS or by calling 'gethostbyname()' (or
22627 'getipnodebyname()' when available), depending on the setting of the
22628 %gethostbyname% option. When Exim is compiled with IPv6 support, if a host that
22629 is looked up in the DNS has both IPv4 and IPv6 addresses, both types of address
22632 During delivery, the hosts are tried in order, subject to their retry status,
22633 unless %hosts_randomize% is set.
22636 oindex:[%hosts_avoid_esmtp%]
22638 %hosts_avoid_esmtp%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22641 cindex:[ESMTP, avoiding use of]
22642 cindex:[HELO,forcing use of]
22643 cindex:[EHLO,avoiding use of]
22644 cindex:[PIPELINING,avoiding the use of]
22645 This option is for use with broken hosts that announce ESMTP facilities (for
22646 example, PIPELINING) and then fail to implement them properly. When a host
22647 matches %hosts_avoid_esmtp%, Exim sends HELO rather than EHLO at the
22648 start of the SMTP session. This means that it cannot use any of the ESMTP
22649 facilities such as AUTH, PIPELINING, SIZE, and STARTTLS.
22652 oindex:[%hosts_avoid_tls%]
22654 %hosts_avoid_tls%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22657 cindex:[TLS,avoiding for certain hosts]
22658 Exim will not try to start a TLS session when delivering to any host that
22659 matches this list. See chapter <<CHAPTLS>> for details of TLS.
22662 oindex:[%hosts_max_try%]
22664 %hosts_max_try%, Use: 'smtp', Type: 'integer', Default: '5'
22667 cindex:[host,maximum number to try]
22668 cindex:[limit,number of hosts tried]
22669 cindex:[limit,number of MX tried]
22670 cindex:[MX record,maximum tried]
22671 This option limits the number of IP addresses that are tried for any one
22672 delivery in cases where there are temporary delivery errors. Section
22673 <<SECTvalhosmax>> describes in detail how the value of this option is used.
22676 oindex:[%hosts_max_try_hardlimit%]
22678 %hosts_max_try_hardlimit%, Use: 'smtp', Type: 'integer', Default: '50'
22681 This is an additional check on the maximum number of IP addresses that Exim
22682 tries for any one delivery. Section <<SECTvalhosmax>> describes its use and why
22687 oindex:[%hosts_nopass_tls%]
22689 %hosts_nopass_tls%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22692 cindex:[TLS,passing connection]
22693 cindex:[multiple SMTP deliveries]
22694 cindex:[TLS,multiple message deliveries]
22695 For any host that matches this list, a connection on which a TLS session has
22696 been started will not be passed to a new delivery process for sending another
22697 message on the same connection. See section <<SECTmulmessam>> for an explanation
22698 of when this might be needed.
22701 oindex:[%hosts_override%]
22703 %hosts_override%, Use: 'smtp', Type: 'boolean', Default: 'false'
22706 If this option is set and the %hosts% option is also set, any hosts that are
22707 attached to the address are ignored, and instead the hosts specified by the
22708 %hosts% option are always used. This option does not apply to
22712 oindex:[%hosts_randomize%]
22714 %hosts_randomize%, Use: 'smtp', Type: 'boolean', Default: 'false'
22717 cindex:[randomized host list]
22718 cindex:[host,list of; randomized]
22719 cindex:[fallback,randomized hosts]
22720 If this option is set, and either the list of hosts is taken from the
22721 %hosts% or the %fallback_hosts% option, or the hosts supplied by the router
22722 were not obtained from MX records (this includes fallback hosts from the
22723 router), and were not randomizied by the router, the order of trying the hosts
22724 is randomized each time the transport runs. Randomizing the order of a host
22725 list can be used to do crude load sharing.
22727 When %hosts_randomize% is true, a host list may be split into groups whose
22728 order is separately randomized. This makes it possible to set up MX-like
22729 behaviour. The boundaries between groups are indicated by an item that is just
22730 `+` in the host list. For example:
22732 hosts = host1:host2:host3:+:host4:host5
22734 The order of the first three hosts and the order of the last two hosts is
22735 randomized for each use, but the first three always end up before the last two.
22736 If %hosts_randomize% is not set, a `+` item in the list is ignored.
22738 oindex:[%hosts_require_auth%]
22740 %hosts_require_auth%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22743 cindex:[authentication,required by client]
22744 This option provides a list of servers for which authentication must succeed
22745 before Exim will try to transfer a message. If authentication fails for
22746 servers which are not in this list, Exim tries to send unauthenticated. If
22747 authentication fails for one of these servers, delivery is deferred. This
22748 temporary error is detectable in the retry rules, so it can be turned into a
22749 hard failure if required. See also %hosts_try_auth%, and chapter
22750 <<CHAPSMTPAUTH>> for details of authentication.
22753 oindex:[%hosts_require_tls%]
22755 %hosts_require_tls%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22758 cindex:[TLS,requiring for certain servers]
22759 Exim will insist on using a TLS session when delivering to any host that
22760 matches this list. See chapter <<CHAPTLS>> for details of TLS.
22761 *Note*: This option affects outgoing mail only. To insist on TLS for
22762 incoming messages, use an appropriate ACL.
22764 oindex:[%hosts_try_auth%]
22766 %hosts_try_auth%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22769 cindex:[authentication,optional in client]
22770 This option provides a list of servers to which, provided they announce
22771 authentication support, Exim will attempt to authenticate as a client when it
22772 connects. If authentication fails, Exim will try to transfer the message
22773 unauthenticated. See also %hosts_require_auth%, and chapter <<CHAPSMTPAUTH>>
22774 for details of authentication.
22776 oindex:[%interface%]
22778 %interface%, Use: 'smtp', Type: 'string list'!!, Default: 'unset'
22781 cindex:[bind IP address]
22782 cindex:[IP address,binding]
22784 cindex:[$host_address$]
22785 This option specifies which interface to bind to when making an outgoing SMTP
22786 call. The variables $host$ and $host_address$ refer to the host to which a
22787 connection is about to be made during the expansion of the string. Forced
22788 expansion failure, or an empty string result causes the option to be ignored.
22789 Otherwise, after expansion,
22790 the string must be a list of IP addresses, colon-separated by default, but the
22791 separator can be changed in the usual way.
22794 interface = <; 192.168.123.123 ; 3ffe:ffff:836f::fe86:a061
22796 The first interface of the correct type (IPv4 or IPv6) is used for the outgoing
22797 connection. If none of them are the correct type, the option is ignored. If
22798 %interface% is not set, or is ignored, the system's IP functions choose which
22799 interface to use if the host has more than one.
22802 oindex:[%keepalive%]
22804 %keepalive%, Use: 'smtp', Type: 'boolean', Default: 'true'
22807 cindex:[keepalive,on outgoing connection]
22808 This option controls the setting of SO_KEEPALIVE on outgoing TCP/IP socket
22809 connections. When set, it causes the kernel to probe idle connections
22810 periodically, by sending packets with ``old'' sequence numbers. The other end of
22811 the connection should send a acknowledgement if the connection is still okay or
22812 a reset if the connection has been aborted. The reason for doing this is that
22813 it has the beneficial effect of freeing up certain types of connection that can
22814 get stuck when the remote host is disconnected without tidying up the TCP/IP
22815 call properly. The keepalive mechanism takes several hours to detect
22819 oindex:[%lmtp_ignore_quota%]
22821 %lmtp_ignore_quota%, Use: 'smtp', Type: 'boolean', Default: 'false'
22824 [revisionflag="changed"]
22825 cindex:[LMTP,ignoring quota errors]
22826 If this option is set true when the %protocol% option is set to ``lmtp'', the
22827 string `IGNOREQUOTA` is added to RCPT commands, provided that the LMTP server
22828 has advertised support for IGNOREQUOTA in its response to the LHLO command.
22831 oindex:[%max_rcpt%]
22833 %max_rcpt%, Use: 'smtp', Type: 'integer', Default: '100'
22836 cindex:[RCPT,maximum number of outgoing]
22837 This option limits the number of RCPT commands that are sent in a single
22838 SMTP message transaction. Each set of addresses is treated independently, and
22839 so can cause parallel connections to the same host if %remote_max_parallel%
22843 oindex:[%multi_domain%]
22845 %multi_domain%, Use: 'smtp', Type: 'boolean', Default: 'true'
22849 When this option is set, the ^smtp^ transport can handle a number of addresses
22850 containing a mixture of different domains provided they all resolve to the same
22851 list of hosts. Turning the option off restricts the transport to handling only
22852 one domain at a time. This is useful if you want to use $domain$ in an
22853 expansion for the transport, because it is set only when there is a single
22854 domain involved in a remote delivery.
22859 %port%, Use: 'smtp', Type: 'string'!!, Default: 'see below'
22862 cindex:[port,sending TCP/IP]
22863 cindex:[TCP/IP,setting outgoing port]
22864 This option specifies the TCP/IP port on the server to which Exim connects. If
22865 it begins with a digit it is taken as a port number; otherwise it is looked up
22866 using 'getservbyname()'. The default value is normally ``smtp'', but if
22867 %protocol% is set to ``lmtp'', the default is ``lmtp''.
22868 If the expansion fails, or if a port number cannot be found, delivery is
22873 oindex:[%protocol%]
22875 %protocol%, Use: 'smtp', Type: 'string', Default: 'smtp'
22878 cindex:[LMTP,over TCP/IP]
22879 If this option is set to ``lmtp'' instead of ``smtp'', the default value for the
22880 %port% option changes to ``lmtp'', and the transport operates the LMTP protocol
22881 (RFC 2033) instead of SMTP. This protocol is sometimes used for local
22882 deliveries into closed message stores. Exim also has support for running LMTP
22883 over a pipe to a local process -- see chapter <<CHAPLMTP>>.
22886 oindex:[%retry_include_ip_address%]
22888 %retry_include_ip_address%, Use: 'smtp', Type: 'boolean', Default: 'true'
22891 Exim normally includes both the host name and the IP address in the key it
22892 constructs for indexing retry data after a temporary delivery failure. This
22893 means that when one of several IP addresses for a host is failing, it gets
22894 tried periodically (controlled by the retry rules), but use of the other IP
22895 addresses is not affected.
22897 However, in some dialup environments hosts are assigned a different IP address
22898 each time they connect. In this situation the use of the IP address as part of
22899 the retry key leads to undesirable behaviour. Setting this option false causes
22900 Exim to use only the host name. This should normally be done on a separate
22901 instance of the ^smtp^ transport, set up specially to handle the dialup hosts.
22904 oindex:[%serialize_hosts%]
22906 %serialize_hosts%, Use: 'smtp', Type: 'host list'!!, Default: 'unset'
22909 cindex:[serializing connections]
22910 cindex:[host,serializing connections]
22911 Because Exim operates in a distributed manner, if several messages for the same
22912 host arrive at around the same time, more than one simultaneous connection to
22913 the remote host can occur. This is not usually a problem except when there is a
22914 slow link between the hosts. In that situation it may be helpful to restrict
22915 Exim to one connection at a time. This can be done by setting
22916 %serialize_hosts% to match the relevant hosts.
22918 cindex:[hints database,serializing deliveries to a host]
22919 Exim implements serialization by means of a hints database in which a record is
22920 written whenever a process connects to one of the restricted hosts. The record
22921 is deleted when the connection is completed. Obviously there is scope for
22922 records to get left lying around if there is a system or program crash. To
22923 guard against this, Exim ignores any records that are more than six hours old.
22925 If you set up this kind of serialization, you should also arrange to delete the
22926 relevant hints database whenever your system reboots. The names of the files
22927 start with _misc_ and they are kept in the _spool/db_ directory. There
22928 may be one or two files, depending on the type of DBM in use. The same files
22929 are used for ETRN serialization.
22932 oindex:[%size_addition%]
22934 %size_addition%, Use: 'smtp', Type: 'integer', Default: '1024'
22938 cindex:[message,size issue for transport filter]
22939 cindex:[size,of message]
22940 cindex:[transport,filter]
22941 cindex:[filter,transport filter]
22942 If a remote SMTP server indicates that it supports the SIZE option of the
22943 MAIL command, Exim uses this to pass over the message size at the start of
22944 an SMTP transaction. It adds the value of %size_addition% to the value it
22945 sends, to allow for headers and other text that may be added during delivery by
22946 configuration options or in a transport filter. It may be necessary to increase
22947 this if a lot of text is added to messages.
22949 Alternatively, if the value of %size_addition% is set negative, it disables
22950 the use of the SIZE option altogether.
22953 oindex:[%tls_certificate%]
22955 %tls_certificate%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
22958 cindex:[TLS client certificate, location of]
22959 cindex:[certificate for client, location of]
22961 cindex:[$host_address$]
22962 The value of this option must be the absolute path to a file which contains the
22963 client's certificate, for use when sending a message over an encrypted
22964 connection. The values of $host$ and $host_address$ are set to the name
22965 and address of the server during the expansion. See chapter <<CHAPTLS>> for
22968 *Note*: This option must be set if you want Exim to use TLS when sending
22969 messages as a client. The global option of the same name specifies the
22970 certificate for Exim as a server; it is not automatically assumed that the same
22971 certificate should be used when Exim is operating as a client.
22976 %tls_crl%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
22979 cindex:[TLS,client certificate revocation list]
22980 cindex:[certificate,revocation list for client]
22981 This option specifies a certificate revocation list. The expanded value must
22982 be the name of a file that contains a CRL in PEM format.
22985 oindex:[%tls_privatekey%]
22987 %tls_privatekey%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
22990 cindex:[TLS client private key, location of]
22992 cindex:[$host_address$]
22993 The value of this option must be the absolute path to a file which contains the
22994 client's private key, for use when sending a message over an encrypted
22995 connection. The values of $host$ and $host_address$ are set to the name
22996 and address of the server during the expansion.
22997 If this option is unset, the private key is assumed to be in the same file as
22999 See chapter <<CHAPTLS>> for details of TLS.
23002 oindex:[%tls_require_ciphers%]
23004 %tls_require_ciphers%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
23007 cindex:[TLS,requiring specific ciphers]
23008 cindex:[cipher,requiring specific]
23010 cindex:[$host_address$]
23011 The value of this option must be a list of permitted cipher suites, for use
23012 when setting up an outgoing encrypted connection. (There is a global option of
23013 the same name for controlling incoming connections.) The values of $host$ and
23014 $host_address$ are set to the name and address of the server during the
23015 expansion. See chapter <<CHAPTLS>> for details of TLS; note that this option is
23016 used in different ways by OpenSSL and GnuTLS (see sections <<SECTreqciphssl>>
23017 and <<SECTreqciphgnu>>). For GnuTLS, the order of the ciphers is a preference
23022 oindex:[%tls_tempfail_tryclear%]
23024 %tls_tempfail_tryclear%, Use: 'smtp', Type: 'boolean', Default: 'true'
23027 When the server host is not in %hosts_require_tls%, and there is a problem in
23028 setting up a TLS session, this option determines whether or not Exim should try
23029 to deliver the message unencrypted. If it is set false, delivery to the
23030 current host is deferred; if there are other hosts, they are tried. If this
23031 option is set true, Exim attempts to deliver unencrypted after a 4##'xx'
23032 response to STARTTLS. Also, if STARTTLS is accepted, but the subsequent
23033 TLS negotiation fails, Exim closes the current connection (because it is in an
23034 unknown state), opens a new one to the same host, and then tries the delivery
23038 oindex:[%tls_verify_certificates%]
23040 %tls_verify_certificates%, Use: 'smtp', Type: 'string'!!, Default: 'unset'
23043 cindex:[TLS,server certificate verification]
23044 cindex:[certificate,verification of server]
23046 cindex:[$host_address$]
23047 The value of this option must be the absolute path to a file containing
23048 permitted server certificates, for use when setting up an encrypted connection.
23049 Alternatively, if you are using OpenSSL, you can set
23050 %tls_verify_certificates% to the name of a directory containing certificate
23051 files. This does not work with GnuTLS; the option must be set to the name of a
23052 single file if you are using GnuTLS. The values of $host$ and
23053 $host_address$ are set to the name and address of the server during the
23054 expansion of this option. See chapter <<CHAPTLS>> for details of TLS.
23060 How the limits for the number of hosts to try are used
23061 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23062 cindex:[host,maximum number to try]
23063 cindex:[limit,hosts; maximum number tried]
23064 There are two options that are concerned with the number of hosts that are
23065 tried when an SMTP delivery takes place. They are %hosts_max_try% and
23066 %hosts_max_try_hardlimit%.
23069 The %hosts_max_try% option limits the number of hosts that are tried
23070 for a single delivery. However, despite the term ``host'' in its name, the option
23071 actually applies to each IP address independently. In other words, a multihomed
23072 host is treated as several independent hosts, just as it is for retrying.
23074 Many of the larger ISPs have multiple MX records which often point to
23075 multihomed hosts. As a result, a list of a dozen or more IP addresses may be
23076 created as a result of routing one of these domains.
23078 Trying every single IP address on such a long list does not seem sensible; if
23079 several at the top of the list fail, it is reasonable to assume there is some
23080 problem that is likely to affect all of them. Roughly speaking, the value of
23081 %hosts_max_try% is the maximum number that are tried before deferring the
23082 delivery. However, the logic cannot be quite that simple.
23084 Firstly, IP addresses that are skipped because their retry times have not
23085 arrived do not count, and in addition, addresses that are past their retry
23086 limits are also not counted, even when they are tried. This means that when
23087 some IP addresses are past their retry limits, more than the value of
23088 %hosts_max_retry% may be tried. The reason for this behaviour is to ensure
23089 that all IP addresses are considered before timing out an email address (but
23090 see below for an exception).
23092 Secondly, when the %hosts_max_try% limit is reached, Exim looks down the host
23093 list to see if there is a subsequent host with a different (higher valued) MX.
23094 If there is, that host is considered next, and the current IP address is used
23095 but not counted. This behaviour helps in the case of a domain with a retry rule
23096 that hardly ever delays any hosts, as is now explained:
23098 Consider the case of a long list of hosts with one MX value, and a few with a
23099 higher MX value. If %hosts_max_try% is small (the default is 5) only a few
23100 hosts at the top of the list are tried at first. With the default retry rule,
23101 which specifies increasing retry times, the higher MX hosts are eventually
23102 tried when those at the top of the list are skipped because they have not
23103 reached their retry times.
23105 However, it is common practice to put a fixed short retry time on domains for
23106 large ISPs, on the grounds that their servers are rarely down for very long.
23107 Unfortunately, these are exactly the domains that tend to resolve to long lists
23108 of hosts. The short retry time means that the lowest MX hosts are tried every
23109 time. The attempts may be in a different order because of random sorting, but
23110 without the special MX check, the higher MX hosts would never be tried
23112 until all the lower MX hosts had timed out (which might be several days),
23113 because there are always some lower MX hosts that have reached their retry
23114 times. With the special check, Exim considers at least one IP address from each
23115 MX value at every delivery attempt, even if the %hosts_max_try% limit has
23116 already been reached.
23118 The above logic means that %hosts_max_try% is not a hard limit, and in
23119 particular, Exim normally eventually tries all the IP addresses before timing
23120 out an email address. When %hosts_max_try% was implemented, this seemed a
23121 reasonable thing to do. Recently, however, some lunatic DNS configurations have
23122 been set up with hundreds of IP addresses for some domains. It can
23123 take a very long time indeed for an address to time out in these cases.
23125 The %hosts_max_try_hardlimit% option was added to help with this problem.
23126 Exim never tries more than this number of IP addresses; if it hits this limit
23127 and they are all timed out, the email address is bounced, even though not all
23128 possible IP addresses have been tried.
23134 ////////////////////////////////////////////////////////////////////////////
23135 ////////////////////////////////////////////////////////////////////////////
23140 cindex:[rewriting,addresses]
23141 There are some circumstances in which Exim automatically rewrites domains in
23142 addresses. The two most common are when an address is given without a domain
23143 (referred to as an ``unqualified address'') or when an address contains an
23144 abbreviated domain that is expanded by DNS lookup.
23146 Unqualified envelope addresses are accepted only for locally submitted
23147 messages, or messages from hosts that match %sender_unqualified_hosts% or
23148 %recipient_unqualified_hosts%, respectively. Unqualified addresses in header
23149 lines are qualified if they are in locally submitted messages, or messages from
23150 hosts that are permitted to send unqualified envelope addresses. Otherwise,
23151 unqualified addresses in header lines are neither qualified nor rewritten.
23153 One situation in which Exim does 'not' automatically rewrite a domain is
23154 when it is the name of a CNAME record in the DNS. The older RFCs suggest that
23155 such a domain should be rewritten using the ``canonical'' name, and some MTAs do
23156 this. The new RFCs do not contain this suggestion.
23159 Explicitly configured address rewriting
23160 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23161 This chapter describes the rewriting rules that can be used in the
23162 main rewrite section of the configuration file, and also in the generic
23163 %headers_rewrite% option that can be set on any transport.
23165 Some people believe that configured address rewriting is a Mortal Sin.
23166 Others believe that life is not possible without it. Exim provides the
23167 facility; you do not have to use it.
23169 The main rewriting rules that appear in the ``rewrite'' section of the
23170 configuration file are applied to addresses in incoming messages, both envelope
23171 addresses and addresses in header lines. Each rule specifies the types of
23172 address to which it applies.
23174 Rewriting of addresses in header lines applies only to those headers that
23175 were received with the message, and, in the case of transport rewriting, those
23176 that were added by a system filter. That is, it applies only to those headers
23177 that are common to all copies of the message. Header lines that are added by
23178 individual routers or transports (and which are therefore specific to
23179 individual recipient addresses) are not rewritten.
23181 In general, rewriting addresses from your own system or domain has some
23182 legitimacy. Rewriting other addresses should be done only with great care and
23183 in special circumstances. The author of Exim believes that rewriting should be
23184 used sparingly, and mainly for ``regularizing'' addresses in your own domains.
23185 Although it can sometimes be used as a routing tool, this is very strongly
23188 There are two commonly encountered circumstances where rewriting is used, as
23189 illustrated by these examples:
23191 - The company whose domain is 'hitch.fict.example' has a number of hosts that
23192 exchange mail with each other behind a firewall, but there is only a single
23193 gateway to the outer world. The gateway rewrites '*.hitch.fict.example' as
23194 'hitch.fict.example' when sending mail off-site.
23196 - A host rewrites the local parts of its own users so that, for example,
23197 'fp42@hitch.fict.example' becomes 'Ford.Prefect@hitch.fict.example'.
23201 When does rewriting happen?
23202 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
23203 cindex:[rewriting,timing of]
23204 cindex:[{ACL},rewriting addresses in]
23205 Configured address rewriting can take place at several different stages of a
23206 message's processing.
23208 cindex:[$sender_address$]
23209 At the start of an ACL for MAIL, the sender address may have been rewritten
23210 by a special SMTP-time rewrite rule (see section <<SECTrewriteS>>), but no
23211 ordinary rewrite rules have yet been applied. If, however, the sender address
23212 is verified in the ACL, it is rewritten before verification, and remains
23213 rewritten thereafter. The subsequent value of $sender_address$ is the
23214 rewritten address. This also applies if sender verification happens in a
23215 RCPT ACL. Otherwise, when the sender address is not verified, it is
23216 rewritten as soon as a message's header lines have been received.
23219 cindex:[$local_part$]
23220 Similarly, at the start of an ACL for RCPT, the current recipient's address
23221 may have been rewritten by a special SMTP-time rewrite rule, but no ordinary
23222 rewrite rules have yet been applied to it. However, the behaviour is different
23223 from the sender address when a recipient is verified. The address is rewritten
23224 for the verification, but the rewriting is not remembered at this stage. The
23225 value of $local_part$ and $domain$ after verification are always the same
23226 as they were before (that is, they contain the unrewritten -- except for
23227 SMTP-time rewriting -- address).
23229 Once a message's header lines have been received, all the envelope recipient
23230 addresses are permanently rewritten, and rewriting is also applied to the
23231 addresses in the header lines (if configured).
23232 cindex:['local_scan()' function,address rewriting; timing of]
23233 Thus, all the rewriting is completed before the DATA ACL and
23234 'local_scan()' functions are run.
23236 When an address is being routed, either for delivery or for verification,
23237 rewriting is applied immediately to child addresses that are generated by
23238 redirection, unless %no_rewrite% is set on the router.
23240 cindex:[envelope sender, rewriting]
23241 cindex:[rewriting,at transport time]
23242 At transport time, additional rewriting of addresses in header lines can be
23243 specified by setting the generic %headers_rewrite% option on a transport. This
23244 option contains rules that are identical in form to those in the rewrite
23245 section of the configuration file. In addition, the outgoing envelope sender
23246 can be rewritten by means of the %return_path% transport option. However, it
23247 is not possible to rewrite envelope recipients at transport time.
23252 Testing the rewriting rules that apply on input
23253 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23254 cindex:[rewriting,testing]
23255 cindex:[testing,rewriting]
23256 Exim's input rewriting configuration appears in a part of the run time
23257 configuration file headed by ``begin rewrite''. It can be tested by the %-brw%
23258 command line option. This takes an address (which can be a full RFC 2822
23259 address) as its argument. The output is a list of how the address would be
23260 transformed by the rewriting rules for each of the different places it might
23261 appear in an incoming message, that is, for each different header and for the
23262 envelope sender and recipient fields. For example,
23264 exim -brw ph10@exim.workshop.example
23266 might produce the output
23268 sender: Philip.Hazel@exim.workshop.example
23269 from: Philip.Hazel@exim.workshop.example
23270 to: ph10@exim.workshop.example
23271 cc: ph10@exim.workshop.example
23272 bcc: ph10@exim.workshop.example
23273 reply-to: Philip.Hazel@exim.workshop.example
23274 env-from: Philip.Hazel@exim.workshop.example
23275 env-to: ph10@exim.workshop.example
23277 which shows that rewriting has been set up for that address when used in any of
23278 the source fields, but not when it appears as a recipient address. At the
23279 present time, there is no equivalent way of testing rewriting rules that are
23280 set for a particular transport.
23285 cindex:[rewriting,rules]
23286 The rewrite section of the configuration file consists of lines of rewriting
23289 <source pattern> <replacement> <flags>
23291 Rewriting rules that are specified for the %headers_rewrite% generic transport
23292 option are given as a colon-separated list. Each item in the list takes the
23293 same form as a line in the main rewriting configuration
23294 (except that any colons must be doubled, of course).
23296 The formats of source patterns and replacement strings are described below.
23297 Each is terminated by white space, unless enclosed in double quotes, in which
23298 case normal quoting conventions apply inside the quotes. The flags are single
23299 characters which may appear in any order. Spaces and tabs between them are
23302 For each address that could potentially be rewritten, the rules are scanned in
23303 order, and replacements for the address from earlier rules can themselves be
23304 replaced by later rules (but see the ``q'' and ``R'' flags).
23306 The order in which addresses are rewritten is undefined, may change between
23307 releases, and must not be relied on, with one exception: when a message is
23308 received, the envelope sender is always rewritten first, before any header
23309 lines are rewritten. For example, the replacement string for a rewrite of an
23310 address in 'To:' must not assume that the message's address in 'From:' has (or
23311 has not) already been rewritten. However, a rewrite of 'From:' may assume that
23312 the envelope sender has already been rewritten.
23315 cindex:[$local_part$]
23316 The variables $local_part$ and $domain$ can be used in the replacement
23317 string to refer to the address that is being rewritten. Note that lookup-driven
23318 rewriting can be done by a rule of the form
23322 where the lookup key uses $1$ and $2$ or $local_part$ and $domain$ to
23323 refer to the address that is being rewritten.
23328 cindex:[rewriting,patterns]
23329 cindex:[address list,in a rewriting pattern]
23330 The source pattern in a rewriting rule is any item which may appear in an
23331 address list (see section <<SECTaddresslist>>). It is in fact processed as a
23332 single-item address list, which means that it is expanded before being tested
23333 against the address. As always, if you use a regular expression as a pattern,
23334 you must take care to escape dollar and backslash characters, or use the `\N`
23335 facility to suppress string expansion within the regular expression.
23337 Domains in patterns should be given in lower case. Local parts in patterns are
23338 case-sensitive. If you want to do case-insensitive matching of local parts, you
23339 can use a regular expression that starts with `^(?i)`.
23341 cindex:[numerical variables ($1$ $2$ etc),in rewriting rules]
23342 After matching, the numerical variables $1$, $2$, etc. may be set,
23343 depending on the type of match which occurred. These can be used in the
23344 replacement string to insert portions of the incoming address. $0$ always
23345 refers to the complete incoming address. When a regular expression is used, the
23346 numerical variables are set from its capturing subexpressions. For other types
23347 of pattern they are set as follows:
23349 - If a local part or domain starts with an asterisk, the numerical variables
23350 refer to the character strings matched by asterisks, with $1$ associated with
23351 the first asterisk, and $2$ with the second, if present. For example, if the
23354 *queen@*.fict.example
23356 is matched against the address 'hearts-queen@wonderland.fict.example' then
23358 $0 = hearts-queen@wonderland.fict.example
23362 Note that if the local part does not start with an asterisk, but the domain
23363 does, it is $1$ that contains the wild part of the domain.
23365 - If the domain part of the pattern is a partial lookup, the wild and fixed parts
23366 of the domain are placed in the next available numerical variables. Suppose,
23367 for example, that the address 'foo@bar.baz.example' is processed by a
23368 rewriting rule of the form
23370 *@partial-dbm;/some/dbm/file <replacement string>
23372 and the key in the file that matches the domain is `*.baz.example`. Then
23378 If the address 'foo@baz.example' is looked up, this matches the same
23379 wildcard file entry, and in this case $2$ is set to the empty string, but
23380 $3$ is still set to 'baz.example'. If a non-wild key is matched in a
23381 partial lookup, $2$ is again set to the empty string and $3$ is set to the
23382 whole domain. For non-partial domain lookups, no numerical variables are set.
23386 Rewriting replacements
23387 ~~~~~~~~~~~~~~~~~~~~~~
23388 cindex:[rewriting,replacements]
23389 If the replacement string for a rule is a single asterisk, addresses that
23390 match the pattern and the flags are 'not' rewritten, and no subsequent
23391 rewriting rules are scanned. For example,
23393 hatta@lookingglass.fict.example * f
23395 specifies that 'hatta@lookingglass.fict.example' is never to be rewritten in
23399 cindex:[$local_part$]
23400 If the replacement string is not a single asterisk, it is expanded, and must
23401 yield a fully qualified address. Within the expansion, the variables
23402 $local_part$ and $domain$ refer to the address that is being rewritten.
23403 Any letters they contain retain their original case -- they are not lower
23404 cased. The numerical variables are set up according to the type of pattern that
23405 matched the address, as described above. If the expansion is forced to fail by
23406 the presence of ``fail'' in a conditional or lookup item, rewriting by the
23407 current rule is abandoned, but subsequent rules may take effect. Any other
23408 expansion failure causes the entire rewriting operation to be abandoned, and an
23409 entry written to the panic log.
23415 There are three different kinds of flag that may appear on rewriting rules:
23417 - Flags that specify which headers and envelope addresses to rewrite: E, F, T, b,
23420 - A flag that specifies rewriting at SMTP time: S.
23422 - Flags that control the rewriting process: Q, q, R, w.
23424 For rules that are part of the %headers_rewrite% generic transport option,
23425 E, F, T, and S are not permitted.
23429 Flags specifying which headers and envelope addresses to rewrite
23430 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23431 cindex:[rewriting,flags]
23432 If none of the following flag letters, nor the ``S'' flag (see section
23433 <<SECTrewriteS>>) are present, a main rewriting rule applies to all headers and
23434 to both the sender and recipient fields of the envelope, whereas a
23435 transport-time rewriting rule just applies to all headers. Otherwise, the
23436 rewriting rule is skipped unless the relevant addresses are being processed.
23439 `E` rewrite all envelope fields
23440 `F` rewrite the envelope From field
23441 `T` rewrite the envelope To field
23442 `b` rewrite the 'Bcc:' header
23443 `c` rewrite the 'Cc:' header
23444 `f` rewrite the 'From:' header
23445 `h` rewrite all headers
23446 `r` rewrite the 'Reply-To:' header
23447 `s` rewrite the 'Sender:' header
23448 `t` rewrite the 'To:' header
23451 You should be particularly careful about rewriting 'Sender:' headers, and
23452 restrict this to special known cases in your own domains.
23456 The SMTP-time rewriting flag
23457 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23458 cindex:[SMTP,rewriting malformed addresses]
23459 cindex:[RCPT,rewriting argument of]
23460 cindex:[MAIL,rewriting argument of]
23461 The rewrite flag ``S'' specifies a rewrite of incoming envelope addresses at SMTP
23462 time, as soon as an address is received in a MAIL or RCPT command, and
23463 before any other processing; even before syntax checking. The pattern is
23464 required to be a regular expression, and it is matched against the whole of the
23465 data for the command, including any surrounding angle brackets.
23468 cindex:[$local_part$]
23469 This form of rewrite rule allows for the handling of addresses that are not
23470 compliant with RFCs 2821 and 2822 (for example, ``bang paths'' in batched SMTP
23471 input). Because the input is not required to be a syntactically valid address,
23472 the variables $local_part$ and $domain$ are not available during the
23473 expansion of the replacement string. The result of rewriting replaces the
23474 original address in the MAIL or RCPT command.
23477 Flags controlling the rewriting process
23478 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23479 There are four flags which control the way the rewriting process works. These
23480 take effect only when a rule is invoked, that is, when the address is of the
23481 correct type (matches the flags) and matches the pattern:
23483 - If the ``Q'' flag is set on a rule, the rewritten address is permitted to be an
23484 unqualified local part. It is qualified with %qualify_recipient%. In the
23485 absence of ``Q'' the rewritten address must always include a domain.
23487 - If the ``q'' flag is set on a rule, no further rewriting rules are considered,
23488 even if no rewriting actually takes place because of a ``fail'' in the expansion.
23489 The ``q'' flag is not effective if the address is of the wrong type (does not
23490 match the flags) or does not match the pattern.
23492 - The ``R'' flag causes a successful rewriting rule to be re-applied to the new
23493 address, up to ten times. It can be combined with the ``q'' flag, to stop
23494 rewriting once it fails to match (after at least one successful rewrite).
23496 - cindex:[rewriting,whole addresses]
23497 When an address in a header is rewritten, the rewriting normally applies only
23498 to the working part of the address, with any comments and RFC 2822 ``phrase''
23499 left unchanged. For example, rewriting might change
23501 From: Ford Prefect <fp42@restaurant.hitch.fict.example>
23505 From: Ford Prefect <prefectf@hitch.fict.example>
23508 Sometimes there is a need to replace the whole address item, and this can be
23509 done by adding the flag letter ``w'' to a rule. If this is set on a rule that
23510 causes an address in a header line to be rewritten, the entire address is
23511 replaced, not just the working part. The replacement must be a complete RFC
23512 2822 address, including the angle brackets if necessary. If text outside angle
23513 brackets contains a character whose value is greater than 126 or less than 32
23514 (except for tab), the text is encoded according to RFC 2047. The character set
23515 is taken from %headers_charset%, which defaults to ISO-8859-1.
23517 When the ``w'' flag is set on a rule that causes an envelope address to be
23518 rewritten, all but the working part of the replacement address is discarded.
23524 Here is an example of the two common rewriting paradigms:
23527 *@*.hitch.fict.example $1@hitch.fict.example
23528 *@hitch.fict.example ${lookup{$1}dbm{/etc/realnames}\
23529 {$value}fail}@hitch.fict.example bctfrF
23532 Note the use of ``fail'' in the lookup expansion in the second rule, forcing
23533 the string expansion to fail if the lookup does not succeed. In this context it
23534 has the effect of leaving the original address unchanged, but Exim goes on to
23535 consider subsequent rewriting rules, if any, because the ``q'' flag is not
23536 present in that rule. An alternative to ``fail'' would be to supply $1$
23537 explicitly, which would cause the rewritten address to be the same as before,
23538 at the cost of a small bit of processing. Not supplying either of these is an
23539 error, since the rewritten address would then contain no local part.
23541 The first example above replaces the domain with a superior, more general
23542 domain. This may not be desirable for certain local parts. If the rule
23544 root@*.hitch.fict.example *
23546 were inserted before the first rule, rewriting would be suppressed for the
23547 local part 'root' at any domain ending in 'hitch.fict.example'.
23549 Rewriting can be made conditional on a number of tests, by making use of
23550 $\{if$ in the expansion item. For example, to apply a rewriting rule only to
23551 messages that originate outside the local host:
23554 *@*.hitch.fict.example "${if !eq {$sender_host_address}{}\
23555 {$1@hitch.fict.example}fail}"
23558 The replacement string is quoted in this example because it contains white
23561 cindex:[rewriting,bang paths]
23562 cindex:[bang paths,rewriting]
23563 Exim does not handle addresses in the form of ``bang paths''. If it sees such an
23564 address it treats it as an unqualified local part which it qualifies with the
23565 local qualification domain (if the source of the message is local or if the
23566 remote host is permitted to send unqualified addresses). Rewriting can
23567 sometimes be used to handle simple bang paths with a fixed number of
23568 components. For example, the rule
23570 \N^([^!]+)!(.*)@your.domain.example$\N $2@$1
23572 rewrites a two-component bang path 'host.name!user' as the domain address
23573 'user@host.name'. However, there is a security implication in using this as
23574 a global rewriting rule for envelope addresses. It can provide a backdoor
23575 method for using your system as a relay, because the incoming addresses appear
23576 to be local. If the bang path addresses are received via SMTP, it is safer to
23577 use the ``S'' flag to rewrite them as they are received, so that relay checking
23578 can be done on the rewritten addresses.
23584 ////////////////////////////////////////////////////////////////////////////
23585 ////////////////////////////////////////////////////////////////////////////
23588 Retry configuration
23589 -------------------
23590 cindex:[retry configuration, description of]
23591 cindex:[configuration file,retry section]
23592 The ``retry'' section of the run time configuration file contains a list of retry
23593 rules which control how often Exim tries to deliver messages that cannot be
23594 delivered at the first attempt. If there are no retry rules, temporary errors
23595 are treated as permanent. The %-brt% command line option can be used to test
23596 which retry rule will be used for a given address or domain.
23598 The most common cause of retries is temporary failure to deliver to a remote
23599 host because the host is down, or inaccessible because of a network problem.
23600 Exim's retry processing in this case is applied on a per-host (strictly, per IP
23601 address) basis, not on a per-message basis. Thus, if one message has recently
23602 been delayed, delivery of a new message to the same host is not immediately
23603 tried, but waits for the host's retry time to arrive. If the %retry_defer% log
23604 selector is set, the message
23605 cindex:[retry,time not reached]
23606 ``retry time not reached'' is written to the main log whenever a delivery is
23607 skipped for this reason. Section <<SECToutSMTPerr>> contains more details of the
23608 handling of errors during remote deliveries.
23610 Retry processing applies to routing as well as to delivering, except as covered
23611 in the next paragraph. The retry rules do not distinguish between these
23612 actions. It is not possible, for example, to specify different behaviour for
23613 failures to route the domain 'snark.fict.example' and failures to deliver to
23614 the host 'snark.fict.example'. I didn't think anyone would ever need this
23615 added complication, so did not implement it. However, although they share the
23616 same retry rule, the actual retry times for routing and transporting a given
23617 domain are maintained independently.
23619 When a delivery is not part of a queue run (typically an immediate delivery on
23620 receipt of a message), the routers are always run, and local deliveries are
23621 always attempted, even if retry times are set for them. This makes for better
23622 behaviour if one particular message is causing problems (for example, causing
23623 quota overflow, or provoking an error in a filter file). If such a delivery
23624 suffers a temporary failure, the retry data is updated as normal, and
23625 subsequent delivery attempts from queue runs occur only when the retry time for
23626 the local address is reached.
23632 cindex:[retry,rules]
23633 Each retry rule occupies one line and consists of three or four parts,
23634 separated by white space: a pattern, an error name, an optional list of sender
23635 addresses, and a list of retry parameters. The pattern and sender lists must be
23636 enclosed in double quotes if they contain white space. The rules are searched in
23637 order until one is found where the pattern, error name, and sender list (if
23638 present) match the failing host or address, the error that occurred, and the
23639 message's sender, respectively.
23642 The pattern is any single item that may appear in an address list (see section
23643 <<SECTaddresslist>>). It is in fact processed as a one-item address list, which
23644 means that it is expanded before being tested against the address that has
23645 been delayed. Address list processing treats a plain domain name as if it were
23646 preceded by ``\*@'', which makes it possible for many retry rules to start with
23647 just a domain. For example,
23649 lookingglass.fict.example * F,24h,30m;
23651 provides a rule for any address in the 'lookingglass.fict.example' domain,
23654 alice@lookingglass.fict.example * F,24h,30m;
23656 applies only to temporary failures involving the local part %alice%.
23657 In practice, almost all rules start with a domain name pattern without a local
23660 cindex:[regular expressions,in retry rules]
23661 *Warning*: If you use a regular expression in a routing rule pattern, it
23662 must match a complete address, not just a domain, because that is how regular
23663 expressions work in address lists.
23666 `\^\Nxyz\d+\.abc\.example\\$\N \* G,1h,10m,2` %Wrong%
23667 `\^\N[^@]+@xyz\d+\.abc\.example\\$\N \* G,1h,10m,2` %Right%
23672 Choosing which retry rule to use for address errors
23673 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23674 When Exim is looking for a retry rule after a routing attempt has failed (for
23675 example, after a DNS timeout), each line in the retry configuration is tested
23676 against the complete address only if %retry_use_local_part% is set for the
23677 router. Otherwise, only the domain is used, except when matching against a
23678 regular expression, when the local part of the address is replaced with ``\*''.
23679 A domain on its own can match a domain pattern, or a pattern that starts with
23680 ``\*@''. By default, %retry_use_local_part% is true for routers where
23681 %check_local_user% is true, and false for other routers.
23683 Similarly, when Exim is looking for a retry rule after a local delivery has
23684 failed (for example, after a mailbox full error), each line in the retry
23685 configuration is tested against the complete address only if
23686 %retry_use_local_part% is set for the transport (it defaults true for all
23689 When Exim is looking for a retry rule after a remote delivery attempt has
23690 failed, what happens depends on the type of failure. After a 4##'xx' SMTP
23691 response for a recipient address, the whole address is used when searching the
23692 retry rules. The rule that is found is used to create a retry time for the
23696 Choosing which retry rule to use for host errors
23697 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23698 For a temporary error that is not related to an individual address (for
23699 example, a connection timeout), each line in the retry configuration is checked
23700 twice. First, the name of the remote host is used as a domain name (preceded by
23701 ``\*@'' when matching a regular expression). If this does not match the line,
23702 the domain from the email address is tried in a similar fashion. For example,
23703 suppose the MX records for 'a.b.c.example' are
23705 a.b.c.example MX 5 x.y.z.example
23709 and the retry rules are
23711 p.q.r.example * F,24h,30m;
23712 a.b.c.example * F,4d,45m;
23714 and a delivery to the host 'x.y.z.example' suffers a connection failure. The
23715 first rule matches neither the host nor the domain, so Exim looks at the second
23716 rule. This does not match the host, but it does match the domain, so it is used
23717 to calculate the retry time for the host 'x.y.z.example'. Meanwhile, Exim tries
23718 to deliver to 'p.q.r.example'. If this also suffers a host error, the first
23719 retry rule is used, because it matches the host.
23721 In other words, temporary failures to deliver to host 'p.q.r.example' use the
23722 first rule to determine retry times, but for all the other hosts for the domain
23723 'a.b.c.example', the second rule is used. The second rule is also used if
23724 routing to 'a.b.c.example' suffers a temporary failure.
23726 [revisionflag="changed"]
23727 *Note*: the host name is used when matching the patterns, not its IP address.
23728 However, if a message is routed directly to an IP address without the use of a
23729 host name, for example, if a ^manualroute^ router contains a setting such as:
23731 route_list = *.a.example 192.168.34.23
23733 then the ``host name'' that is used when searching for a retry rule is the
23734 textual form of the IP address.
23737 Retry rules for specific errors
23738 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23739 cindex:[retry,specific errors; specifying]
23740 The second field in a retry rule is the name of a particular error, or an
23741 asterisk, which matches any error. The errors that can be tested for are:
23744 Authentication failed when trying to send to a host in the %hosts_require_auth%
23745 list in an ^smtp^ transport.
23748 A 4##'xx' error was received for an outgoing RCPT command. Either the first or
23749 both of the x's can be given as specific digits, for example: `rcpt_45x` or
23750 `rcpt_436`. For example, to recognize 452 errors given to RCPT commands by a
23751 particular host, and have retries every ten minutes and a one-hour timeout, you
23752 could set up a retry rule of this form:
23754 the.host.name rcpt_452 F,1h,10m
23756 These errors apply to both outgoing SMTP (the ^smtp^ transport) and outgoing
23757 LMTP (either the ^lmtp^ transport, or the ^smtp^ transport in LMTP mode).
23758 Note, however, that they apply only to responses to RCPT commands.
23761 A connection to a host obtained from an MX record was refused.
23764 A connection to a host not obtained from an MX record was refused.
23767 A connection was refused.
23769 %timeout_connect_MX%::
23770 A connection attempt to a host obtained from an MX record timed out.
23772 %timeout_connect_A%::
23773 A connection attempt to a host not obtained from an MX record timed out.
23775 %timeout_connect%::
23776 A connection attempt timed out.
23779 There was a timeout while connecting or during an SMTP session with a host
23780 obtained from an MX record.
23783 There was a timeout while connecting or during an SMTP session with a host not
23784 obtained from an MX record.
23787 There was a timeout while connecting or during an SMTP session.
23790 A mailbox quota was exceeded in a local delivery by the ^appendfile^ transport.
23793 cindex:[quota,error testing in retry rule]
23794 cindex:[retry,quota error testing]
23795 A mailbox quota was exceeded in a local delivery by the ^appendfile^ transport,
23796 and the mailbox has not been accessed for <'time'>. For example, 'quota_4d'
23797 applies to a quota error when the mailbox has not been accessed for four days.
23803 cindex:[mailbox,time of last read]
23804 The idea of %quota_%<'time'> is to make it possible to have shorter timeouts
23805 when the mailbox is full and is not being read by its owner. Ideally, it should
23806 be based on the last time that the user accessed the mailbox. However, it is
23807 not always possible to determine this. Exim uses the following heuristic rules:
23809 - If the mailbox is a single file, the time of last access (the ``atime'') is used.
23810 As no new messages are being delivered (because the mailbox is over quota),
23811 Exim does not access the file, so this is the time of last user access.
23813 - cindex:[maildir format,time of last read]
23814 For a maildir delivery, the time of last modification of the _new_
23815 subdirectory is used. As the mailbox is over quota, no new files are created in
23816 the _new_ subdirectory, because no new messages are being delivered. Any
23817 change to the _new_ subdirectory is therefore assumed to be the result of an
23818 MUA moving a new message to the _cur_ directory when it is first read. The
23819 time that is used is therefore the last time that the user read a new message.
23821 - For other kinds of multi-file mailbox, the time of last access cannot be
23822 obtained, so a retry rule that uses this type of error field is never matched.
23824 The quota errors apply both to system-enforced quotas and to Exim's own quota
23825 mechanism in the ^appendfile^ transport. The 'quota' error also applies
23826 when a local delivery is deferred because a partition is full (the ENOSPC
23831 Retry rules for specified senders
23832 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23833 cindex:[retry,rules; sender-specific]
23834 You can specify retry rules that apply only when the failing message has a
23835 specific sender. In particular, this can be used to define retry rules that
23836 apply only to bounce messages. The third item in a retry rule can be of this
23839 senders=<address list>
23841 The retry timings themselves are then the fourth item. For example:
23844 * rcpt_4xx senders=: F,1h,30m
23847 matches 4##'xx' errors for bounce messages sent to any host. If the address
23848 list contains white space, it must be enclosed in quotes. For example:
23850 a.domain auth_failed senders="xb.dom : yc.dom" G,8h,10m,1.5
23852 [revisionflag="changed"]
23853 *Warning*: This facility can be unhelpful if it is used for host errors (those
23854 that do not depend on the recipient). The reason is that the sender is used
23855 only to match the retry rule. Once the rule has been found for a host error,
23856 its contents are used to set a retry time for the host, and this will apply to
23857 all messages, not just those with specific senders.
23859 When testing retry rules using %-brt%, you can supply a sender using the %-f%
23860 command line option, like this:
23862 exim -f "" -brt user@dom.ain
23864 If you do not set %-f% with %-brt%, a retry rule that contains a senders list
23873 cindex:[retry,parameters in rules]
23874 The third (or fourth, if a senders list is present) field in a retry rule is a
23875 sequence of retry parameter sets, separated by semicolons. Each set consists of
23877 <letter>,<cutoff time>,<arguments>
23879 The letter identifies the algorithm for computing a new retry time; the cutoff
23880 time is the time beyond which this algorithm no longer applies, and the
23881 arguments vary the algorithm's action. The cutoff time is measured from the
23882 time that the first failure for the domain (combined with the local part if
23883 relevant) was detected, not from the time the message was received.
23885 cindex:[retry,algorithms]
23886 cindex:[retry,fixed intervals]
23887 cindex:[retry,increasing intervals]
23888 cindex:[retry,random intervals]
23889 The available algorithms are:
23891 - 'F': retry at fixed intervals. There is a single time parameter specifying
23894 - 'G': retry at geometrically increasing intervals. The first argument
23895 specifies a starting value for the interval, and the second a multiplier, which
23896 is used to increase the size of the interval at each retry.
23898 [revisionflag="changed"]
23899 - 'H': retry at randomized intervals. The arguments are as for 'G'. For each
23900 retry, the previous interval is multiplied by the factor in order to get a
23901 maximum for the next interval. The mininum interval is the first argument of
23902 the parameter, and an actual interval is chosen randomly between them. Such a
23903 rule has been found to be helpful in cluster configurations when all the
23904 members of the cluster restart at once, and may therefore synchronize their
23905 queue processing times.
23907 When computing the next retry time, the algorithm definitions are scanned in
23908 order until one whose cutoff time has not yet passed is reached. This is then
23909 used to compute a new retry time that is later than the current time. In the
23910 case of fixed interval retries, this simply means adding the interval to the
23911 current time. For geometrically increasing intervals, retry intervals are
23912 computed from the rule's parameters until one that is greater than the previous
23913 interval is found. The main configuration variable
23914 cindex:[limit,retry interval]
23915 cindex:[retry interval, maximum]
23916 cindex:[%retry_interval_max%]
23917 %retry_interval_max% limits the maximum interval between retries.
23919 A single remote domain may have a number of hosts associated with it, and each
23920 host may have more than one IP address. Retry algorithms are selected on the
23921 basis of the domain name, but are applied to each IP address independently. If,
23922 for example, a host has two IP addresses and one is unusable, Exim will
23923 generate retry times for it and will not try to use it until its next retry
23924 time comes. Thus the good IP address is likely to be tried first most of the
23927 cindex:[hints database,use for retrying]
23928 Retry times are hints rather than promises. Exim does not make any attempt to
23929 run deliveries exactly at the computed times. Instead, a queue runner process
23930 starts delivery processes for delayed messages periodically, and these attempt
23931 new deliveries only for those addresses that have passed their next retry time.
23932 If a new message arrives for a deferred address, an immediate delivery attempt
23933 occurs only if the address has passed its retry time. In the absence of new
23934 messages, the minimum time between retries is the interval between queue runner
23935 processes. There is not much point in setting retry times of five minutes if
23936 your queue runners happen only once an hour, unless there are a significant
23937 number of incoming messages (which might be the case on a system that is
23938 sending everything to a smart host, for example).
23940 The data in the retry hints database can be inspected by using the
23941 'exim_dumpdb' or 'exim_fixdb' utility programs (see chapter <<CHAPutils>>). The
23942 latter utility can also be used to change the data. The 'exinext' utility
23943 script can be used to find out what the next retry times are for the hosts
23944 associated with a particular mail domain, and also for local deliveries that
23945 have been deferred.
23948 Retry rule examples
23949 ~~~~~~~~~~~~~~~~~~~
23950 Here are some example retry rules:
23952 alice@wonderland.fict.example quota_5d F,7d,3h
23953 wonderland.fict.example quota_5d
23954 wonderland.fict.example * F,1h,15m; G,2d,1h,2;
23955 lookingglass.fict.example * F,24h,30m;
23956 * refused_A F,2h,20m;
23957 * * F,2h,15m; G,16h,1h,1.5; F,5d,8h
23959 The first rule sets up special handling for mail to
23960 'alice@wonderland.fict.example' when there is an over-quota error and the
23961 mailbox has not been read for at least 5 days. Retries continue every three
23962 hours for 7 days. The second rule handles over-quota errors for all other local
23963 parts at 'wonderland.fict.example'; the absence of a local part has the same
23964 effect as supplying ``\*@''. As no retry algorithms are supplied, messages that
23965 fail are bounced immediately if the mailbox has not been read for at least 5
23968 The third rule handles all other errors at 'wonderland.fict.example'; retries
23969 happen every 15 minutes for an hour, then with geometrically increasing
23970 intervals until two days have passed since a delivery first failed. After the
23971 first hour there is a delay of one hour, then two hours, then four hours, and
23972 so on (this is a rather extreme example).
23974 The fourth rule controls retries for the domain 'lookingglass.fict.example'.
23975 They happen every 30 minutes for 24 hours only. The remaining two rules handle
23976 all other domains, with special action for connection refusal from hosts that
23977 were not obtained from an MX record.
23979 The final rule in a retry configuration should always have asterisks in the
23980 first two fields so as to provide a general catch-all for any addresses that do
23981 not have their own special handling. This example tries every 15 minutes for 2
23982 hours, then with intervals starting at one hour and increasing by a factor of
23983 1.5 up to 16 hours, then every 8 hours up to 5 days.
23987 Timeout of retry data
23988 ~~~~~~~~~~~~~~~~~~~~~
23989 cindex:[timeout,of retry data]
23990 cindex:[%retry_data_expire%]
23991 cindex:[hints database,data expiry]
23992 cindex:[retry,timeout of data]
23993 Exim timestamps the data that it writes to its retry hints database. When it
23994 consults the data during a delivery it ignores any that is older than the value
23995 set in %retry_data_expire% (default 7 days). If, for example, a host hasn't
23996 been tried for 7 days, Exim will try to deliver to it immediately a message
23997 arrives, and if that fails, it will calculate a retry time as if it were
23998 failing for the first time.
24000 This improves the behaviour for messages routed to rarely-used hosts such as MX
24001 backups. If such a host was down at one time, and happens to be down again when
24002 Exim tries a month later, using the old retry data would imply that it had been
24003 down all the time, which is not a justified assumption.
24005 If a host really is permanently dead, this behaviour causes a burst of retries
24006 every now and again, but only if messages routed to it are rare. It there is a
24007 message at least once every 7 days the retry data never expires.
24014 cindex:[delivery failure, long-term]
24015 cindex:[retry,after long-term failure]
24016 Special processing happens when an email address has been failing for so long
24017 that the cutoff time for the last algorithm is reached. For example, using the
24018 default retry rule:
24021 * * F,2h,15m; G,16h,1h,1.5; F,4d,6h
24024 the cutoff time is four days. Reaching the retry cutoff is independent of how
24025 long any specific message has been failing; it is the length of continuous
24026 failure for the recipient address that counts.
24028 When the cutoff time is reached for a local delivery, or for all the IP
24029 addresses associated with a remote delivery, a subsequent delivery failure
24030 causes Exim to give up on the address, and a bounce message is generated.
24031 In order to cater for new messages that use the failing address, a next retry
24032 time is still computed from the final algorithm, and is used as follows:
24034 For local deliveries, one delivery attempt is always made for any subsequent
24035 messages. If this delivery fails, the address fails immediately. The
24036 post-cutoff retry time is not used.
24038 If the delivery is remote, there are two possibilities, controlled by the
24039 cindex:[%delay_after_cutoff%]
24040 %delay_after_cutoff% option of the ^smtp^ transport. The option is true by
24041 default. Until the post-cutoff retry time for one of the IP addresses is
24042 reached, the failing email address is bounced immediately, without a delivery
24043 attempt taking place. After that time, one new delivery attempt is made to
24044 those IP addresses that are past their retry times, and if that still fails,
24045 the address is bounced and new retry times are computed.
24047 In other words, when all the hosts for a given email address have been failing
24048 for a long time, Exim bounces rather then defers until one of the hosts' retry
24049 times is reached. Then it tries once, and bounces if that attempt fails. This
24050 behaviour ensures that few resources are wasted in repeatedly trying to deliver
24051 to a broken destination, but if the host does recover, Exim will eventually
24054 If %delay_after_cutoff% is set false, Exim behaves differently. If all IP
24055 addresses are past their final cutoff time, Exim tries to deliver to those IP
24056 addresses that have not been tried since the message arrived. If there are
24057 no suitable IP addresses, or if they all fail, the address is bounced. In other
24058 words, it does not delay when a new message arrives, but tries the expired
24059 addresses immediately, unless they have been tried since the message arrived.
24060 If there is a continuous stream of messages for the failing domains, setting
24061 %delay_after_cutoff% false means that there will be many more attempts to
24062 deliver to permanently failing IP addresses than when %delay_after_cutoff% is
24066 Ultimate address timeout
24067 ~~~~~~~~~~~~~~~~~~~~~~~~
24068 cindex:[retry,ultimate address timeout]
24069 An additional rule is needed to cope with cases where a host is intermittently
24070 available, or when a message has some attribute that prevents its delivery when
24071 others to the same address get through. In this situation, because some
24072 messages are successfully delivered, the ``retry clock'' for the address keeps
24073 getting restarted, and so a message could remain on the queue for ever. To
24074 prevent this, if a message has been on the queue for longer than the cutoff
24075 time of any applicable retry rule for a given address, a delivery is attempted
24076 for that address, even if it is not yet time, and if this delivery fails, the
24077 address is timed out. A new retry time is not computed in this case, so that
24078 other messages for the same address are considered immediately.
24084 ////////////////////////////////////////////////////////////////////////////
24085 ////////////////////////////////////////////////////////////////////////////
24088 SMTP authentication
24089 -------------------
24090 cindex:[SMTP,authentication configuration]
24091 cindex:[authentication]
24092 The ``authenticators'' section of Exim's run time configuration is concerned with
24093 SMTP authentication. This facility is an extension to the SMTP protocol,
24094 described in RFC 2554, which allows a client SMTP host to authenticate itself
24095 to a server. This is a common way for a server to recognize clients that
24096 are permitted to use it as a relay. SMTP authentication is not of relevance to
24097 the transfer of mail between servers that have no managerial connection with
24100 cindex:[AUTH,description of]
24101 Very briefly, the way SMTP authentication works is as follows:
24103 - The server advertises a number of authentication 'mechanisms' in response to
24104 the client's EHLO command.
24106 - The client issues an AUTH command, naming a specific mechanism. The command
24107 may, optionally, contain some authentication data.
24109 - The server may issue one or more 'challenges', to which the client must send
24110 appropriate responses. In simple authentication mechanisms, the challenges are
24111 just prompts for user names and passwords. The server does not have to issue
24112 any challenges -- in some mechanisms the relevant data may all be transmitted
24113 with the AUTH command.
24115 - The server either accepts or denies authentication.
24117 - If authentication succeeds, the client may optionally make use of the AUTH
24118 option on the MAIL command to pass an authenticated sender in subsequent
24119 mail transactions. Authentication lasts for the remainder of the SMTP
24122 - If authentication fails, the client may give up, or it may try a different
24123 authentication mechanism, or it may try transferring mail over the
24124 unauthenticated connection.
24126 If you are setting up a client, and want to know which authentication
24127 mechanisms the server supports, you can use Telnet to connect to port 25 (the
24128 SMTP port) on the server, and issue an EHLO command. The response to this
24129 includes the list of supported mechanisms. For example:
24132 `\$ `##*`telnet server.example 25`*
24133 `Trying 192.168.34.25...`
24134 `Connected to server.example.`
24135 `Escape character is \'^]\'.`
24136 `220 server.example ESMTP Exim 4.20 ...`
24137 *`ehlo client.example`*
24138 `250-server.example Hello client.example [10.8.4.5]`
24139 `250-SIZE 52428800`
24145 The second-last line of this example output shows that the server supports
24146 authentication using the PLAIN mechanism. In Exim, the different authentication
24147 mechanisms are configured by specifying 'authenticator' drivers. Like the
24148 routers and transports, which authenticators are included in the binary is
24149 controlled by build-time definitions. The following are currently available,
24150 included by setting
24153 AUTH_CYRUS_SASL=yes
24157 in _Local/Makefile_, respectively. The first of these supports the CRAM-MD5
24158 authentication mechanism (RFC 2195), and the second provides an interface to
24159 the Cyrus SASL authentication library. The third can be configured to support
24160 the PLAIN authentication mechanism (RFC 2595) or the LOGIN mechanism, which is
24161 not formally documented, but used by several MUAs. The fourth authenticator
24162 supports Microsoft's 'Secure Password Authentication' mechanism.
24164 The authenticators are configured using the same syntax as other drivers (see
24165 section <<SECTfordricon>>). If no authenticators are required, no authentication
24166 section need be present in the configuration file. Each authenticator can in
24167 principle have both server and client functions. When Exim is receiving SMTP
24168 mail, it is acting as a server; when it is sending out messages over SMTP, it
24169 is acting as a client. Authenticator configuration options are provided for use
24170 in both these circumstances.
24172 To make it clear which options apply to which situation, the prefixes
24173 %server_% and %client_% are used on option names that are specific to either
24174 the server or the client function, respectively. Server and client functions
24175 are disabled if none of their options are set. If an authenticator is to be
24176 used for both server and client functions, a single definition, using both sets
24177 of options, is required. For example:
24181 public_name = CRAM-MD5
24182 server_secret = ${if eq{$1}{ph10}{secret1}fail}
24184 client_secret = secret2
24186 The %server_% option is used when Exim is acting as a server, and the
24187 %client_% options when it is acting as a client.
24189 Descriptions of the individual authenticators are given in subsequent chapters.
24190 The remainder of this chapter covers the generic options for the
24191 authenticators, followed by general discussion of the way authentication works
24196 Generic options for authenticators
24197 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24198 cindex:[authentication,generic options]
24199 cindex:[options,generic; for authenticators]
24204 %driver%, Use: 'authenticators', Type: 'string', Default: 'unset'
24207 This option must always be set. It specifies which of the available
24208 authenticators is to be used.
24211 oindex:[%public_name%]
24213 %public_name%, Use: 'authenticators', Type: 'string', Default: 'unset'
24216 This option specifies the name of the authentication mechanism that the driver
24217 implements, and by which it is known to the outside world. These names should
24218 contain only upper case letters, digits, underscores, and hyphens (RFC 2222),
24219 but Exim in fact matches them caselessly. If %public_name% is not set, it
24220 defaults to the driver's instance name.
24223 oindex:[%server_advertise_condition%]
24225 %server_advertise_condition%, Use: 'authenticators', Type: 'string'!!, Default: 'unset'
24228 When a server is about to advertise an authentication mechanism, the condition
24229 is expanded. If it yields the empty string, ``0'', ``no'', or ``false'', the
24230 mechanism is not advertised.
24231 If the expansion fails, the mechanism is not advertised. If the failure was not
24232 forced, and was not caused by a lookup defer, the incident is logged.
24233 See section <<SECTauthexiser>> below for further discussion.
24236 oindex:[%server_debug_print%]
24238 %server_debug_print%, Use: 'authenticators', Type: 'string'!!, Default: 'unset'
24241 If this option is set and authentication debugging is enabled (see the %-d%
24242 command line option), the string is expanded and included in the debugging
24243 output when the authenticator is run as a server. This can help with checking
24244 out the values of variables.
24245 If expansion of the string fails, the error message is written to the debugging
24246 output, and Exim carries on processing.
24249 oindex:[%server_set_id%]
24251 %server_set_id%, Use: 'authenticators', Type: 'string'!!, Default: 'unset'
24254 cindex:[$authenticated_id$]
24255 When an Exim server successfully authenticates a client, this string is
24256 expanded using data from the authentication, and preserved for any incoming
24257 messages in the variable $authenticated_id$. It is also included in the log
24258 lines for incoming messages. For example, a user/password authenticator
24259 configuration might preserve the user name that was used to authenticate, and
24260 refer to it subsequently during delivery of the message.
24261 If expansion fails, the option is ignored.
24264 oindex:[%server_mail_auth_condition%]
24266 %server_mail_auth_condition%, Use: 'authenticators', Type: 'string'!!, Default: 'unset'
24269 This option allows a server to discard authenticated sender addresses supplied
24270 as part of MAIL commands in SMTP connections that are authenticated by the
24271 driver on which %server_mail_auth_condition% is set. The option is not used
24272 as part of the authentication process; instead its (unexpanded) value is
24273 remembered for later use.
24274 How it is used is described in the following section.
24280 [[SECTauthparamail]]
24281 The AUTH parameter on MAIL commands
24282 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24283 cindex:[authentication,sender; authenticated]
24284 cindex:[AUTH,on MAIL command]
24285 When a client supplied an AUTH= item on a MAIL command, Exim applies
24286 the following checks before accepting it as the authenticated sender of the
24289 - If the connection is not using extended SMTP (that is, HELO was used rather
24290 than EHLO), the use of AUTH= is a syntax error.
24292 - If the value of the AUTH= parameter is ``<>'', it is ignored.
24294 - cindex:[$authenticated_sender$]
24295 If %acl_smtp_mailauth% is defined, the ACL it specifies is run. While it is
24296 running, the value of $authenticated_sender$ is set to the value obtained from
24297 the AUTH= parameter. If the ACL does not yield ``accept'', the value of
24298 $authenticated_sender$ is deleted. The %acl_smtp_mailauth% ACL may not return
24299 ``drop'' or ``discard''. If it defers, a temporary error code (451) is given
24300 for the MAIL command.
24302 - If %acl_smtp_mailauth% is not defined, the value of the AUTH= parameter
24303 is accepted and placed in $authenticated_sender$ only if the client has
24306 - If the AUTH= value was accepted by either of the two previous rules, and
24307 the client has authenticated, and the authenticator has a setting for the
24308 %server_mail_auth_condition%, the condition is checked at this point. The
24309 valued that was saved from the authenticator is expanded. If the expansion
24310 fails, or yields an empty string, ``0'', ``no'', or ``false'', the value of
24311 $authenticated_sender$ is deleted. If the expansion yields any other value,
24312 the value of $authenticated_sender$ is retained and passed on with the
24316 When $authenticated_sender$ is set for a message, it is passed on to other
24317 hosts to which Exim authenticates as a client. Do not confuse this value with
24318 $authenticated_id$, which is a string obtained from the authentication
24319 process, and which is not usually a complete email address.
24321 cindex:[$sender_address$]
24322 Whenever an AUTH= value is ignored, the incident is logged. The ACL for
24323 MAIL, if defined, is run after AUTH= is accepted or ignored. It can
24324 therefore make use of $authenticated_sender$. The converse is not true: the
24325 value of $sender_address$ is not yet set up when the %acl_smtp_mailauth%
24331 Authentication on an Exim server
24332 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24333 cindex:[authentication,on an Exim server]
24334 When Exim receives an EHLO command, it advertises the public names of those
24335 authenticators that are configured as servers, subject to the following
24338 - The client host must match %auth_advertise_hosts% (default \*).
24340 - It the %server_advertise_condition% option is set, its expansion must not
24341 yield the empty string, ``0'', ``no'', or ``false''.
24343 The order in which the authenticators are defined controls the order in which
24344 the mechanisms are advertised.
24346 Some mail clients (for example, some versions of Netscape) require the user to
24347 provide a name and password for authentication whenever AUTH is advertised,
24348 even though authentication may not in fact be needed (for example, Exim may be
24349 set up to allow unconditional relaying from the client by an IP address check).
24350 You can make such clients more friendly by not advertising AUTH to them.
24351 For example, if clients on the 10.9.8.0/24 network are permitted (by the ACL
24352 that runs for RCPT) to relay without authentication, you should set
24354 auth_advertise_hosts = ! 10.9.8.0/24
24356 so that no authentication mechanisms are advertised to them.
24358 The %server_advertise_condition% controls the advertisement of individual
24359 authentication mechanisms. For example, it can be used to restrict the
24360 advertisement of a patricular mechanism to encrypted connections, by a setting
24363 server_advertise_condition = ${if eq{$tls_cipher}{}{no}{yes}}
24365 cindex:[$tls_cipher$]
24366 If the session is encrypted, $tls_cipher$ is not empty, and so the expansion
24367 yields ``yes'', which allows the advertisement to happen.
24369 When an Exim server receives an AUTH command from a client, it rejects it
24370 immediately if AUTH was not advertised in response to an earlier EHLO
24371 command. This is the case if
24373 - The client host does not match %auth_advertise_hosts%; or
24375 - No authenticators are configured with server options; or
24377 - Expansion of %server_advertise_condition% blocked the advertising of all the
24378 server authenticators.
24381 Otherwise, Exim runs the ACL specified by %acl_smtp_auth% in order
24382 to decide whether to accept the command. If %acl_smtp_auth% is not set,
24383 AUTH is accepted from any client host.
24385 If AUTH is not rejected by the ACL, Exim searches its configuration for a
24386 server authentication mechanism that was advertised in response to EHLO and
24387 that matches the one named in the AUTH command. If it finds one, it runs
24388 the appropriate authentication protocol, and authentication either succeeds or
24389 fails. If there is no matching advertised mechanism, the AUTH command is
24390 rejected with a 504 error.
24392 cindex:[$received_protocol$]
24393 cindex:[$sender_host_authenticated$]
24394 When a message is received from an authenticated host, the value of
24395 $received_protocol$ is set to ``esmtpa'' or ``esmtpsa'' instead of ``esmtp'' or
24396 ``esmtps'', and $sender_host_authenticated$ contains the name (not the public
24397 name) of the authenticator driver that successfully authenticated the client
24398 from which the message was received. This variable is empty if there was no
24399 successful authentication.
24404 Testing server authentication
24405 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24406 cindex:[authentication,testing a server]
24407 cindex:[AUTH,testing a server]
24408 cindex:[base64 encoding,creating authentication test data]
24409 Exim's %-bh% option can be useful for testing server authentication
24410 configurations. The data for the AUTH command has to be sent using base64
24411 encoding. A quick way to produce such data for testing is the following Perl
24415 printf ("%s", encode_base64(eval "\"$ARGV[0]\""));
24417 cindex:[binary zero,in authentication data]
24418 This interprets its argument as a Perl string, and then encodes it. The
24419 interpretation as a Perl string allows binary zeros, which are required for
24420 some kinds of authentication, to be included in the data. For example, a
24421 command line to run this script on such data might be
24423 encode '\0user\0password'
24425 Note the use of single quotes to prevent the shell interpreting the
24426 backslashes, so that they can be interpreted by Perl to specify characters
24427 whose code value is zero.
24429 *Warning 1*: If either of the user or password strings starts with an octal
24430 digit, you must use three zeros instead of one after the leading backslash. If
24431 you do not, the octal digit that starts your string will be incorrectly
24432 interpreted as part of the code for the first character.
24434 *Warning 2*: If there are characters in the strings that Perl interprets
24435 specially, you must use a Perl escape to prevent them being misinterpreted. For
24436 example, a command such as
24438 encode '\0user@domain.com\0pas$$word'
24440 gives an incorrect answer because of the unescaped ``@'' and ``\$'' characters.
24442 If you have the %mimencode% command installed, another way to do produce
24443 base64-encoded strings is to run the command
24445 echo -e -n `\0user\0password' | mimencode
24447 The %-e% option of %echo% enables the interpretation of backslash escapes in
24448 the argument, and the %-n% option specifies no newline at the end of its
24449 output. However, not all versions of %echo% recognize these options, so you
24450 should check your version before relying on this suggestion.
24454 Authentication by an Exim client
24455 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24456 cindex:[authentication,on an Exim client]
24457 The ^smtp^ transport has two options called %hosts_require_auth% and
24458 %hosts_try_auth%. When the ^smtp^ transport connects to a server that
24459 announces support for authentication, and the host matches an entry in either
24460 of these options, Exim (as a client) tries to authenticate as follows:
24462 - For each authenticator that is configured as a client, it searches the
24463 authentication mechanisms announced by the server for one whose name
24464 matches the public name of the authenticator.
24467 cindex:[$host_address$]
24468 When it finds one that matches, it runs the authenticator's client code.
24469 The variables $host$ and $host_address$ are available for any string
24470 expansions that the client might do. They are set to the server's name and
24471 IP address. If any expansion is forced to fail, the authentication attempt
24473 and Exim moves on to the next authenticator.
24474 Otherwise an expansion failure causes delivery to be
24477 - If the result of the authentication attempt is a temporary error or a timeout,
24478 Exim abandons trying to send the message to the host for the moment. It will
24479 try again later. If there are any backup hosts available, they are tried in the
24482 - If the response to authentication is a permanent error (5xx code), Exim carries
24483 on searching the list of authenticators and tries another one if possible. If
24484 all authentication attempts give permanent errors, or if there are no attempts
24485 because no mechanisms match
24486 (or option expansions force failure),
24487 what happens depends on whether the host matches %hosts_require_auth% or
24488 %hosts_try_auth%. In the first case, a temporary error is generated, and
24489 delivery is deferred. The error can be detected in the retry rules, and thereby
24490 turned into a permanent error if you wish. In the second case, Exim tries to
24491 deliver the message unauthenticated.
24493 cindex:[AUTH,on MAIL command]
24494 When Exim has authenticated itself to a remote server, it adds the AUTH
24495 parameter to the MAIL commands it sends, if it has an authenticated sender
24497 If the message came from a remote host, the authenticated sender is the one
24498 that was receiving on an incoming MAIL command, provided that the incoming
24499 connection was authenticated and the %server_mail_auth% condition allowed the
24500 authenticated sender to be retained. If a local process calls Exim to send a
24501 message, the sender address that is built from the login name and
24502 %qualify_domain% is treated as authenticated. However, if the
24503 %authenticated_sender% option is set on the ^smtp^ transport, it overrides
24504 the authenticated sender that was received with the message.
24511 ////////////////////////////////////////////////////////////////////////////
24512 ////////////////////////////////////////////////////////////////////////////
24515 The plaintext authenticator
24516 ---------------------------
24517 cindex:[^plaintext^ authenticator]
24518 cindex:[authenticators,^plaintext^]
24519 The ^plaintext^ authenticator can be configured to support the PLAIN and
24520 LOGIN authentication mechanisms, both of which transfer authentication data as
24521 plain (unencrypted) text (though base64 encoded). The use of plain text is a
24522 security risk. If you use one of these mechanisms without also making use of
24523 SMTP encryption (see chapter <<CHAPTLS>>) you should not use the same passwords
24524 for SMTP connections as you do for login accounts.
24527 Using plaintext in a server
24528 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
24529 cindex:[options,^plaintext^ authenticator (server)]
24530 When running as a server, ^plaintext^ performs the authentication test by
24531 expanding a string. It has the following options:
24533 oindex:[%server_prompts%]
24535 %server_prompts%, Use: 'plaintext', Type: 'string'!!, Default: 'unset'
24538 The contents of this option, after expansion, must be a colon-separated list of
24539 prompt strings. If expansion fails, a temporary authentication rejection is
24542 oindex:[%server_condition%]
24544 %server_condition%, Use: 'plaintext', Type: 'string'!!, Default: 'unset'
24547 This option must be set in order to configure the driver as a server. Its use
24548 is described below.
24550 cindex:[AUTH,in ^plaintext^ authenticator]
24551 cindex:[binary zero,in ^plaintext^ authenticator]
24552 cindex:[numerical variables ($1$ $2$ etc),in ^plaintext^ authenticator]
24553 cindex:[base64 encoding,in ^plaintext^ authenticator]
24554 The data sent by the client with the AUTH command, or in response to
24555 subsequent prompts, is base64 encoded, and so may contain any byte values
24556 when decoded. If any data is supplied with the command, it is treated as a
24557 list of strings, separated by NULs (binary zeros), which are placed in the
24558 expansion variables $1$, $2$, etc. If there are more strings in
24559 %server_prompts% than the number of strings supplied with the AUTH
24560 command, the remaining prompts are used to obtain more data. Each response from
24561 the client may be a list of NUL-separated strings.
24563 cindex:[$authenticated_id$]
24564 Once a sufficient number of data strings have been received, %server_condition%
24565 is expanded. If the expansion is forced to fail, authentication fails. Any
24566 other expansion failure causes a temporary error code to be returned. If the
24567 result of a successful expansion is an empty string, ``0'', ``no'', or
24568 ``false'', authentication fails. If the result of the expansion is ``1'',
24569 ``yes'', or ``true'', authentication succeeds and the generic %server_set_id%
24570 option is expanded and saved in $authenticated_id$. For any other result, a
24571 temporary error code is returned, with the expanded string as the error text.
24573 *Warning*: If you use a lookup in the expansion to find the user's
24574 password, be sure to make the authentication fail if the user is unknown.
24575 There are good and bad examples at the end of the next section.
24579 The PLAIN authentication mechanism
24580 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24581 cindex:[PLAIN authentication mechanism]
24582 cindex:[authentication,PLAIN mechanism]
24583 cindex:[binary zero,in ^plaintext^ authenticator]
24584 The PLAIN authentication mechanism (RFC 2595) specifies that three strings be
24585 sent as one item of data (that is, one combined string containing two NUL
24586 separators). The data is sent either as part of the AUTH command, or
24587 subsequently in response to an empty prompt from the server.
24589 The second and third strings are a user name and a corresponding password.
24590 Using a single fixed user name and password as an example, this could be
24591 configured as follows:
24596 public_name = PLAIN
24598 server_condition = \
24599 ${if and {{eq{$2}{username}}{eq{$3}{mysecret}}}{yes}{no}}
24603 The %server_prompts% setting specifies a single, empty prompt (empty items at
24604 the end of a string list are ignored). If all the data comes as part of the
24605 AUTH command, as is commonly the case, the prompt is not used. This
24606 authenticator is advertised in the response to EHLO as
24610 and a client host can authenticate itself by sending the command
24612 AUTH PLAIN AHVzZXJuYW1lAG15c2VjcmV0
24614 As this contains three strings (more than the number of prompts), no further
24615 data is required from the client. Alternatively, the client may just send
24619 to initiate authentication, in which case the server replies with an empty
24620 prompt. The client must respond with the combined data string.
24622 The data string is base64 encoded, as required by the RFC. This example,
24623 when decoded, is <'NUL'>`username`<'NUL'>`mysecret`, where <'NUL'> represents a
24624 zero byte. This is split up into three strings, the first of which is empty.
24625 The %server_condition% option in the authenticator checks that the second two
24626 are `username` and `mysecret` respectively.
24628 Having just one fixed user name and password, as in this example, is not very
24629 realistic, though for a small organization with only a handful of
24630 authenticating clients it could make sense.
24632 A more sophisticated instance of this authenticator could use the user name in
24633 $2$ to look up a password in a file or database, and maybe do an encrypted
24634 comparison (see %crypteq% in chapter <<CHAPexpand>>). Here is a example of this
24635 approach, where the passwords are looked up in a DBM file. *Warning*: This
24636 is an incorrect example:
24639 server_condition = \
24640 ${if eq{$3}{${lookup{$2}dbm{/etc/authpwd}}}{yes}{no}}
24643 The expansion uses the user name ($2$) as the key to look up a password,
24644 which it then compares to the supplied password ($3$). Why is this example
24645 incorrect? It works fine for existing users, but consider what happens if a
24646 non-existent user name is given. The lookup fails, but as no success/failure
24647 strings are given for the lookup, it yields an empty string. Thus, to defeat
24648 the authentication, all a client has to do is to supply a non-existent user
24649 name and an empty password. The correct way of writing this test is:
24652 server_condition = ${lookup{$2}dbm{/etc/authpwd}\
24653 {${if eq{$value}{$3}{yes}{no}}}{no}}
24656 In this case, if the lookup succeeds, the result is checked; if the lookup
24657 fails, authentication fails. If %crypteq% is being used instead of %eq%, the
24658 first example is in fact safe, because %crypteq% always fails if its second
24659 argument is empty. However, the second way of writing the test makes the logic
24664 The LOGIN authentication mechanism
24665 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24666 cindex:[LOGIN authentication mechanism]
24667 cindex:[authentication,LOGIN mechanism]
24668 The LOGIN authentication mechanism is not documented in any RFC, but is in use
24669 in a number of programs. No data is sent with the AUTH command. Instead, a
24670 user name and password are supplied separately, in response to prompts. The
24671 plaintext authenticator can be configured to support this as in this example:
24676 public_name = LOGIN
24677 server_prompts = User Name : Password
24678 server_condition = \
24679 ${if and {{eq{$1}{username}}{eq{$2}{mysecret}}}{yes}{no}}
24683 Because of the way plaintext operates, this authenticator accepts data supplied
24684 with the AUTH command (in contravention of the specification of LOGIN), but
24685 if the client does not supply it (as is the case for LOGIN clients), the prompt
24686 strings are used to obtain two data items.
24688 Some clients are very particular about the precise text of the prompts. For
24689 example, Outlook Express is reported to recognize only ``Username:'' and
24690 ``Password:''. Here is an example of a LOGIN authenticator which uses those
24691 strings, and which uses the %ldapauth% expansion condition to check the user
24692 name and password by binding to an LDAP server:
24697 public_name = LOGIN
24698 server_prompts = Username:: : Password::
24699 server_condition = ${if ldapauth \
24700 {user="cn=${quote_ldap_dn:$1},ou=people,o=example.org" \
24702 ldap://ldap.example.org/}{yes}{no}}
24703 server_set_id = uid=$1,ou=people,o=example.org
24706 Note the use of the %quote_ldap_dn% operator to correctly quote the DN for
24707 authentication. However, the basic %quote% operator, rather than any of the
24708 LDAP quoting operators, is the correct one to use for the password, because
24709 quoting is needed only to make the password conform to the Exim syntax. At the
24710 LDAP level, the password is an uninterpreted string.
24714 Support for different kinds of authentication
24715 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24716 A number of string expansion features are provided for the purpose of
24717 interfacing to different ways of user authentication. These include checking
24718 traditionally encrypted passwords from _/etc/passwd_ (or equivalent), PAM,
24719 Radius, %ldapauth%, and 'pwcheck'. For details see section <<SECTexpcond>>.
24724 Using plaintext in a client
24725 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
24726 cindex:[options,^plaintext^ authenticator (client)]
24727 The ^plaintext^ authenticator has just one client option:
24731 oindex:[%client_send%]
24733 %client_send%, Use: 'plaintext', Type: 'string'!!, Default: 'unset'
24736 The string is a colon-separated list of authentication data strings. Each
24737 string is independently expanded before being sent to the server. The first
24738 string is sent with the AUTH command; any more strings are sent in response
24739 to prompts from the server.
24741 *Note*: you cannot use expansion to create multiple strings, because
24742 splitting takes priority and happens first.
24744 Because the PLAIN authentication mechanism requires NUL (binary zero) bytes in
24745 the data, further processing is applied to each string before it is sent. If
24746 there are any single circumflex characters in the string, they are converted to
24747 NULs. Should an actual circumflex be required as data, it must be doubled in
24750 This is an example of a client configuration that implements the PLAIN
24751 authentication mechanism with a fixed user name and password:
24755 public_name = PLAIN
24756 client_send = ^username^mysecret
24758 The lack of colons means that the entire text is sent with the AUTH
24759 command, with the circumflex characters converted to NULs. A similar example
24760 that uses the LOGIN mechanism is:
24764 public_name = LOGIN
24765 client_send = : username : mysecret
24767 The initial colon means that the first string is empty, so no data is sent with
24768 the AUTH command itself. The remaining strings are sent in response to
24774 ////////////////////////////////////////////////////////////////////////////
24775 ////////////////////////////////////////////////////////////////////////////
24777 The cram_md5 authenticator
24778 --------------------------
24779 cindex:[^cram_md5^ authenticator]
24780 cindex:[authenticators,^cram_md5^]
24781 cindex:[CRAM-MD5 authentication mechanism]
24782 cindex:[authentication,CRAM-MD5 mechanism]
24783 The CRAM-MD5 authentication mechanism is described in RFC 2195. The server
24784 sends a challenge string to the client, and the response consists of a user
24785 name and the CRAM-MD5 digest of the challenge string combined with a secret
24786 string (password) which is known to both server and client. Thus, the secret
24787 is not sent over the network as plain text, which makes this authenticator more
24788 secure than ^plaintext^. However, the downside is that the secret has to be
24789 available in plain text at either end.
24792 Using cram_md5 as a server
24793 ~~~~~~~~~~~~~~~~~~~~~~~~~~
24794 cindex:[options,^cram_md5^ authenticator (server)]
24795 This authenticator has one server option, which must be set to configure the
24796 authenticator as a server:
24798 oindex:[%server_secret%]
24800 %server_secret%, Use: 'cram_md5', Type: 'string'!!, Default: 'unset'
24803 cindex:[numerical variables ($1$ $2$ etc),in ^cram_md5^ authenticator]
24804 When the server receives the client's response, the user name is placed in
24805 the expansion variable $1$, and %server_secret% is expanded to obtain the
24806 password for that user. The server then computes the CRAM-MD5 digest that the
24807 client should have sent, and checks that it received the correct string. If the
24808 expansion of %server_secret% is forced to fail, authentication fails. If the
24809 expansion fails for some other reason, a temporary error code is returned to
24812 For example, the following authenticator checks that the user name given by the
24813 client is ``ph10'', and if so, uses ``secret'' as the password. For any other user
24814 name, authentication fails.
24818 public_name = CRAM-MD5
24819 server_secret = ${if eq{$1}{ph10}{secret}fail}
24822 cindex:[$authenticated_id$]
24823 If authentication succeeds, the setting of %server_set_id% preserves the user
24824 name in $authenticated_id$. A more tyical configuration might look up the
24825 secret string in a file, using the user name as the key. For example:
24829 public_name = CRAM-MD5
24830 server_secret = ${lookup{$1}lsearch{/etc/authpwd}{$value}fail}
24833 Note that this expansion explicitly forces failure if the lookup fails
24834 because $1$ contains an unknown user name.
24837 Using cram_md5 as a client
24838 ~~~~~~~~~~~~~~~~~~~~~~~~~~
24839 cindex:[options,^cram_md5^ authenticator (client)]
24840 When used as a client, the ^cram_md5^ authenticator has two options:
24844 oindex:[%client_name%]
24846 %client_name%, Use: 'cram_md5', Type: 'string'!!, Default: 'the primary host name'
24849 This string is expanded, and the result used as the user name data when
24850 computing the response to the server's challenge.
24853 oindex:[%client_secret%]
24855 %client_secret%, Use: 'cram_md5', Type: 'string'!!, Default: 'unset'
24858 This option must be set for the authenticator to work as a client. Its value is
24859 expanded and the result used as the secret string when computing the response.
24863 cindex:[$host_address$]
24864 Different user names and secrets can be used for different servers by referring
24865 to $host$ or $host_address$ in the options.
24867 Forced failure of either expansion string is treated as an indication that this
24868 authenticator is not prepared to handle this case. Exim moves on to the next
24869 configured client authenticator. Any other expansion failure causes Exim to
24870 give up trying to send the message to the current server.
24872 A simple example configuration of a ^cram_md5^ authenticator, using fixed
24877 public_name = CRAM-MD5
24879 client_secret = secret
24885 ////////////////////////////////////////////////////////////////////////////
24886 ////////////////////////////////////////////////////////////////////////////
24888 The cyrus_sasl authenticator
24889 ----------------------------
24890 cindex:[^cyrus_sasl^ authenticator]
24891 cindex:[authenticators,^cyrus_sasl^]
24892 cindex:[Cyrus, SASL library]
24893 The code for this authenticator was provided by Matthew Byng-Maddick of A L
24894 Digital Ltd (*http://www.aldigital.co.uk[]*).
24896 The ^cyrus_sasl^ authenticator provides server support for the Cyrus SASL
24897 library implementation of the RFC 2222 (``Simple Authentication and Security
24898 Layer''). This library supports a number of authentication mechanisms, including
24899 PLAIN and LOGIN, but also several others that Exim does not support directly.
24900 In particular, there is support for Kerberos authentication.
24902 The ^cyrus_sasl^ authenticator provides a gatewaying mechanism directly to
24903 the Cyrus interface, so if your Cyrus library can do, for example, CRAM-MD5,
24904 then so can the ^cyrus_sasl^ authenticator. By default it uses the public
24905 name of the driver to determine which mechanism to support.
24907 Where access to some kind of secret file is required, for example in GSSAPI
24908 or CRAM-MD5, it is worth noting that the authenticator runs as the 'exim'
24909 user, and that the Cyrus SASL library has no way of escalating privileges
24910 by default. You may also find you need to set environment variables,
24911 depending on the driver you are using.
24914 Using cyrus_sasl as a server
24915 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
24916 The ^cyrus_sasl^ authenticator has four private options. It puts the
24917 username (on a successful authentication) into $1$.
24919 oindex:[%server_hostname%]
24921 %server_hostname%, Use: 'cyrus_sasl', Type: 'string'!!, Default: `$primary_hostname`
24924 This option selects the hostname that is used when communicating with
24925 the library. It is up to the underlying SASL plug-in what it does with
24929 oindex:[%server_mech%]
24931 %server_mech%, Use: 'cyrus_sasl', Type: 'string', Default: `public_name`
24934 This option selects the authentication mechanism this driver should
24935 use. It allows you to use a different underlying mechanism from the
24936 advertised name. For example:
24939 driver = cyrus_sasl
24940 public_name = X-ANYTHING
24941 server_mech = CRAM-MD5
24946 oindex:[%server_realm%]
24948 %server_realm%, Use: 'cyrus_sasl', Type: 'string', Default: 'unset'
24951 This specifies the SASL realm that the server claims to be in.
24954 oindex:[%server_service%]
24956 %server_service%, Use: 'cyrus_sasl', Type: 'string', Default: `smtp`
24959 This is the SASL service that the server claims to implement.
24962 For straightforward cases, you do not need to set any of the authenticator's
24963 private options. All you need to do is to specify an appropriate mechanism as
24964 the public name. Thus, if you have a SASL library that supports CRAM-MD5 and
24965 PLAIN, you could have two authenticators as follows:
24968 driver = cyrus_sasl
24969 public_name = CRAM-MD5
24973 driver = cyrus_sasl
24974 public_name = PLAIN
24978 Cyrus SASL does implement the LOGIN authentication method, even though it is
24979 not a standard method. It is disabled by default in the source distribution,
24980 but it is present in many binary distributions.
24985 ////////////////////////////////////////////////////////////////////////////
24986 ////////////////////////////////////////////////////////////////////////////
24988 The spa authenticator
24989 ---------------------
24990 cindex:[^spa^ authenticator]
24991 cindex:[authenticators,^spa^]
24992 cindex:[authentication,Microsoft Secure Password]
24993 cindex:[authentication,NTLM]
24994 cindex:[Microsoft Secure Password Authentication]
24995 cindex:[NTLM authentication]
24996 The ^spa^ authenticator provides client support for Microsoft's 'Secure
24997 Password Authentication' mechanism,
24998 which is also sometimes known as NTLM (NT LanMan). The code for client side of
24999 this authenticator was contributed by Marc Prud'hommeaux, and much of it is
25000 taken from the Samba project (*http://www.samba.org[]*). The code for the
25001 server side was subsequently contributed by Tom Kistner. The mechanism works as
25004 - After the AUTH command has been accepted, the client sends an SPA
25005 authentication request based on the user name and optional domain.
25007 - The server sends back a challenge.
25009 - The client builds a challenge response which makes use of the user's password
25010 and sends it to the server, which then accepts or rejects it.
25012 Encryption is used to protect the password in transit.
25016 Using spa as a server
25017 ~~~~~~~~~~~~~~~~~~~~~
25018 cindex:[options,^spa^ authenticator (server)]
25019 The ^spa^ authenticator has just one server option:
25021 oindex:[%server_password%]
25023 %server_password%, Use: 'spa', Type: 'string'!!, Default: 'unset'
25026 cindex:[numerical variables ($1$ $2$ etc),in ^spa^ authenticator]
25027 This option is expanded, and the result must be the cleartext password for the
25028 authenticating user, whose name is at this point in $1$. For example:
25034 server_password = ${lookup{$1}lsearch{/etc/exim/spa_clearpass}\
25038 If the expansion is forced to fail, authentication fails. Any other expansion
25039 failure causes a temporary error code to be returned.
25045 Using spa as a client
25046 ~~~~~~~~~~~~~~~~~~~~~
25047 cindex:[options,^spa^ authenticator (client)]
25048 The ^spa^ authenticator has the following client options:
25052 oindex:[%client_domain%]
25054 %client_domain%, Use: 'spa', Type: 'string'!!, Default: 'unset'
25057 This option specifies an optional domain for the authentication.
25060 oindex:[%client_password%]
25062 %client_password%, Use: 'spa', Type: 'string'!!, Default: 'unset'
25065 This option specifies the user's password, and must be set.
25068 oindex:[%client_username%]
25070 %client_username%, Use: 'spa', Type: 'string'!!, Default: 'unset'
25073 This option specifies the user name, and must be set.
25076 Here is an example of a configuration of this authenticator for use with the
25077 mail servers at 'msn.com':
25082 client_username = msn/msn_username
25083 client_password = msn_plaintext_password
25084 client_domain = DOMAIN_OR_UNSET
25092 ////////////////////////////////////////////////////////////////////////////
25093 ////////////////////////////////////////////////////////////////////////////
25096 [titleabbrev="Encrypted SMTP connections"]
25097 Encrypted SMTP connections using TLS/SSL
25098 ----------------------------------------
25099 cindex:[encryption,on SMTP connection]
25100 cindex:[SMTP,encryption]
25101 cindex:[TLS,on SMTP connection]
25104 Support for TLS (Transport Layer Security), formerly known as SSL (Secure
25105 Sockets Layer), is implemented by making use of the OpenSSL library or the
25106 GnuTLS library (Exim requires GnuTLS release 1.0 or later). There is no
25107 cryptographic code in the Exim distribution itself for implementing TLS. In
25108 order to use this feature you must install OpenSSL or GnuTLS, and then build a
25109 version of Exim that includes TLS support (see section <<SECTinctlsssl>>). You
25110 also need to understand the basic concepts of encryption at a managerial level,
25111 and in particular, the way that public keys, private keys, and certificates are
25114 RFC 3207 defines how SMTP connections can make use of encryption. Once a
25115 connection is established, the client issues a STARTTLS command. If the
25116 server accepts this, the client and the server negotiate an encryption
25117 mechanism. If the negotiation succeeds, the data that subsequently passes
25118 between them is encrypted.
25120 Exim's ACLs can detect whether the current SMTP session is encrypted or not,
25121 and if so, what cipher suite is in use, whether the client supplied a
25122 certificate, and whether or not that certificate was verified. This makes it
25123 possible for an Exim server to deny or accept certain commands based on the
25126 *Warning*: certain types of firewall and certain anti-virus products can
25127 disrupt TLS connections. You need to turn off SMTP scanning for these products
25128 in order to get TLS to work.
25132 Support for the legacy ``ssmtp'' (aka ``smtps'') protocol
25133 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25134 cindex:[ssmtp protocol]
25135 cindex:[smtps protocol]
25136 cindex:[SMTP,ssmtp protocol]
25137 cindex:[SMTP,smtps protocol]
25138 Early implementations of encrypted SMTP used a different TCP port from normal
25139 SMTP, and expected an encryption negotiation to start immediately, instead of
25140 waiting for a STARTTLS command from the client using the standard SMTP
25141 port. The protocol was called ``ssmtp'' or ``smtps'', and port 465 was allocated
25144 This approach was abandoned when encrypted SMTP was standardised, but there are
25145 still some legacy clients that use it. Exim supports these clients by means of
25146 the %tls_on_connect_ports% global option. Its value must be a list of port
25147 numbers; the most common use is expected to be:
25149 tls_on_connect_ports = 465
25151 The port numbers specified by this option apply to all SMTP connections, both
25152 via the daemon and via 'inetd'. You still need to specify all the ports that
25153 the daemon uses (by setting %daemon_smtp_ports% or %local_interfaces% or the
25154 %-oX% command line option) because %tls_on_connect_ports% does not add an
25155 extra port -- rather, it specifies different behaviour on a port that is
25158 There is also a %-tls-on-connect% command line option. This overrides
25159 %tls_on_connect_ports%; it forces the legacy behaviour for all ports.
25169 cindex:[TLS,OpenSSL 'vs' GnuTLS]
25170 The first TLS support in Exim was implemented using OpenSSL. Support for GnuTLS
25171 followed later, when the first versions of GnuTLS were released. To build Exim
25172 to use GnuTLS, you need to set
25176 in Local/Makefile, in addition to
25180 You must also set TLS_LIBS and TLS_INCLUDE appropriately, so that the
25181 include files and libraries for GnuTLS can be found.
25183 There are some differences in usage when using GnuTLS instead of OpenSSL:
25185 - The %tls_verify_certificates% option must contain the name of a file, not the
25186 name of a directory (for OpenSSL it can be either).
25188 - The %tls_dhparam% option is ignored, because early versions of GnuTLS had no
25189 facility for varying its Diffie-Hellman parameters. I understand that this has
25190 changed, but Exim has not been updated to provide this facility.
25192 - cindex:[$tls_peerdn$]
25193 Distinguished Name (DN) strings reported by the OpenSSL library use a slash for
25194 separating fields; GnuTLS uses commas, in accordance with RFC 2253. This
25195 affects the value of the $tls_peerdn$ variable.
25197 - OpenSSL identifies cipher suites using hyphens as separators, for example:
25198 DES-CBC3-SHA. GnuTLS uses underscores, for example: RSA_ARCFOUR_SHA. What is
25199 more, OpenSSL complains if underscores are present in a cipher list. To make
25200 life simpler, Exim changes underscores to hyhens for OpenSSL and hyphens to
25201 underscores for GnuTLS when processing lists of cipher suites in the
25202 %tls_require_ciphers% options (the global option and the ^smtp^ transport
25205 - The %tls_require_ciphers% options operate differently, as described in the
25206 sections <<SECTreqciphssl>> and <<SECTreqciphgnu>>.
25209 GnuTLS parameter computation
25210 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25212 GnuTLS uses RSA and D-H parameters that take a substantial amount of time to
25213 compute. It is unreasonable to re-compute them for every TLS session.
25214 Therefore, Exim keeps this data in a file in its spool directory, called
25215 _gnutls-params_. The file is owned by the Exim user and is readable only by its
25216 owner. Every Exim process that start up GnuTLS reads the RSA and D-H parameters
25217 from this file. If the file does not exist, the first Exim process that needs
25218 it computes the data and writes it to a temporary file which is renamed once it
25219 is complete. It does not matter if several Exim processes do this
25220 simultaneously (apart from wasting a few resources). Once a file is in place,
25221 new Exim processes immediately start using it.
25223 [revisionflag="changed"]
25224 For maximum security, the parameters that are stored in this file should be
25225 recalculated periodically, the frequency depending on your paranoia level.
25226 Arranging this is easy in principle; just delete the file when you want new
25227 values to be computed. However, there may be a problem. The calculation of new
25228 parameters needs random numbers, and these are obtained from _/dev/random_. If
25229 the system is not very active, _/dev/random_ may delay returning data until
25230 enough randomness (entropy) is available. This may cause Exim to hang for a
25231 substantial amount of time, causing timeouts on incoming connections.
25233 [revisionflag="changed"]
25234 The solution is to generate the parameters externally to Exim. They are stored
25235 in _gnutls-params_ in PEM format, which means that they can be generated
25236 externally using the ^certtool^ command that is part of GnuTLS.
25238 [revisionflag="changed"]
25239 To replace the parameters with new ones, instead of deleting the file
25240 and letting Exim re-create it, you can generate new parameters using
25241 ^certtool^ and, when this has been done, replace Exim's cache file by
25242 renaming. The relevant commands are something like this:
25244 [revisionflag="changed"]
25248 # chown exim:exim new-params
25249 # chmod 0400 new-params
25250 # certtool --generate-privkey --bits 512 >new-params
25251 # echo "" >>new-params
25252 # certtool --generate-dh-params --bits 1024 >> new-params
25253 # mv new-params gnutls-params
25256 [revisionflag="changed"]
25257 If Exim never has to generate the parameters itself, the possibility of
25258 stalling is removed.
25263 Requiring specific ciphers in OpenSSL
25264 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25265 cindex:[TLS,requiring specific ciphers (OpenSSL)]
25266 cindex:[%tls_require_ciphers%,OpenSSL]
25267 There is a function in the OpenSSL library that can be passed a list of cipher
25268 suites before the cipher negotiation takes place. This specifies which ciphers
25269 are acceptable. The list is colon separated and may contain names like
25270 DES-CBC3-SHA. Exim passes the expanded value of %tls_require_ciphers%
25271 directly to this function call. The following quotation from the OpenSSL
25272 documentation specifies what forms of item are allowed in the cipher string:
25274 - It can consist of a single cipher suite such as RC4-SHA.
25276 - It can represent a list of cipher suites containing a certain algorithm,
25277 or cipher suites of a certain type. For example SHA1 represents all
25278 ciphers suites using the digest algorithm SHA1 and SSLv3 represents all
25281 - Lists of cipher suites can be combined in a single cipher string using
25282 the + character. This is used as a logical and operation. For example
25283 SHA1+DES represents all cipher suites containing the SHA1 and the DES
25286 - Each cipher string can be optionally preceded by the characters `!`, `-` or
25289 If `!` is used then the ciphers are permanently deleted from the list. The
25290 ciphers deleted can never reappear in the list even if they are explicitly
25293 If `-` is used then the ciphers are deleted from the list, but some or all
25294 of the ciphers can be added again by later options.
25296 If `+` is used then the ciphers are moved to the end of the list. This
25297 option doesn't add any new ciphers it just moves matching existing ones.
25299 If none of these characters is present then the string is just interpreted as
25300 a list of ciphers to be appended to the current preference list. If the list
25301 includes any ciphers already present they will be ignored: that is, they will
25302 not moved to the end of the list.
25308 Requiring specific ciphers in GnuTLS
25309 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25310 cindex:[TLS,requiring specific ciphers (GnuTLS)]
25311 cindex:[%tls_require_ciphers%,GnuTLS]
25312 The GnuTLS library does not have a combined function like OpenSSL. Instead,
25313 it allows the caller to specify separate lists of key-exchange methods,
25314 main cipher algorithms, and MAC algorithms. Unfortunately, these lists are
25315 numerical, and the library does not have a function for turning names into
25316 numbers. Consequently, the list of recognized names has to be built into
25319 At present, Exim permits only the list of main cipher algorithms to be
25320 changed. The %tls_require_ciphers% option is in the same format as for
25321 OpenSSL. Exim searches each item for the name of available algorithm. For
25322 example, if the list contains RSA_AES_SHA then AES is recognized.
25324 The cipher algorithms list starts out with a default set of algorithms. If
25325 the first item in %tls_require_ciphers% does 'not' start with an
25326 exclamation mark, all the default items are deleted. Thus, only those specified
25327 can be used. If the first item in %tls_require_ciphers% 'does' start with
25328 an exclamation mark, the defaults are left on the list.
25330 Then, any item that starts with an exclamation mark causes the relevent
25331 algorithms to be removed from the list, and any item that does not start
25332 with an exclamation mark causes the relevant algorithms to be added to the
25335 tls_require_ciphers = !RSA_ARCFOUR_SHA
25337 allows all the defaults except those that use ARCFOUR, whereas
25339 tls_require_ciphers = AES : 3DES
25341 allows only cipher suites that use AES and 3DES. The currently recognized
25342 algorithms are: AES_256, AES_128, AES (both of the preceding), 3DES, and
25343 ARCFOUR_128. Unrecognized algorithms are ignored. In a server, the order of the
25344 list is unimportant; the server will advertise the availability of all the
25345 relevant cipher suites. However, in a client, the order of the list specifies a
25346 preference order for the algorithms. The first one in the client's list that is
25347 also advertised by the server is tried first. The default order is as listed
25353 Configuring an Exim server to use TLS
25354 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25355 cindex:[TLS,configuring an Exim server]
25356 When Exim has been built with TLS support, it advertises the availability of
25357 the STARTTLS command to client hosts that match %tls_advertise_hosts%,
25358 but not to any others. The default value of this option is unset, which means
25359 that STARTTLS is not advertised at all. This default is chosen because you
25360 need to set some other options in order to make TLS avaliable, and also it is
25361 sensible for systems that want to use TLS only as a client.
25363 If a client issues a STARTTLS command and there is some configuration
25364 problem in the server, the command is rejected with a 454 error. If the client
25365 persists in trying to issue SMTP commands, all except QUIT are rejected
25368 554 Security failure
25370 If a STARTTLS command is issued within an existing TLS session, it is
25371 rejected with a 554 error code.
25373 To enable TLS operations on a server, you must set %tls_advertise_hosts% to
25374 match some hosts. You can, of course, set it to \* to match all hosts.
25375 However, this is not all you need to do. TLS sessions to a server won't work
25376 without some further configuration at the server end.
25378 It is rumoured that all existing clients that support TLS/SSL use RSA
25379 encryption. To make this work you need to set, in the server,
25381 tls_certificate = /some/file/name
25382 tls_privatekey = /some/file/name
25384 The first file contains the server's X509 certificate, and the second contains
25385 the private key that goes with it. These files need to be readable by the Exim
25386 user, and must always be given as full path names. They can be the same file if
25387 both the certificate and the key are contained within it. If %tls_privatekey%
25388 is not set, this is assumed to be the case. The certificate file may also
25389 contain intermediate certificates that need to be sent to the client to enable
25390 it to authenticate the server's certificate.
25392 If you do not understand about certificates and keys, please try to find a
25393 source of this background information, which is not Exim-specific. (There are a
25394 few comments below in section <<SECTcerandall>>.)
25396 *Note*: These options do not apply when Exim is operating as a client --
25397 they apply only in the case of a server. For a client, you must set the options
25398 of the same name in an ^smtp^ transport.
25400 With just these options, Exim will work as a server with clients such as
25401 Netscape. It does not require the client to have a certificate (but see below
25402 for how to insist on this). There is one other option that may be needed in
25403 other situations. If
25405 tls_dhparam = /some/file/name
25407 is set, the SSL library is initialized for the use of Diffie-Hellman ciphers
25408 with the parameters contained in the file. This increases the set of cipher
25409 suites that the server supports. See the command
25413 for a way of generating this data.
25414 At present, %tls_dhparam% is used only when Exim is linked with OpenSSL. It is
25415 ignored if GnuTLS is being used.
25417 The strings supplied for these three options are expanded every time a client
25418 host connects. It is therefore possible to use different certificates and keys
25419 for different hosts, if you so wish, by making use of the client's IP address
25420 in $sender_host_address$ to control the expansion. If a string expansion is
25421 forced to fail, Exim behaves as if the option is not set.
25423 cindex:[cipher,logging]
25424 cindex:[log,TLS cipher]
25425 cindex:[$tls_cipher$]
25426 The variable $tls_cipher$ is set to the cipher suite that was negotiated for
25427 an incoming TLS connection. It is included in the 'Received:' header of an
25428 incoming message (by default -- you can, of course, change this), and it is
25429 also included in the log line that records a message's arrival, keyed by ``X='',
25430 unless the %tls_cipher% log selector is turned off.
25431 The %encrypted% condition can be used to test for specific cipher suites in
25434 The ACLs that run for subsequent SMTP commands can check the name of the cipher
25435 suite and vary their actions accordingly. The cipher suite names are those used
25436 by OpenSSL. These may differ from the names used elsewhere. For example,
25437 OpenSSL uses the name DES-CBC3-SHA for the cipher suite which in other contexts
25438 is known as TLS_RSA_WITH_3DES_EDE_CBC_SHA. Check the OpenSSL
25439 documentation for more details.
25443 Requesting and verifying client certificates
25444 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25445 cindex:[certificate,verification of client]
25446 cindex:[TLS,client certificate verification]
25447 If you want an Exim server to request a certificate when negotiating a TLS
25448 session with a client, you must set either %tls_verify_hosts% or
25449 %tls_try_verify_hosts%. You can, of course, set either of them to \* to
25450 apply to all TLS connections. For any host that matches one of these options,
25451 Exim requests a certificate as part of the setup of the TLS session. The
25452 contents of the certificate are verified by comparing it with a list of
25453 expected certificates. These must be available in a file or,
25454 for OpenSSL only (not GnuTLS), a directory, identified by
25455 %tls_verify_certificates%.
25457 A file can contain multiple certificates, concatenated end to end. If a
25460 each certificate must be in a separate file, with a name (or a symbolic link)
25461 of the form <'hash'>.0, where <'hash'> is a hash value constructed from the
25462 certificate. You can compute the relevant hash by running the command
25464 openssl x509 -hash -noout -in /cert/file
25466 where _/cert/file_ contains a single certificate.
25468 The difference between %tls_verify_hosts% and %tls_try_verify_hosts% is
25469 what happens if the client does not supply a certificate, or if the certificate
25470 does not match any of the certificates in the collection named by
25471 %tls_verify_certificates%. If the client matches %tls_verify_hosts%, the
25472 attempt to set up a TLS session is aborted, and the incoming connection is
25473 dropped. If the client matches %tls_try_verify_hosts%, the (encrypted) SMTP
25474 session continues. ACLs that run for subsequent SMTP commands can detect the
25475 fact that no certificate was verified, and vary their actions accordingly. For
25476 example, you can insist on a certificate before accepting a message for
25477 relaying, but not when the message is destined for local delivery.
25479 cindex:[$tls_peerdn$]
25480 When a client supplies a certificate (whether it verifies or not), the value of
25481 the Distinguished Name of the certificate is made available in the variable
25482 $tls_peerdn$ during subsequent processing of the message.
25484 cindex:[log,distinguished name]
25485 Because it is often a long text string, it is not included in the log line or
25486 'Received:' header by default. You can arrange for it to be logged, keyed by
25487 ``DN='', by setting the %tls_peerdn% log selector, and you can use
25488 %received_header_text% to change the 'Received:' header. When no certificate
25489 is supplied, $tls_peerdn$ is empty.
25492 Revoked certificates
25493 ~~~~~~~~~~~~~~~~~~~~
25494 cindex:[TLS,revoked certificates]
25495 cindex:[revocation list]
25496 cindex:[certificate,revocation list]
25497 Certificate issuing authorities issue Certificate Revocation Lists (CRLs) when
25498 certificates are revoked. If you have such a list, you can pass it to an Exim
25499 server using the global option called %tls_crl% and to an Exim client using an
25500 identically named option for the ^smtp^ transport. In each case, the value of
25501 the option is expanded and must then be the name of a file that contains a CRL
25505 Configuring an Exim client to use TLS
25506 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25507 cindex:[cipher,logging]
25508 cindex:[log,TLS cipher]
25509 cindex:[log,distinguished name]
25510 cindex:[TLS,configuring an Exim client]
25511 The %tls_cipher% and %tls_peerdn% log selectors apply to outgoing SMTP
25512 deliveries as well as to incoming, the latter one causing logging of the
25513 server certificate's DN. The remaining client configuration for TLS is all
25514 within the ^smtp^ transport.
25516 It is not necessary to set any options to have TLS work in the ^smtp^
25517 transport. If Exim is built with TLS support, and TLS is advertised by a
25518 server, the ^smtp^ transport always tries to start a TLS session. However,
25519 this can be prevented by setting %hosts_avoid_tls% (an option of the
25520 transport) to a list of server hosts for which TLS should not be used.
25522 If you do not want Exim to attempt to send messages unencrypted when an attempt
25523 to set up an encrypted connection fails in any way, you can set
25524 %hosts_require_tls% to a list of hosts for which encryption is mandatory. For
25525 those hosts, delivery is always deferred if an encrypted connection cannot be
25526 set up. If there are any other hosts for the address, they are tried in the
25529 When the server host is not in %hosts_require_tls%, Exim may try to deliver
25530 the message unencrypted. It always does this if the response to STARTTLS is
25531 a 5##'xx' code. For a temporary error code, or for a failure to negotiate a TLS
25532 session after a success response code, what happens is controlled by the
25533 %tls_tempfail_tryclear% option of the ^smtp^ transport. If it is false,
25534 delivery to this host is deferred, and other hosts (if available) are tried. If
25535 it is true, Exim attempts to deliver unencrypted after a 4##'xx' response to
25536 STARTTLS, and if STARTTLS is accepted, but the subsequent TLS
25537 negotiation fails, Exim closes the current connection (because it is in an
25538 unknown state), opens a new one to the same host, and then tries the delivery
25542 The %tls_certificate% and %tls_privatekey% options of the ^smtp^ transport
25543 provide the client with a certificate, which is passed to the server if it
25544 requests it. If the server is Exim, it will request a certificate only if
25545 %tls_verify_hosts% or %tls_try_verify_hosts% matches the client.
25546 *Note*: these options must be set in the ^smtp^ transport for Exim to use
25547 TLS when it is operating as a client. Exim does not assume that a server
25548 certificate (set by the global options of the same name) should also be used
25549 when operating as a client.
25551 If %tls_verify_certificates% is set, it must name a file or,
25552 for OpenSSL only (not GnuTLS), a directory, that contains a collection of
25553 expected server certificates. The client verifies the server's certificate
25554 against this collection, taking into account any revoked certificates that are
25555 in the list defined by %tls_crl%.
25558 %tls_require_ciphers% is set on the ^smtp^ transport, it must contain a
25559 list of permitted cipher suites. If either of these checks fails, delivery to
25560 the current host is abandoned, and the ^smtp^ transport tries to deliver to
25561 alternative hosts, if any.
25564 cindex:[$host_address$]
25565 All the TLS options in the ^smtp^ transport are expanded before use, with
25566 $host$ and $host_address$ containing the name and address of the server to
25567 which the client is connected. Forced failure of an expansion causes Exim to
25568 behave as if the relevant option were unset.
25573 Multiple messages on the same encrypted TCP/IP connection
25574 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25575 cindex:[multiple SMTP deliveries with TLS]
25576 cindex:[TLS,multiple message deliveries]
25577 Exim sends multiple messages down the same TCP/IP connection by starting up
25578 an entirely new delivery process for each message, passing the socket from
25579 one process to the next. This implementation does not fit well with the use
25580 of TLS, because there is quite a lot of state information associated with a TLS
25581 connection, not just a socket identification. Passing all the state information
25582 to a new process is not feasible. Consequently, Exim shuts down an existing TLS
25583 session before passing the socket to a new process. The new process may then
25584 try to start a new TLS session, and if successful, may try to re-authenticate
25585 if AUTH is in use, before sending the next message.
25587 The RFC is not clear as to whether or not an SMTP session continues in clear
25588 after TLS has been shut down, or whether TLS may be restarted again later, as
25589 just described. However, if the server is Exim, this shutdown and
25590 reinitialization works. It is not known which (if any) other servers operate
25591 successfully if the client closes a TLS session and continues with unencrypted
25592 SMTP, but there are certainly some that do not work. For such servers, Exim
25593 should not pass the socket to another process, because the failure of the
25594 subsequent attempt to use it would cause Exim to record a temporary host error,
25595 and delay other deliveries to that host.
25597 To test for this case, Exim sends an EHLO command to the server after
25598 closing down the TLS session. If this fails in any way, the connection is
25599 closed instead of being passed to a new delivery process, but no retry
25600 information is recorded.
25602 There is also a manual override; you can set %hosts_nopass_tls% on the
25603 ^smtp^ transport to match those hosts for which Exim should not pass
25604 connections to new processes if TLS has been used.
25610 Certificates and all that
25611 ~~~~~~~~~~~~~~~~~~~~~~~~~
25612 cindex:[certificate,references to discussion]
25613 In order to understand fully how TLS works, you need to know about
25614 certificates, certificate signing, and certificate authorities. This is not the
25615 place to give a tutorial, especially as I do not know very much about it
25616 myself. Some helpful introduction can be found in the FAQ for the SSL addition
25617 to Apache, currently at
25620 *http://www.modssl.org/docs/2.7/ssl_faq.html#ToC24[]*
25623 Other parts of the 'modssl' documentation are also helpful, and have
25624 links to further files.
25625 Eric Rescorla's book, 'SSL and TLS', published by Addison-Wesley (ISBN
25626 0-201-61598-3), contains both introductory and more in-depth descriptions.
25627 Some sample programs taken from the book are available from
25630 *http://www.rtfm.com/openssl-examples/[]*
25637 The file named by %tls_certificate% may contain more than one
25638 certificate. This is useful in the case where the certificate that is being
25639 sent is validated by an intermediate certificate which the other end does
25640 not have. Multiple certificates must be in the correct order in the file.
25641 First the host's certificate itself, then the first intermediate
25642 certificate to validate the issuer of the host certificate, then the next
25643 intermediate certificate to validate the issuer of the first intermediate
25644 certificate, and so on, until finally (optionally) the root certificate.
25645 The root certificate must already be trusted by the recipient for
25646 validation to succeed, of course, but if it's not preinstalled, sending the
25647 root certificate along with the rest makes it available for the user to
25648 install if the receiving end is a client MUA that can interact with a user.
25651 Self-signed certificates
25652 ~~~~~~~~~~~~~~~~~~~~~~~~
25653 cindex:[certificate,self-signed]
25654 You can create a self-signed certificate using the 'req' command provided
25655 with OpenSSL, like this:
25658 openssl req -x509 -newkey rsa:1024 -keyout file1 -out file2 \
25662 _file1_ and _file2_ can be the same file; the key and the certificate are
25663 delimited and so can be identified independently. The %-days% option
25664 specifies a period for which the certificate is valid. The %-nodes% option is
25665 important: if you do not set it, the key is encrypted with a passphrase
25666 that you are prompted for, and any use that is made of the key causes more
25667 prompting for the passphrase. This is not helpful if you are going to use
25668 this certificate and key in an MTA, where prompting is not possible.
25670 A self-signed certificate made in this way is sufficient for testing, and
25671 may be adequate for all your requirements if you are mainly interested in
25672 encrypting transfers, and not in secure identification.
25674 However, many clients require that the certificate presented by the server be a
25675 user (also called ``leaf'' or ``site'') certificate, and not a self-signed
25676 certificate. In this situation, the self-signed certificate described above
25677 must be installed on the client host as a trusted root 'certification
25678 authority' (CA), and the certificate used by Exim must be a user certificate
25679 signed with that self-signed certificate.
25681 For information on creating self-signed CA certificates and using them to sign
25682 user certificates, see the 'General implementation overview' chapter of the
25683 Open-source PKI book, available online at *http://ospkibook.sourceforge.net/[]*.
25687 ////////////////////////////////////////////////////////////////////////////
25688 ////////////////////////////////////////////////////////////////////////////
25691 Access control lists
25692 --------------------
25693 cindex:[{ACL},description]
25694 cindex:[control of incoming mail]
25695 cindex:[message,controlling incoming]
25696 cindex:[policy control,access control lists]
25697 Access Control Lists (ACLs) are defined in a separate section of the run time
25698 configuration file, headed by ``begin acl''. Each ACL definition starts with a
25699 name, terminated by a colon. Here is a complete ACL section that contains just
25700 one very small ACL:
25705 accept hosts = one.host.only
25707 You can have as many lists as you like in the ACL section, and the order in
25708 which they appear does not matter. The lists are self-terminating.
25710 The majority of ACLs are used to control Exim's behaviour when it receives
25711 certain SMTP commands. This applies both to incoming TCP/IP connections, and
25712 when a local process submits a message using SMTP by specifying the %-bs%
25713 option. The most common use is for controlling which recipients are accepted
25714 in incoming messages. In addition, you can define an ACL that is used to check
25715 local non-SMTP messages. The default configuration file contains an example of
25716 a realistic ACL for checking RCPT commands. This is discussed in chapter
25722 The %-bh% command line option provides a way of testing your ACL configuration
25723 locally by running a fake SMTP session with which you interact. The host
25724 'relay-test.mail-abuse.org' provides a service for checking your relaying
25725 configuration (see section <<SECTcheralcon>> for more details).
25729 Specifying when ACLs are used
25730 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
25731 cindex:[{ACL},options for specifying]
25732 In order to cause an ACL to be used, you have to name it in one of the relevant
25733 options in the main part of the configuration. These options are:
25734 cindex:[AUTH,ACL for]
25735 cindex:[DATA, ACLs for]
25736 cindex:[ETRN,ACL for]
25737 cindex:[EXPN,ACL for]
25738 cindex:[HELO,ACL for]
25739 cindex:[EHLO,ACL for]
25740 cindex:[MAIL,ACL for]
25741 cindex:[QUIT, ACL for]
25742 cindex:[RCPT,ACL for]
25743 cindex:[STARTTLS, ACL for]
25744 cindex:[VRFY,ACL for]
25745 cindex:[SMTP connection, ACL for]
25746 cindex:[non-smtp message, ACL for]
25749 `--`--------------------`---------------------------------------
25750 %acl_not_smtp% ACL for non-SMTP messages
25751 %acl_smtp_auth% ACL for AUTH
25752 %acl_smtp_connect% ACL for start of SMTP connection
25753 %acl_smtp_data% ACL after DATA is complete
25754 %acl_smtp_etrn% ACL for ETRN
25755 %acl_smtp_expn% ACL for EXPN
25756 %acl_smtp_helo% ACL for HELO or EHLO
25757 %acl_smtp_mail% ACL for MAIL
25758 %acl_smtp_mailauth% ACL for the AUTH parameter of MAIL
25759 %acl_smtp_mime% ACL for content-scanning MIME parts
25760 %acl_smtp_predata% ACL at start of DATA command
25761 %acl_smtp_quit% ACL for QUIT
25762 %acl_smtp_rcpt% ACL for RCPT
25763 %acl_smtp_starttls% ACL for STARTTLS
25764 %acl_smtp_vrfy% ACL for VRFY
25765 ----------------------------------------------------------------
25767 For example, if you set
25769 acl_smtp_rcpt = small_acl
25771 the little ACL defined above is used whenever Exim receives a RCPT command
25772 in an SMTP dialogue. The majority of policy tests on incoming messages can be
25773 done when RCPT commands arrive. A rejection of RCPT should cause the
25774 sending MTA to give up on the recipient address contained in the RCPT
25775 command, whereas rejection at other times may cause the client MTA to keep on
25776 trying to deliver the message. It is therefore recommended that you do as much
25777 testing as possible at RCPT time.
25782 cindex:[non-smtp message, ACL for]
25783 The non-SMTP ACL applies to all non-interactive incoming messages, that is, it
25784 applies to batch SMTP as well as to non-SMTP messages. (Batch SMTP is not
25785 really SMTP.) This ACL is run just before the 'local_scan()' function. Any
25786 kind of rejection is treated as permanent, because there is no way of sending a
25787 temporary error for these kinds of message. Many of the ACL conditions (for
25788 example, host tests, and tests on the state of the SMTP connection such as
25789 encryption and authentication) are not relevant and are forbidden in this ACL.
25794 cindex:[SMTP connection, ACL for]
25795 The ACL test specified by %acl_smtp_connect% happens after the test specified
25796 by %host_reject_connection% (which is now an anomaly) and any TCP Wrappers
25797 testing (if configured).
25802 cindex:[DATA, ACLs for]
25803 Two ACLs are associated with the DATA command, because it is two-stage
25804 command, with two responses being sent to the client.
25805 When the DATA command is received, the ACL defined by %acl_smtp_predata%
25806 is obeyed. This gives you control after all the RCPT commands, but before
25807 the message itself is received. It offers the opportunity to give a negative
25808 response to the DATA command before the data is transmitted. Header lines
25809 added by MAIL or RCPT ACLs are not visible at this time, but any that
25810 are defined here are visible when the %acl_smtp_data% ACL is run.
25812 You cannot test the contents of the message, for example, to verify addresses
25813 in the headers, at RCPT time or when the DATA command is received. Such
25814 tests have to appear in the ACL that is run after the message itself has been
25815 received, before the final response to the DATA command is sent. This is
25816 the ACL specified by %acl_smtp_data%, which is the second ACL that is
25817 associated with the DATA command.
25819 For both of these ACLs, it is not possible to reject individual recipients. An
25820 error response rejects the entire message. Unfortunately, it is known that some
25821 MTAs do not treat hard (5##'xx') responses to the DATA command (either
25822 before or after the data) correctly -- they keep the message on their queues
25823 and try again later, but that is their problem, though it does waste some of
25829 The %acl_smtp_mime% option is available only when Exim is compiled with the
25830 content-scanning extension. For details, see chapter <<CHAPexiscan>>.
25836 cindex:[QUIT, ACL for]
25837 The ACL for the SMTP QUIT command is anomalous, in that the outcome of the ACL
25838 does not affect the response code to QUIT, which is always 221. Thus, the ACL
25839 does not in fact control any access. For this reason, the only verbs that are
25840 permitted are %accept% and %warn%.
25842 This ACL can be used for tasks such as custom logging at the end of an SMTP
25843 session. For example, you can use ACL variables in other ACLs to count
25844 messages, recipients, etc., and log the totals at QUIT time using one or
25845 more %logwrite% modifiers on a %warn% verb.
25847 [revisionflag="changed"]
25848 *Warning*: only the $acl_c$'x' variables can be used for this, because the
25849 $acl_m$'x' variables are reset at the end of each incoming message.
25851 You do not need to have a final %accept%, but if you do, you can use a
25852 %message% modifier to specify custom text that is sent as part of the 221
25855 This ACL is run only for a ``normal'' QUIT. For certain kinds of disastrous
25856 failure (for example, failure to open a log file, or when Exim is bombing out
25857 because it has detected an unrecoverable error), all SMTP commands from the
25858 client are given temporary error responses until QUIT is received or the
25859 connection is closed. In these special cases, the QUIT ACL does not run.
25863 Finding an ACL to use
25864 ~~~~~~~~~~~~~~~~~~~~~
25865 cindex:[{ACL},finding which to use]
25866 The value of an %acl_smtp_'xxx'% option is expanded before use, so you can
25867 use different ACLs in different circumstances. The resulting string does not
25868 have to be the name of an ACL in the configuration file; there are other
25869 possibilities. Having expanded the string, Exim searches for an ACL as follows:
25871 - If the string begins with a slash, Exim uses it as a file name, and reads its
25872 contents as an ACL. The lines are processed in the same way as lines in the
25873 Exim configuration file. In particular, continuation lines are supported, blank
25874 lines are ignored, as are lines whose first non-whitespace character is ``#''.
25875 If the file does not exist or cannot be read, an error occurs (typically
25876 causing a temporary failure of whatever caused the ACL to be run). For example:
25879 acl_smtp_data = /etc/acls/\
25880 ${lookup{$sender_host_address}lsearch\
25881 {/etc/acllist}{$value}{default}}
25884 This looks up an ACL file to use on the basis of the host's IP address, falling
25885 back to a default if the lookup fails. If an ACL is successfully read from a
25886 file, it is retained in memory for the duration of the Exim process, so that it
25887 can be re-used without having to re-read the file.
25889 - If the string does not start with a slash, and does not contain any spaces,
25890 Exim searches the ACL section of the configuration for an ACL whose name
25891 matches the string.
25893 - If no named ACL is found, or if the string contains spaces, Exim parses
25894 the string as an inline ACL. This can save typing in cases where you just
25895 want to have something like
25897 acl_smtp_vrfy = accept
25899 in order to allow free use of the VRFY command. Such a string may contain
25900 newlines; it is processed in the same way as an ACL that is read from a file.
25907 cindex:[{ACL},return codes]
25908 Except for the QUIT ACL, which does not affect the SMTP return code (see
25909 section <<SECTQUITACL>> above), the
25911 result of running an ACL is either ``accept'' or ``deny'', or, if some test
25912 cannot be completed (for example, if a database is down), ``defer''. These
25913 results cause 2##'xx', 5##'xx', and 4##'xx' return codes, respectively, to be
25914 used in the SMTP dialogue. A fourth return, ``error'', occurs when there is an
25915 error such as invalid syntax in the ACL. This also causes a 4'##xx' return
25918 For the non-SMTP ACL, ``defer'' and ``error'' are treated in the same way as
25919 ``deny'', because there is no mechanism for passing temporary errors to the
25920 submitters of non-SMTP messages.
25923 ACLs that are relevant to message reception may also return ``discard''. This
25924 has the effect of ``accept'', but causes either the entire message or an
25925 individual recipient address to be discarded. In other words, it is a
25926 blackholing facility. Use it with care.
25928 If the ACL for MAIL returns ``discard'', all recipients are discarded, and no
25929 ACL is run for subsequent RCPT commands. The effect of ``discard'' in a
25930 RCPT ACL is to discard just the one recipient address. If there are no
25931 recipients left when the message's data is received, the DATA ACL is not
25932 run. A ``discard'' return from the DATA or the non-SMTP ACL discards all the
25933 remaining recipients.
25935 The ``discard'' return is not permitted for the %acl_smtp_predata% ACL.
25938 cindex:['local_scan()' function,when all recipients discarded]
25939 The 'local_scan()' function is always run, even if there are no remaining
25940 recipients; it may create new recipients.
25946 cindex:[{ACL},unset options]
25947 The default actions when any of the %acl_'xxx'% options are unset are not
25948 all the same. *Note*: These defaults apply only when the relevant ACL is
25949 not defined at all. For any defined ACL, the default action when control reaches
25950 the end of the ACL statements is ``deny''.
25952 For %acl_not_smtp%, %acl_smtp_auth%, %acl_smtp_connect%, %acl_smtp_data%,
25953 %acl_smtp_helo%, %acl_smtp_mail%, %acl_smtp_mailauth%, %acl_smtp_mime%,
25954 %acl_smtp_predata%, %acl_smtp_quit%, and %acl_smtp_starttls%, the action when
25955 the ACL is not defined is ``accept''.
25957 For the others (%acl_smtp_etrn%, %acl_smtp_expn%, %acl_smtp_rcpt%, and
25958 %acl_smtp_vrfy%), the action when the ACL is not defined is ``deny''.
25959 This means that %acl_smtp_rcpt% must be defined in order to receive any
25960 messages over an SMTP connection. For an example, see the ACL in the default
25961 configuration file.
25966 Data for message ACLs
25967 ~~~~~~~~~~~~~~~~~~~~~
25968 cindex:[{ACL},data for message ACL]
25970 cindex:[$local_part$]
25971 cindex:[$sender_address$]
25972 cindex:[$sender_host_address$]
25973 When a MAIL or RCPT ACL, or either of the DATA ACLs, is running, the variables
25974 that contain information about the host and the message's sender (for example,
25975 $sender_host_address$ and $sender_address$) are set, and can be used in ACL
25976 statements. In the case of RCPT (but not MAIL or DATA), $domain$ and
25977 $local_part$ are set from the argument address.
25979 When an ACL for the AUTH parameter of MAIL is running, the variables that
25980 contain information about the host are set, but $sender_address$ is not yet
25981 set. Section <<SECTauthparamail>> contains a discussion of this parameter and
25984 cindex:[$message_size$]
25985 The $message_size$ variable is set to the value of the SIZE parameter on
25986 the MAIL command at MAIL, RCPT and pre-data time, or to -1 if
25987 that parameter is not given. The value is updated to the true message size by
25988 the time the final DATA ACL is run (after the message data has been
25991 cindex:[$rcpt_count$]
25992 cindex:[$recipients_count$]
25993 The $rcpt_count$ variable increases by one for each RCPT command received. The
25994 $recipients_count$ variable increases by one each time a RCPT command is
25995 accepted, so while an ACL for RCPT is being processed, it contains the number
25996 of previously accepted recipients. At DATA time (for both the DATA ACLs),
25997 $rcpt_count$ contains the total number of RCPT commands, and $recipients_count$
25998 contains the total number of accepted recipients.
26005 Data for non-message ACLs
26006 ~~~~~~~~~~~~~~~~~~~~~~~~~
26007 cindex:[{ACL},data for non-message ACL]
26008 cindex:[$smtp_command_argument$]
26009 When an ACL is being run for AUTH, EHLO, ETRN, EXPN, HELO, STARTTLS, or VRFY,
26010 the remainder of the SMTP command line is placed in $smtp_command_argument$.
26011 This can be tested using a %condition% condition. For example, here is an ACL
26012 for use with AUTH, which insists that either the session is encrypted, or the
26013 CRAM-MD5 authentication method is used. In other words, it does not permit
26014 authentication methods that use cleartext passwords on unencrypted connections.
26018 accept encrypted = *
26019 accept condition = ${if eq{${uc:$smtp_command_argument}}\
26021 deny message = TLS encryption or CRAM-MD5 required
26024 (Another way of applying this restriction is to arrange for the authenticators
26025 that use cleartext passwords not to be advertised when the connection is not
26026 encrypted. You can use the generic %server_advertise_condition% authenticator
26027 option to do this.)
26033 cindex:[{ACL},format of]
26034 cindex:[{ACL},verbs; definition of]
26035 An individual ACL consists of a number of statements. Each statement starts
26036 with a verb, optionally followed by a number of conditions and ``modifiers''.
26037 Modifiers can change the way the verb operates, define error and log messages,
26038 set variables, insert delays, and vary the processing of accepted messages.
26040 If all the conditions are met, the verb is obeyed. The same condition may be
26041 used (with different arguments) more than once in the same statement. This
26042 provides a means of specifying an ``and'' conjunction between conditions. For
26045 deny dnslists = list1.example
26046 dnslists = list2.example
26048 If there are no conditions, the verb is always obeyed. Exim stops evaluating
26049 the conditions and modifiers when it reaches a condition that fails. What
26050 happens then depends on the verb (and in one case, on a special modifier). Not
26051 all the conditions make sense at every testing point. For example, you cannot
26052 test a sender address in the ACL that is run for a VRFY command.
26057 The ACL verbs are as follows:
26059 - cindex:[%accept%, ACL verb]
26060 %accept%: If all the conditions are met, the ACL returns ``accept''. If any of
26061 the conditions are not met, what happens depends on whether %endpass% appears
26062 among the conditions (for syntax see below). If the failing condition is before
26063 %endpass%, control is passed to the next ACL statement; if it is after
26064 %endpass%, the ACL returns ``deny''. Consider this statement, used to check a
26067 accept domains = +local_domains
26071 If the recipient domain does not match the %domains% condition, control passes
26072 to the next statement. If it does match, the recipient is verified, and the
26073 command is accepted if verification succeeds. However, if verification fails,
26074 the ACL yields ``deny'', because the failing condition is after %endpass%.
26076 - cindex:[%defer%, ACL verb]
26077 %defer%: If all the conditions are met, the ACL returns ``defer'' which, in an
26078 SMTP session, causes a 4##'xx' response to be given. For a non-SMTP ACL,
26079 %defer% is the same as %deny%, because there is no way of sending a temporary
26080 error. For a RCPT command, %defer% is much the same as using a
26081 ^redirect^ router and `:defer:` while verifying, but the %defer% verb can
26082 be used in any ACL, and even for a recipient it might be a simpler approach.
26084 - cindex:[%deny%, ACL verb]
26085 %deny%: If all the conditions are met, the ACL returns ``deny''. If any of the
26086 conditions are not met, control is passed to the next ACL statement. For
26089 deny dnslists = blackholes.mail-abuse.org
26091 rejects commands from hosts that are on a DNS black list.
26093 - cindex:[%discard%, ACL verb]
26094 %discard%: This verb behaves like %accept%, except that it returns ``discard''
26095 from the ACL instead of ``accept''. It is permitted only on ACLs that are
26096 concerned with receiving messages, and it causes recipients to be discarded.
26097 If the %log_message% modifier is set when %discard% operates, its contents are
26098 added to the line that is automatically written to the log.
26100 If %discard% is used in an ACL for RCPT, just the one recipient is
26101 discarded; if used for MAIL, DATA or in the non-SMTP ACL, all the
26102 message's recipients are discarded. Recipients that are discarded before
26103 DATA do not appear in the log line when the %log_recipients% log selector
26106 - cindex:[%drop%, ACL verb]
26107 %drop%: This verb behaves like %deny%, except that an SMTP connection is
26108 forcibly closed after the 5##'xx' error message has been sent. For example:
26110 drop message = I don't take more than 20 RCPTs
26112 condition = ${if > {$rcpt_count}{20}}
26114 There is no difference between %deny% and %drop% for the connect-time ACL. The
26115 connection is always dropped after sending a 550 response.
26117 - cindex:[%require%, ACL verb]
26118 %require%: If all the conditions are met, control is passed to the next ACL
26119 statement. If any of the conditions are not met, the ACL returns ``deny''. For
26120 example, when checking a RCPT command,
26122 require verify = sender
26124 passes control to subsequent statements only if the message's sender can be
26125 verified. Otherwise, it rejects the command.
26127 - cindex:[%warn%, ACL verb]
26128 %warn%: If all the conditions are met, a header line is added to an incoming
26129 message and/or a line is written to Exim's main log. In all cases, control
26130 passes to the next ACL statement. The text of the added header line and the log
26131 line are specified by modifiers; if they are not present, a %warn% verb just
26132 checks its conditions and obeys any ``immediate'' modifiers such as %set% and
26133 %logwrite%. There is more about adding header lines in section
26134 <<SECTaddheadwarn>>.
26136 If any condition on a %warn% statement cannot be completed (that is, there is
26137 some sort of defer), no header lines are added and the configured log line is
26138 not written. No further conditions or modifiers in the %warn% statement are
26139 processed. The incident is logged, but the ACL continues to be processed, from
26140 the next statement onwards.
26142 If a %message% modifier is present on a %warn% verb in an ACL that is not
26143 testing an incoming message, it is ignored, and the incident is logged.
26145 A %warn% statement may use the %log_message% modifier to cause a line to be
26146 written to the main log when the statement's conditions are true.
26147 If an identical log line is requested several times in the same message, only
26148 one copy is actually written to the log. If you want to force duplicates to be
26149 written, use the %logwrite% modifier instead.
26151 cindex:[$acl_verify_message$]
26152 When one of the %warn% conditions is an address verification that fails, the
26153 text of the verification failure message is in $acl_verify_message$. If you
26154 want this logged, you must set it up explicitly. For example:
26156 warn !verify = sender
26157 log_message = sender verify failed: $acl_verify_message
26159 At the end of each ACL there is an implicit unconditional %deny%.
26161 As you can see from the examples above, the conditions and modifiers are
26162 written one to a line, with the first one on the same line as the verb, and
26163 subsequent ones on following lines. If you have a very long condition, you can
26164 continue it onto several physical lines by the usual backslash continuation
26165 mechanism. It is conventional to align the conditions vertically.
26169 [[SECTaclvariables]]
26172 cindex:[{ACL},variables]
26173 There are some special variables that can be set during ACL processing. They
26174 can be used to pass information between different ACLs, different invocations
26175 of the same ACL in the same SMTP connection, and between ACLs and the routers,
26176 transports, and filters that are used to deliver a message. There are two sets
26177 of these variables:
26179 - The values of $acl_c0$ to $acl_c9$ persist throughout an SMTP connection.
26180 They are never reset. Thus, a value that is set while receiving one message is
26181 still available when receiving the next message on the same SMTP connection.
26183 - The values of $acl_m0$ to $acl_m9$ persist only while a message is being
26184 received. They are reset afterwards. They are also reset by MAIL, RSET,
26185 EHLO, HELO, and after starting up a TLS session.
26187 When a message is accepted, the current values of all the ACL variables are
26188 preserved with the message and are subsequently made available at delivery
26189 time. The ACL variables are set by modifier called %set%. For example:
26191 accept hosts = whatever
26192 set acl_m4 = some value
26194 *Note*: a leading dollar sign is not used when naming a variable that is to
26195 be set. If you want to set a variable without taking any action, you can use a
26196 %warn% verb without any other modifiers or conditions.
26200 Condition and modifier processing
26201 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
26202 cindex:[{ACL},conditions; processing]
26203 cindex:[{ACL},modifiers; processing]
26204 An exclamation mark preceding a condition negates its result. For example:
26206 deny domains = *.dom.example
26207 !verify = recipient
26209 [revisionflag="changed"]
26210 causes the ACL to return ``deny'' if the recipient domain ends in 'dom.example'
26211 and the recipient address cannot be verified. Sometimes negation can be used on
26212 the right-hand side of a condition. For example, these two statements are
26215 [revisionflag="changed"]
26217 deny hosts = !192.168.3.4
26218 deny !hosts = 192.168.3.4
26221 [revisionflag="changed"]
26222 However, for many conditions (%verify% being a good example), only left-hand
26223 side negation of the whole condition is possible.
26225 The arguments of conditions and modifiers are expanded. A forced failure
26226 of an expansion causes a condition to be ignored, that is, it behaves as if the
26227 condition is true. Consider these two statements:
26230 accept senders = ${lookup{$host_name}lsearch\
26231 {/some/file}{$value}fail}
26232 accept senders = ${lookup{$host_name}lsearch\
26233 {/some/file}{$value}{}}
26236 Each attempts to look up a list of acceptable senders. If the lookup succeeds,
26237 the returned list is searched, but if the lookup fails the behaviour is
26238 different in the two cases. The %fail% in the first statement causes the
26239 condition to be ignored, leaving no further conditions. The %accept% verb
26240 therefore succeeds. The second statement, however, generates an empty list when
26241 the lookup fails. No sender can match an empty list, so the condition fails,
26242 and therefore the %accept% also fails.
26244 ACL modifiers appear mixed in with conditions in ACL statements. Some of them
26245 specify actions that are taken as the conditions for a statement are checked;
26246 others specify text for messages that are used when access is denied or a
26247 warning is generated. The %control% modifier affects the way an incoming
26248 message is handled.
26250 The positioning of the modifiers in an ACL statement important, because the
26251 processing of a verb ceases as soon as its outcome is known. Only those
26252 modifiers that have already been encountered will take effect. For example,
26253 consider this use of the %message% modifier:
26255 require message = Can't verify sender
26257 message = Can't verify recipient
26259 message = This message cannot be used
26261 If sender verification fails, Exim knows that the result of the statement is
26262 ``deny'', so it goes no further. The first %message% modifier has been seen, so
26263 its text is used as the error message. If sender verification succeeds, but
26264 recipient verification fails, the second message is used. If recipient
26265 verification succeeds, the third message becomes ``current'', but is never used
26266 because there are no more conditions to cause failure.
26268 For the %deny% verb, on the other hand, it is always the last %message%
26269 modifier that is used, because all the conditions must be true for rejection to
26270 happen. Specifying more than one %message% modifier does not make sense, and
26271 the message can even be specified after all the conditions. For example:
26274 !senders = *@my.domain.example
26275 message = Invalid sender from client host
26277 The ``deny'' result does not happen until the end of the statement is reached,
26278 by which time Exim has set up the message.
26285 cindex:[{ACL},modifiers; list of]
26286 The ACL modifiers are as follows:
26288 *control*~=~<'text'>::
26289 cindex:[%control%, ACL modifier]
26290 This modifier affects the subsequent processing of the SMTP connection or of an
26291 incoming message that is accepted. The effect of the first type of control
26292 lasts for the duration of the connection, whereas the effect of the second type
26293 lasts only until the current message has been received. The message-specific
26294 controls always apply to the whole message, not to individual recipients,
26295 even if the %control% modifier appears in a RCPT ACL.
26297 As there are now quite a few controls that can be applied, they are described
26298 separately in section <<SECTcontrols>>. The %control% modifier can be used in
26299 several different ways. For example:
26301 - It can be at the end of an %accept% statement:
26304 accept ...some conditions
26305 control = queue_only
26308 In this case, the control is applied when this statement yields ``accept'', in
26309 other words, when the conditions are all true.
26311 - It can be in the middle of an %accept% statement:
26314 accept ...some conditions...
26315 control = queue_only
26316 ...some more conditions...
26319 If the first set of conditions are true, the control is applied, even if the
26320 statement does not accept because one of the second set of conditions is false.
26321 In this case, some subsequent statement must yield ``accept'' for the control to
26324 - It can be used with %warn% to apply the control, leaving the
26325 decision about accepting or denying to a subsequent verb. For
26329 warn ...some conditions...
26334 This example of %warn% does not contain %message%, %log_message%, or
26335 %logwrite%, so it does not add anything to the message and does not write a log
26338 - If you want to apply a control unconditionally, you can use it with a
26339 %require% verb. For example:
26342 require control = no_multiline_response
26346 End of bulleted list, continue with variable list
26350 *delay*~=~<'time'>::
26351 cindex:[%delay%, ACL modifier]
26352 cindex:[%-bh% option]
26353 This modifier causes Exim to wait for the time interval before proceeding. The
26354 time is given in the usual Exim notation. This modifier may appear in any ACL.
26355 The delay happens as soon as the modifier is processed. However, when testing
26356 Exim using the %-bh% option, the delay is not actually imposed (an appropriate
26357 message is output instead).
26359 Like %control%, %delay% can be used with %accept% or
26360 %deny%, for example:
26362 deny ...some conditions...
26365 The delay happens if all the conditions are true, before the statement returns
26366 ``deny''. Compare this with:
26369 ...some conditions...
26371 which waits for 30s before processing the conditions. The %delay% modifier can
26372 also be used with %warn% and together with %control%:
26374 warn ...some conditions...
26380 cindex:[%endpass%, ACL modifier]
26381 This modifier, which has no argument, is recognized only in %accept%
26382 statements. It marks the boundary between the conditions whose failure causes
26383 control to pass to the next statement, and the conditions whose failure causes
26384 the ACL to return ``deny''. See the description of %accept% above.
26386 *log_message*~=~<'text'>::
26387 cindex:[%log_message%, ACL modifier]
26388 This modifier sets up a message that is used as part of the log message if the
26389 ACL denies access or a %warn% statement's conditions are true. For example:
26391 require log_message = wrong cipher suite $tls_cipher
26392 encrypted = DES-CBC3-SHA
26394 %log_message% adds to any underlying error message that may exist because of
26395 the condition failure. For example, while verifying a recipient address, a
26396 ':fail:' redirection might have already set up a message. Although the message
26397 is usually defined before the conditions to which it applies, the expansion
26398 does not happen until Exim decides that access is to be denied. This means that
26399 any variables that are set by the condition are available for inclusion in the
26400 message. For example, the $dnslist_$<'xxx'> variables are set after a DNS
26401 black list lookup succeeds. If the expansion of %log_message% fails, or if the
26402 result is an empty string, the modifier is ignored.
26404 cindex:[$acl_verify_message$]
26405 If you want to use a %warn% statement to log the result of an address
26406 verification, you can use $acl_verify_message$ to include the verification
26409 If %log_message% is used with a %warn% statement, ``Warning:'' is added to the
26410 start of the logged message. If the same warning log message is requested more
26411 than once while receiving a single email message, only one copy is actually
26412 logged. If you want to log multiple copies, use %logwrite% instead of
26413 %log_message%. In the absence of %log_message% and %logwrite%, nothing is
26414 logged for a succesful %warn% statement.
26416 If %log_message% is not present and there is no underlying error message (for
26417 example, from the failure of address verification), but %message% is present,
26418 the %message% text is used for logging rejections. However, if any text for
26419 logging contains newlines, only the first line is logged. In the absence of
26420 both %log_message% and %message%, a default built-in message is used for
26421 logging rejections.
26423 *logwrite*~=~<'text'>::
26424 cindex:[%logwrite%, ACL modifier]
26425 cindex:[logging in ACL, immediate]
26426 This modifier writes a message to a log file as soon as it is encountered when
26427 processing an ACL. (Compare %log_message%, which, except in the case of
26428 %warn%, is used only if the ACL statement denies access.) The %logwrite%
26429 modifier can be used to log special incidents in ACLs. For example:
26431 accept <some special conditions>
26433 logwrite = froze message because ...
26435 By default, the message is written to the main log. However, it may begin
26436 with a colon, followed by a comma-separated list of log names, and then
26437 another colon, to specify exactly which logs are to be written. For
26440 logwrite = :main,reject: text for main and reject logs
26441 logwrite = :panic: text for panic log only
26443 *message*~=~<'text'>::
26444 cindex:[%message%, ACL modifier]
26445 This modifier sets up a text string that is expanded and used as an error
26446 message if the current statement causes the ACL to deny access. The expansion
26447 happens at the time Exim decides that access is to be denied, not at the time
26448 it processes %message%. If the expansion fails, or generates an empty string,
26449 the modifier is ignored. For ACLs that are triggered by SMTP commands, the
26450 message is returned as part of the SMTP error response.
26452 The %message% modifier is also used with the %warn% verb to specify one or more
26453 header lines to be added to an incoming message when all the conditions are
26454 true. See section <<SECTaddheadwarn>> for more details. If %message% is used
26455 with %warn% in an ACL that is not concerned with receiving a message, it has no
26458 The text is literal; any quotes are taken as literals, but because the string
26459 is expanded, backslash escapes are processed anyway. If the message contains
26460 newlines, this gives rise to a multi-line SMTP response. Like %log_message%,
26461 the contents of %message% are not expanded until after a condition has failed.
26463 cindex:[$acl_verify_message$]
26464 If %message% is used on a statement that verifies an address, the message
26465 specified overrides any message that is generated by the verification process.
26466 However, the original message is available in the variable
26467 $acl_verify_message$, so you can incorporate it into your message if you wish.
26468 In particular, if you want the text from %:fail:% items in ^redirect^ routers
26469 to be passed back as part of the SMTP response, you should either not use a
26470 %message% modifier, or make use of $acl_verify_message$.
26472 *set*~<'acl_name'>~=~<'value'>::
26473 cindex:[%set%, ACL modifier]
26474 This modifier puts a value into one of the ACL variables (see section
26475 <<SECTaclvariables>>).
26480 Use of the control modifier
26481 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
26482 cindex:[%control%, ACL modifier]
26483 The %control% modifier supports the following settings:
26485 *control~=~caseful_local_part*::
26488 *control~=~caselower_local_part*::
26489 cindex:[{ACL},case of local part in]
26490 cindex:[case of local parts]
26491 cindex:[$local_part$]
26492 These two controls are permitted only in the ACL specified by %acl_smtp_rcpt%
26493 (that is, during RCPT processing). By default, the contents of $local_part$ are
26494 lower cased before ACL processing. If ``caseful_local_part'' is specified, any
26495 uppercase letters in the original local part are restored in $local_part$ for
26496 the rest of the ACL, or until a control that sets ``caselower_local_part'' is
26499 These controls affect only the current recipient. Moreover, they apply only to
26500 local part handling that takes place directly in the ACL (for example, as a key
26501 in lookups). If a test to verify the recipient is obeyed, the case-related
26502 handling of the local part during the verification is controlled by the router
26503 configuration (see the %caseful_local_part% generic router option).
26505 This facility could be used, for example, to add a spam score to local parts
26506 containing upper case letters. For example, using $acl_m4$ to accumulate the
26510 warn control = caseful_local_part
26511 set acl_m4 = ${eval:\
26513 ${if match{$local_part}{[A-Z]}{1}{0}}\
26515 control = caselower_local_part
26518 Notice that we put back the lower cased version afterwards, assuming that
26519 is what is wanted for subsequent tests.
26521 *control~=~enforce_sync*::
26524 *control~=~no_enforce_sync*::
26525 cindex:[SMTP,synchronization checking]
26526 cindex:[synchronization checking in SMTP]
26527 These controls make it possible to be selective about when SMTP synchronization
26528 is enforced. The global option %smtp_enforce_sync% specifies the initial
26529 state of the switch (it is true by default). See the description of this option
26530 in chapter <<CHAPmainconfig>> for details of SMTP synchronization checking.
26532 The effect of these two controls lasts for the remainder of the SMTP
26533 connection. They can appear in any ACL except the one for the non-SMTP
26534 messages. The most straightforward place to put them is in the ACL defined by
26535 %acl_smtp_connect%, which is run at the start of an incoming SMTP connection,
26536 before the first synchronization check. The expected use is to turn off the
26537 synchronization checks for badly-behaved hosts that you nevertheless need to
26541 [revisionflag="changed"]
26542 *control~=~fakedefer/*<'message'>::
26543 cindex:[fake defer]
26544 cindex:[defer,fake]
26545 This control works in exactly the same way as %fakereject% (described below)
26546 except that it causes an SMTP 450 response after the message data instead of a
26547 550 response. You must take care when using %fakedefer% because it causes the
26548 messages to be duplicated when the sender retries. Therefore, you should not
26549 use %fakedefer% if the message is to be delivered normally.
26552 *control~=~fakereject/*<'message'>::
26553 cindex:[fake rejection]
26554 cindex:[rejection, fake]
26555 This control is permitted only for the MAIL, RCPT, and DATA ACLs, in other
26556 words, only when an SMTP message is being received. If Exim accepts the
26557 message, instead the final 250 response, a 550 rejection message is sent.
26558 However, Exim proceeds to deliver the message as normal. The control applies
26559 only to the current message, not to any subsequent ones that may be received in
26560 the same SMTP connection.
26562 The text for the 550 response is taken from the %control% modifier. If no
26563 message is supplied, the following is used:
26565 550-Your message has been rejected but is being
26566 550-kept for evaluation.
26567 550-If it was a legitimate message, it may still be
26568 550 delivered to the target recipient(s).
26570 This facilty should be used with extreme caution.
26572 *control~=~freeze*::
26573 cindex:[frozen messages,forcing in ACL]
26574 This control is permitted only for the MAIL, RCPT, DATA, and non-SMTP ACLs, in
26575 other words, only when a message is being received. If the message is accepted,
26576 it is placed on Exim's queue and frozen. The control applies only to the
26577 current message, not to any subsequent ones that may be received in the same
26580 *control~=~no_mbox_unspool*::
26581 This control is available when Exim is compiled with the content scanning
26582 extension. Content scanning may require a copy of the current message, or parts
26583 of it, to be written in ``mbox format'' to a spool file, for passing to a virus
26584 or spam scanner. Normally, such copies are deleted when they are no longer
26585 needed. If this control is set, the copies are not deleted. The control applies
26586 only to the current message, not to any subsequent ones that may be received in
26587 the same SMTP connection. It is provided for debugging purposes and is unlikely
26588 to be useful in production.
26590 *control~=~no_multiline_response*::
26591 cindex:[multiline responses, suppressing]
26592 This control is permitted for any ACL except the one for non-SMTP messages.
26593 It seems that there are broken clients in use that cannot handle multiline
26594 SMTP responses, despite the fact that RFC 821 defined them over 20 years ago.
26596 If this control is set, multiline SMTP responses from ACL rejections are
26597 suppressed. One way of doing this would have been to put out these responses as
26598 one long line. However, RFC 2821 specifies a maximum of 512 bytes per response
26599 (``use multiline responses for more'' it says -- ha!), and some of the responses
26600 might get close to that. So this facility, which is after all only a sop to
26601 broken clients, is implemented by doing two very easy things:
26604 . Extra information that is normally output as part of a rejection caused by
26605 sender verification failure is omitted. Only the final line (typically ``sender
26606 verification failed'') is sent.
26608 . If a %message% modifier supplies a multiline response, only the first
26612 The setting of the switch can, of course, be made conditional on the
26613 calling host. Its effect lasts until the end of the SMTP connection.
26615 *control~=~queue_only*::
26616 cindex:[%queue_only%]
26617 cindex:[queueing incoming messages]
26618 This control is permitted only for the MAIL, RCPT, DATA, and non-SMTP ACLs, in
26619 other words, only when a message is being received. If the message is accepted,
26620 it is placed on Exim's queue and left there for delivery by a subsequent queue
26621 runner. No immediate delivery process is started. In other words, it has the
26622 effect as the %queue_only% global option. However, the control applies only to
26623 the current message, not to any subsequent ones that may be received in the
26624 same SMTP connection.
26626 *control~=~submission/*<'options'>::
26627 cindex:[message,submission]
26628 cindex:[submission mode]
26629 This control is permitted only for the MAIL, RCPT, and start of data ACLs (the
26630 latter is the one defined by %acl_smtp_predata%). Setting it tells Exim that
26631 the current message is a submission from a local MUA. In this case, Exim
26632 operates in ``submission mode'', and applies certain fixups to the message if
26633 necessary. For example, it add a 'Date:' header line if one is not present.
26634 This control is not permitted in the %acl_smtp_data% ACL, because that is too
26635 late (the message has already been created).
26637 Chapter <<CHAPmsgproc>> describes the processing that Exim applies to messages.
26638 Section <<SECTsubmodnon>> covers the processing that happens in submission mode;
26639 the available options for this control are described there. The control applies
26640 only to the current message, not to any subsequent ones that may be received in
26641 the same SMTP connection.
26643 [revisionflag="changed"]
26644 *control~=~suppress_local_fixups*::
26645 cindex:[submission fixups,suppressing]
26646 This control applies to locally submitted (non TCP/IP) messages, and is the
26647 complement of `control = submission`. It disables the fixups that are normally
26648 applied to locally-submitted messages. Specifically:
26651 [revisionflag="changed"]
26652 - Any 'Sender:' header line is left alone (in this respect, it is a
26653 dynamic version of %local_sender_retain%).
26655 [revisionflag="changed"]
26656 - No 'Message-ID:', 'From:', or 'Date:' header lines are added.
26658 [revisionflag="changed"]
26659 - There is no check that 'From:' corresponds to the actual sender.
26662 [revisionflag="changed"]
26663 This feature may be useful when a remotely-originated message is accepted,
26664 passed to some scanning program, and then re-submitted for delivery.
26666 [revisionflag="changed"]
26667 All four possibilities for message fixups can be specified:
26669 [revisionflag="changed"]
26670 - Locally submitted, fixups applied: the default.
26672 [revisionflag="changed"]
26673 - Locally submitted, no fixups applied: use `control = suppress_local_fixups`.
26675 [revisionflag="changed"]
26676 - Remotely submitted, no fixups applied: the default.
26678 [revisionflag="changed"]
26679 - Remotely submitted, fixups applied: use `control = submission`.
26685 [[SECTaddheadwarn]]
26686 Adding header lines with the warn verb
26687 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
26688 cindex:[header lines,adding in an ACL]
26689 cindex:[header lines,position of added lines]
26690 cindex:[%warn%, ACL verb]
26691 cindex:[%message%, ACL modifier]
26692 The %message% modifier can be used on a %warn% statement to add an extra header
26693 line to an incoming message, as in this example:
26696 warn message = X-blacklisted-at: $dnslist_domain
26697 dnslists = sbl.spamhaus.org : \
26698 dialup.mail-abuse.org
26701 If an identical header line is requested several times (provoked, for example,
26702 by multiple RCPT commands), only one copy is actually added to the message.
26703 If the text of the %message% modifier contains one or more newlines that are
26704 not followed by a space or a tab, it is assumed to contain multiple header
26705 lines. Each one is checked for valid syntax; `X-ACL-Warn:` is added to the
26706 front of any line that is not a valid header line.
26708 By default, new lines are added at the end of the existing header lines.
26709 However, you can specify that any particular header line should be added right
26710 at the start (before all the 'Received:' lines), immediately after the first
26711 block of 'Received:' lines, or immediately before any line that is not a
26712 'Received:' or 'Resent-something:' header.
26714 This is done by specifying ``:at_start:'', ``:after_received:'', or
26715 ``:at_start_rfc:'' (or, for completeness, ``:at_end:'') before the text of the
26716 header line, respectively. (Header text cannot start with a colon, as there has
26717 to be a header name first.) For example:
26719 warn message = :after_received:X-My-Header: something or other...
26722 If more than one header is supplied in a single warn statement, each one is
26723 treated independently and can therefore be placed differently. If you add
26724 more than one line at the start, or after the Received: block, they will
26725 end up in reverse order.
26727 *Warning*: This facility currently applies only to header lines that are
26728 added in an ACL. It does NOT work for header lines that are added in a
26729 system filter or in a router or transport.
26731 [revisionflag="changed"]
26732 cindex:[header lines,added; visibility of]
26733 Header lines that are added by an ACL at MAIL or RCPT time are not visible in
26734 string expansions in ACLs for subsequent RCPT commands or in the
26735 %acl_smtp_predata% ACL. However, they are visible in string expansions in the
26736 ACL that is run after DATA is complete (the %acl_smtp_data% ACL). This is also
26737 true for header lines that are added in the %acl_smtp_predata% ACL. However,
26738 header lines that are added in the %acl_smtp_data% itself are not visible
26739 during that ACL. If a message is rejected after DATA, all added header lines
26740 are included in the entry that is written to the reject log.
26742 If you want to preserve data between MAIL, RCPT, and the
26743 %acl_smtp_predata% ACLs, you can use ACL variables, as described in section
26744 <<SECTaclvariables>>.
26750 [[SECTaclconditions]]
26753 cindex:[{ACL},conditions; list of]
26754 Some of conditions listed in this section are available only when Exim is
26755 compiled with the content-scanning extension. They are included here briefly
26756 for completeness. More detailed descriptions can be found in the discussion on
26757 content scanning in chapter <<CHAPexiscan>>.
26759 Not all conditions are relevant in all circumstances. For example, testing
26760 senders and recipients does not make sense in an ACL that is being run as the
26761 result of the arrival of an ETRN command, and checks on message headers can be
26762 done only in the ACLs specified by %acl_smtp_data% and %acl_not_smtp%. You can
26763 use the same condition (with different parameters) more than once in the same
26764 ACL statement. This provides a way of specifying an ``and'' conjunction. The
26765 conditions are as follows:
26768 *acl~=~*<'name~of~acl~or~ACL~string~or~file~name~'>::
26769 cindex:[{ACL},nested]
26770 cindex:[{ACL},indirect]
26771 cindex:[%acl%, ACL condition]
26772 The possible values of the argument are the same as for the %acl_smtp_%##'xxx'
26773 options. The named or inline ACL is run. If it returns ``accept'' the condition
26774 is true; if it returns ``deny'' the condition is false. If it returns
26775 ``defer'', the current ACL returns ``defer'' unless the condition is on a
26776 %warn% verb. In that case, a ``defer'' return makes the condition false. This
26777 means that further processing of the %warn% verb ceases, but processing of the
26780 If the nested %acl% returns ``drop'' and the outer condition denies access, the
26781 connection is dropped. If it returns ``discard'', the verb must be %accept% or
26782 %discard%, and the action is taken immediately -- no further conditions are
26785 ACLs may be nested up to 20 deep; the limit exists purely to catch runaway
26786 loops. This condition allows you to use different ACLs in different
26787 circumstances. For example, different ACLs can be used to handle RCPT commands
26788 for different local users or different local domains.
26790 *authenticated~=~*<'string~list'>::
26791 cindex:[%authenticated%, ACL condition]
26792 cindex:[authentication,ACL checking]
26793 cindex:[{ACL},testing for authentication]
26794 If the SMTP connection is not authenticated, the condition is false. Otherwise,
26795 the name of the authenticator is tested against the list. To test for
26796 authentication by any authenticator, you can set
26800 *condition~=~*<'string'>::
26801 cindex:[%condition%, ACL condition]
26802 cindex:[customizing,ACL condition]
26803 cindex:[{ACL},customized test]
26804 cindex:[{ACL},testing; customized]
26805 This feature allows you to make up custom conditions. If the result of
26806 expanding the string is an empty string, the number zero, or one of the strings
26807 ``no'' or ``false'', the condition is false. If the result is any non-zero
26808 number, or one of the strings ``yes'' or ``true'', the condition is true. For
26809 any other values, some error is assumed to have occured, and the ACL returns
26812 *decode~=~*<'location'>::
26813 cindex:[%decode%, ACL condition]
26814 This condition is available only when Exim is compiled with the
26815 content-scanning extension, and it is allowed only the the ACL defined by
26816 %acl_smtp_mime%. It causes the current MIME part to be decoded into a file. For
26817 details, see chapter <<CHAPexiscan>>.
26819 *demime~=~*<'extension~list'>::
26820 cindex:[%demime%, ACL condition]
26821 This condition is available only when Exim is compiled with the
26822 content-scanning extension. Its use is described in section <<SECTdemimecond>>.
26824 *dnslists~=~*<'list~of~domain~names~and~other~data'>::
26825 cindex:[%dnslists%, ACL condition]
26826 cindex:[DNS list,in ACL]
26827 cindex:[black list (DNS)]
26828 cindex:[{ACL},testing a DNS list]
26829 This condition checks for entries in DNS black lists. These are also known as
26830 ``RBL lists'', after the original Realtime Blackhole List, but note that the
26831 use of the lists at 'mail-abuse.org' now carries a charge. There are too many
26832 different variants of this condition to describe briefly here. See sections
26833 <<SECTmorednslists>>--<<SECTmorednslistslast>> for details.
26835 *domains~=~*<'domain~list'>::
26836 cindex:[%domains%, ACL condition]
26837 cindex:[domain,ACL checking]
26838 cindex:[{ACL},testing a recipient domain]
26839 cindex:[$domain_data$]
26840 This condition is relevant only after a RCPT command. It checks that the domain
26841 of the recipient address is in the domain list. If percent-hack processing is
26842 enabled, it is done before this test is done. If the check succeeds with a
26843 lookup, the result of the lookup is placed in $domain_data$ until the next
26846 *encrypted~=~*<'string~list'>::
26847 cindex:[%encrypted%, ACL condition]
26848 cindex:[encryption,checking in an ACL]
26849 cindex:[{ACL},testing for encryption]
26850 If the SMTP connection is not encrypted, the condition is false. Otherwise, the
26851 name of the cipher suite in use is tested against the list. To test for
26852 encryption without testing for any specific cipher suite(s), set
26856 *hosts~=~*<'~host~list'>::
26857 cindex:[%hosts%, ACL condition]
26858 cindex:[host,ACL checking]
26859 cindex:[{ACL},testing the client host]
26860 This condition tests that the calling host matches the host list. If you have
26861 name lookups or wildcarded host names and IP addresses in the same host list,
26862 you should normally put the IP addresses first. For example, you could have:
26864 accept hosts = 10.9.8.7 : dbm;/etc/friendly/hosts
26866 The reason for this lies in the left-to-right way that Exim processes lists.
26867 It can test IP addresses without doing any DNS lookups, but when it reaches an
26868 item that requires a host name, it fails if it cannot find a host name to
26869 compare with the pattern. If the above list is given in the opposite order, the
26870 %accept% statement fails for a host whose name cannot be found, even if its
26871 IP address is 10.9.8.7.
26873 If you really do want to do the name check first, and still recognize the IP
26874 address even if the name lookup fails, you can rewrite the ACL like this:
26876 accept hosts = dbm;/etc/friendly/hosts
26877 accept hosts = 10.9.8.7
26879 The default action on failing to find the host name is to assume that the host
26880 is not in the list, so the first %accept% statement fails. The second statement
26881 can then check the IP address.
26883 cindex:[$host_data$]
26884 If a %hosts% condition is satisfied by means of a lookup, the result
26885 of the lookup is made available in the $host_data$ variable. This
26886 allows you, for example, to set up a statement like this:
26888 deny hosts = net-lsearch;/some/file
26889 message = $host_data
26891 which gives a custom error message for each denied host.
26893 *local_parts~=~*<'local~part~list'>::
26894 cindex:[%local_parts%, ACL condition]
26895 cindex:[local part,ACL checking]
26896 cindex:[{ACL},testing a local part]
26897 cindex:[$local_part_data$]
26898 This condition is relevant only after a RCPT command. It checks that the local
26899 part of the recipient address is in the list. If percent-hack processing is
26900 enabled, it is done before this test. If the check succeeds with a lookup, the
26901 result of the lookup is placed in $local_part_data$, which remains set until
26902 the next %local_parts% test.
26904 *malware~=~*<'option'>::
26905 cindex:[%malware%, ACL condition]
26906 cindex:[{ACL},virus scanning]
26907 cindex:[{ACL},scanning for viruses]
26908 This condition is available only when Exim is compiled with the
26909 content-scanning extension. It causes the incoming message to be scanned for
26910 viruses. For details, see chapter <<CHAPexiscan>>.
26912 *mime_regex~=~*<'list~of~regular~expressions'>::
26913 cindex:[%mime_regex%, ACL condition]
26914 cindex:[{ACL},testing by regex matching]
26915 This condition is available only when Exim is compiled with the
26916 content-scanning extension, and it is allowed only the the ACL defined by
26917 %acl_smtp_mime%. It causes the current MIME part to be scanned for a match with
26918 any of the regular expressions. For details, see chapter <<CHAPexiscan>>.
26920 [revisionflag="changed"]
26921 *ratelimit~=~*<'parameters'>::
26922 cindex:[rate limiting]
26923 This condition can be used to limit the rate at which a user or host submits
26924 messages. Details are given in section <<SECTratelimiting>>.
26926 *recipients~=~*<'address~list'>::
26927 cindex:[%recipients%, ACL condition]
26928 cindex:[recipient,ACL checking]
26929 cindex:[{ACL},testing a recipient]
26930 This condition is relevant only after a RCPT command. It checks the entire
26931 recipient address against a list of recipients.
26933 *regex~=~*<'list~of~regular~expressions'>::
26934 cindex:[%regex%, ACL condition]
26935 cindex:[{ACL},testing by regex matching]
26936 This condition is available only when Exim is compiled with the
26937 content-scanning extension, and is available only in the DATA, MIME, and
26938 non-SMTP ACLs. It causes the incoming message to be scanned for a match with
26939 any of the regular expressions. For details, see chapter <<CHAPexiscan>>.
26941 *sender_domains~=~*<'domain~list'>::
26942 cindex:[%sender_domains%, ACL condition]
26943 cindex:[sender,ACL checking]
26944 cindex:[{ACL},testing a sender domain]
26946 cindex:[$sender_address_domain$]
26947 This condition tests the domain of the sender of the message against the given
26948 domain list. *Note*: the domain of the sender address is in
26949 $sender_address_domain$. It is 'not' put in $domain$ during the testing of this
26950 condition. This is an exception to the general rule for testing domain lists.
26951 It is done this way so that, if this condition is used in an ACL for a RCPT
26952 command, the recipient's domain (which is in $domain$) can be used to influence
26953 the sender checking.
26955 [revisionflag="changed"]
26956 *Note*: it is a bad idea to use this condition on its own as a control on
26957 relaying, because sender addresses are easily, and commonly, forged.
26959 *senders~=~*<'address~list'>::
26960 cindex:[%senders%, ACL condition]
26961 cindex:[sender,ACL checking]
26962 cindex:[{ACL},testing a sender]
26963 This condition tests the sender of the message against the given list. To test
26964 for a bounce message, which has an empty sender, set
26968 [revisionflag="changed"]
26969 *Note*: it is a bad idea to use this condition on its own as a control on
26970 relaying, because sender addresses are easily, and commonly, forged.
26972 *spam~=~*<'username'>::
26973 cindex:[%spam%, ACL condition]
26974 cindex:[{ACL},scanning for spam]
26975 This condition is available only when Exim is compiled with the
26976 content-scanning extension. It causes the incoming message to be scanned by
26977 SpamAssassin. For details, see chapter <<CHAPexiscan>>.
26979 *verify~=~certificate*::
26980 cindex:[%verify%, ACL condition]
26981 cindex:[TLS,client certificate verification]
26982 cindex:[certificate,verification of client]
26983 cindex:[{ACL},certificate verification]
26984 cindex:[{ACL},testing a TLS certificate]
26985 This condition is true in an SMTP session if the session is encrypted, and a
26986 certificate was received from the client, and the certificate was verified. The
26987 server requests a certificate only if the client matches %tls_verify_hosts% or
26988 %tls_try_verify_hosts% (see chapter <<CHAPTLS>>).
26990 [revisionflag="changed"]
26992 cindex:[CSA verification]
26993 This condition checks whether the sending host (the client) is authorized to
26994 send email. Details of how this works are given in section
26997 *verify~=~header_sender/*<'options'>::
26998 cindex:[%verify%, ACL condition]
26999 cindex:[{ACL},verifying sender in the header]
27000 cindex:[header lines,verifying the sender in]
27001 cindex:[sender,verifying in header]
27002 cindex:[verifying,sender in header]
27003 This condition is relevant only in an ACL that is run after a message has been
27004 received, that is, in an ACL specified by %acl_smtp_data% or %acl_not_smtp%. It
27005 checks that there is a verifiable address in at least one of the 'Sender:',
27006 'Reply-To:', or 'From:' header lines. Such an address is loosely thought of as
27007 a ``sender'' address (hence the name of the test). However, an address that
27008 appears in one of these headers need not be an address that accepts bounce
27009 messages; only sender addresses in envelopes are required to accept bounces.
27010 Therefore, if you use the callout option on this check, you might want to
27011 arrange for a non-empty address in the MAIL command.
27013 Details of address verification and the options are given later, starting at
27014 section <<SECTaddressverification>> (callouts are described in section
27015 <<SECTcallver>>). You can combine this condition with the %senders% condition to
27016 restrict it to bounce messages only:
27019 message = A valid sender header is required for bounces
27020 !verify = header_sender
27022 *verify~=~header_syntax*::
27023 cindex:[%verify%, ACL condition]
27024 cindex:[{ACL},verifying header syntax]
27025 cindex:[header lines,verifying syntax]
27026 cindex:[verifying,header syntax]
27027 This condition is relevant only in an ACL that is run after a message has been
27028 received, that is, in an ACL specified by %acl_smtp_data% or %acl_not_smtp%. It
27029 checks the syntax of all header lines that can contain lists of addresses
27030 ('Sender:', 'From:', 'Reply-To:', 'To:', 'Cc:', and 'Bcc:'). Unqualified
27031 addresses (local parts without domains) are permitted only in locally generated
27032 messages and from hosts that match %sender_unqualified_hosts% or
27033 %recipient_unqualified_hosts%, as appropriate.
27035 Note that this condition is a syntax check only. However, a common spamming
27036 ploy used to be to send syntactically invalid headers such as
27040 and this condition can be used to reject such messages, though they are not as
27041 common as they used to be.
27043 [revisionflag="changed"]
27045 cindex:[%verify%, ACL condition]
27046 cindex:[{ACL},verifying HELO/EHLO]
27047 cindex:[HELO,verifying]
27048 cindex:[EHLO,verifying]
27049 cindex:[verifying,EHLO]
27050 cindex:[verifying,HELO]
27051 This condition is true if a HELO or EHLO command has been received from the
27052 client host, and its contents have been verified. It there has been no previous
27053 attempt to verify the the HELO/EHLO contents, it is carried out when this
27054 condition is encountered. See the description of the %helo_verify_hosts% and
27055 %helo_try_verify_hosts% options for details of how to request verification
27056 independently of this condition.
27058 [revisionflag="changed"]
27059 *verify~=~not_blind*::
27060 cindex:[verifying,not blind]
27061 cindex:[bcc recipients,verifying none]
27062 This condition checks that there are no blind (bcc) recipients in the message.
27063 Every envelope recipient must appear either in a 'To:' header line or in a
27064 'Cc:' header line for this condition to be true. Local parts are checked
27065 case-sensitively; domains are checked case-insensitively. If 'Resent-To:' or
27066 'Resent-Cc:' header lines exist, they are also checked. This condition can be
27067 used only in a DATA or non-SMTP ACL.
27069 [revisionflag="changed"]
27070 There are, of course, many legitimate messages that make use of blind
27071 (bcc) recipients. This check should not be used on its own for blocking
27076 *verify~=~recipient/*<'options'>::
27077 cindex:[%verify%, ACL condition]
27078 cindex:[{ACL},verifying recipient]
27079 cindex:[recipient,verifying]
27080 cindex:[verifying,recipient]
27081 cindex:[$address_data$]
27082 This condition is relevant only after a RCPT command. It verifies the current
27083 recipient. Details of address verification are given later, starting at section
27084 <<SECTaddressverification>>. After a recipient has been verified, the value of
27085 $address_data$ is the last value that was set while routing the address. This
27086 applies even if the verification fails. When an address that is being verified
27087 is redirected to a single address, verification continues with the new address,
27088 and in that case, the subsequent value of $address_data$ is the value for the
27091 *verify~=~reverse_host_lookup*::
27092 cindex:[%verify%, ACL condition]
27093 cindex:[{ACL},verifying host reverse lookup]
27094 cindex:[host,verifying reverse lookup]
27095 This condition ensures that a verified host name has been looked up from the IP
27096 address of the client host. (This may have happened already if the host name
27097 was needed for checking a host list, or if the host matched %host_lookup%.)
27098 Verification ensures that the host name obtained from a reverse DNS lookup, or
27099 one of its aliases, does, when it is itself looked up in the DNS, yield the
27100 original IP address.
27102 If this condition is used for a locally generated message (that is, when there
27103 is no client host involved), it always succeeds.
27105 *verify~=~sender/*<'options'>::
27106 cindex:[%verify%, ACL condition]
27107 cindex:[{ACL},verifying sender]
27108 cindex:[sender,verifying]
27109 cindex:[verifying,sender]
27110 This condition is relevant only after a MAIL or RCPT command, or after a
27111 message has been received (the %acl_smtp_data% or %acl_not_smtp% ACLs). If the
27112 message's sender is empty (that is, this is a bounce message), the condition is
27113 true. Otherwise, the sender address is verified.
27115 cindex:[$address_data$]
27116 cindex:[$sender_address_data$]
27117 If there is data in the $address_data$ variable at the end of routing, its
27118 value is placed in $sender_address_data$ at the end of verification. This
27119 value can be used in subsequent conditions and modifiers in the same ACL
27120 statement. It does not persist after the end of the current statement. If you
27121 want to preserve the value for longer, you can save it in an ACL variable.
27123 Details of verification are given later, starting at section
27124 <<SECTaddressverification>>. Exim caches the result of sender verification, to
27125 avoid doing it more than once per message.
27127 *verify~=~sender=*<'address'>*/*<'options'>::
27128 cindex:[%verify%, ACL condition]
27129 This is a variation of the previous option, in which a modified address is
27130 verified as a sender.
27134 [[SECTmorednslists]]
27137 cindex:[DNS list,in ACL]
27138 cindex:[black list (DNS)]
27139 cindex:[{ACL},testing a DNS list]
27140 In its simplest form, the %dnslists% condition tests whether the calling host
27141 is on at least one of a number of DNS lists by looking up the inverted IP
27142 address in one or more DNS domains. For example, if the calling host's IP
27143 address is 192.168.62.43, and the ACL statement is
27146 deny dnslists = blackholes.mail-abuse.org : \
27147 dialups.mail-abuse.org
27150 the following records are looked up:
27152 43.62.168.192.blackholes.mail-abuse.org
27153 43.62.168.192.dialups.mail-abuse.org
27155 As soon as Exim finds an existing DNS record, processing of the list stops.
27156 Thus, multiple entries on the list provide an ``or'' conjunction. If you want to
27157 test that a host is on more than one list (an ``and'' conjunction), you can use
27158 two separate conditions:
27160 deny dnslists = blackholes.mail-abuse.org
27161 dnslists = dialups.mail-abuse.org
27163 If a DNS lookup times out or otherwise fails to give a decisive answer, Exim
27164 behaves as if the host does not match the list item, that is, as if the DNS
27165 record does not exist. If there are further items in the DNS list, they are
27168 This is usually the required action when %dnslists% is used with %deny% (which
27169 is the most common usage), because it prevents a DNS failure from blocking
27170 mail. However, you can change this behaviour by putting one of the following
27171 special items in the list:
27173 cindex:[`+include_unknown`]
27174 cindex:[`+exclude_unknown`]
27175 cindex:[`+defer_unknown`]
27177 `+include_unknown ` behave as if the item is on the list
27178 `+exclude_unknown ` behave as if the item is not on the list (default)
27179 `+defer_unknown ` give a temporary error
27181 Each of these applies to any subsequent items on the list. For example:
27183 deny dnslists = +defer_unknown : foo.bar.example
27186 Testing the list of domains stops as soon as a match is found. If you want to
27187 warn for one list and block for another, you can use two different statements:
27189 deny dnslists = blackholes.mail-abuse.org
27190 warn message = X-Warn: sending host is on dialups list
27191 dnslists = dialups.mail-abuse.org
27194 DNS list lookups are cached by Exim for the duration of the SMTP session,
27195 so a lookup based on the IP address is done at most once for any incoming
27196 connection. Exim does not share information between multiple incoming
27197 connections (but your local name server cache should be active).
27201 Specifying the IP address for a DNS list lookup
27202 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27203 cindex:[DNS list,keyed by explicit IP address]
27204 By default, the IP address that is used in a DNS list lookup is the IP address
27205 of the calling host. However, you can specify another IP address by listing it
27206 after the domain name, introduced by a slash. For example:
27208 deny dnslists = black.list.tld/192.168.1.2
27210 This feature is not very helpful with explicit IP addresses; it is intended for
27211 use with IP addresses that are looked up, for example, the IP addresses of the
27212 MX hosts or nameservers of an email sender address. For an example, see section
27213 <<SECTmulkeyfor>> below.
27218 DNS lists keyed on domain names
27219 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27220 cindex:[DNS list,keyed by domain name]
27221 There are some lists that are keyed on domain names rather than inverted IP
27222 addresses (see for example the 'domain based zones' link at
27223 *http://www.rfc-ignorant.org/[]*). No reversing of components is used with
27224 these lists. You can change the name that is looked up in a DNS list by listing
27225 it after the domain name, introduced by a slash. For example,
27227 deny message = Sender's domain is listed at $dnslist_domain
27228 dnslists = dsn.rfc-ignorant.org/$sender_address_domain
27230 This particular example is useful only in ACLs that are obeyed after the
27231 RCPT or DATA commands, when a sender address is available. If (for
27232 example) the message's sender is 'user@tld.example' the name that is looked
27233 up by this example is
27235 tld.example.dsn.rfc-ignorant.org
27237 A single %dnslists% condition can contain entries for both names and IP
27238 addresses. For example:
27241 deny dnslists = sbl.spamhaus.org : \
27242 dsn.rfc-ignorant.org/$sender_address_domain
27245 The first item checks the sending host's IP address; the second checks a domain
27246 name. The whole condition is true if either of the DNS lookups succeeds.
27252 Multiple explicit keys for a DNS list
27253 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27254 cindex:[DNS list,multiple keys for]
27255 The syntax described above for looking up explicitly-defined values (either
27256 names or IP addresses) in a DNS blacklist is a simplification. After the domain
27257 name for the DNS list, what follows the slash can in fact be a list of items.
27258 As with all lists in Exim, the default separator is a colon. However, because
27259 this is a sublist within the list of DNS blacklist domains, it is necessary
27260 either to double the separators like this:
27262 dnslists = black.list.tld/name.1::name.2
27264 or to change the separator character, like this:
27266 dnslists = black.list.tld/<;name.1;name.2
27268 If an item in the list is an IP address, it is inverted before the DNS
27269 blacklist domain is appended. If it is not an IP address, no inversion
27270 occurs. Consider this condition:
27272 dnslists = black.list.tld/<;192.168.1.2;a.domain
27274 The DNS lookups that occur are:
27276 2.1.168.192.black.list.tld
27277 a.domain.black.list.tld
27279 Once a DNS record has been found (that matches a specific IP return
27280 address, if specified -- see section <<SECTaddmatcon>>), no further lookups are
27281 done. If there is a temporary DNS error, the rest of the sublist of domains or
27282 IP addresses is tried. A temporary error for the whole dnslists item occurs
27283 only if no other DNS lookup in this sublist succeeds. In other words, a
27284 successful lookup for any of the items in the sublist overrides a temporary
27285 error for a previous item.
27287 The ability to supply a list of items after the slash is in some sense just a
27288 syntactic convenience. These two examples have the same effect:
27290 dnslists = black.list.tld/a.domain : black.list.tld/b.domain
27291 dnslists = black.list.tld/a.domain::b.domain
27293 However, when the data for the list is obtained from a lookup, the second form
27294 is usually much more convenient. Consider this example:
27297 deny message = The mail servers for the domain \
27298 $sender_address_domain \
27299 are listed at $dnslist_domain ($dnslist_value); \
27301 dnslists = sbl.spamhaus.org/<|${lookup dnsdb {>|a=<|\
27302 ${lookup dnsdb {>|mxh=\
27303 $sender_address_domain} }} }
27306 Note the use of `>|` in the dnsdb lookup to specify the separator for
27307 multiple DNS records. The inner dnsdb lookup produces a list of MX hosts
27308 and the outer dnsdb lookup finds the IP addresses for these hosts. The result
27309 of expanding the condition might be something like this:
27311 dnslists = sbl.spahmaus.org/<|192.168.2.3|192.168.5.6|...
27313 Thus, this example checks whether or not the IP addresses of the sender
27314 domain's mail servers are on the Spamhaus black list.
27320 Data returned by DNS lists
27321 ~~~~~~~~~~~~~~~~~~~~~~~~~~
27322 cindex:[DNS list,data returned from]
27323 DNS lists are constructed using address records in the DNS. The original RBL
27324 just used the address 127.0.0.1 on the right hand side of each record, but the
27325 RBL+ list and some other lists use a number of values with different meanings.
27326 The values used on the RBL+ list are:
27331 127.1.0.3 DUL and RBL
27333 127.1.0.5 RSS and RBL
27334 127.1.0.6 RSS and DUL
27335 127.1.0.7 RSS and DUL and RBL
27338 Some DNS lists may return more than one address record.
27341 Variables set from DNS lists
27342 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27343 cindex:[DNS list,variables set from]
27344 cindex:[$dnslist_domain$]
27345 cindex:[$dnslist_text$]
27346 cindex:[$dnslist_value$]
27347 When an entry is found in a DNS list, the variable $dnslist_domain$
27348 contains the name of the domain that matched, $dnslist_value$ contains the
27349 data from the entry, and $dnslist_text$ contains the contents of any
27350 associated TXT record. If more than one address record is returned by the DNS
27351 lookup, all the IP addresses are included in $dnslist_value$, separated by
27354 You can use these variables in %message% or %log_message% modifiers --
27355 although these appear before the condition in the ACL, they are not expanded
27356 until after it has failed. For example:
27359 deny hosts = !+local_networks
27360 message = $sender_host_address is listed \
27362 dnslists = rbl-plus.mail-abuse.example
27369 Additional matching conditions for DNS lists
27370 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27371 cindex:[DNS list,matching specific returned data]
27372 You can add an equals sign and an IP address after a %dnslists% domain name in
27373 order to restrict its action to DNS records with a matching right hand side.
27376 deny dnslists = rblplus.mail-abuse.org=127.0.0.2
27378 rejects only those hosts that yield 127.0.0.2. Without this additional data,
27379 any address record is considered to be a match. If more than one address record
27380 is found on the list, they are all checked for a matching right-hand side.
27382 More than one IP address may be given for checking, using a comma as a
27383 separator. These are alternatives -- if any one of them matches, the %dnslists%
27384 condition is true. For example:
27386 deny dnslists = a.b.c=127.0.0.2,127.0.0.3
27389 If you want to specify a constraining address list and also specify names or IP
27390 addresses to be looked up, the constraining address list must be specified
27391 first. For example:
27394 deny dnslists = dsn.rfc-ignorant.org\
27395 =127.0.0.2/$sender_address_domain
27399 If the character ``&'' is used instead of ``='', the comparison for each listed
27400 IP address is done by a bitwise ``and'' instead of by an equality test. In
27401 other words, the listed addresses are used as bit masks. The comparison is
27402 true if all the bits in the mask are present in the address that is being
27403 tested. For example:
27405 dnslists = a.b.c&0.0.0.3
27407 matches if the address is 'x.x.x.'3, 'x.x.x.'7, 'x.x.x.'11, etc. If you
27408 want to test whether one bit or another bit is present (as opposed to both
27409 being present), you must use multiple values. For example:
27411 dnslists = a.b.c&0.0.0.1,0.0.0.2
27413 matches if the final component of the address is an odd number or two times
27418 Negated DNS matching conditions
27419 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27420 You can supply a negative list of IP addresses as part of a %dnslists%
27423 deny dnslists = a.b.c=127.0.0.2,127.0.0.3
27425 means ``deny if the host is in the black list at the domain 'a.b.c' and the IP
27426 address yielded by the list is either 127.0.0.2 or 127.0.0.3'',
27428 deny dnslists = a.b.c!=127.0.0.2,127.0.0.3
27430 means ``deny if the host is in the black list at the domain 'a.b.c' and the IP
27431 address yielded by the list is not 127.0.0.2 and not 127.0.0.3''. In other
27432 words, the result of the test is inverted if an exclamation mark appears before
27433 the ``='' (or the ``&'') sign.
27435 *Note*: this kind of negation is not the same as negation in a domain,
27436 host, or address list (which is why the syntax is different).
27438 If you are using just one list, the negation syntax does not gain you much. The
27439 previous example is precisely equivalent to
27441 deny dnslists = a.b.c
27442 !dnslists = a.b.c=127.0.0.2,127.0.0.3
27444 However, if you are using multiple lists, the negation syntax is clearer.
27445 Consider this example:
27448 deny dnslists = sbl.spamhaus.org : \
27450 dnsbl.njabl.org!=127.0.0.3 : \
27454 Using only positive lists, this would have to be:
27457 deny dnslists = sbl.spamhaus.org : \
27459 deny dnslists = dnsbl.njabl.org
27460 !dnslists = dnsbl.njabl.org=127.0.0.3
27461 deny dnslists = relays.ordb.org
27464 which is less clear, and harder to maintain.
27469 [[SECTmorednslistslast]]
27472 cindex:[IPv6,DNS black lists]
27473 cindex:[DNS list,IPv6 usage]
27474 If Exim is asked to do a dnslist lookup for an IPv6 address, it inverts it
27475 nibble by nibble. For example, if the calling host's IP address is
27476 3ffe:ffff:836f:0a00:000a:0800:200a:c031, Exim might look up
27478 1.3.0.c.a.0.0.2.0.0.8.0.a.0.0.0.0.0.a.0.f.6.3.8.
27479 f.f.f.f.e.f.f.3.blackholes.mail-abuse.org
27481 (split over two lines here to fit on the page). Unfortunately, some of the DNS
27482 lists contain wildcard records, intended for IPv4, that interact badly with
27483 IPv6. For example, the DNS entry
27485 *.3.some.list.example. A 127.0.0.1
27487 is probably intended to put the entire 3.0.0.0/8 IPv4 network on the list.
27488 Unfortunately, it also matches the entire 3::/4 IPv6 network.
27490 You can exclude IPv6 addresses from DNS lookups by making use of a suitable
27491 %condition% condition, as in this example:
27493 deny condition = ${if isip4{$sender_host_address}}
27494 dnslists = some.list.example
27498 [[SECTratelimiting]]
27499 Rate limiting senders
27500 ~~~~~~~~~~~~~~~~~~~~~
27501 [revisionflag="changed"]
27502 cindex:[rate limiting,client sending]
27503 cindex:[limiting client sending rates]
27504 oindex:[%smpt_ratelimit_*%]
27505 The %ratelimit% ACL condition can be used to measure and control the rate at
27506 which clients can send email. This is more powerful than the %smtp_ratelimit_*%
27507 options, because those options control the rate of commands in a single SMTP
27508 session only, whereas the %ratelimit% condition works across all connections
27509 (concurrent and sequential) from the same client host. There's a script in
27510 _util/ratelimit.pl_ which extracts sending rates from log files, to assist with
27511 choosing appropriate settings when deploying the %ratelimit% ACL condition.
27512 The syntax of the %ratelimit% condition is:
27514 [revisionflag="changed"]
27516 `ratelimit =` <'m'> `/` <'p'> `/` <'options'> `/` <'key'>
27519 [revisionflag="changed"]
27520 If the average client sending rate is less than 'm' messages per time
27521 period 'p' then the condition is false; otherwise it is true.
27523 [revisionflag="changed"]
27524 The parameter 'p' is the smoothing time constant, in the form of an Exim
27525 time interval, for example, `8h` for eight hours. A larger time constant means
27526 that it takes Exim longer to forget a client's past behaviour. The parameter
27527 'm' is the maximum number of messages that a client is permitted to send in a
27528 fast burst. By increasing both 'm' and 'p' but keeping 'm/p' constant, you can
27529 allow a client to send more messages in a burst without changing its overall
27530 sending rate limit. Conversely, if 'm' and 'p' are both small, messages must be
27531 sent at an even rate.
27533 [revisionflag="changed"]
27534 The key is used to look up the data for calculating the client's average
27535 sending rate. This data is stored in a database maintained by Exim in its spool
27536 directory, alongside the retry and other hints databases. You can limit the
27537 sending rate of each authenticated user, independent of the computer they are
27538 sending from, by setting the key to $authenticated_id$. The default key is
27539 $sender_host_address$, which applies the limit to the client host, independent
27542 [revisionflag="changed"]
27543 Internally, Exim includes the smoothing constant 'p' and the options in the
27544 lookup key because they alter the meaning of the stored data. This is not true
27545 for the limit 'm', so you can alter the configured maximum rate and Exim will
27546 still remember clients' past behaviour, but if you alter the other ratelimit
27547 parameters Exim forgets past behaviour.
27549 [revisionflag="changed"]
27550 Each %ratelimit% condition can have up to two options. The first option
27551 specifies what Exim measures the rate of, and the second specifies how Exim
27552 handles excessively fast clients. The options are separated by a slash, like
27553 the other parameters.
27555 [revisionflag="changed"]
27556 The %per_conn% option limits the client's connection rate. The %per_mail%
27557 option limits the client's rate of sending messages. This is the default if
27558 none of the %per_*% options is specified.
27560 [revisionflag="changed"]
27561 The %per_byte% option limits the sender's email bandwidth. Note that it is best
27562 to use this option in the DATA ACL; if it is used in an earlier ACL it relies
27563 on the SIZE parameter on the MAIL command, which may be inaccurate or
27564 completely missing. You can follow the limit 'm' in the configuration with K,
27565 M, or G to specify limits in kilobytes, megabytes, or gigabytes, respectively.
27567 [revisionflag="changed"]
27568 The %per_cmd% option causes Exim to recompute the rate every time the condition
27569 is processed. This can be used to limit the SMTP command rate. The alias
27570 %per_rcpt% is provided for use in the RCPT ACL instead of %per_cmd% to make it
27571 clear that the effect is to limit the rate at which recipients are accepted.
27572 Note that in this case the rate limiting engine will see a message with many
27573 recipients as a large high-speed burst.
27575 [revisionflag="changed"]
27576 If a client's average rate is greater than the maximum, the rate limiting
27577 engine can react in two possible ways, depending on the presence of the
27578 %strict% or %leaky% options. This is independent of the other counter-measures
27579 (such as rejecting the message) that may be specified by the rest of the ACL.
27580 The default mode is leaky, which avoids a sender's over-aggressive retry rate
27581 preventing it from getting any email through.
27583 [revisionflag="changed"]
27584 The %strict% option means that the client's recorded rate is always updated.
27585 The effect of this is that Exim measures the client's average rate of attempts
27586 to send email, which can be much higher than the maximum. If the client is over
27587 the limit it will be subjected to counter-measures until it slows down below
27588 the maximum rate. The smoothing period determines the time it takes for a high
27589 sending rate to decay exponentially to 37% of its peak value, which means that
27590 you can work out the time (the number of smoothing periods) that a client is
27591 subjected to counter-measures after an over-limit burst with this formula:
27593 ln(peakrate/maxrate)
27595 [revisionflag="changed"]
27596 The %leaky% option means that the client's recorded rate is not updated if it
27597 is above the limit. The effect of this is that Exim measures the client's
27598 average rate of successfully sent email, which cannot be greater than the
27599 maximum. If the client is over the limit it will suffer some counter-measures,
27600 but it will still be able to send email at the configured maximum rate,
27601 whatever the rate of its attempts.
27603 [revisionflag="changed"]
27604 As a side-effect, the %ratelimit% condition sets the expansion variable
27605 $sender_rate$ to the client's computed rate, $sender_rate_limit$ to the
27606 configured value of 'm', and $sender_rate_period$ to the configured value of
27609 [revisionflag="changed"]
27610 Exim's other ACL facilities are used to define what counter-measures are taken
27611 when the rate limit is exceeded. This might be anything from logging a warning
27612 (for example, while measuring existing sending rates in order to define
27613 policy), through time delays to slow down fast senders, up to rejecting the
27614 message. For example:
27616 [revisionflag="changed"]
27618 # Log all senders' rates
27620 ratelimit = 0 / 1h / strict
27621 log_message = Sender rate $sender_rate / $sender_rate_period
27623 # Slow down fast senders
27625 ratelimit = 100 / 1h / per_rcpt / strict
27626 delay = ${eval: $sender_rate - $sender_rate_limit }s
27628 # Keep authenticated users under control
27630 ratelimit = 100 / 1d / strict / $authenticated_id
27632 # System-wide rate limit
27634 message = Sorry, too busy. Try again later.
27635 ratelimit = 10 / 1s / $primary_hostname
27637 # Restrict incoming rate from each host, with a default
27638 # set using a macro and special cases looked up in a table.
27640 message = Sender rate exceeds $sender_rate_limit \
27641 messages per $sender_rate_period
27642 ratelimit = ${lookup {$sender_host_address} \
27643 cdb {DB/ratelimits.cdb} \
27644 {$value} {RATELIMIT} }
27647 [revisionflag="changed"]
27648 *Warning*: if you have a busy server with a lot of %ratelimit% tests,
27649 especially with the %per_rcpt% option, you may suffer from a performance
27650 bottleneck caused by locking on the ratelimit hints database. Apart from
27651 making your ACLs less complicated, you can reduce the problem by using a
27652 RAM disk for Exim's hints directory (usually _/var/spool/exim/db/_). However
27653 this means that Exim will lose its hints data after a reboot (including retry
27654 hints, the callout cache, and ratelimit data).
27658 [[SECTaddressverification]]
27659 Address verification
27660 ~~~~~~~~~~~~~~~~~~~~
27661 cindex:[verifying address, options for]
27662 cindex:[policy control,address verification]
27663 Several of the %verify% conditions described in section <<SECTaclconditions>>
27664 cause addresses to be verified. These conditions can be followed by options
27665 that modify the verification process. The options are separated from the
27666 keyword and from each other by slashes, and some of them contain parameters.
27669 verify = sender/callout
27670 verify = recipient/defer_ok/callout=10s,defer_ok
27672 The first stage of address verification, which always happens, is to run the
27673 address through the routers, in ``verify mode''. Routers can detect the
27674 difference between verification and routing for delivery, and their actions can
27675 be varied by a number of generic options such as %verify% and %verify_only%
27676 (see chapter <<CHAProutergeneric>>). If routing fails, verification fails.
27677 The available options are as follows:
27679 - If the %callout% option is specified, successful routing to one or more remote
27680 hosts is followed by a ``callout'' to those hosts as an additional check.
27681 Callouts and their sub-options are discussed in the next section.
27683 - If there is a defer error while doing verification routing, the ACL
27684 normally returns ``defer''. However, if you include %defer_ok% in the options,
27685 the condition is forced to be true instead. Note that this is a main
27686 verification option as well as a suboption for callouts.
27688 - The %no_details% option is covered in section <<SECTsenaddver>>, which
27689 discusses the reporting of sender address verification failures.
27691 [revisionflag="changed"]
27692 - The %success_on_redirect% option causes verification always to succeed
27693 immediately after a successful redirection. By default, if a redirection
27694 generates just one address, that address is also verified. See further
27695 discussion in section <<SECTredirwhilveri>>.
27697 [revisionflag="changed"]
27698 cindex:[verifying address, differentiating failures]
27699 cindex:[$recipient_verify_failure$]
27700 cindex:[$sender_verify_failure$]
27701 cindex:[$acl_verify_message$]
27702 After an address verification failure, $acl_verify_message$ contains the error
27703 message that is associated with the failure. It can be preserved by coding like
27706 warn !verify = sender
27707 set acl_m0 = $acl_verify_message
27709 [revisionflag="changed"]
27710 If you are writing your own custom rejection message or log message when
27711 denying access, you can use this variable to include information about the
27712 verification failure.
27714 In addition, $sender_verify_failure$ or $recipient_verify_failure$ (as
27715 appropriate) contains one of the following words:
27717 - %qualify%: The address was unqualified (no domain), and the message
27718 was neither local nor came from an exempted host.
27720 - %route%: Routing failed.
27722 - %mail%: Routing succeeded, and a callout was attempted; rejection
27723 occurred at or before the MAIL command (that is, on initial
27724 connection, HELO, or MAIL).
27726 - %recipient%: The RCPT command in a callout was rejected.
27728 - %postmaster%: The postmaster check in a callout was rejected.
27730 The main use of these variables is expected to be to distinguish between
27731 rejections of MAIL and rejections of RCPT in callouts.
27737 Callout verification
27738 ~~~~~~~~~~~~~~~~~~~~
27739 [revisionflag="changed"]
27740 cindex:[verifying address, by callout]
27741 cindex:[callout,verification]
27742 cindex:[SMTP,callout verification]
27743 For non-local addresses, routing verifies the domain, but is unable to do any
27744 checking of the local part. There are situations where some means of verifying
27745 the local part is desirable. One way this can be done is to make an SMTP
27746 'callback' to a delivery host for the sender address or a 'callforward' to a
27747 subsequent host for a recipient address, to see if the host accepts the
27748 address. We use the term 'callout' to cover both cases. Note that for a sender
27749 address, the callback is not to the client host that is trying to deliver the
27750 message, but to one of the hosts that accepts incoming mail for the sender's
27753 [revisionflag="changed"]
27754 Exim does not do callouts by default. If you want them to happen, you must
27755 request them by setting appropriate options on the %verify% condition, as
27756 described below. This facility should be used with care, because it can add a
27757 lot of resource usage to the cost of verifying an address. However, Exim does
27758 cache the results of callouts, which helps to reduce the cost. Details of
27759 caching are in section <<SECTcallvercache>>.
27761 Recipient callouts are usually used only between hosts that are controlled by
27762 the same administration. For example, a corporate gateway host could use
27763 callouts to check for valid recipients on an internal mailserver. A successful
27764 callout does not guarantee that a real delivery to the address would succeed;
27765 on the other hand, a failing callout does guarantee that a delivery would fail.
27767 If the %callout% option is present on a condition that verifies an address, a
27768 second stage of verification occurs if the address is successfully routed to
27769 one or more remote hosts. The usual case is routing by a ^dnslookup^ or a
27770 ^manualroute^ router, where the router specifies the hosts. However, if a
27771 router that does not set up hosts routes to an ^smtp^ transport with a
27772 %hosts% setting, the transport's hosts are used. If an ^smtp^ transport has
27773 %hosts_override% set, its hosts are always used, whether or not the router
27774 supplies a host list.
27776 The port that is used is taken from the transport, if it is specified and is a
27777 remote transport. (For routers that do verification only, no transport need be
27778 specified.) Otherwise, the default SMTP port is used. If a remote transport
27779 specifies an outgoing interface, this is used; otherwise the interface is not
27782 For a sender callout check, Exim makes SMTP connections to the remote hosts, to
27783 test whether a bounce message could be delivered to the sender address. The
27784 following SMTP commands are sent:
27787 `HELO `<'smtp active host name'>
27789 `RCPT TO:`<'the address to be tested'>
27793 LHLO is used instead of HELO if the transport's %protocol% option is
27796 A recipient callout check is similar. By default, it also uses an empty address
27797 for the sender. This default is chosen because most hosts do not make use of
27798 the sender address when verifying a recipient. Using the same address means
27799 that a single cache entry can be used for each recipient. Some sites, however,
27800 do make use of the sender address when verifying. These are catered for by the
27801 %use_sender% and %use_postmaster% options, described in the next section.
27803 If the response to the RCPT command is a 2'##xx' code, the verification
27804 succeeds. If it is 5##'xx', the verification fails. For any other condition,
27805 Exim tries the next host, if any. If there is a problem with all the remote
27806 hosts, the ACL yields ``defer'', unless the %defer_ok% parameter of the
27807 %callout% option is given, in which case the condition is forced to succeed.
27814 Additional parameters for callouts
27815 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
27816 cindex:[callout,additional parameters for]
27817 The %callout% option can be followed by an equals sign and a number of optional
27818 parameters, separated by commas. For example:
27820 verify = recipient/callout=10s,defer_ok
27822 The old syntax, which had %callout_defer_ok% and %check_postmaster% as
27823 separate verify options, is retained for backwards compatibility, but is now
27824 deprecated. The additional parameters for %callout% are as follows:
27827 <'a~time~interval'>::
27828 cindex:[callout timeout, specifying]
27829 This specifies the timeout that applies for the callout attempt to each host.
27832 verify = sender/callout=5s
27834 The default is 30 seconds. The timeout is used for each response from the
27835 remote host. It is also used for the intial connection, unless overridden by
27836 the %connect% parameter.
27839 *connect~=~*<'time~interval'>::
27840 cindex:[callout connection timeout, specifying]
27841 This parameter makes it possible to set a different (usually smaller) timeout
27842 for making the SMTP connection. For example:
27844 verify = sender/callout=5s,connect=1s
27846 If not specified, this timeout defaults to the general timeout value.
27849 cindex:[callout defer, action on]
27850 When this parameter is present, failure to contact any host, or any other kind
27851 of temporary error, is treated as success by the ACL. However, the cache is not
27852 updated in this circumstance.
27854 [revisionflag="changed"]
27856 cindex:[callout,full postmaster check]
27857 This operates like the %postmaster% option (see below), but if the check for
27858 'postmaster@domain' fails, it tries just 'postmaster', without a domain, in
27859 accordance with the specification in RFC 2821. The RFC states that the
27860 unqualified address 'postmaster' should be accepted.
27864 *mailfrom~=~*<'email~address'>::
27865 cindex:[callout,sender when verifying header]
27866 When verifying addresses in header lines using the %header_sender% verification
27867 option, Exim behaves by default as if the addresses are envelope sender
27868 addresses from a message. Callout verification therefore tests to see whether a
27869 bounce message could be delivered, by using an empty address in the MAIL
27870 command. However, it is arguable that these addresses might never be used as
27871 envelope senders, and could therefore justifiably reject bounce messages (empty
27872 senders). The %mailfrom% callout parameter allows you to specify what address
27873 to use in the MAIL command. For example:
27875 require verify = header_sender/callout=mailfrom=abcd@x.y.z
27877 This parameter is available only for the %header_sender% verification option.
27880 *maxwait~=~*<'time~interval'>::
27881 cindex:[callout overall timeout, specifying]
27882 This parameter sets an overall timeout for performing a callout verification.
27885 verify = sender/callout=5s,maxwait=30s
27887 This timeout defaults to four times the callout timeout for individual SMTP
27888 commands. The overall timeout applies when there is more than one host that can
27889 be tried. The timeout is checked before trying the next host. This prevents
27890 very long delays if there are a large number of hosts and all are timing out
27891 (for example, when network connections are timing out).
27895 cindex:[callout cache, suppressing]
27896 cindex:[caching callout, suppressing]
27897 When this parameter is given, the callout cache is neither read nor updated.
27900 cindex:[callout,postmaster; checking]
27901 When this parameter is set, a sucessful callout check is followed by a similar
27902 check for the local part 'postmaster' at the same domain. If this address is
27903 rejected, the callout fails (but see %fullpostmaster% above). The result of the
27904 postmaster check is recorded in a cache record; if it is a failure, this is
27905 used to fail subsequent callouts for the domain without a connection being
27906 made, until the cache record expires.
27908 *postmaster_mailfrom~=~*<'email~address'>::
27909 The postmaster check uses an empty sender in the MAIL command by default.
27910 You can use this parameter to do a postmaster check using a different address.
27913 require verify = sender/callout=postmaster_mailfrom=abc@x.y.z
27915 If both %postmaster% and %postmaster_mailfrom% are present, the rightmost one
27916 overrides. The %postmaster% parameter is equivalent to this example:
27918 require verify = sender/callout=postmaster_mailfrom=
27920 *Warning*: The caching arrangements for postmaster checking do not take
27921 account of the sender address. It is assumed that either the empty address or
27922 a fixed non-empty address will be used. All that Exim remembers is that the
27923 postmaster check for the domain succeeded or failed.
27927 cindex:[callout,``random'' check]
27928 When this parameter is set, before doing the normal callout check, Exim does a
27929 check for a ``random'' local part at the same domain. The local part is not
27930 really random -- it is defined by the expansion of the option
27931 %callout_random_local_part%, which defaults to
27933 $primary_host_name-$tod_epoch-testing
27935 The idea here is to try to determine whether the remote host accepts all local
27936 parts without checking. If it does, there is no point in doing callouts for
27937 specific local parts. If the ``random'' check succeeds, the result is saved in
27938 a cache record, and used to force the current and subsequent callout checks to
27939 succeed without a connection being made, until the cache record expires.
27942 cindex:[callout,sender for recipient check]
27943 This parameter applies to recipient callouts only. For example:
27945 deny !verify = recipient/callout=use_postmaster
27947 [revisionflag="changed"]
27948 cindex:[$qualify_domain$]
27949 It causes a non-empty postmaster address to be used in the MAIL command when
27950 performing the callout for the recipient, and also for a ``random'' check if
27951 that is configured. The local part of the address is `postmaster` and the
27952 domain is the contents of $qualify_domain$.
27955 This option applies to recipient callouts only. For example:
27957 require verify = recipient/callout=use_sender
27959 It causes the message's actual sender address to be used in the MAIL
27960 command when performing the callout, instead of an empty address. There is no
27961 need to use this option unless you know that the called hosts make use of the
27962 sender when checking recipients. If used indiscriminately, it reduces the
27963 usefulness of callout caching.
27969 If you use any of the parameters that set a non-empty sender for the MAIL
27970 command (%mailfrom%, %postmaster_mailfrom%, %use_postmaster%, or
27971 %use_sender%), you should think about possible loops. Recipient checking is
27972 usually done between two hosts that are under the same management, and the host
27973 that receives the callouts is not normally configured to do callouts itself.
27974 Therefore, it is normally safe to use %use_postmaster% or %use_sender% in
27975 these circumstances.
27977 However, if you use a non-empty sender address for a callout to an arbitrary
27978 host, there is the likelihood that the remote host will itself initiate a
27979 callout check back to your host. As it is checking what appears to be a message
27980 sender, it is likely to use an empty address in MAIL, thus avoiding a
27981 callout loop. However, to be on the safe side it would be best to set up your
27982 own ACLs so that they do not do sender verification checks when the recipient
27983 is the address you use for header sender or postmaster callout checking.
27985 Another issue to think about when using non-empty senders for callouts is
27986 caching. When you set %mailfrom% or %use_sender%, the cache record is keyed by
27987 the sender/recipient combination; thus, for any given recipient, many more
27988 actual callouts are performed than when an empty sender or postmaster is used.
27993 [[SECTcallvercache]]
27996 cindex:[hints database,callout cache]
27997 cindex:[callout,caching]
27998 cindex:[caching,callout]
27999 Exim caches the results of callouts in order to reduce the amount of resources
28000 used, unless you specify the %no_cache% parameter with the %callout% option.
28001 A hints database called ``callout'' is used for the cache. Two different record
28002 types are used: one records the result of a callout check for a specific
28003 address, and the other records information that applies to the entire domain
28004 (for example, that it accepts the local part 'postmaster').
28006 When an original callout fails, a detailed SMTP error message is given about
28007 the failure. However, for subsequent failures use the cache data, this message
28010 The expiry times for negative and positive address cache records are
28011 independent, and can be set by the global options %callout_negative_expire%
28012 (default 2h) and %callout_positive_expire% (default 24h), respectively.
28014 If a host gives a negative response to an SMTP connection, or rejects any
28015 commands up to and including
28019 (but not including the MAIL command with a non-empty address),
28020 any callout attempt is bound to fail. Exim remembers such failures in a
28021 domain cache record, which it uses to fail callouts for the domain without
28022 making new connections, until the domain record times out. There are two
28023 separate expiry times for domain cache records:
28024 %callout_domain_negative_expire% (default 3h) and
28025 %callout_domain_positive_expire% (default 7d).
28027 Domain records expire when the negative expiry time is reached if callouts
28028 cannot be made for the domain, or if the postmaster check failed.
28029 Otherwise, they expire when the positive expiry time is reached. This
28030 ensures that, for example, a host that stops accepting ``random'' local parts
28031 will eventually be noticed.
28033 The callout caching mechanism is based on the domain of the address that is
28034 being tested. If the domain routes to several hosts, it is assumed that their
28035 behaviour will be the same.
28040 Sender address verification reporting
28041 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28042 cindex:[verifying,suppressing error details]
28043 When sender verification fails in an ACL, the details of the failure are
28044 given as additional output lines before the 550 response to the relevant
28045 SMTP command (RCPT or DATA). For example, if sender callout is in use,
28048 MAIL FROM:<xyz@abc.example>
28050 RCPT TO:<pqr@def.example>
28051 550-Verification failed for <xyz@abc.example>
28052 550-Called: 192.168.34.43
28053 550-Sent: RCPT TO:<xyz@abc.example>
28054 550-Response: 550 Unknown local part xyz in <xyz@abc.example>
28055 550 Sender verification failed
28057 If more than one RCPT command fails in the same way, the details are given
28058 only for the first of them. However, some administrators do not want to send
28059 out this much information. You can suppress the details by adding
28060 ``/no_details'' to the ACL statement that requests sender verification. For
28063 verify = sender/no_details
28067 [[SECTredirwhilveri]]
28068 Redirection while verifying
28069 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
28070 cindex:[verifying,redirection while]
28071 cindex:[address redirection,while verifying]
28072 A dilemma arises when a local address is redirected by aliasing or forwarding
28073 during verification: should the generated addresses themselves be verified,
28074 or should the successful expansion of the original address be enough to verify
28075 it? By default, Exim takes the following pragmatic approach:
28077 - When an incoming address is redirected to just one child address, verification
28078 continues with the child address, and if that fails to verify, the original
28079 verification also fails.
28081 - When an incoming address is redirected to more than one child address,
28082 verification does not continue. A success result is returned.
28084 This seems the most reasonable behaviour for the common use of aliasing as a
28085 way of redirecting different local parts to the same mailbox. It means, for
28086 example, that a pair of alias entries of the form
28089 aw123: :fail: Gone away, no forwarding address
28091 work as expected, with both local parts causing verification failure. When a
28092 redirection generates more than one address, the behaviour is more like a
28093 mailing list, where the existence of the alias itself is sufficient for
28094 verification to succeed.
28096 [revisionflag="changed"]
28097 It is possible, however, to change the default behaviour so that all successful
28098 redirections count as successful verifications, however many new addresses are
28099 generated. This is specified by the %success_on_redirect% verification option.
28102 [revisionflag="changed"]
28103 require verify = recipient/success_on_redirect/callout=10s
28105 [revisionflag="changed"]
28106 In this example, verification succeeds if a router generates a new address, and
28107 the callout does not occur, because no address was routed to a remote host.
28114 Client SMTP authorization (CSA)
28115 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28116 [revisionflag="changed"]
28117 cindex:[CSA,verifying]
28118 Client SMTP Authorization is a system that allows a site to advertise
28119 which machines are and are not permitted to send email. This is done by placing
28120 special SRV records in the DNS; these are looked up using the client's HELO
28121 domain. At the time of writing, CSA is still an Internet Draft. Client SMTP
28122 Authorization checks in Exim are performed by the ACL condition:
28126 [revisionflag="changed"]
28127 This fails if the client is not authorized. If there is a DNS problem, or if no
28128 valid CSA SRV record is found, or if the client is authorized, the condition
28129 succeeds. These three cases can be distinguished using the expansion variable
28130 $csa_status$, which can take one of the values ``fail'', ``defer'',
28131 ``unknown'', or ``ok''. The condition does not itself defer because that would
28132 be likely to cause problems for legitimate email.
28134 [revisionflag="changed"]
28135 The error messages produced by the CSA code include slightly more
28136 detail. If $csa_status$ is ``defer'', this may be because of problems
28137 looking up the CSA SRV record, or problems looking up the CSA target
28138 address record. There are four reasons for $csa_status$ being ``fail'':
28140 [revisionflag="changed"]
28141 - The client's host name is explicitly not authorized.
28143 [revisionflag="changed"]
28144 - The client's IP address does not match any of the CSA target IP addresses.
28146 [revisionflag="changed"]
28147 - The client's host name is authorized but it has no valid target IP addresses
28148 (for example, the target's addresses are IPv6 and the client is using IPv4).
28150 [revisionflag="changed"]
28151 - The client's host name has no CSA SRV record but a parent domain has asserted
28152 that all subdomains must be explicitly authorized.
28154 [revisionflag="changed"]
28155 The %csa% verification condition can take an argument which is the domain to
28156 use for the DNS query. The default is:
28158 verify = csa/$sender_helo_name
28160 [revisionflag="changed"]
28161 This implementation includes an extension to CSA. If the query domain
28162 is an address literal such as [192.0.2.95], or if it is a bare IP
28163 address, Exim searches for CSA SRV records in the reverse DNS as if
28164 the HELO domain was (for example) '95.2.0.192.in-addr.arpa'. Therefore it is
28167 verify = csa/$sender_host_address
28169 [revisionflag="changed"]
28170 In fact, this is the check that Exim performs if the client does not say HELO.
28171 This extension can be turned off by setting the main configuration option
28172 %dns_csa_use_reverse% to be false.
28174 [revisionflag="changed"]
28175 If a CSA SRV record is not found for the domain itself, a search
28176 is performed through its parent domains for a record which might be
28177 making assertions about subdomains. The maximum depth of this search is limited
28178 using the main configuration option %dns_csa_search_limit%, which is 5 by
28179 default. Exim does not look for CSA SRV records in a top level domain, so the
28180 default settings handle HELO domains as long as seven
28181 ('hostname.five.four.three.two.one.com'). This encompasses the vast majority of
28182 legitimate HELO domains.
28184 [revisionflag="changed"]
28185 The 'dnsdb' lookup also has support for CSA. Although 'dnsdb' also supports
28186 direct SRV lookups, this is not sufficient because of the extra parent domain
28187 search behaviour of CSA, and (as with PTR lookups) 'dnsdb' also turns IP
28188 addresses into lookups in the reverse DNS space. The result of a successful
28191 [revisionflag="changed"]
28193 ${lookup dnsdb {csa=$sender_helo_name}}
28196 [revisionflag="changed"]
28197 has two space-separated fields: an authorization code and a target host name.
28198 The authorization code can be ``Y'' for yes, ``N'' for no, ``X'' for explicit
28199 authorization required but absent, or ``?'' for unknown.
28205 Bounce address tag validation
28206 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28207 [revisionflag="changed"]
28208 cindex:[BATV,verifying]
28209 Bounce address tag validation (BATV) is a scheme whereby the envelope senders
28210 of outgoing messages have a cryptographic, timestamped ``tag'' added to them.
28211 Genuine incoming bounce messages should therefore always be addressed to
28212 recipients that have a valid tag. This scheme is a way of detecting unwanted
28213 bounce messages caused by sender address forgeries (often called ``collateral
28214 spam''), because the recipients of such messages will not include valid tags.
28216 [revisionflag="changed"]
28217 There are two expansion items to help with the implementation of the BATV
28218 ``prvs'' (private signature) scheme in an Exim configuration. This scheme signs
28219 the original envelope sender address by using a simple shared key to add a hash
28220 of the address and some time-based randomizing information. The %prvs%
28221 expansion item creates a signed address, and the %prvscheck% expansion item
28222 checks one. The syntax of these expansion items is described in section
28223 <<SECTexpansionitems>>.
28225 [revisionflag="changed"]
28226 As an example, suppose the secret per-address keys are stored in an MySQL
28227 database. A query to look up the key for an address could be defined as a macro
28230 [revisionflag="changed"]
28232 PRVSCHECK_SQL = ${lookup mysql{SELECT secret FROM batv_prvs \
28233 WHERE sender='${quote_mysql:$prvscheck_address}'\
28237 [revisionflag="changed"]
28238 Suppose also that the senders who make use of BATV are defined by an address
28239 list called %batv_senders%. Then, in the ACL for RCPT commands, you could
28242 [revisionflag="changed"]
28244 # Bounces: drop unsigned addresses for BATV senders
28245 deny message = This address does not send an unsigned reverse path.
28247 recipients = +batv_senders
28249 # Bounces: In case of prvs-signed address, check signature.
28250 deny message = Invalid reverse path signature.
28252 condition = ${prvscheck {$local_part@$domain}\
28253 {PRVSCHECK_SQL}{1}}
28254 !condition = $prvscheck_result
28257 [revisionflag="changed"]
28258 The first statement rejects recipients for bounce messages that are addressed
28259 to plain BATV sender addresses, because it is known that BATV senders do not
28260 send out messages with plain sender addresses. The second statement rejects
28261 recipients that are prvs-signed, but with invalid signatures (either because
28262 the key is wrong, or the signature has timed out).
28264 [revisionflag="changed"]
28265 A non-prvs-signed address is not rejected by the second statement, because the
28266 %prvscheck% expansion yields an empty string if its first argument is not a
28267 prvs-signed address, thus causing the %condition% condition to be false. If the
28268 first argument is a syntactically valid prvs-signed address, the yield is the
28269 third string (in this case ``1''), whether or not the cryptographic and timeout
28270 checks succeed. The $prvscheck_result$ variable contains the result of the
28271 checks (empty for failure, ``1'' for success).
28273 [revisionflag="changed"]
28274 Of course, when you accept a prvs-signed address, you have to ensure that the
28275 routers accept it and deliver it correctly. The easiest way to handle this is
28276 to use a ^redirect^ router to remove the signature with a configuration along
28279 [revisionflag="changed"]
28283 data = ${prvscheck {$local_part@$domain}{PRVSCHECK_SQL}}
28286 [revisionflag="changed"]
28287 This works because, if the third argument of %prvscheck% is empty, the result
28288 of the expansion of a prvs-signed address is the decoded value of the original
28289 address. This router should probably be the first of your routers that handles
28292 [revisionflag="changed"]
28293 To create BATV-signed addresses in the first place, a transport of this form
28296 [revisionflag="changed"]
28298 external_smtp_batv:
28300 return_path = ${prvs {$return_path} \
28301 {${lookup mysql{SELECT \
28302 secret FROM batv_prvs WHERE \
28303 sender='${quote_mysql:$sender_address}'} \
28307 [revisionflag="changed"]
28308 If no key can be found for the existing return path, no signing takes place.
28313 [[SECTrelaycontrol]]
28314 Using an ACL to control relaying
28315 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28316 cindex:[{ACL},relay control]
28317 cindex:[relaying,control by ACL]
28318 cindex:[policy control,relay control]
28319 An MTA is said to 'relay' a message if it receives it from some host and
28320 delivers it directly to another host as a result of a remote address contained
28321 within it. Redirecting a local address via an alias or forward file and then
28322 passing the message on to another host is not relaying,
28323 cindex:[``percent hack'']
28324 but a redirection as a result of the ``percent hack'' is.
28326 Two kinds of relaying exist, which are termed ``incoming'' and ``outgoing''.
28327 A host which is acting as a gateway or an MX backup is concerned with incoming
28328 relaying from arbitrary hosts to a specific set of domains. On the other hand,
28329 a host which is acting as a smart host for a number of clients is concerned
28330 with outgoing relaying from those clients to the Internet at large. Often the
28331 same host is fulfilling both functions,
28333 as illustrated in the diagram below,
28335 but in principle these two kinds of relaying are entirely independent. What is
28336 not wanted is the transmission of mail from arbitrary remote hosts through your
28337 system to arbitrary domains.
28340 You can implement relay control by means of suitable statements in the ACL that
28341 runs for each RCPT command. For convenience, it is often easiest to use
28342 Exim's named list facility to define the domains and hosts involved. For
28343 example, suppose you want to do the following:
28345 - Deliver a number of domains to mailboxes on the local host (or process them
28346 locally in some other way). Let's say these are 'my.dom1.example' and
28349 - Relay mail for a number of other domains for which you are the secondary MX.
28350 These might be 'friend1.example' and 'friend2.example'.
28352 - Relay mail from the hosts on your local LAN, to whatever domains are involved.
28353 Suppose your LAN is 192.168.45.0/24.
28356 In the main part of the configuration, you put the following definitions:
28358 domainlist local_domains = my.dom1.example : my.dom2.example
28359 domainlist relay_domains = friend1.example : friend2.example
28360 hostlist relay_hosts = 192.168.45.0/24
28362 Now you can use these definitions in the ACL that is run for every RCPT
28366 accept domains = +local_domains : +relay_domains
28367 accept hosts = +relay_hosts
28369 The first statement accepts any RCPT command that contains an address in
28370 the local or relay domains. For any other domain, control passes to the second
28371 statement, which accepts the command only if it comes from one of the relay
28372 hosts. In practice, you will probably want to make your ACL more sophisticated
28373 than this, for example, by including sender and recipient verification. The
28374 default configuration includes a more comprehensive example, which is described
28375 in chapter <<CHAPdefconfil>>.
28380 Checking a relay configuration
28381 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28382 cindex:[relaying,checking control of]
28383 You can check the relay characteristics of your configuration in the same way
28384 that you can test any ACL behaviour for an incoming SMTP connection, by using
28385 the %-bh% option to run a fake SMTP session with which you interact.
28387 For specifically testing for unwanted relaying, the host
28388 'relay-test.mail-abuse.org' provides a useful service. If you telnet to this
28389 host from the host on which Exim is running, using the normal telnet port, you
28390 will see a normal telnet connection message and then quite a long delay. Be
28391 patient. The remote host is making an SMTP connection back to your host, and
28392 trying a number of common probes to test for open relay vulnerability. The
28393 results of the tests will eventually appear on your terminal.
28398 ////////////////////////////////////////////////////////////////////////////
28399 ////////////////////////////////////////////////////////////////////////////
28402 Content scanning at ACL time
28403 ----------------------------
28404 cindex:[content scanning,at ACL time]
28405 The extension of Exim to include content scanning at ACL time, formerly known
28406 as ``exiscan'', was originally implemented as a patch by Tom Kistner. The code
28407 was integrated into the main source for Exim release 4.50, and Tom continues to
28408 maintain it. Most of the wording of this chapter is taken from Tom's
28411 [revisionflag="changed"]
28412 It is also possible to scan the content of messages at other times. The
28413 'local_scan()' function (see chapter <<CHAPlocalscan>>) allows for content
28414 scanning after all the ACLs have run. A transport filter can be used to scan
28415 messages at delivery time (see the %transport_filter% option, described in
28416 chapter <<CHAPtransportgeneric>>).
28418 If you want to include the ACL-time content-scanning features when you compile
28419 Exim, you need to arrange for WITH_CONTENT_SCAN to be defined in your
28420 _Local/Makefile_. When you do that, the Exim binary is built with:
28422 [revisionflag="changed"]
28423 - Two additional ACLs (%acl_smtp_mime% and %acl_not_smtp_mime%) that are run for
28424 all MIME parts for SMTP and non-SMTP messages, respectively.
28426 - Additional ACL conditions and modifiers: %decode%, %malware%, %mime_regex%,
28427 %regex%, and %spam%. These can be used in the ACL that is run at the end of
28428 message reception (the %acl_smtp_data% ACL).
28430 - An additional control feature (``no_mbox_unspool'') that saves spooled copies
28431 of messages, or parts of messages, for debugging purposes.
28433 - Additional expansion variables that are set in the new ACL and by the new
28436 - Two new main configuration options: %av_scanner% and %spamd_address%.
28438 There is another content-scanning configuration option for _Local/Makefile_,
28439 called WITH_OLD_DEMIME. If this is set, the old, deprecated %demime% ACL
28440 condition is compiled, in addition to all the other content-scanning features.
28442 Content-scanning is continually evolving, and new features are still being
28443 added. While such features are still unstable and liable to incompatible
28444 changes, they are made available in Exim by setting options whose names begin
28445 EXPERIMENTAL_ in _Local/Makefile_. Such features are not documented in
28446 this manual. You can find out about them by reading the file called
28447 _doc/experimental.txt_.
28449 All the content-scanning facilites work on a MBOX copy of the message that is
28450 temporarily created in a file called:
28452 <spool_directory>/scan/<message_id>/<message_id>.eml
28454 The _.eml_ extension is a friendly hint to virus scanners that they can
28455 expect an MBOX-like structure inside that file. The file is created when the
28456 first content scanning facility is called. Subsequent calls to content
28457 scanning conditions open the same file again. The directory is recursively
28458 removed when the %acl_smtp_data% ACL has finished running, unless
28460 control = no_mbox_unspool
28462 has been encountered. When the MIME ACL decodes files, they are put into the
28463 same directory by default.
28468 Scanning for viruses
28469 ~~~~~~~~~~~~~~~~~~~~
28470 cindex:[virus scanning]
28471 cindex:[content scanning,for viruses]
28472 cindex:[content scanning,the %malware% condition]
28473 The %malware% ACL condition lets you connect virus scanner software to Exim. It
28474 supports a ``generic'' interface to scanners called via the shell, and
28475 specialized interfaces for ``daemon'' type virus scanners, which are resident in
28476 memory and thus are much faster.
28478 cindex:[%av_scanner%]
28479 You can set the %av_scanner% option in first part of the Exim configuration
28480 file to specify which scanner to use, together with any additional options that
28481 are needed. The basic syntax is as follows:
28483 av_scanner = <scanner-type>:<option1>:<option2>:[...]
28485 If you do not set %av_scanner%, it defaults to
28487 av_scanner = sophie:/var/run/sophie
28489 If the value of %av_scanner% starts with dollar character, it is expanded
28492 The following scanner types are supported in this release:
28495 cindex:[virus scanners,Kaspersky]
28496 This is the scanner daemon of Kaspersky Version 5. You can get a trial version
28497 at *http://www.kaspersky.com[]*. This scanner type takes one option, which is
28498 the path to the daemon's UNIX socket. The default is shown in this example:
28500 av_scanner = aveserver:/var/run/aveserver
28503 cindex:[virus scanners,clamd]
28504 This daemon-type scanner is GPL and free. You can get it at
28505 *http://www.clamav.net/[]*. Some older versions of clamd do not seem to unpack
28506 MIME containers, so it used to be recommended to unpack MIME attachments in the
28507 MIME ACL. This no longer believed to be necessary. One option is required:
28508 either the path and name of a UNIX socket file, or a hostname or IP number, and
28509 a port, separated by space, as in the second of these examples:
28511 av_scanner = clamd:/opt/clamd/socket
28512 av_scanner = clamd:192.168.2.100 1234
28514 If the option is unset, the default is _/tmp/clamd_. Thanks to David Saez for
28515 contributing the code for this scanner.
28518 cindex:[virus scanners,command line interface]
28519 This is the keyword for the generic command line scanner interface. It can be
28520 used to attach virus scanners that are invoked from the shell. This scanner
28521 type takes 3 mandatory options:
28524 . The full path and name of the scanner binary, with all command line options,
28525 and a placeholder (%s) for the directory to scan.
28527 . A regular expression to match against the STDOUT and STDERR output of the
28528 virus scanner. If the expression matches, a virus was found. You must make
28529 absolutely sure that this expression matches on ``virus found''. This is called
28530 the ``trigger'' expression.
28532 . Another regular expression, containing exactly one pair of parentheses, to
28533 match the name of the virus found in the scanners output. This is called the
28534 ``name'' expression.
28537 For example, Sophos Sweep reports a virus on a line like this:
28539 Virus 'W32/Magistr-B' found in file ./those.bat
28541 For the trigger expression, we can just match the word ``found''. For the name
28542 expression, we want to extract the W32/Magistr-B string, so we can match for
28543 the single quotes left and right of it. Altogether, this makes the
28544 configuration setting:
28547 av_scanner = cmdline:\
28548 /path/to/sweep -all -rec -archive %s:\
28554 cindex:[virus scanners,DrWeb]
28555 The DrWeb daemon scanner (*http://www.sald.com/[]*) interface takes one
28556 argument, either a full path to a UNIX socket, or an IP address and port
28557 separated by white space, as in these examples:
28559 av_scanner = drweb:/var/run/drwebd.sock
28560 av_scanner = drweb:192.168.2.20 31337
28562 If you omit the argument, the default path _/usr/local/drweb/run/drwebd.sock_
28563 is used. Thanks to Alex Miller for contributing the code for this scanner.
28566 cindex:[virus scanners,F-Secure]
28567 The F-Secure daemon scanner (*http://www.f-secure.com[]*) takes one argument
28568 which is the path to a UNIX socket. For example:
28570 av_scanner = fsecure:/path/to/.fsav
28572 If no argument is given, the default is _/var/run/.fsav_. Thanks to Johan
28573 Thelmen for contributing the code for this scanner.
28576 cindex:[virus scanners,Kaspersky]
28577 This is the scanner daemon of Kaspersky Version 4. This version of the
28578 Kaspersky scanner is outdated. Please upgrade (see %aveserver% above). This
28579 scanner type takes one option, which is the path to the daemon's UNIX socket.
28582 av_scanner = kavdaemon:/opt/AVP/AvpCtl
28584 The default path is _/var/run/AvpCtl_.
28587 cindex:[virus scanners,mksd]
28588 This is a daemon type scanner that is aimed mainly at Polish users, though some
28589 parts of documentation are now available in English. You can get it at
28590 *http://linux.mks.com.pl/[]*. The only option for this scanner type is the
28591 maximum number of processes used simultaneously to scan the attachments,
28592 provided that the demime facility is employed and also provided that mksd has
28593 been run with at least the same number of child processes. For example:
28595 av_scanner = mksd:2
28597 You can safely omit this option (the default value is 1).
28600 cindex:[virus scanners,Sophos and Sophie]
28601 Sophie is a daemon that uses Sophos' %libsavi% library to scan for viruses. You
28602 can get Sophie at *http://www.vanja.com/tools/sophie/[]*. The only option for
28603 this scanner type is the path to the UNIX socket that Sophie uses for client
28604 communication. For example:
28606 av_scanner = sophie:/tmp/sophie
28608 The default path is _/var/run/sophie_, so if you are using this, you can omit
28615 [revisionflag="changed"]
28616 When %av_scanner% is correctly set, you can use the %malware% condition in the
28617 DATA ACL. *Note*: you cannot use the %malware% condition in the MIME ACL.
28619 The %av_scanner% option is expanded each time %malware% is called. This makes
28620 it possible to use different scanners. See further below for an example. The
28621 %malware% condition caches its results, so when you use it multiple times for
28622 the same message, the actual scanning process is only carried out once.
28623 However, using expandable items in %av_scanner% disables this caching, in which
28624 case each use of the %malware% condition causes a new scan of the message.
28626 The %malware% condition takes a right-hand argument that is expanded before
28627 use. It can then be one of
28629 - ``true'', ``\*'', or ``1'', in which case the message is scanned for viruses.
28630 The condition succeeds if a virus was found, and fail otherwise. This is the
28633 - ``false'' or ``0'', in which case no scanning is done and the condition fails
28636 - A regular expression, in which case the message is scanned for viruses. The
28637 condition succeeds if a virus is found and its name matches the regular
28638 expression. This allows you to take special actions on certain types of virus.
28640 You can append `/defer_ok` to the %malware% condition to accept messages even
28641 if there is a problem with the virus scanner.
28643 cindex:[$malware_name$]
28644 When a virus is found, the condition sets up an expansion variable called
28645 $malware_name$ that contains the name of the virus. You can use it in a
28646 %message% modifier that specifies the error returned to the sender, and/or in
28649 If your virus scanner cannot unpack MIME and TNEF containers itself, you should
28650 use the %demime% condition (see section <<SECTdemimecond>>) before the %malware%
28653 Here is a very simple scanning example:
28655 deny message = This message contains malware ($malware_name)
28659 The next example accepts messages when there is a problem with the scanner:
28661 deny message = This message contains malware ($malware_name)
28663 malware = */defer_ok
28665 The next example shows how to use an ACL variable to scan with both sophie and
28666 aveserver. It assumes you have set:
28668 av_scanner = $acl_m0
28670 in the main Exim configuration.
28672 deny message = This message contains malware ($malware_name)
28673 set acl_m0 = sophie
28676 deny message = This message contains malware ($malware_name)
28677 set acl_m0 = aveserver
28683 [[SECTscanspamass]]
28684 Scanning with SpamAssassin
28685 ~~~~~~~~~~~~~~~~~~~~~~~~~~
28686 cindex:[content scanning,for spam]
28687 cindex:[spam scanning]
28688 cindex:[SpamAssassin, scanning with]
28689 The %spam% ACL condition calls SpamAssassin's %spamd% daemon to get a spam
28690 score and a report for the message. You can get SpamAssassin at
28691 *http://www.spamassassin.org[]*, or, if you have a working Perl installation,
28692 you can use CPAN by running:
28694 perl -MCPAN -e 'install Mail::SpamAssassin'
28696 SpamAssassin has its own set of configuration files. Please review its
28697 documentation to see how you can tweak it. The default installation should work
28700 cindex:[%spamd_address%]
28701 After having installed and configured SpamAssassin, start the %spamd% daemon.
28702 By default, it listens on 127.0.0.1, TCP port 783. If you use another host or
28703 port for %spamd%, you must set the %spamd_address% option in the global part
28704 of the Exim configuration as follows (example):
28706 spamd_address = 192.168.99.45 387
28708 You do not need to set this option if you use the default. As of version 2.60,
28709 %spamd% also supports communication over UNIX sockets. If you want to use
28710 these, supply %spamd_address% with an absolute file name instead of a
28713 spamd_address = /var/run/spamd_socket
28715 You can have multiple %spamd% servers to improve scalability. These can reside
28716 on other hardware reachable over the network. To specify multiple %spamd%
28717 servers, put multiple address/port pairs in the %spamd_address% option,
28718 separated with colons:
28721 spamd_address = 192.168.2.10 783 : \
28722 192.168.2.11 783 : \
28726 Up to 32 %spamd% servers are supported. The servers are queried in a random
28727 fashion. When a server fails to respond to the connection attempt, all other
28728 servers are tried until one succeeds. If no server responds, the %spam%
28731 *Warning*: It is not possible to use the UNIX socket connection method with
28732 multiple %spamd% servers.
28735 Calling SpamAssassin from an Exim ACL
28736 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
28737 Here is a simple example of the use of the %spam% condition in a DATA ACL:
28739 deny message = This message was classified as SPAM
28742 The right-hand side of the %spam% condition specifies the username that
28743 SpamAssassin should scan for. If you do not want to scan for a particular user,
28744 but rather use the SpamAssassin system-wide default profile, you can scan for
28745 an unknown user, or simply use ``nobody''. However, you must put something on
28746 the right-hand side.
28748 The username allows you to use per-domain or per-user antispam profiles. The
28749 right-hand side is expanded before being used, so you can put lookups or
28750 conditions there. When the right-hand side evaluates to ``0'' or ``false'', no
28751 scanning is done and the condition fails immediately.
28753 [revisionflag="changed"]
28754 Scanning with SpamAssassin uses a lot of resources. If you scan every message,
28755 large ones may cause significant performance degredation. As most spam messages
28756 are quite small, it is recommended that you do not scan the big ones. For
28759 [revisionflag="changed"]
28761 deny message = This message was classified as SPAM
28762 condition = ${if < {$message_size}{10K}}
28766 The %spam% condition returns true if the threshold specified in the user's
28767 SpamAssassin profile has been matched or exceeded. If you want to use the
28768 %spam% condition for its side effects (see the variables below), you can make
28769 it always return ``true'' by appending `:true` to the username.
28771 cindex:[spam scanning,returned variables]
28772 When the %spam% condition is run, it sets up the following expansion
28776 The spam score of the message, for example ``3.4'' or ``30.5''. This is useful
28777 for inclusion in log or reject messages.
28780 The spam score of the message, multiplied by ten, as an integer value. For
28781 example ``34'' or ``305''. This is useful for numeric comparisons in
28782 conditions. This variable is special; it is saved with the message, and written
28783 to Exim's spool file. This means that it can be used during the whole life of
28784 the message on your Exim system, in particular, in routers or transports during
28785 the later delivery phase.
28788 A string consisting of a number of ``+'' or ``-'' characters, representing the
28789 integer part of the spam score value. A spam score of 4.4 would have a
28790 $spam_bar$ value of ``++++''. This is useful for inclusion in warning headers,
28791 since MUAs can match on such strings.
28794 A multiline text table, containing the full SpamAssassin report for the
28795 message. Useful for inclusion in headers or reject messages.
28801 The %spam% condition caches its results. If you call it again with the same
28802 user name, it does not scan again, but rather returns the same values as
28805 The %spam% condition returns DEFER if there is any error while running the
28806 message through SpamAssassin. If you want to treat DEFER as FAIL (to pass on to
28807 the next ACL statement block), append `/defer_ok` to the right-hand side of
28808 the spam condition, like this:
28810 deny message = This message was classified as SPAM
28811 spam = joe/defer_ok
28813 This causes messages to be accepted even if there is a
28814 problem with %spamd%.
28816 Here is a longer, commented example of the use of the %spam%
28819 # put headers in all messages (no matter if spam or not)
28820 warn message = X-Spam-Score: $spam_score ($spam_bar)
28822 warn message = X-Spam-Report: $spam_report
28825 # add second subject line with *SPAM* marker when message
28826 # is over threshold
28827 warn message = Subject: *SPAM* $h_Subject:
28830 # reject spam at high scores (> 12)
28831 deny message = This message scored $spam_score spam points.
28833 condition = ${if >{$spam_score_int}{120}{1}{0}}
28839 [[SECTscanmimepart]]
28840 Scanning MIME parts
28841 ~~~~~~~~~~~~~~~~~~~
28842 [revisionflag="changed"]
28843 cindex:[content scanning,MIME parts]
28844 cindex:[MIME content scanning]
28845 cindex:[%acl_smtp_mime%]
28846 The %acl_smtp_mime% global option specifies an ACL that is called once for each
28847 MIME part of an SMTP message, including multipart types, in the sequence of
28848 their position in the message. Similarly, the %acl_not_smtp_mime% option
28849 specifies an ACL that is used for the MIME parts of non-SMTP messages. These
28850 options may both refer to the same ACL if you want the same processing in both
28853 [revisionflag="changed"]
28854 These ACLs are called (possibly many times) just before the %acl_smtp_data% ACL
28855 in the case of an SMTP message, or just before a non-SMTP message is accepted.
28856 However, a MIME ACL is called only if the message contains a 'MIME-Version:'
28857 header line. When a call to a MIME ACL does not yield ``accept'', ACL
28858 processing is aborted and the appropriate result code is sent to the client. In
28859 the case of an SMTP message, the %acl_smtp_data% ACL is not called when this
28862 [revisionflag="changed"]
28863 You cannot use the %malware% or %spam% conditions in a MIME ACL; these can only
28864 be used in the DATA or non-SMTP ACLs. However, you can use the %regex%
28865 condition to match against the raw MIME part. You can also use the %mime_regex%
28866 condition to match against the decoded MIME part (see section
28867 <<SECTscanregex>>).
28869 At the start of a MIME ACL, a number of variables are set from the header
28870 information for the relevant MIME part. These are described below. The contents
28871 of the MIME part are not by default decoded into a disk file except for MIME
28872 parts whose content-type is ``message/rfc822''. If you want to decode a MIME
28873 part into a disk file, you can use the %decode% modifier. The general syntax
28876 decode = [/<path>/]<filename>
28878 The right hand side is expanded before use. After expansion,
28881 . ``0'' or ``false'', in which case no decoding is done.
28883 . The string ``default''. In that case, the file is put in the temporary
28884 ``default'' directory <'spool_directory'>_/scan/_<'message_id'>_/_ with a
28885 sequential file name consisting of the message id and a sequence number. The
28886 full path and name is available in $mime_decoded_filename$ after decoding.
28888 . A full path name starting with a slash. If the full name is an existing
28889 directory, it is used as a replacement for the default directory. The filename
28890 is then sequentially assigned. If the path does not exist, it is used as
28891 the full path and file name.
28893 . If the string does not start with a slash, it is used as the
28894 filename, and the default path is then used.
28900 You can easily decode a file with its original, proposed filename using
28902 decode = $mime_filename
28904 However, you should keep in mind that $mime_filename$ might contain
28905 anything. If you place files outside of the default path, they are not
28906 automatically unlinked.
28908 For RFC822 attachments (these are messages attached to messages, with a
28909 content-type of ``message/rfc822''), the ACL is called again in the same manner
28910 as for the primary message, only that the $mime_is_rfc822$ expansion
28911 variable is set (see below). Attached messages are always decoded to disk
28912 before being checked, and the files are unlinked once the check is done.
28914 The MIME ACL supports the %regex% and %mime_regex% conditions. These can be
28915 used to match regular expressions against raw and decoded MIME parts,
28916 respectively. They are described in section <<SECTscanregex>>.
28918 cindex:[MIME content scanning,returned variables]
28919 The following list describes all expansion variables that are
28920 available in the MIME ACL:
28923 If the current part is a multipart (see $mime_is_multipart$) below, it should
28924 have a boundary string, which is stored in this variable. If the current part
28925 has no boundary parameter in the 'Content-Type:' header, this variable contains
28929 This variable contains the character set identifier, if one was found in the
28930 'Content-Type:' header. Examples for charset identifiers are:
28936 Please note that this value is not normalized, so you should do matches
28937 case-insensitively.
28939 $mime_content_description$::
28940 This variable contains the normalized content of the 'Content-Description:'
28941 header. It can contain a human-readable description of the parts content. Some
28942 implementations repeat the filename for attachments here, but they are usually
28943 only used for display purposes.
28945 $mime_content_disposition$::
28946 This variable contains the normalized content of the 'Content-Disposition:'
28947 header. You can expect strings like ``attachment'' or ``inline'' here.
28949 $mime_content_id$::
28950 This variable contains the normalized content of the 'Content-ID:' header.
28951 This is a unique ID that can be used to reference a part from another part.
28953 $mime_content_size$::
28954 This variable is set only after the %decode% modifier (see above) has been
28955 successfully run. It contains the size of the decoded part in kilobytes. The
28956 size is always rounded up to full kilobytes, so only a completely empty part
28957 has a $mime_content_size$ of zero.
28959 $mime_content_transfer_encoding$::
28960 This variable contains the normalized content of the
28961 'Content-transfer-encoding:' header. This is a symbolic name for an encoding
28962 type. Typical values are ``base64'' and ``quoted-printable''.
28964 $mime_content_type$::
28965 If the MIME part has a 'Content-Type:' header, this variable contains its
28966 value, lowercased, and without any options (like ``name'' or ``charset''). Here
28967 are some examples of popular MIME types, as they may appear in this variable:
28971 application/octet-stream
28975 If the MIME part has no 'Content-Type:' header, this variable contains the
28978 $mime_decoded_filename$::
28979 This variable is set only after the %decode% modifier (see above) has been
28980 successfully run. It contains the full path and file name of the file
28981 containing the decoded data.
28985 This is perhaps the most important of the MIME variables. It contains a
28986 proposed filename for an attachment, if one was found in either the
28987 'Content-Type:' or 'Content-Disposition:' headers. The filename will be RFC2047
28988 decoded, but no additional sanity checks are done. If no filename was found,
28989 this variable contains the empty string.
28991 $mime_is_coverletter$::
28992 This variable attempts to differentiate the ``cover letter'' of an e-mail from
28993 attached data. It can be used to clamp down on flashy or unneccessarily encoded
28994 content in the cover letter, while not restricting attachments at all.
28996 The variable contains 1 (true) for a MIME part believed to be part of the
28997 cover letter, and 0 (false) for an attachment. At present, the algorithm is as
29001 . The outermost MIME part of a message is always a cover letter.
29003 . If a multipart/alternative or multipart/related MIME part is a cover letter,
29004 so are all MIME subparts within that multipart.
29006 . If any other multipart is a cover letter, the first subpart is a cover letter,
29007 and the rest are attachments.
29009 . All parts contained within an attachment multipart are attachments.
29012 As an example, the following will ban ``HTML mail'' (including that sent with
29013 alternative plain text), while allowing HTML files to be attached. HTML
29014 coverletter mail attached to non-HMTL coverletter mail will also be allowed:
29016 deny message = HTML mail is not accepted here
29017 !condition = $mime_is_rfc822
29018 condition = $mime_is_coverletter
29019 condition = ${if eq{$mime_content_type}{text/html}{1}{0}}
29021 $mime_is_multipart$::
29022 This variable has the value 1 (true) when the current part has the main type
29023 ``multipart'', for example ``multipart/alternative'' or ``multipart/mixed''.
29024 Since multipart entities only serve as containers for other parts, you may not
29025 want to carry out specific actions on them.
29028 This variable has the value 1 (true) if the current part is not a part of the
29029 checked message itself, but part of an attached message. Attached message
29030 decoding is fully recursive.
29032 $mime_part_count$::
29033 This variable is a counter that is raised for each processed MIME part. It
29034 starts at zero for the very first part (which is usually a multipart). The
29035 counter is per-message, so it is reset when processing RFC822 attachments (see
29036 $mime_is_rfc822$). The counter stays set after %acl_smtp_mime% is
29037 complete, so you can use it in the DATA ACL to determine the number of MIME
29038 parts of a message. For non-MIME messages, this variable contains the value -1.
29043 Scanning with regular expressions
29044 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
29045 cindex:[content scanning,with regular expressions]
29046 cindex:[regular expressions,content scanning with]
29047 You can specify your own custom regular expression matches on the full body of
29048 the message, or on individual MIME parts.
29050 The %regex% condition takes one or more regular expressions as arguments and
29051 matches them against the full message (when called in the DATA ACL) or a raw
29052 MIME part (when called in the MIME ACL). The %regex% condition matches
29053 linewise, with a maximum line length of 32K characters. That means you cannot
29054 have multiline matches with the %regex% condition.
29056 The %mime_regex% condition can be called only in the MIME ACL. It matches up
29057 to 32K of decoded content (the whole content at once, not linewise). If the
29058 part has not been decoded with the %decode% modifier earlier in the ACL, it is
29059 decoded automatically when %mime_regex% is executed (using default path and
29060 filename values). If the decoded data is larger than 32K, only the first 32K
29061 characters are checked.
29063 The regular expressions are passed as a colon-separated list. To include a
29064 literal colon, you must double it. Since the whole right-hand side string is
29065 expanded before being used, you must also escape dollar signs and backslashes
29066 with more backslashes, or use the `\N` facility to disable expansion.
29067 Here is a simple example that contains two regular expressions:
29069 deny message = contains blacklisted regex ($regex_match_string)
29070 regex = [Mm]ortgage : URGENT BUSINESS PROPOSAL
29072 The conditions returns true if any one of the regular expressions matches. The
29073 $regex_match_string$ expansion variable is then set up and contains the
29074 matching regular expression.
29076 *Warning*: With large messages, these conditions can be fairly
29083 The demime condition
29084 ~~~~~~~~~~~~~~~~~~~~
29085 cindex:[content scanning,MIME checking]
29086 cindex:[MIME content scanning]
29087 The %demime% ACL condition provides MIME unpacking, sanity checking and file
29088 extension blocking. It is usable only in the DATA and non-SMTP ACLs. The
29089 %demime% condition uses a simpler interface to MIME decoding than the MIME ACL
29090 functionality, but provides no additional facilities. Please note that this
29091 condition is deprecated and kept only for backward compatibility. You must set
29092 the WITH_OLD_DEMIME option in _Local/Makefile_ at build time to be able to use
29093 the %demime% condition.
29095 The %demime% condition unpacks MIME containers in the message. It detects
29096 errors in MIME containers and can match file extensions found in the message
29097 against a list. Using this facility produces files containing the unpacked MIME
29098 parts of the message in the temporary scan directory. If you do antivirus
29099 scanning, it is recommened that you use the %demime% condition before the
29100 antivirus (%malware%) condition.
29102 On the right-hand side of the %demime% condition you can pass a colon-separated
29103 list of file extensions that it should match against. For example:
29105 deny message = Found blacklisted file attachment
29106 demime = vbs:com:bat:pif:prf:lnk
29108 If one of the file extensions is found, the condition is true, otherwise it is
29109 false. If there is a temporary error while demimeing (for example, ``disk
29110 full''), the condition defers, and the message is temporarily rejected (unless
29111 the condition is on a %warn% verb).
29113 The right-hand side is expanded before being treated as a list, so you can have
29114 conditions and lookups there. If it expands to an empty string, ``false'', or
29115 zero (``0''), no demimeing is done and the condition is false.
29117 The %demime% condition set the following variables:
29119 $demime_errorlevel$::
29120 cindex:[$demime_errorlevel$]
29121 When an error is detected in a MIME container, this variable contains the
29122 severity of the error, as an integer number. The higher the value, the more
29123 severe the error (the current maximum value is 3). If this variable is unset or
29124 zero, no error occurred.
29127 cindex:[$demime_reason$]
29128 When $demime_errorlevel$ is greater than zero, this variable contains a
29129 human-readable text string describing the MIME error that occurred.
29131 cindex:[$found_extension$]
29132 $found_extension$::
29133 When the %demime% condition is true, this variable contains the file extension
29140 Both $demime_errorlevel$ and $demime_reason$ are set by the first call of
29141 the %demime% condition, and are not changed on subsequent calls.
29143 If you do not want to check for file extensions, but rather use the %demime%
29144 condition for unpacking or error checking purposes, pass ``\*'' as the
29145 right-hand side value. Here is a more elaborate example of how to use this
29148 # Reject messages with serious MIME container errors
29149 deny message = Found MIME error ($demime_reason).
29151 condition = ${if >{$demime_errorlevel}{2}{1}{0}}
29153 # Reject known virus spreading file extensions.
29154 # Accepting these is pretty much braindead.
29155 deny message = contains $found_extension file (blacklisted).
29156 demime = com:vbs:bat:pif:scr
29158 # Freeze .exe and .doc files. Postmaster can
29159 # examine them and eventually thaw them.
29160 deny log_message = Another $found_extension file.
29169 ////////////////////////////////////////////////////////////////////////////
29170 ////////////////////////////////////////////////////////////////////////////
29173 [titleabbrev="Local scan function"]
29174 Adding a local scan function to Exim
29175 ------------------------------------
29176 cindex:['local_scan()' function,description of]
29177 cindex:[customizing,input scan using C function]
29178 cindex:[policy control,by local scan function]
29179 In these days of email worms, viruses, and ever-increasing spam, some sites
29180 want to apply a lot of checking to messages before accepting them.
29182 The content scanning extension (chapter <<CHAPexiscan>>) has facilities for
29183 passing messages to external virus and spam scanning software. You can also do
29185 a certain amount in Exim itself through string expansions and the %condition%
29186 condition in the ACL that runs after the SMTP DATA command or the ACL for
29187 non-SMTP messages (see chapter <<CHAPACL>>), but this has its limitations.
29189 To allow for further customization to a site's own requirements, there is the
29190 possibility of linking Exim with a private message scanning function, written
29191 in C. If you want to run code that is written in something other than C, you
29192 can of course use a little C stub to call it.
29194 The local scan function is run once for every incoming message, at the point
29195 when Exim is just about to accept the message.
29196 It can therefore be used to control non-SMTP messages from local processes as
29197 well as messages arriving via SMTP.
29199 Exim applies a timeout to calls of the local scan function, and there is an
29200 option called %local_scan_timeout% for setting it. The default is 5 minutes.
29201 Zero means ``no timeout''.
29202 Exim also sets up signal handlers for SIGSEGV, SIGILL, SIGFPE, and SIGBUS
29203 before calling the local scan function, so that the most common types of crash
29204 are caught. If the timeout is exceeded or one of those signals is caught, the
29205 incoming message is rejected with a temporary error if it is an SMTP message.
29206 For a non-SMTP message, the message is dropped and Exim ends with a non-zero
29207 code. The incident is logged on the main and reject logs.
29211 Building Exim to use a local scan function
29212 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
29213 cindex:['local_scan()' function,building Exim to use]
29214 To make use of the local scan function feature, you must tell Exim where your
29215 function is before building Exim, by setting LOCAL_SCAN_SOURCE in your
29216 _Local/Makefile_. A recommended place to put it is in the _Local_
29217 directory, so you might set
29219 LOCAL_SCAN_SOURCE=Local/local_scan.c
29221 for example. The function must be called 'local_scan()'. It is called by
29222 Exim after it has received a message, when the success return code is about to
29223 be sent. This is after all the ACLs have been run. The return code from your
29224 function controls whether the message is actually accepted or not. There is a
29225 commented template function (that just accepts the message) in the file
29226 _src/local_scan.c_.
29228 If you want to make use of Exim's run time configuration file to set options
29229 for your 'local_scan()' function, you must also set
29231 LOCAL_SCAN_HAS_OPTIONS=yes
29233 in _Local/Makefile_ (see section <<SECTconoptloc>> below).
29239 API for local_scan()
29240 ~~~~~~~~~~~~~~~~~~~~
29241 cindex:['local_scan()' function,API description]
29242 You must include this line near the start of your code:
29244 #include "local_scan.h"
29246 This header file defines a number of variables and other values, and the
29247 prototype for the function itself. Exim is coded to use unsigned char values
29248 almost exclusively, and one of the things this header defines is a shorthand
29249 for `unsigned char` called `uschar`.
29250 It also contains the following macro definitions, to simplify casting character
29251 strings and pointers to character strings:
29253 #define CS (char *)
29254 #define CCS (const char *)
29255 #define CSS (char **)
29256 #define US (unsigned char *)
29257 #define CUS (const unsigned char *)
29258 #define USS (unsigned char **)
29261 The function prototype for 'local_scan()' is:
29263 extern int local_scan(int fd, uschar **return_text);
29265 The arguments are as follows:
29267 - %fd% is a file descriptor for the file that contains the body of the message
29268 (the -D file). The file is open for reading and writing, but updating it is not
29269 recommended. *Warning*: You must 'not' close this file descriptor.
29271 The descriptor is positioned at character 19 of the file, which is the first
29272 character of the body itself, because the first 19 characters are the message
29273 id followed by `-D` and a newline. If you rewind the file, you should use the
29274 macro SPOOL_DATA_START_OFFSET to reset to the start of the data, just in
29275 case this changes in some future version.
29277 - %return_text% is an address which you can use to return a pointer to a text
29278 string at the end of the function. The value it points to on entry is NULL.
29280 The function must return an %int% value which is one of the following macros:
29282 `LOCAL_SCAN_ACCEPT`::
29283 cindex:[$local_scan_data$]
29284 The message is accepted. If you pass back a string of text, it is saved with
29285 the message, and made available in the variable $local_scan_data$. No
29286 newlines are permitted (if there are any, they are turned into spaces) and the
29287 maximum length of text is 1000 characters.
29289 `LOCAL_SCAN_ACCEPT_FREEZE`::
29290 This behaves as LOCAL_SCAN_ACCEPT, except that the accepted message is
29291 queued without immediate delivery, and is frozen.
29293 `LOCAL_SCAN_ACCEPT_QUEUE`::
29294 This behaves as LOCAL_SCAN_ACCEPT, except that the accepted message is
29295 queued without immediate delivery.
29297 `LOCAL_SCAN_REJECT`::
29298 The message is rejected; the returned text is used as an error message which is
29299 passed back to the sender and which is also logged. Newlines are permitted --
29300 they cause a multiline response for SMTP rejections, but are converted to `\n`
29301 in log lines. If no message is given, ``Administrative prohibition'' is used.
29303 `LOCAL_SCAN_TEMPREJECT`::
29304 The message is temporarily rejected; the returned text is used as an error
29305 message as for LOCAL_SCAN_REJECT. If no message is given, ``Temporary local
29308 `LOCAL_SCAN_REJECT_NOLOGHDR`::
29309 This behaves as LOCAL_SCAN_REJECT, except that the header of the rejected
29310 message is not written to the reject log. It has the effect of unsetting the
29311 %rejected_header% log selector for just this rejection. If %rejected_header%
29312 is already unset (see the discussion of the %log_selection% option in section
29313 <<SECTlogselector>>), this code is the same as LOCAL_SCAN_REJECT.
29315 `LOCAL_SCAN_TEMPREJECT_NOLOGHDR`::
29316 This code is a variation of LOCAL_SCAN_TEMPREJECT in the same way that
29317 LOCAL_SCAN_REJECT_NOLOGHDR is a variation of LOCAL_SCAN_REJECT.
29323 If the message is not being received by interactive SMTP, rejections are
29324 reported by writing to %stderr% or by sending an email, as configured by the
29325 %-oe% command line options.
29330 Configuration options for local_scan()
29331 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
29332 cindex:['local_scan()' function,configuration options]
29333 It is possible to have option settings in the main configuration file
29334 that set values in static variables in the 'local_scan()' module. If you
29335 want to do this, you must have the line
29337 LOCAL_SCAN_HAS_OPTIONS=yes
29339 in your _Local/Makefile_ when you build Exim. (This line is in
29340 _OS/Makefile-Default_, commented out). Then, in the 'local_scan()' source
29341 file, you must define static variables to hold the option values, and a table to
29344 The table must be a vector called %local_scan_options%, of type
29345 `optionlist`. Each entry is a triplet, consisting of a name, an option type,
29346 and a pointer to the variable that holds the value. The entries must appear in
29347 alphabetical order. Following %local_scan_options% you must also define a
29348 variable called %local_scan_options_count% that contains the number of
29349 entries in the table. Here is a short example, showing two kinds of option:
29351 static int my_integer_option = 42;
29352 static uschar *my_string_option = US"a default string";
29354 optionlist local_scan_options[] = {
29355 { "my_integer", opt_int, &my_integer_option },
29356 { "my_string", opt_stringptr, &my_string_option }
29358 int local_scan_options_count =
29359 sizeof(local_scan_options)/sizeof(optionlist);
29361 The values of the variables can now be changed from Exim's runtime
29362 configuration file by including a local scan section as in this example:
29366 my_string = some string of text...
29368 The available types of option data are as follows:
29371 This specifies a boolean (true/false) option. The address should point to a
29372 variable of type `BOOL`, which will be set to TRUE or FALSE, which are macros
29373 that are defined as ``1'' and ``0'', respectively. If you want to detect
29374 whether such a variable has been set at all, you can initialize it to
29375 TRUE_UNSET. (BOOL variables are integers underneath, so can hold more than two
29379 This specifies a fixed point number, such as is used for load averages.
29380 The address should point to a variable of type `int`. The value is stored
29381 multiplied by 1000, so, for example, 1.4142 is truncated and stored as 1414.
29384 This specifies an integer; the address should point to a variable of type
29385 `int`. The value may be specified in any of the integer formats accepted by
29389 This is the same as %opt_int%, except that when such a value is output in a
29390 %-bP% listing, if it is an exact number of kilobytes or megabytes, it is
29391 printed with the suffix K or M.
29394 This also specifies an integer, but the value is always interpeted as an
29395 octal integer, whether or not it starts with the digit zero, and it is
29396 always output in octal.
29399 This specifies a string value; the address must be a pointer to a
29400 variable that points to a string (for example, of type `uschar \*`).
29403 This specifies a time interval value. The address must point to a variable of
29404 type `int`. The value that is placed there is a number of seconds.
29410 If the %-bP% command line option is followed by `local_scan`, Exim prints
29411 out the values of all the 'local_scan()' options.
29415 Available Exim variables
29416 ~~~~~~~~~~~~~~~~~~~~~~~~
29417 cindex:['local_scan()' function,available Exim variables]
29418 The header _local_scan.h_ gives you access to a number of C variables. These
29419 are the only ones that are guaranteed to be maintained from release to release.
29420 Note, however, that you can obtain the value of any Exim variable by calling
29421 'expand_string()'. The exported variables are as follows:
29423 *unsigned~int~debug_selector*::
29424 This variable is set to zero when no debugging is taking place. Otherwise, it
29425 is a bitmap of debugging selectors. Two bits are identified for use in
29426 'local_scan()'; they are defined as macros:
29429 - The `D_v` bit is set when %-v% was present on the command line. This is a
29430 testing option that is not privileged -- any caller may set it. All the
29431 other selector bits can be set only by admin users.
29433 - The `D_local_scan` bit is provided for use by 'local_scan()'; it is set
29434 by the `+local_scan` debug selector. It is not included in the default set
29438 Thus, to write to the debugging output only when `+local_scan` has been
29439 selected, you should use code like this:
29441 if ((debug_selector & D_local_scan) != 0)
29442 debug_printf("xxx", ...);
29445 *uschar~\*expand_string_message*::
29446 After a failing call to 'expand_string()' (returned value NULL), the
29447 variable %expand_string_message% contains the error message, zero-terminated.
29449 *header_line~\*header_list*::
29450 A pointer to a chain of header lines. The %header_line% structure is discussed
29453 *header_line~\*header_last*::
29454 A pointer to the last of the header lines.
29456 *uschar~\*headers_charset*::
29457 The value of the %headers_charset% configuration option.
29459 *BOOL~host_checking*::
29460 This variable is TRUE during a host checking session that is initiated by the
29461 %-bh% command line option.
29463 *uschar~\*interface_address*::
29464 The IP address of the interface that received the message, as a string. This
29465 is NULL for locally submitted messages.
29467 *int~interface_port*::
29468 The port on which this message was received.
29470 *uschar~\*message_id*::
29471 This variable contains Exim's message id for the incoming message (the value of
29472 $message_exim_id$) as a zero-terminated string.
29474 *uschar~\*received_protocol*::
29475 The name of the protocol by which the message was received.
29477 *int~recipients_count*::
29478 The number of accepted recipients.
29480 *recipient_item~\*recipients_list*::
29481 cindex:[recipient,adding in local scan]
29482 cindex:[recipient,removing in local scan]
29483 The list of accepted recipients, held in a vector of length %recipients_count%.
29484 The %recipient_item% structure is discussed below. You can add additional
29485 recipients by calling 'receive_add_recipient()' (see below). You can delete
29486 recipients by removing them from the vector and adusting the value in
29487 %recipients_count%. In particular, by setting %recipients_count% to zero you
29488 remove all recipients. If you then return the value `LOCAL_SCAN_ACCEPT`, the
29489 message is accepted, but immediately blackholed. To replace the recipients, set
29490 %recipients_count% to zero and then call 'receive_add_recipient()' as often as
29493 *uschar~\*sender_address*::
29494 The envelope sender address. For bounce messages this is the empty string.
29496 *uschar~\*sender_host_address*::
29497 The IP address of the sending host, as a string. This is NULL for
29498 locally-submitted messages.
29500 *uschar~\*sender_host_authenticated*::
29501 The name of the authentication mechanism that was used, or NULL if the message
29502 was not received over an authenticated SMTP connection.
29504 *uschar~\*sender_host_name*::
29505 The name of the sending host, if known.
29507 *int~sender_host_port*::
29508 The port on the sending host.
29510 *BOOL~smtp_input*::
29511 This variable is TRUE for all SMTP input, including BSMTP.
29513 *BOOL~smtp_batched_input*::
29514 This variable is TRUE for BSMTP input.
29517 The contents of this variable control which pool of memory is used for new
29518 requests. See section <<SECTmemhanloc>> for details.
29526 Structure of header lines
29527 ~~~~~~~~~~~~~~~~~~~~~~~~~
29528 The %header_line% structure contains the members listed below.
29529 You can add additional header lines by calling the 'header_add()' function
29530 (see below). You can cause header lines to be ignored (deleted) by setting
29534 *struct~header_line~\*next*::
29535 A pointer to the next header line, or NULL for the last line.
29538 A code identifying certain headers that Exim recognizes. The codes are printing
29539 characters, and are documented in chapter <<CHAPspool>> of this manual. Notice
29540 in particular that any header line whose type is \* is not transmitted with the
29541 message. This flagging is used for header lines that have been rewritten, or
29542 are to be removed (for example, 'Envelope-sender:' header lines.) Effectively,
29543 \* means ``deleted''.
29546 The number of characters in the header line, including the terminating and any
29550 A pointer to the text of the header. It always ends with a newline, followed by
29551 a zero byte. Internal newlines are preserved.
29555 Structure of recipient items
29556 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
29557 The %recipient_item% structure contains these members:
29559 *uschar~\*address*::
29560 This is a pointer to the recipient address as it was received.
29563 This is used in later Exim processing when top level addresses are created by
29564 the %one_time% option. It is not relevant at the time 'local_scan()' is run and
29565 must always contain -1 at this stage.
29567 *uschar~\*errors_to*::
29568 If this value is not NULL, bounce messages caused by failing to deliver to the
29569 recipient are sent to the address it contains. In other words, it overrides the
29570 envelope sender for this one recipient. (Compare the %errors_to% generic router
29571 option.) If a 'local_scan()' function sets an %errors_to% field to an
29572 unqualified address, Exim qualifies it using the domain from
29573 %qualify_recipient%. When 'local_scan()' is called, the %errors_to% field is
29574 NULL for all recipients.
29578 Available Exim functions
29579 ~~~~~~~~~~~~~~~~~~~~~~~~
29580 cindex:['local_scan()' function,available Exim functions]
29581 The header _local_scan.h_ gives you access to a number of Exim functions.
29582 These are the only ones that are guaranteed to be maintained from release to
29585 *pid_t~child_open(uschar~{star}{star}argv,~uschar~{star}{star}envp,~int~newumask,~int~{star}infdptr,~int~{star}outfdptr,~BOOL~make_leader)*::
29587 This function creates a child process that runs the command specified by
29588 %argv%. The environment for the process is specified by %envp%, which can be
29589 NULL if no environment variables are to be passed. A new umask is supplied for
29590 the process in %newumask%.
29592 Pipes to the standard input and output of the new process are set up
29593 and returned to the caller via the %infdptr% and %outfdptr% arguments. The
29594 standard error is cloned to the standard output. If there are any file
29595 descriptors ``in the way'' in the new process, they are closed. If the final
29596 argument is TRUE, the new process is made into a process group leader.
29598 The function returns the pid of the new process, or -1 if things go wrong.
29600 *int~child_close(pid_t~pid,~int~timeout)*::
29601 This function waits for a child process to terminate, or for a timeout (in
29602 seconds) to expire. A timeout value of zero means wait as long as it takes. The
29603 return value is as follows:
29607 The process terminated by a normal exit and the value is the process ending
29612 The process was terminated by a signal and the value is the negation of the
29617 The process timed out.
29621 The was some other error in wait(); %errno% is still set.
29624 *pid_t~child_open_exim(int~{star}fd)*::
29625 This function provide you with a means of submitting a new message to
29626 Exim. (Of course, you can also call _/usr/sbin/sendmail_ yourself if you
29627 want, but this packages it all up for you.) The function creates a pipe,
29628 forks a subprocess that is running
29630 exim -t -oem -oi -f <>
29632 and returns to you (via the `int *` argument) a file descriptor for the pipe
29633 that is connected to the standard input. The yield of the function is the PID
29634 of the subprocess. You can then write a message to the file descriptor, with
29635 recipients in 'To:', 'Cc:', and/or 'Bcc:' header lines.
29637 When you have finished, call 'child_close()' to wait for the process to
29638 finish and to collect its ending status. A timeout value of zero is usually
29639 fine in this circumstance. Unless you have made a mistake with the recipient
29640 addresses, you should get a return code of zero.
29642 *void~debug_printf(char~{star},~...)*::
29643 This is Exim's debugging function, with arguments as for '(printf()'. The
29644 output is written to the standard error stream. If no debugging is selected,
29645 calls to 'debug_printf()' have no effect. Normally, you should make calls
29646 conditional on the `local_scan` debug selector by coding like this:
29648 if ((debug_selector & D_local_scan) != 0)
29649 debug_printf("xxx", ...);
29651 *uschar~{star}expand_string(uschar~{star}string)*::
29652 This is an interface to Exim's string expansion code. The return value is the
29653 expanded string, or NULL if there was an expansion failure.
29654 The C variable %expand_string_message% contains an error message after an
29655 expansion failure. If expansion does not change the string, the return value is
29656 the pointer to the input string. Otherwise, the return value points to a new
29657 block of memory that was obtained by a call to 'store_get()'. See section
29658 <<SECTmemhanloc>> below for a discussion of memory handling.
29660 *void~header_add(int~type,~char~{star}format,~...)*::
29661 This function allows you to an add additional header line at the end of the
29662 existing ones. The first argument is the type, and should normally be a space
29663 character. The second argument is a format string and any number of
29664 substitution arguments as for 'sprintf()'. You may include internal newlines if
29665 you want, and you must ensure that the string ends with a newline.
29667 *void~header_add_at_position(BOOL~after,~uschar~{star}name,~BOOL~topnot,~int~type,~char~{star}format,~...)*::
29668 This function adds a new header line at a specified point in the header
29669 chain. The header itself is specified as for 'header_add()'.
29671 If %name% is NULL, the new header is added at the end of the chain if %after%
29672 is true, or at the start if %after% is false. If %name% is not NULL, the header
29673 lines are searched for the first non-deleted header that matches the name. If
29674 one is found, the new header is added before it if %after% is false. If %after%
29675 is true, the new header is added after the found header and any adjacent
29676 subsequent ones with the same name (even if marked ``deleted''). If no matching
29677 non-deleted header is found, the %topnot% option controls where the header is
29678 added. If it is true, addition is at the top; otherwise at the bottom. Thus, to
29679 add a header after all the 'Received:' headers, or at the top if there are no
29680 'Received:' headers, you could use
29682 header_add_at_position(TRUE, US"Received", TRUE,
29683 ' ', "X-xxx: ...");
29685 Normally, there is always at least one non-deleted 'Received:' header, but
29686 there may not be if %received_header_text% expands to an empty string.
29689 *void~header_remove(int~occurrence,~uschar~{star}name)*::
29690 This function removes header lines. If %occurrence% is zero or negative, all
29691 occurrences of the header are removed. If occurrence is greater than zero, that
29692 particular instance of the header is removed. If no header(s) can be found that
29693 match the specification, the function does nothing.
29696 *BOOL~header_testname(header_line~{star}hdr,~uschar~{star}name,~int~length,~BOOL~notdel)*::
29697 This function tests whether the given header has the given name. It is not just
29698 a string comparison, because white space is permitted between the name and the
29699 colon. If the %notdel% argument is true, a false return is forced for all
29700 ``deleted'' headers; otherwise they are not treated specially. For example:
29702 if (header_testname(h, US"X-Spam", 6, TRUE)) ...
29705 *uschar~{star}lss_b64encode(uschar~{star}cleartext,~int~length)*::
29706 cindex:[base64 encoding,functions for 'local_scan()' use]
29707 This function base64-encodes a string, which is passed by address and length.
29708 The text may contain bytes of any value, including zero. The result is passed
29709 back in dynamic memory that is obtained by calling 'store_get()'. It is
29712 *int~lss_b64decode(uschar~{star}codetext,~uschar~{star}{star}cleartext)*::
29713 This function decodes a base64-encoded string. Its arguments are a
29714 zero-terminated base64-encoded string and the address of a variable that is set
29715 to point to the result, which is in dynamic memory. The length of the decoded
29716 string is the yield of the function. If the input is invalid base64 data, the
29717 yield is -1. A zero byte is added to the end of the output string to make it
29718 easy to interpret as a C string (assuming it contains no zeros of its own). The
29719 added zero byte is not included in the returned count.
29721 *int~lss_match_domain(uschar~{star}domain,~uschar~{star}list)*::
29722 This function checks for a match in a domain list. Domains are always
29723 matched caselessly. The return value is one of the following:
29726 `OK ` match succeeded
29727 `FAIL ` match failed
29728 `DEFER ` match deferred
29731 DEFER is usually caused by some kind of lookup defer, such as the
29732 inability to contact a database.
29734 *int~lss_match_local_part(uschar~{star}localpart,~uschar~{star}list,~BOOL~caseless)*::
29735 This function checks for a match in a local part list. The third argument
29736 controls case-sensitivity. The return values are as for
29737 'lss_match_domain()'.
29739 *int~lss_match_address(uschar~{star}address,~uschar~{star}list,~BOOL~caseless)*::
29740 This function checks for a match in an address list. The third argument
29741 controls the case-sensitivity of the local part match. The domain is always
29742 matched caselessly. The return values are as for 'lss_match_domain()'.
29744 *int~lss_match_host(uschar~{star}host_name,~uschar~{star}host_address,~uschar~{star}list)*::
29745 This function checks for a match in a host list. The most common usage is
29748 lss_match_host(sender_host_name, sender_host_address, ...)
29750 cindex:[$sender_host_address$]
29751 An empty address field matches an empty item in the host list. If the host name
29752 is NULL, the name corresponding to $sender_host_address$ is automatically
29753 looked up if a host name is required to match an item in the list. The return
29754 values are as for 'lss_match_domain()', but in addition, 'lss_match_host()'
29755 returns ERROR in the case when it had to look up a host name, but the lookup
29758 *void~log_write(unsigned~int~selector,~int~which,~char~{star}format,~...)*::
29759 This function writes to Exim's log files. The first argument should be zero (it
29760 is concerned with %log_selector%). The second argument can be `LOG_MAIN` or
29761 `LOG_REJECT` or `LOG_PANIC` or the inclusive ``or'' of any combination of them.
29762 It specifies to which log or logs the message is written. The remaining
29763 arguments are a format and relevant insertion arguments. The string should not
29764 contain any newlines, not even at the end.
29767 *void~receive_add_recipient(uschar~{star}address,~int~pno)*::
29768 This function adds an additional recipient to the message. The first argument
29769 is the recipient address. If it is unqualified (has no domain), it is qualified
29770 with the %qualify_recipient% domain. The second argument must always be -1.
29772 This function does not allow you to specify a private %errors_to% address (as
29773 described with the structure of %recipient_item% above), because it pre-dates
29774 the addition of that field to the structure. However, it is easy to add such a
29775 value afterwards. For example:
29777 receive_add_recipient(US"monitor@mydom.example", -1);
29778 recipients_list[recipients_count-1].errors_to =
29779 US"postmaster@mydom.example";
29781 *BOOL~receive_remove_recipient(uschar~{star}recipient)*::
29782 This is a convenience function to remove a named recipient from the list of
29783 recipients. It returns true if a recipient was removed, and false if no
29784 matching recipient could be found. The argument must be a complete email
29789 *uschar~*rfc2047_decode(uschar~{star}string,~BOOL~lencheck,~uschar~{star}target,~int~zeroval,~int~{star}lenptr,~uschar~{star}{star}error)*::
29790 This function decodes strings that are encoded according to RFC 2047. Typically
29791 these are the contents of header lines. First, each ``encoded word'' is decoded
29792 from the Q or B encoding into a byte-string. Then, if provided with the name of
29793 a charset encoding, and if the 'iconv()' function is available, an attempt is
29794 made to translate the result to the named character set. If this fails, the
29795 binary string is returned with an error message.
29797 The first argument is the string to be decoded. If %lencheck% is TRUE, the
29798 maximum MIME word length is enforced. The third argument is the target
29799 encoding, or NULL if no translation is wanted.
29801 cindex:[binary zero,in RFC 2047 decoding]
29802 cindex:[RFC 2047,binary zero in]
29803 If a binary zero is encountered in the decoded string, it is replaced by the
29804 contents of the %zeroval% argument. For use with Exim headers, the value must
29805 not be 0 because header lines are handled as zero-terminated strings.
29807 The function returns the result of processing the string, zero-terminated; if
29808 %lenptr% is not NULL, the length of the result is set in the variable to which
29809 it points. When %zeroval% is 0, %lenptr% should not be NULL.
29811 If an error is encountered, the function returns NULL and uses the %error%
29812 argument to return an error message. The variable pointed to by %error% is set
29813 to NULL if there is no error; it may be set non-NULL even when the function
29814 returns a non-NULL value if decoding was successful, but there was a problem
29818 *int~smtp_fflush(void)*::
29819 This function is used in conjunction with 'smtp_printf()', as described
29822 *void~smtp_printf(char~{star},~...)*::
29823 The arguments of this function are like 'printf()'; it writes to the SMTP
29824 output stream. You should use this function only when there is an SMTP output
29825 stream, that is, when the incoming message is being received via interactive
29826 SMTP. This is the case when %smtp_input% is TRUE and %smtp_batched_input% is
29827 FALSE. If you want to test for an incoming message from another host (as
29828 opposed to a local process that used the %-bs% command line option), you can
29829 test the value of %sender_host_address%, which is non-NULL when a remote host
29832 If an SMTP TLS connection is established, 'smtp_printf()' uses the TLS
29833 output function, so it can be used for all forms of SMTP connection.
29835 Strings that are written by 'smtp_printf()' from within 'local_scan()'
29836 must start with an appropriate response code: 550 if you are going to return
29837 LOCAL_SCAN_REJECT, 451 if you are going to return
29838 LOCAL_SCAN_TEMPREJECT, and 250 otherwise. Because you are writing the
29839 initial lines of a multi-line response, the code must be followed by a hyphen
29840 to indicate that the line is not the final response line. You must also ensure
29841 that the lines you write terminate with CRLF. For example:
29843 smtp_printf("550-this is some extra info\r\n");
29844 return LOCAL_SCAN_REJECT;
29846 Note that you can also create multi-line responses by including newlines in
29847 the data returned via the %return_text% argument. The added value of using
29848 'smtp_printf()' is that, for instance, you could introduce delays between
29849 multiple output lines.
29851 The 'smtp_printf()' function does not return any error indication, because it
29852 does not automatically flush pending output, and therefore does not test
29853 the state of the stream. (In the main code of Exim, flushing and error
29854 detection is done when Exim is ready for the next SMTP input command.) If
29855 you want to flush the output and check for an error (for example, the
29856 dropping of a TCP/IP connection), you can call 'smtp_fflush()', which has no
29857 arguments. It flushes the output stream, and returns a non-zero value if there
29860 *void~{star}store_get(int)*::
29861 This function accesses Exim's internal store (memory) manager. It gets a new
29862 chunk of memory whose size is given by the argument. Exim bombs out if it ever
29863 runs out of memory. See the next section for a discussion of memory handling.
29865 *void~{star}store_get_perm(int)*::
29866 This function is like 'store_get()', but it always gets memory from the
29867 permanent pool. See the next section for a discussion of memory handling.
29869 *uschar~{star}string_copy(uschar~{star}string)*::
29872 *uschar~{star}string_copyn(uschar~{star}string,~int~length)*::
29875 *uschar~{star}string_sprintf(char~{star}format,~...)*::
29876 These three functions create strings using Exim's dynamic memory facilities.
29877 The first makes a copy of an entire string. The second copies up to a maximum
29878 number of characters, indicated by the second argument. The third uses a format
29879 and insertion arguments to create a new string. In each case, the result is a
29880 pointer to a new string in the current memory pool. See the next section for
29891 More about Exim's memory handling
29892 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
29893 cindex:['local_scan()' function,memory handling]
29894 No function is provided for freeing memory, because that is never needed.
29895 The dynamic memory that Exim uses when receiving a message is automatically
29896 recycled if another message is received by the same process (this applies only
29897 to incoming SMTP connections -- other input methods can supply only one message
29898 at a time). After receiving the last message, a reception process terminates.
29900 Because it is recycled, the normal dynamic memory cannot be used for holding
29901 data that must be preserved over a number of incoming messages on the same SMTP
29902 connection. However, Exim in fact uses two pools of dynamic memory; the second
29903 one is not recycled, and can be used for this purpose.
29905 If you want to allocate memory that remains available for subsequent messages
29906 in the same SMTP connection, you should set
29908 store_pool = POOL_PERM
29910 before calling the function that does the allocation. There is no need to
29911 restore the value if you do not need to; however, if you do want to revert to
29912 the normal pool, you can either restore the previous value of %store_pool% or
29913 set it explicitly to POOL_MAIN.
29915 The pool setting applies to all functions that get dynamic memory, including
29916 'expand_string()', 'store_get()', and the 'string_xxx()' functions.
29917 There is also a convenience function called 'store_get_perm()' that gets a
29918 block of memory from the permanent pool while preserving the value of
29925 ////////////////////////////////////////////////////////////////////////////
29926 ////////////////////////////////////////////////////////////////////////////
29928 [[CHAPsystemfilter]]
29929 System-wide message filtering
29930 -----------------------------
29931 cindex:[filter,system filter]
29932 cindex:[filtering all mail]
29933 cindex:[system filter]
29934 The previous chapters (on ACLs and the local scan function) describe checks
29935 that can be applied to messages before they are accepted by a host. There is
29936 also a mechanism for checking messages once they have been received, but before
29937 they are delivered. This is called the 'system filter'.
29939 The system filter operates in a similar manner to users' filter files, but it
29940 is run just once per message (however many recipients the message has).
29941 It should not normally be used as a substitute for routing, because %deliver%
29942 commands in a system router provide new envelope recipient addresses.
29943 The system filter must be an Exim filter. It cannot be a Sieve filter.
29945 The system filter is run at the start of a delivery attempt, before any routing
29946 is done. If a message fails to be completely delivered at the first attempt,
29947 the system filter is run again at the start of every retry.
29948 If you want your filter to do something only once per message, you can make use
29949 of the %first_delivery% condition in an %if% command in the filter to prevent
29950 it happening on retries.
29953 cindex:[$local_part$]
29954 *Warning*: Because the system filter runs just once, variables that are
29955 specific to individual recipient addresses, such as $local_part$ and
29956 $domain$, are not set, and the ``personal'' condition is not meaningful. If you
29957 want to run a centrally-specified filter for each recipient address
29958 independently, you can do so by setting up a suitable ^redirect^ router, as
29959 described in section <<SECTperaddfil>> below.
29962 Specifying a system filter
29963 ~~~~~~~~~~~~~~~~~~~~~~~~~~
29964 cindex:[uid (user id),system filter]
29965 cindex:[gid (group id),system filter]
29966 The name of the file that contains the system filter must be specified by
29967 setting %system_filter%. If you want the filter to run under a uid and gid
29968 other than root, you must also set %system_filter_user% and
29969 %system_filter_group% as appropriate. For example:
29971 system_filter = /etc/mail/exim.filter
29972 system_filter_user = exim
29974 If a system filter generates any deliveries directly to files or pipes (via the
29975 %save% or %pipe% commands), transports to handle these deliveries must be
29976 specified by setting %system_filter_file_transport% and
29977 %system_filter_pipe_transport%, respectively. Similarly,
29978 %system_filter_reply_transport% must be set to handle any messages generated
29979 by the %reply% command.
29982 Testing a system filter
29983 ~~~~~~~~~~~~~~~~~~~~~~~
29984 You can run simple tests of a system filter in the same way as for a user
29985 filter, but you should use %-bF% rather than %-bf%, so that features that
29986 are permitted only in system filters are recognized.
29988 If you want to test the combined effect of a system filter and a user filter,
29989 you can use both %-bF% and %-bf% on the same command line.
29993 Contents of a system filter
29994 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
29995 The language used to specify system filters is the same as for users' filter
29996 files. It is described in the separate end-user document 'Exim's interface to
29997 mail filtering'. However, there are some additional features that are
29998 available only in system filters; these are described in subsequent sections.
29999 If they are encountered in a user's filter file or when testing with %-bf%,
30002 cindex:[frozen messages,manual thaw; testing in filter]
30003 There are two special conditions which, though available in users' filter
30004 files, are designed for use in system filters. The condition %first_delivery%
30005 is true only for the first attempt at delivering a message, and
30006 %manually_thawed% is true only if the message has been frozen, and
30007 subsequently thawed by an admin user. An explicit forced delivery counts as a
30008 manual thaw, but thawing as a result of the %auto_thaw% setting does not.
30010 *Warning*: If a system filter uses the %first_delivery% condition to
30011 specify an ``unseen'' (non-significant) delivery, and that delivery does not
30012 succeed, it will not be tried again.
30013 If you want Exim to retry an unseen delivery until it succeeds, you should
30014 arrange to set it up every time the filter runs.
30016 When a system filter finishes running, the values of the variables $n0$ --
30017 $n9$ are copied into $sn0$ -- $sn9$ and are thereby made available to
30018 users' filter files. Thus a system filter can, for example, set up ``scores'' to
30019 which users' filter files can refer.
30023 Additional variable for system filters
30024 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30025 cindex:[$recipients$]
30026 The expansion variable $recipients$, containing a list of all the recipients
30027 of the message (separated by commas and white space), is available in system
30028 filters. It is not available in users' filters for privacy reasons.
30032 Defer, freeze, and fail commands for system filters
30033 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30034 cindex:[freezing messages]
30035 cindex:[message,freezing]
30036 cindex:[message,forced failure]
30037 cindex:[%fail%,in system filter]
30038 cindex:[%freeze% in system filter]
30039 cindex:[%defer% in system filter]
30040 There are three extra commands (%defer%, %freeze% and %fail%) which are always
30041 available in system filters, but are not normally enabled in users' filters.
30042 (See the %allow_defer%,
30043 %allow_freeze% and %allow_fail% options for the ^redirect^ router.) These
30044 commands can optionally be followed by the word %text% and a string containing
30045 an error message, for example:
30047 fail text "this message looks like spam to me"
30049 The keyword %text% is optional if the next character is a double quote.
30051 The %defer% command defers delivery of the original recipients of the message.
30052 The %fail% command causes all the original recipients to be failed, and a
30053 bounce message to be created. The %freeze% command suspends all delivery
30054 attempts for the original recipients. In all cases, any new deliveries that are
30055 specified by the filter are attempted as normal after the filter has run.
30057 The %freeze% command is ignored if the message has been manually unfrozen and
30058 not manually frozen since. This means that automatic freezing by a system
30059 filter can be used as a way of checking out suspicious messages. If a message
30060 is found to be all right, manually unfreezing it allows it to be delivered.
30062 cindex:[log,%fail% command log line]
30063 cindex:[%fail%,log line; reducing]
30064 The text given with a fail command is used as part of the bounce message as
30065 well as being written to the log. If the message is quite long, this can fill
30066 up a lot of log space when such failures are common. To reduce the size of the
30067 log message, Exim interprets the text in a special way if it starts with the
30068 two characters `<<` and contains `>>` later. The text between these two
30069 strings is written to the log, and the rest of the text is used in the bounce
30070 message. For example:
30073 fail "<<filter test 1>>Your message is rejected \
30074 because it contains attachments that we are \
30075 not prepared to receive."
30079 cindex:[loop,caused by %fail%]
30080 Take great care with the %fail% command when basing the decision to fail on the
30081 contents of the message, because the bounce message will of course include the
30082 contents of the original message and will therefore trigger the %fail% command
30083 again (causing a mail loop) unless steps are taken to prevent this. Testing the
30084 %error_message% condition is one way to prevent this. You could use, for
30087 if $message_body contains "this is spam" and not error_message
30088 then fail text "spam is not wanted here" endif
30090 though of course that might let through unwanted bounce messages. The
30091 alternative is clever checking of the body and/or headers to detect bounces
30092 generated by the filter.
30094 The interpretation of a system filter file ceases after a
30096 %freeze%, or %fail% command is obeyed. However, any deliveries that were set up
30097 earlier in the filter file are honoured, so you can use a sequence such as
30102 to send a specified message when the system filter is freezing (or deferring or
30103 failing) a message. The normal deliveries for the message do not, of course,
30108 [[SECTaddremheasys]]
30109 Adding and removing headers in a system filter
30110 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30111 cindex:[header lines,adding; in system filter]
30112 cindex:[header lines,removing; in system filter]
30113 cindex:[filter,header lines; adding/removing]
30114 Two filter commands that are available only in system filters are:
30116 headers add <string>
30117 headers remove <string>
30119 The argument for the %headers add% is a string that is expanded and then added
30120 to the end of the message's headers. It is the responsibility of the filter
30121 maintainer to make sure it conforms to RFC 2822 syntax. Leading white space is
30122 ignored, and if the string is otherwise empty, or if the expansion is forced to
30123 fail, the command has no effect.
30125 You can use ``\n'' within the string, followed by white space, to specify
30126 continued header lines. More than one header may be added in one command by
30127 including ``\n'' within the string without any following white space. For
30131 headers add "X-header-1: ....\n \
30132 continuation of X-header-1 ...\n\
30136 Note that the header line continuation white space after the first newline must
30137 be placed before the backslash that continues the input string, because white
30138 space after input continuations is ignored.
30140 The argument for %headers remove% is a colon-separated list of header names.
30141 This command applies only to those headers that are stored with the message;
30142 those that are added at delivery time (such as 'Envelope-To:' and
30143 'Return-Path:') cannot be removed by this means. If there is more than one
30144 header with the same name, they are all removed.
30146 The %headers% command in a system filter makes an immediate change to the set
30147 of header lines that was received with the message (with possible additions
30148 from ACL processing). Subsequent commands in the system filter operate on the
30149 modified set, which also forms the basis for subsequent message delivery.
30150 Unless further modified during routing or transporting, this set of headers is
30151 used for all recipients of the message.
30153 During routing and transporting, the variables that refer to the contents of
30154 header lines refer only to those lines that are in this set. Thus, header lines
30155 that are added by a system filter are visible to users' filter files and to all
30156 routers and transports. This contrasts with the manipulation of header lines by
30157 routers and transports, which is not immediate, but which instead is saved up
30158 until the message is actually being written (see section <<SECTheadersaddrem>>).
30160 If the message is not delivered at the first attempt, header lines that were
30161 added by the system filter are stored with the message, and so are still
30162 present at the next delivery attempt. Header lines that were removed are still
30163 present, but marked ``deleted'' so that they are not transported with the
30164 message. For this reason, it is usual to make the %headers% command conditional
30165 on %first_delivery% so that the set of header lines is not modified more than
30168 Because header modification in a system filter acts immediately, you have to
30169 use an indirect approach if you want to modify the contents of a header line.
30172 headers add "Old-Subject: $h_subject:"
30173 headers remove "Subject"
30174 headers add "Subject: new subject (was: $h_old-subject:)"
30175 headers remove "Old-Subject"
30181 Setting an errors address in a system filter
30182 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30183 cindex:[envelope sender]
30184 In a system filter, if a %deliver% command is followed by
30186 errors_to <some address>
30188 in order to change the envelope sender (and hence the error reporting) for that
30189 delivery, any address may be specified. (In a user filter, only the current
30190 user's address can be set.) For example, if some mail is being monitored, you
30193 unseen deliver monitor@spying.example errors_to root@local.example
30195 to take a copy which would not be sent back to the normal error reporting
30196 address if its delivery failed.
30201 Per-address filtering
30202 ~~~~~~~~~~~~~~~~~~~~~
30204 cindex:[$local_part$]
30205 In contrast to the system filter, which is run just once per message for each
30206 delivery attempt, it is also possible to set up a system-wide filtering
30207 operation that runs once for each recipient address. In this case, variables
30208 such as $local_part$ and $domain$ can be used, and indeed, the choice of
30209 filter file could be made dependent on them. This is an example of a router
30210 which implements such a filter:
30215 domains = +local_domains
30216 file = /central/filters/$local_part
30221 The filter is run in a separate process under its own uid. Therefore, either
30222 %check_local_user% must be set (as above), in which case the filter is run as
30223 the local user, or the %user% option must be used to specify which user to use.
30224 If both are set, %user% overrides.
30226 Care should be taken to ensure that none of the commands in the filter file
30227 specify a significant delivery if the message is to go on to be delivered to
30228 its intended recipient. The router will not then claim to have dealt with the
30229 address, so it will be passed on to subsequent routers to be delivered in the
30237 ////////////////////////////////////////////////////////////////////////////
30238 ////////////////////////////////////////////////////////////////////////////
30243 cindex:[message,general processing]
30244 Exim performs various transformations on the sender and recipient addresses of
30245 all messages that it handles, and also on the messages' header lines. Some of
30246 these are optional and configurable, while others always take place. All of
30247 this processing, except rewriting as a result of routing, and the addition or
30248 removal of header lines while delivering, happens when a message is received,
30249 before it is placed on Exim's queue.
30251 Some of the automatic processing takes place by default only for
30252 ``locally-originated'' messages. This adjective is used to describe messages that
30253 are not received over TCP/IP, but instead are passed to an Exim process on its
30254 standard input. This includes the interactive ``local SMTP'' case that is set up
30255 by the %-bs% command line option.
30257 *Note*: messages received over TCP/IP on the loopback interface (127.0.0.1
30258 or ::1) are not considered to be locally-originated. Exim does not treat the
30259 loopback interface specially in any way.
30261 If you want the loopback interface to be treated specially, you must ensure
30262 that there are appropriate entries in your ACLs.
30268 Submission mode for non-local messages
30269 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30270 [revisionflag="changed"]
30271 cindex:[message,submission]
30272 cindex:[submission mode]
30273 Processing that happens automatically for locally-originated messages (unless
30274 %suppress_local_fixups% is set) can also be requested for messages that are
30275 received over TCP/IP. The term ``submission mode'' is used to describe this
30276 state. Submisssion mode is set by the modifier
30278 control = submission
30280 in a MAIL, RCPT, or pre-data ACL for an incoming message (see sections
30281 <<SECTACLmodi>> and <<SECTcontrols>>). This makes Exim treat the message as a
30282 local submission, and is normally used when the source of the message is known
30283 to be an MUA running on a client host (as opposed to an MTA). For example, to
30284 set submission mode for messages originating on the IPv4 loopback interface,
30285 you could include the following in the MAIL ACL:
30287 warn hosts = 127.0.0.1
30288 control = submission
30290 cindex:[%sender_retain%]
30291 There are some options that can be used when setting submission mode. A slash
30292 is used to separate options. For example:
30294 control = submission/sender_retain
30296 Specifying %sender_retain% has the effect of setting %local_sender_retain%
30297 true and %local_from_check% false for the current incoming message. The first
30298 of these allows an existing 'Sender:' header in the message to remain, and the
30299 second suppresses the check to ensure that 'From:' matches the authenticated
30300 sender. With this setting, Exim still fixes up messages by adding 'Date:' and
30301 'Message-ID:' header lines if they are missing, but makes no attempt to check
30302 sender authenticity in header lines.
30304 When %sender_retain% is not set, a submission mode setting may specify a domain
30305 to be used when generating a 'From:' or 'Sender:' header line. For example:
30307 control = submission/domain=some.domain
30309 [revisionflag="changed"]
30310 The domain may be empty. How this value is used is described in sections
30311 <<SECTthefrohea>> and <<SECTthesenhea>>. There is also a %name% option that
30312 allows you to specify the user's full name for inclusion in a created
30313 'Sender:' or 'From:' header line. For example:
30315 [revisionflag="changed"]
30317 accept authenticated = *
30318 control = submission/domain=wonderland.example/\
30319 name=${lookup {$authenticated_id} \
30320 lsearch {/etc/exim/namelist}}
30323 [revisionflag="changed"]
30324 Because the name may contain any characters, including slashes, the %name%
30325 option must be given last. The remainder of the string is used as the name. For
30326 the example above, if _/etc/exim/namelist_ contains:
30328 [revisionflag="changed"]
30330 bigegg: Humpty Dumpty
30333 [revisionflag="changed"]
30334 then when the sender has authenticated as 'bigegg', the generated 'Sender:'
30337 [revisionflag="changed"]
30339 Sender: Humpty Dumpty <bigegg@wonderland.example>
30342 [revisionflag="changed"]
30343 cindex:[return path,in submission mode]
30344 By default, submission mode forces the return path to the same address as is
30345 used to create the 'Sender:' header. However, if %sender_retain% is specified,
30346 the return path is also left unchanged.
30348 [revisionflag="changed"]
30349 *Note*: the changes caused by submission mode take effect after the predata
30350 ACL. This means that any sender checks performed before the fix-ups use the
30351 untrusted sender address specified by the user, not the trusted sender address
30352 specified by submission mode. Although this might be slightly unexpected, it
30353 does mean that you can configure ACL checks to spot that a user is trying to
30354 spoof another's address.
30357 [[SECTlineendings]]
30360 cindex:[line endings]
30361 cindex:[carriage return]
30363 RFC 2821 specifies that CRLF (two characters: carriage-return, followed by
30364 linefeed) is the line ending for messages transmitted over the Internet using
30365 SMTP over TCP/IP. However, within individual operating systems, different
30366 conventions are used. For example, Unix-like systems use just LF, but others
30367 use CRLF or just CR.
30369 Exim was designed for Unix-like systems, and internally, it stores messages
30370 using the system's convention of a single LF as a line terminator. When
30371 receiving a message, all line endings are translated to this standard format.
30372 Originally, it was thought that programs that passed messages directly to an
30373 MTA within an operating system would use that system's convention. Experience
30374 has shown that this is not the case; for example, there are Unix applications
30375 that use CRLF in this circumstance. For this reason, and for compatibility with
30376 other MTAs, the way Exim handles line endings for all messages is now as
30379 - LF not preceded by CR is treated as a line ending.
30381 - CR is treated as a line ending; if it is immediately followed by LF, the LF
30384 - The sequence ``CR, dot, CR'' does not terminate an incoming SMTP message,
30385 nor a local message in the state where a line containing only a dot is a
30388 - If a bare CR is encountered within a header line, an extra space is added after
30389 the line terminator so as not to end the header line. The reasoning behind this
30390 is that bare CRs in header lines are most likely either to be mistakes, or
30391 people trying to play silly games.
30393 - If the first header line received in a message ends with CRLF, a subsequent
30394 bare LF in a header line is treated in the same way as a bare CR in a header
30401 Unqualified addresses
30402 ~~~~~~~~~~~~~~~~~~~~~
30403 cindex:[unqualified addresses]
30404 cindex:[address,qualification]
30405 By default, Exim expects every envelope address it receives from an external
30406 host to be fully qualified. Unqualified addresses cause negative responses to
30407 SMTP commands. However, because SMTP is used as a means of transporting
30408 messages from MUAs running on personal workstations, there is sometimes a
30409 requirement to accept unqualified addresses from specific hosts or IP networks.
30411 Exim has two options that separately control which hosts may send unqualified
30412 sender or receipient addresses in SMTP commands, namely
30413 %sender_unqualified_hosts% and %recipient_unqualified_hosts%. In both
30414 cases, if an unqualified address is accepted, it is qualified by adding the
30415 value of %qualify_domain% or %qualify_recipient%, as appropriate.
30417 cindex:[%qualify_domain%]
30418 cindex:[%qualify_recipient%]
30419 Unqualified addresses in header lines are automatically qualified for messages
30420 that are locally originated, unless the %-bnq% option is given on the command
30421 line. For messages received over SMTP, unqualified addresses in header lines
30422 are qualified only if unqualified addresses are permitted in SMTP commands. In
30423 other words, such qualification is also controlled by
30424 %sender_unqualified_hosts% and %recipient_unqualified_hosts%,
30431 cindex:[``From'' line]
30432 cindex:[UUCP,``From'' line]
30433 cindex:[sender,address]
30434 cindex:[%uucp_from_pattern%]
30435 cindex:[%uucp_from_sender%]
30436 cindex:[envelope sender]
30437 cindex:[Sendmail compatibility,``From'' line]
30438 Messages that have come from UUCP (and some other applications) often begin
30439 with a line containing the envelope sender and a timestamp, following the word
30440 ``From''. Examples of two common formats are:
30442 From a.oakley@berlin.mus Fri Jan 5 12:35 GMT 1996
30443 From f.butler@berlin.mus Fri, 7 Jan 97 14:00:00 GMT
30445 This line precedes the RFC 2822 header lines. For compatibility with Sendmail,
30446 Exim recognizes such lines at the start of messages that are submitted to it
30447 via the command line (that is, on the standard input). It does not recognize
30448 such lines in incoming SMTP messages, unless the sending host matches
30449 %ignore_fromline_hosts% or the %-bs% option was used for a local message and
30450 %ignore_fromline_local% is set. The recognition is controlled by a regular
30451 expression that is defined by the %uucp_from_pattern% option, whose default
30452 value matches the two common cases shown above and puts the address that
30453 follows ``From'' into $1$.
30455 cindex:[numerical variables ($1$ $2$ etc),in ``From '' line handling]
30456 When the caller of Exim for a non-SMTP message that contains a ``From'' line is a
30457 trusted user, the message's sender address is constructed by expanding the
30458 contents of %uucp_sender_address%, whose default value is ``\$1''. This is then
30459 parsed as an RFC 2822 address. If there is no domain, the local part is
30460 qualified with %qualify_domain% unless it is the empty string. However, if the
30461 command line %-f% option is used, it overrides the ``From'' line.
30463 If the caller of Exim is not trusted, the ``From'' line is recognized, but the
30464 sender address is not changed. This is also the case for incoming SMTP messages
30465 that are permitted to contain ``From'' lines.
30467 Only one ``From'' line is recognized. If there is more than one, the second is
30468 treated as a data line that starts the body of the message, as it is not valid
30469 as a header line. This also happens if a ``From'' line is present in an incoming
30470 SMTP message from a source that is not permitted to send them.
30474 Resent- header lines
30475 ~~~~~~~~~~~~~~~~~~~~
30476 cindex:[%Resent-% header lines]
30477 RFC 2822 makes provision for sets of header lines starting with the string
30478 `Resent-` to be added to a message when it is resent by the original
30479 recipient to somebody else. These headers are 'Resent-Date:', 'Resent-From:',
30480 'Resent-Sender:', 'Resent-To:', 'Resent-Cc:', 'Resent-Bcc:' and
30481 'Resent-Message-ID:'. The RFC says:
30483 'Resent fields are strictly informational. They MUST NOT be used in the normal
30484 processing of replies or other such automatic actions on messages.'
30486 This leaves things a bit vague as far as other processing actions such as
30487 address rewriting are concerned. Exim treats %Resent-% header lines as
30490 - A 'Resent-From:' line that just contains the login id of the submitting user
30491 is automatically rewritten in the same way as 'From:' (see below).
30493 - If there's a rewriting rule for a particular header line, it is also applied to
30494 %Resent-% header lines of the same type. For example, a rule that rewrites
30495 'From:' also rewrites 'Resent-From:'.
30497 - For local messages, if 'Sender:' is removed on input, 'Resent-Sender:' is also
30500 - For a locally-submitted message,
30501 if there are any %Resent-% header lines but no 'Resent-Date:',
30502 'Resent-From:', or 'Resent-Message-Id:', they are added as necessary. It is
30503 the contents of 'Resent-Message-Id:' (rather than 'Message-Id:') which are
30504 included in log lines in this case.
30506 - The logic for adding 'Sender:' is duplicated for 'Resent-Sender:' when any
30507 %Resent-% header lines are present.
30512 The Auto-Submitted: header line
30513 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30514 Whenever Exim generates a bounce or a delay warning message, it includes the
30517 Auto-Submitted: auto-generated
30522 The Bcc: header line
30523 ~~~~~~~~~~~~~~~~~~~~
30524 cindex:['Bcc:' header line]
30525 If Exim is called with the %-t% option, to take recipient addresses from a
30526 message's header, it removes any 'Bcc:' header line that may exist (after
30527 extracting its addresses). If %-t% is not present on the command line, any
30528 existing 'Bcc:' is not removed.
30531 The Date: header line
30532 ~~~~~~~~~~~~~~~~~~~~~
30533 [revisionflag="changed"]
30534 cindex:['Date:' header line]
30535 If a locally-generated or submission-mode message has no 'Date:' header line,
30536 Exim adds one, using the current date and time, unless the
30537 %suppress_local_fixups% control has been specified.
30540 The Delivery-date: header line
30541 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30542 cindex:['Delivery-date:' header line]
30543 cindex:[%delivery_date_remove%]
30544 'Delivery-date:' header lines are not part of the standard RFC 2822 header
30545 set. Exim can be configured to add them to the final delivery of messages. (See
30546 the generic %delivery_date_add% transport option.) They should not be present
30547 in messages in transit. If the %delivery_date_remove% configuration option is
30548 set (the default), Exim removes 'Delivery-date:' header lines from incoming
30552 The Envelope-to: header line
30553 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30554 cindex:['Envelope-to:' header line]
30555 cindex:[%envelope_to_remove%]
30556 'Envelope-to:' header lines are not part of the standard RFC 2822 header set.
30557 Exim can be configured to add them to the final delivery of messages. (See the
30558 generic %envelope_to_add% transport option.) They should not be present in
30559 messages in transit. If the %envelope_to_remove% configuration option is set
30560 (the default), Exim removes 'Envelope-to:' header lines from incoming
30565 The From: header line
30566 ~~~~~~~~~~~~~~~~~~~~~
30567 cindex:['From:' header line]
30568 cindex:[Sendmail compatibility,``From'' line]
30569 cindex:[message,submission]
30570 cindex:[submission mode]
30571 If a submission-mode message does not contain a 'From:' header line, Exim adds
30572 one if either of the following conditions is true:
30574 - The envelope sender address is not empty (that is, this is not a bounce
30575 message). The added header line copies the envelope sender address.
30577 - cindex:[$authenticated_id$]
30578 The SMTP session is authenticated and $authenticated_id$ is not empty.
30580 .. cindex:[$qualify_domain$]
30581 If no domain is specified by the submission control, the local part is
30582 $authenticated_id$ and the domain is $qualify_domain$.
30584 .. If a non-empty domain is specified by the submission control, the local
30585 part is $authenticated_id$, and the the domain is the specified domain.
30587 .. If an empty domain is specified by the submission control,
30588 $authenticated_id$ is assumed to be the complete address.
30590 A non-empty envelope sender takes precedence.
30592 [revisionflag="changed"]
30593 If a locally-generated incoming message does not contain a 'From:' header line,
30594 and the %suppress_local_fixups% control is not set, Exim adds one containing
30595 the sender's address. The calling user's login name and full name are used to
30596 construct the address, as described in section <<SECTconstr>>. They are
30597 obtained from the password data by calling 'getpwuid()' (but see the
30598 %unknown_login% configuration option). The address is qualified with
30601 For compatibility with Sendmail, if an incoming, non-SMTP message has a
30602 'From:' header line containing just the unqualified login name of the calling
30603 user, this is replaced by an address containing the user's login name and full
30604 name as described in section <<SECTconstr>>.
30607 The Message-ID: header line
30608 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
30609 [revisionflag="changed"]
30610 cindex:['Message-ID:' header line]
30611 cindex:[message,submission]
30612 cindex:[%message_id_header_text%]
30613 If a locally-generated or submission-mode incoming message does not contain a
30614 'Message-ID:' or 'Resent-Message-ID:' header line, and the
30615 %suppress_local_fixups% control is not set, Exim adds a suitable header line to
30616 the message. If there are any 'Resent-:' headers in the message, it creates
30617 'Resent-Message-ID:'. The id is constructed from Exim's internal message id,
30618 preceded by the letter E to ensure it starts with a letter, and followed by @
30619 and the primary host name. Additional information can be included in this
30620 header line by setting the %message_id_header_text% and/or
30621 %message_id_header_domain% options.
30625 The Received: header line
30626 ~~~~~~~~~~~~~~~~~~~~~~~~~
30627 cindex:['Received:' header line]
30628 A 'Received:' header line is added at the start of every message. The contents
30629 are defined by the %received_header_text% configuration option, and Exim
30630 automatically adds a semicolon and a timestamp to the configured string.
30632 The 'Received:' header is generated as soon as the message's header lines have
30633 been received. At this stage, the timestamp in the 'Received:' header line is
30634 the time that the message started to be received. This is the value that is
30635 seen by the DATA ACL and by the 'local_scan()' function.
30637 Once a message is accepted, the timestamp in the 'Received:' header line is
30638 changed to the time of acceptance, which is (apart from a small delay while the
30639 -H spool file is written) the earliest time at which delivery could start.
30643 The Return-path: header line
30644 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30645 cindex:['Return-path:' header line]
30646 cindex:[%return_path_remove%]
30647 'Return-path:' header lines are defined as something an MTA may insert when
30648 it does the final delivery of messages. (See the generic %return_path_add%
30649 transport option.) Therefore, they should not be present in messages in
30650 transit. If the %return_path_remove% configuration option is set (the
30651 default), Exim removes 'Return-path:' header lines from incoming messages.
30656 The Sender: header line
30657 ~~~~~~~~~~~~~~~~~~~~~~~
30658 [revisionflag="changed"]
30659 cindex:['Sender:' header line]
30660 cindex:[message,submission]
30661 For a locally-originated message from an untrusted user, Exim may remove an
30662 existing 'Sender:' header line, and it may add a new one. You can modify these
30663 actions by setting the %local_sender_retain% option true, the
30664 %local_from_check% option false, or by using the %suppress_local_fixups%
30667 [revisionflag="changed"]
30668 When a local message is received from an untrusted user and %local_from_check%
30669 is true (the default), and the %suppress_local_fixups% control has not been
30670 set, a check is made to see if the address given in the 'From:' header line is
30671 the correct (local) sender of the message. The address that is expected has the
30672 login name as the local part and the value of %qualify_domain% as the domain.
30673 Prefixes and suffixes for the local part can be permitted by setting
30674 %local_from_prefix% and %local_from_suffix% appropriately. If 'From:' does not
30675 contain the correct sender, a 'Sender:' line is added to the message.
30677 If you set %local_from_check% false, this checking does not occur. However,
30678 the removal of an existing 'Sender:' line still happens, unless you also set
30679 %local_sender_retain% to be true. It is not possible to set both of these
30680 options true at the same time.
30682 cindex:[submission mode]
30683 By default, no processing of 'Sender:' header lines is done for messages
30684 received over TCP/IP or for messages submitted by trusted users. However, when
30685 a message is received over TCP/IP in submission mode, and %sender_retain% is
30686 not specified on the submission control, the following processing takes place:
30688 cindex:[$authenticated_id$]
30689 First, any existing 'Sender:' lines are removed. Then, if the SMTP session is
30690 authenticated, and $authenticated_id$ is not empty, a sender address is
30691 created as follows:
30693 - cindex:[$qualify_domain$]
30694 If no domain is specified by the submission control, the local part is
30695 $authenticated_id$ and the domain is $qualify_domain$.
30697 - If a non-empty domain is specified by the submission control, the local part
30698 is $authenticated_id$, and the the domain is the specified domain.
30700 - If an empty domain is specified by the submission control,
30701 $authenticated_id$ is assumed to be the complete address.
30703 This address is compared with the address in the 'From:' header line. If they
30704 are different, a 'Sender:' header line containing the created address is
30705 added. Prefixes and suffixes for the local part in 'From:' can be permitted by
30706 setting %local_from_prefix% and %local_from_suffix% appropriately.
30708 [revisionflag="changed"]
30709 cindex:[return path,created from 'Sender:']
30710 *Note*: whenever a 'Sender:' header line is created, the return path for the
30711 message (the envelope sender address) is changed to be the same address, except
30712 in the case of submission mode when %sender_retain% is specified.
30717 [[SECTheadersaddrem]]
30718 Adding and removing header lines in routers and transports
30719 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30720 [revisionflag="changed"]
30721 cindex:[header lines,adding; in router or transport]
30722 cindex:[header lines,removing; in router or transport]
30723 When a message is delivered, the addition and removal of header lines can be
30724 specified in a system filter, or on any of the routers and transports that
30725 process the message. Section <<SECTaddremheasys>> contains details about
30726 modifying headers in a system filter. Header lines can also be added in an ACL
30727 as a message is received (see section <<SECTaddheadwarn>>).
30729 In contrast to what happens in a system filter, header modifications that are
30730 specified on routers and transports apply only to the particular recipient
30731 addresses that are being processed by those routers and transports. These
30732 changes do not actually take place until a copy of the message is being
30733 transported. Therefore, they do not affect the basic set of header lines, and
30734 they do not affect the values of the variables that refer to header lines.
30736 [revisionflag="changed"]
30737 *Note*: in particular, this means that any expansions in the configuration of
30738 the transport cannot refer to the modified header lines, because such
30739 expansions all occur before the message is actually transported.
30741 For both routers and transports, the result of expanding a %headers_add%
30742 option must be in the form of one or more RFC 2822 header lines, separated by
30743 newlines (coded as ``\n''). For example:
30746 headers_add = X-added-header: added by $primary_hostname\n\
30747 X-added-second: another added header line
30750 Exim does not check the syntax of these added header lines.
30752 The result of expanding %headers_remove% must consist of a colon-separated
30753 list of header names. This is confusing, because header names themselves are
30754 often terminated by colons. In this case, the colons are the list separators,
30755 not part of the names. For example:
30757 headers_remove = return-receipt-to:acknowledge-to
30759 When %headers_add% or %headers_remove% is specified on a router, its value is
30760 expanded at routing time, and then associated with all addresses that are
30761 accepted by that router, and also with any new addresses that it generates. If
30762 an address passes through several routers as a result of aliasing or
30763 forwarding, the changes are cumulative.
30765 cindex:[%unseen% option]
30766 However, this does not apply to multiple routers that result from the use of
30767 the %unseen% option. Any header modifications that were specified by the
30768 ``unseen'' router or its predecessors apply only to the ``unseen'' delivery.
30770 Addresses that end up with different %headers_add% or %headers_remove%
30771 settings cannot be delivered together in a batch, so a transport is always
30772 dealing with a set of addresses that have the same header-processing
30775 The transport starts by writing the original set of header lines that arrived
30776 with the message, possibly modified by the system filter. As it writes out
30777 these lines, it consults the list of header names that were attached to the
30778 recipient address(es) by %headers_remove% options in routers, and it also
30779 consults the transport's own %headers_remove% option. Header lines whose names
30780 are on either of these lists are not written out. If there are multiple
30781 instances of any listed header, they are all skipped.
30783 After the remaining original header lines have been written, new header
30784 lines that were specified by routers' %headers_add% options are written, in
30785 the order in which they were attached to the address. These are followed by any
30786 header lines specified by the transport's %headers_add% option.
30788 This way of handling header line modifications in routers and transports has
30789 the following consequences:
30791 - The original set of header lines, possibly modified by the system filter,
30792 remains ``visible'', in the sense that the $header_$'xxx' variables refer to
30795 - Header lines that are added by a router's
30796 %headers_add% option are not accessible by means of the $header_$'xxx'
30797 expansion syntax in subsequent routers or the transport.
30799 - Conversely, header lines that are specified for removal by %headers_remove% in
30800 a router remain visible to subsequent routers and the transport.
30802 - Headers added to an address by %headers_add% in a router cannot be removed by
30803 a later router or by a transport.
30805 - An added header can refer to the contents of an original header that is to be
30806 removed, even it has the same name as the added header. For example:
30808 headers_remove = subject
30809 headers_add = Subject: new subject (was: $h_subject:)
30812 *Warning*: The %headers_add% and %headers_remove% options cannot be used
30813 for a ^redirect^ router that has the %one_time% option set.
30820 Constructed addresses
30821 ~~~~~~~~~~~~~~~~~~~~~
30822 cindex:[address,constructed]
30823 cindex:[constructed address]
30824 When Exim constructs a sender address for a locally-generated message, it uses
30827 <user name> <<login>@<qualify_domain>>
30831 Zaphod Beeblebrox <zaphod@end.univ.example>
30833 The user name is obtained from the %-F% command line option if set, or
30834 otherwise by looking up the calling user by 'getpwuid()' and extracting the
30835 ``gecos'' field from the password entry. If the ``gecos'' field contains an
30836 ampersand character, this is replaced by the login name with the first letter
30837 upper cased, as is conventional in a number of operating systems. See the
30838 %gecos_name% option for a way to tailor the handling of the ``gecos'' field. The
30839 %unknown_username% option can be used to specify user names in cases when
30840 there is no password file entry.
30843 In all cases, the user name is made to conform to RFC 2822 by quoting all or
30844 parts of it if necessary. In addition, if it contains any non-printing
30845 characters, it is encoded as described in RFC 2047, which defines a way of
30846 including non-ASCII characters in header lines. The value of the
30847 %headers_charset% option specifies the name of the encoding that is used (the
30848 characters are assumed to be in this encoding). The setting of
30849 %print_topbitchars% controls whether characters with the top bit set (that is,
30850 with codes greater than 127) count as printing characters or not.
30854 Case of local parts
30855 ~~~~~~~~~~~~~~~~~~~
30856 cindex:[case of local parts]
30857 cindex:[local part,case of]
30858 RFC 2822 states that the case of letters in the local parts of addresses cannot
30859 be assumed to be non-significant. Exim preserves the case of local parts of
30860 addresses, but by default it uses a lower-cased form when it is routing,
30861 because on most Unix systems, usernames are in lower case and case-insensitive
30862 routing is required. However, any particular router can be made to use the
30863 original case for local parts by setting the %caseful_local_part% generic
30866 cindex:[mixed-case login names]
30867 If you must have mixed-case user names on your system, the best way to proceed,
30868 assuming you want case-independent handling of incoming email, is to set up
30869 your first router to convert incoming local parts in your domains to the
30870 correct case by means of a file lookup. For example:
30875 domains = +local_domains
30876 data = ${lookup{$local_part}cdb\
30877 {/etc/usercased.cdb}{$value}fail}\
30881 For this router, the local part is forced to lower case by the default action
30882 (%caseful_local_part% is not set). The lower-cased local part is used to look
30883 up a new local part in the correct case. If you then set %caseful_local_part%
30884 on any subsequent routers which process your domains, they will operate on
30885 local parts with the correct case in a case-sensitive manner.
30889 Dots in local parts
30890 ~~~~~~~~~~~~~~~~~~~
30891 cindex:[dot,in local part]
30892 cindex:[local part,dots in]
30893 RFC 2822 forbids empty components in local parts. That is, an unquoted local
30894 part may not begin or end with a dot, nor have two consecutive dots in the
30895 middle. However, it seems that many MTAs do not enforce this, so Exim permits
30896 empty components for compatibility.
30900 Rewriting addresses
30901 ~~~~~~~~~~~~~~~~~~~
30902 cindex:[rewriting,addresses]
30903 Rewriting of sender and recipient addresses, and addresses in headers, can
30904 happen automatically, or as the result of configuration options, as described
30905 in chapter <<CHAPrewrite>>. The headers that may be affected by this are 'Bcc:',
30906 'Cc:', 'From:', 'Reply-To:', 'Sender:', and 'To:'.
30908 Automatic rewriting includes qualification, as mentioned above. The other case
30909 in which it can happen is when an incomplete non-local domain is given. The
30910 routing process may cause this to be expanded into the full domain name. For
30911 example, a header such as
30915 might get rewritten as
30917 To: hare@teaparty.wonderland.fict.example
30919 Rewriting as a result of routing is the one kind of message processing that
30920 does not happen at input time, as it cannot be done until the address has
30923 Strictly, one should not do 'any' deliveries of a message until all its
30924 addresses have been routed, in case any of the headers get changed as a
30925 result of routing. However, doing this in practice would hold up many
30926 deliveries for unreasonable amounts of time, just because one address could not
30927 immediately be routed. Exim therefore does not delay other deliveries when
30928 routing of one or more addresses is deferred.
30931 ////////////////////////////////////////////////////////////////////////////
30932 ////////////////////////////////////////////////////////////////////////////
30937 cindex:[SMTP,processing details]
30938 cindex:[LMTP,processing details]
30939 Exim supports a number of different ways of using the SMTP protocol, and its
30940 LMTP variant, which is an interactive protocol for transferring messages into a
30941 closed mail store application. This chapter contains details of how SMTP is
30942 processed. For incoming mail, the following are available:
30944 - SMTP over TCP/IP (Exim daemon or 'inetd');
30946 - SMTP over the standard input and output (the %-bs% option);
30948 - Batched SMTP on the standard input (the %-bS% option).
30950 For mail delivery, the following are available:
30952 - SMTP over TCP/IP (the ^smtp^ transport);
30954 - LMTP over TCP/IP (the ^smtp^ transport with the %protocol% option set to
30957 - LMTP over a pipe to a process running in the local host (the ^lmtp^
30960 - Batched SMTP to a file or pipe (the ^appendfile^ and ^pipe^ transports with
30961 the %use_bsmtp% option set).
30963 'Batched SMTP' is the name for a process in which batches of messages are
30964 stored in or read from files (or pipes), in a format in which SMTP commands are
30965 used to contain the envelope information.
30970 Outgoing SMTP and LMTP over TCP/IP
30971 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
30972 cindex:[SMTP,outgoing over TCP/IP]
30973 cindex:[outgoing SMTP over TCP/IP]
30974 cindex:[LMTP,over TCP/IP]
30975 cindex:[outgoing LMTP over TCP/IP]
30978 cindex:[SIZE option on MAIL command]
30979 Outgoing SMTP and LMTP over TCP/IP is implemented by the ^smtp^ transport.
30980 The %protocol% option selects which protocol is to be used, but the actual
30981 processing is the same in both cases.
30983 If, in response to its EHLO command, Exim is told that the SIZE
30984 parameter is supported, it adds SIZE=<'n'> to each subsequent MAIL
30985 command. The value of <'n'> is the message size plus the value of the
30986 %size_addition% option (default 1024) to allow for additions to the message
30987 such as per-transport header lines, or changes made in a
30988 cindex:[transport,filter]
30989 cindex:[filter,transport filter]
30990 transport filter. If %size_addition% is set negative, the use of SIZE is
30993 If the remote server advertises support for PIPELINING, Exim uses the
30994 pipelining extension to SMTP (RFC 2197) to reduce the number of TCP/IP packets
30995 required for the transaction.
30997 If the remote server advertises support for the STARTTLS command, and Exim
30998 was built to support TLS encryption, it tries to start a TLS session unless the
30999 server matches %hosts_avoid_tls%. See chapter <<CHAPTLS>> for more details.
31001 If the remote server advertises support for the AUTH command, Exim scans
31002 the authenticators configuration for any suitable client settings, as described
31003 in chapter <<CHAPSMTPAUTH>>.
31005 cindex:[carriage return]
31007 Responses from the remote host are supposed to be terminated by CR followed by
31008 LF. However, there are known to be hosts that do not send CR characters, so in
31009 order to be able to interwork with such hosts, Exim treats LF on its own as a
31012 If a message contains a number of different addresses, all those with the same
31013 characteristics (for example, the same envelope sender) that resolve to the
31014 same set of hosts, in the same order, are sent in a single SMTP transaction,
31015 even if they are for different domains, unless there are more than the setting
31016 of the %max_rcpts% option in the ^smtp^ transport allows, in which case they
31017 are split into groups containing no more than %max_rcpts% addresses each. If
31018 %remote_max_parallel% is greater than one, such groups may be sent in
31019 parallel sessions. The order of hosts with identical MX values is not
31020 significant when checking whether addresses can be batched in this way.
31022 When the ^smtp^ transport suffers a temporary failure that is not
31023 message-related, Exim updates its transport-specific database, which contains
31024 records indexed by host name that remember which messages are waiting for each
31025 particular host. It also updates the retry database with new retry times.
31027 cindex:[hints database,retry keys]
31028 Exim's retry hints are based on host name plus IP address, so if one address of
31029 a multi-homed host is broken, it will soon be skipped most of the time.
31030 See the next section for more detail about error handling.
31032 cindex:[SMTP,passed connection]
31033 cindex:[SMTP,batching over TCP/IP]
31034 When a message is successfully delivered over a TCP/IP SMTP connection, Exim
31035 looks in the hints database for the transport to see if there are any queued
31036 messages waiting for the host to which it is connected. If it finds one, it
31037 creates a new Exim process using the %-MC% option (which can only be used by a
31038 process running as root or the Exim user) and passes the TCP/IP socket to it so
31039 that it can deliver another message using the same socket. The new process does
31040 only those deliveries that are routed to the connected host, and may in turn
31041 pass the socket on to a third process, and so on.
31043 The %connection_max_messages% option of the ^smtp^ transport can be used to
31044 limit the number of messages sent down a single TCP/IP connection.
31046 cindex:[asterisk,after IP address]
31047 The second and subsequent messages delivered down an existing connection are
31048 identified in the main log by the addition of an asterisk after the closing
31049 square bracket of the IP address.
31055 Errors in outgoing SMTP
31056 ~~~~~~~~~~~~~~~~~~~~~~~
31057 cindex:[error,in outgoing SMTP]
31058 cindex:[SMTP,errors in outgoing]
31059 cindex:[host,error]
31060 Three different kinds of error are recognized for outgoing SMTP: host errors,
31061 message errors, and recipient errors.
31063 . A host error is not associated with a particular message or with a
31064 particular recipient of a message. The host errors are:
31067 - Connection refused or timed out,
31069 - Any error response code on connection,
31071 - Any error response code to EHLO or HELO,
31073 - Loss of connection at any time, except after ``.'',
31075 - I/O errors at any time,
31077 - Timeouts during the session, other than in response to MAIL, RCPT or
31078 the ``.'' at the end of the data.
31081 For a host error, a permanent error response on connection, or in response to
31082 EHLO, causes all addresses routed to the host to be failed. Any other host
31083 error causes all addresses to be deferred, and retry data to be created for the
31084 host. It is not tried again, for any message, until its retry time arrives. If
31085 the current set of addresses are not all delivered in this run (to some
31086 alternative host), the message is added to the list of those waiting for this
31087 host, so if it is still undelivered when a subsequent successful delivery is
31088 made to the host, it will be sent down the same SMTP connection.
31090 . cindex:[message,error]
31091 A message error is associated with a particular message when sent to a
31092 particular host, but not with a particular recipient of the message. The
31093 message errors are:
31096 - Any error response code to MAIL, DATA, or the ``.'' that terminates
31099 - Timeout after MAIL,
31101 - Timeout or loss of connection after the ``.'' that terminates the data. A
31102 timeout after the DATA command itself is treated as a host error, as is loss of
31103 connection at any other time.
31106 For a message error, a permanent error response (5##'xx') causes all addresses
31107 to be failed, and a delivery error report to be returned to the sender. A
31108 temporary error response (4##'xx'), or one of the timeouts, causes all
31109 addresses to be deferred. Retry data is not created for the host, but instead,
31110 a retry record for the combination of host plus message id is created. The
31111 message is not added to the list of those waiting for this host. This ensures
31112 that the failing message will not be sent to this host again until the retry
31113 time arrives. However, other messages that are routed to the host are not
31114 affected, so if it is some property of the message that is causing the error,
31115 it will not stop the delivery of other mail.
31117 If the remote host specified support for the SIZE parameter in its response
31118 to EHLO, Exim adds SIZE='nnn' to the MAIL command, so an
31119 over-large message will cause a message error because the error arrives as a
31122 . cindex:[recipient,error]
31123 A recipient error is associated with a particular recipient of a message. The
31124 recipient errors are:
31127 - Any error response to RCPT,
31129 - Timeout after RCPT.
31132 For a recipient error, a permanent error response (5##'xx') causes the
31133 recipient address to be failed, and a bounce message to be returned to the
31134 sender. A temporary error response (4##'xx') or a timeout causes the failing
31135 address to be deferred, and routing retry data to be created for it. This is
31136 used to delay processing of the address in subsequent queue runs, until its
31137 routing retry time arrives. This applies to all messages, but because it
31138 operates only in queue runs, one attempt will be made to deliver a new message
31139 to the failing address before the delay starts to operate. This ensures that,
31140 if the failure is really related to the message rather than the recipient
31141 (``message too big for this recipient'' is a possible example), other messages
31142 have a chance of getting delivered. If a delivery to the address does succeed,
31143 the retry information gets cleared, so all stuck messages get tried again, and
31144 the retry clock is reset.
31146 The message is not added to the list of those waiting for this host. Use of the
31147 host for other messages is unaffected, and except in the case of a timeout,
31148 other recipients are processed independently, and may be successfully delivered
31149 in the current SMTP session. After a timeout it is of course impossible to
31150 proceed with the session, so all addresses get deferred. However, those other
31151 than the one that failed do not suffer any subsequent retry delays. Therefore,
31152 if one recipient is causing trouble, the others have a chance of getting
31153 through when a subsequent delivery attempt occurs before the failing
31154 recipient's retry time.
31160 In all cases, if there are other hosts (or IP addresses) available for the
31161 current set of addresses (for example, from multiple MX records), they are
31162 tried in this run for any undelivered addresses, subject of course to their
31163 own retry data. In other words, recipient error retry data does not take effect
31164 until the next delivery attempt.
31166 Some hosts have been observed to give temporary error responses to every
31167 MAIL command at certain times (``insufficient space'' has been seen). It
31168 would be nice if such circumstances could be recognized, and defer data for the
31169 host itself created, but this is not possible within the current Exim design.
31170 What actually happens is that retry data for every (host, message) combination
31173 The reason that timeouts after MAIL and RCPT are treated specially is that
31174 these can sometimes arise as a result of the remote host's verification
31175 procedures. Exim makes this assumption, and treats them as if a temporary error
31176 response had been received. A timeout after ``.'' is treated specially because
31177 it is known that some broken implementations fail to recognize the end of the
31178 message if the last character of the last line is a binary zero. Thus, it is
31179 helpful to treat this case as a message error.
31181 Timeouts at other times are treated as host errors, assuming a problem with the
31182 host, or the connection to it. If a timeout after MAIL, RCPT,
31183 or ``.'' is really a connection problem, the assumption is that at the next try
31184 the timeout is likely to occur at some other point in the dialogue, causing it
31185 then to be treated as a host error.
31187 There is experimental evidence that some MTAs drop the connection after the
31188 terminating ``.'' if they do not like the contents of the message for some
31189 reason, in contravention of the RFC, which indicates that a 5##'xx' response
31190 should be given. That is why Exim treats this case as a message rather than a
31191 host error, in order not to delay other messages to the same host.
31197 Variable Envelope Return Paths (VERP)
31198 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31200 cindex:[Variable Envelope Return Paths]
31201 cindex:[envelope sender]
31202 Variable Envelope Return Paths -- see
31203 *ftp://koobera.math.uic.edu/www/proto/verp.txt[]* -- can be supported in Exim
31204 by using the %return_path% generic transport option to rewrite the return path
31205 at transport time. For example, the following could be used on an ^smtp^
31210 ${if match {$return_path}{^(.+?)-request@your.dom.example\$}\
31211 {$1-request=$local_part%$domain@your.dom.example}fail}
31214 This has the effect of rewriting the return path (envelope sender) on all
31215 outgoing SMTP messages, if the local part of the original return path ends in
31216 ``-request'', and the domain is 'your.dom.example'. The rewriting inserts the
31217 local part and domain of the recipient into the return path. Suppose, for
31218 example, that a message whose return path has been set to
31219 'somelist-request@your.dom.example' is sent to
31220 'subscriber@other.dom.example'. In the transport, the return path is
31223 somelist-request=subscriber%other.dom.example@your.dom.example
31225 For this to work, you must arrange for outgoing messages that have ``-request''
31226 in their return paths to have just a single recipient. This can be done by
31231 cindex:[$local_part$]
31232 in the ^smtp^ transport. Otherwise a single copy of a message might be
31233 addressed to several different recipients in the same domain, in which case
31234 $local_part$ is not available (because it is not unique). Of course, if you
31235 do start sending out messages with this kind of return path, you must also
31236 configure Exim to accept the bounce messages that come back to those paths.
31237 Typically this would be done by setting an %local_part_suffix% option for a
31240 The overhead incurred in using VERP depends very much on the size of the
31241 message, the number of recipient addresses that resolve to the same remote
31242 host, and the speed of the connection over which the message is being sent. If
31243 a lot of addresses resolve to the same host and the connection is slow, sending
31244 a separate copy of the message for each address may take substantially longer
31245 than sending a single copy with many recipients (for which VERP cannot be
31250 Incoming SMTP messages over TCP/IP
31251 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31252 cindex:[SMTP,incoming over TCP/IP]
31253 cindex:[incoming SMTP over TCP/IP]
31256 Incoming SMTP messages can be accepted in one of two ways: by running a
31257 listening daemon, or by using 'inetd'. In the latter case, the entry in
31258 _/etc/inetd.conf_ should be like this:
31260 smtp stream tcp nowait exim /opt/exim/bin/exim in.exim -bs
31262 Exim distinguishes between this case and the case of a locally running user
31263 agent using the %-bs% option by checking whether or not the standard input is
31264 a socket. When it is, either the port must be privileged (less than 1024), or
31265 the caller must be root or the Exim user. If any other user passes a socket
31266 with an unprivileged port number, Exim prints a message on the standard error
31267 stream and exits with an error code.
31269 By default, Exim does not make a log entry when a remote host connects or
31270 disconnects (either via the daemon or 'inetd'), unless the disconnection is
31271 unexpected. It can be made to write such log entries by setting the
31272 %smtp_connection% log selector.
31274 cindex:[carriage return]
31276 Commands from the remote host are supposed to be terminated by CR followed by
31277 LF. However, there are known to be hosts that do not send CR characters. In
31278 order to be able to interwork with such hosts, Exim treats LF on its own as a
31280 Furthermore, because common code is used for receiving messages from all
31281 sources, a CR on its own is also interpreted as a line terminator. However, the
31282 sequence ``CR, dot, CR'' does not terminate incoming SMTP data.
31284 cindex:[EHLO,invalid data]
31285 cindex:[HELO,invalid data]
31286 One area that sometimes gives rise to problems concerns the EHLO or
31287 HELO commands. Some clients send syntactically invalid versions of these
31288 commands, which Exim rejects by default. (This is nothing to do with verifying
31289 the data that is sent, so %helo_verify_hosts% is not relevant.) You can tell
31290 Exim not to apply a syntax check by setting %helo_accept_junk_hosts% to
31291 match the broken hosts that send invalid commands.
31293 cindex:[SIZE option on MAIL command]
31294 cindex:[MAIL,SIZE option]
31295 The amount of disk space available is checked whenever SIZE is received on
31296 a MAIL command, independently of whether %message_size_limit% or
31297 %check_spool_space% is configured, unless %smtp_check_spool_space% is set
31298 false. A temporary error is given if there is not enough space. If
31299 %check_spool_space% is set, the check is for that amount of space plus the
31300 value given with SIZE, that is, it checks that the addition of the incoming
31301 message will not reduce the space below the threshold.
31303 When a message is successfully received, Exim includes the local message id in
31304 its response to the final ``.'' that terminates the data. If the remote host logs
31305 this text it can help with tracing what has happened to a message.
31307 The Exim daemon can limit the number of simultaneous incoming connections it is
31308 prepared to handle (see the %smtp_accept_max% option). It can also limit the
31309 number of simultaneous incoming connections from a single remote host (see the
31310 %smtp_accept_max_per_host% option). Additional connection attempts are
31311 rejected using the SMTP temporary error code 421.
31313 The Exim daemon does not rely on the SIGCHLD signal to detect when a
31314 subprocess has finished, as this can get lost at busy times. Instead, it looks
31315 for completed subprocesses every time it wakes up. Provided there are other
31316 things happening (new incoming calls, starts of queue runs), completed
31317 processes will be noticed and tidied away. On very quiet systems you may
31318 sometimes see a ``defunct'' Exim process hanging about. This is not a problem; it
31319 will be noticed when the daemon next wakes up.
31321 When running as a daemon, Exim can reserve some SMTP slots for specific hosts,
31322 and can also be set up to reject SMTP calls from non-reserved hosts at times of
31323 high system load -- for details see the %smtp_accept_reserve%,
31324 %smtp_load_reserve%, and %smtp_reserve_hosts% options. The load check
31325 applies in both the daemon and 'inetd' cases.
31327 Exim normally starts a delivery process for each message received, though this
31328 can be varied by means of the %-odq% command line option and the
31329 %queue_only%, %queue_only_file%, and %queue_only_load% options. The number
31330 of simultaneously running delivery processes started in this way from SMTP
31331 input can be limited by the %smtp_accept_queue% and
31332 %smtp_accept_queue_per_connection% options. When either limit is reached,
31333 subsequently received messages are just put on the input queue without starting
31334 a delivery process.
31336 The controls that involve counts of incoming SMTP calls (%smtp_accept_max%,
31337 %smtp_accept_queue%, %smtp_accept_reserve%) are not available when Exim is
31338 started up from the 'inetd' daemon, because in that case each connection is
31339 handled by an entirely independent Exim process. Control by load average is,
31340 however, available with 'inetd'.
31342 Exim can be configured to verify addresses in incoming SMTP commands as they
31343 are received. See chapter <<CHAPACL>> for details. It can also be configured to
31344 rewrite addresses at this time -- before any syntax checking is done. See
31345 section <<SECTrewriteS>>.
31347 Exim can also be configured to limit the rate at which a client host submits
31348 MAIL and RCPT commands in a single SMTP session. See the
31349 %smtp_ratelimit_hosts% option.
31353 Unrecognized SMTP commands
31354 ~~~~~~~~~~~~~~~~~~~~~~~~~~
31355 cindex:[SMTP,unrecognized commands]
31356 If Exim receives more than %smtp_max_unknown_commands% unrecognized SMTP
31357 commands during a single SMTP connection, it drops the connection after sending
31358 the error response to the last command. The default value for
31359 %smtp_max_unknown_commands% is 3. This is a defence against some kinds of
31360 abuse that subvert web servers into making connections to SMTP ports; in these
31361 circumstances, a number of non-SMTP lines are sent first.
31364 Syntax and protocol errors in SMTP commands
31365 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31366 cindex:[SMTP,syntax errors]
31367 cindex:[SMTP,protocol errors]
31368 A syntax error is detected if an SMTP command is recognized, but there is
31369 something syntactically wrong with its data, for example, a malformed email
31370 address in a RCPT command. Protocol errors include invalid command
31371 sequencing such as RCPT before MAIL. If Exim receives more than
31372 %smtp_max_synprot_errors% such commands during a single SMTP connection, it
31373 drops the connection after sending the error response to the last command. The
31374 default value for %smtp_max_synprot_errors% is 3. This is a defence against
31375 broken clients that loop sending bad commands (yes, it has been seen).
31379 Use of non-mail SMTP commands
31380 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31381 cindex:[SMTP,non-mail commands]
31382 The ``non-mail'' SMTP commands are those other than MAIL, RCPT, and
31383 DATA. Exim counts such commands, and drops the connection if there are too
31384 many of them in a single SMTP session. This action catches some
31385 denial-of-service attempts and things like repeated failing AUTHs, or a mad
31386 client looping sending EHLO. The global option %smtp_accept_max_nonmail%
31387 defines what ``too many'' means. Its default value is 10.
31389 When a new message is expected, one occurrence of RSET is not counted. This
31390 allows a client to send one RSET between messages (this is not necessary,
31391 but some clients do it). Exim also allows one uncounted occurence of HELO
31392 or EHLO, and one occurrence of STARTTLS between messages. After
31393 starting up a TLS session, another EHLO is expected, and so it too is not
31396 The first occurrence of AUTH in a connection, or immediately following
31397 STARTTLS is also not counted. Otherwise, all commands other than MAIL,
31398 RCPT, DATA, and QUIT are counted.
31400 You can control which hosts are subject to the limit set by
31401 %smtp_accept_max_nonmail% by setting
31402 %smtp_accept_max_nonmail_hosts%. The default value is `\*`, which makes
31403 the limit apply to all hosts. This option means that you can exclude any
31404 specific badly-behaved hosts that you have to live with.
31409 The VRFY and EXPN commands
31410 ~~~~~~~~~~~~~~~~~~~~~~~~~~
31411 When Exim receives a VRFY or EXPN command on a TCP/IP connection, it
31412 runs the ACL specified by %acl_smtp_vrfy% or %acl_smtp_expn% (as
31413 appropriate) in order to decide whether the command should be accepted or not.
31414 If no ACL is defined, the command is rejected.
31416 cindex:[VRFY,processing]
31417 When VRFY is accepted, it runs exactly the same code as when Exim is
31418 called with the %-bv% option.
31420 cindex:[EXPN,processing]
31421 When EXPN is accepted, a single-level expansion of the address is done.
31422 EXPN is treated as an ``address test'' (similar to the %-bt% option) rather
31423 than a verification (the %-bv% option). If an unqualified local part is given
31424 as the argument to EXPN, it is qualified with %qualify_domain%. Rejections
31425 of VRFY and EXPN commands are logged on the main and reject logs, and
31426 VRFY verification failures are logged on the main log for consistency with
31434 cindex:[ETRN,processing]
31435 RFC 1985 describes an SMTP command called ETRN that is designed to
31436 overcome the security problems of the TURN command (which has fallen into
31437 disuse). When Exim receives an ETRN command on a TCP/IP connection, it runs
31438 the ACL specified by %acl_smtp_etrn% in order to decide whether the command
31439 should be accepted or not. If no ACL is defined, the command is rejected.
31441 The ETRN command is concerned with ``releasing'' messages that are awaiting
31442 delivery to certain hosts. As Exim does not organize its message queue by host,
31443 the only form of ETRN that is supported by default is the one where the
31444 text starts with the ``#'' prefix, in which case the remainder of the text is
31445 specific to the SMTP server. A valid ETRN command causes a run of Exim with
31446 the %-R% option to happen, with the remainder of the ETRN text as its
31447 argument. For example,
31455 which causes a delivery attempt on all messages with undelivered addresses
31456 containing the text ``brigadoon''. When %smtp_etrn_serialize% is set (the
31457 default), Exim prevents the simultaneous execution of more than one queue run
31458 for the same argument string as a result of an ETRN command. This stops
31459 a misbehaving client from starting more than one queue runner at once.
31461 cindex:[hints database,ETRN serialization]
31462 Exim implements the serialization by means of a hints database in which a
31463 record is written whenever a process is started by ETRN, and deleted when
31464 the process completes. However, Exim does not keep the SMTP session waiting for
31465 the ETRN process to complete. Once ETRN is accepted, the client is sent
31466 a ``success'' return code. Obviously there is scope for hints records to get left
31467 lying around if there is a system or program crash. To guard against this, Exim
31468 ignores any records that are more than six hours old.
31470 cindex:[%smtp_etrn_command%]
31471 For more control over what ETRN does, the %smtp_etrn_command% option can
31472 used. This specifies a command that is run whenever ETRN is received,
31473 whatever the form of its argument. For
31476 smtp_etrn_command = /etc/etrn_command $domain $sender_host_address
31479 The string is split up into arguments which are independently expanded. The
31480 expansion variable $domain$ is set to the argument of the ETRN command,
31481 and no syntax checking is done on the contents of this argument. Exim does not
31482 wait for the command to complete, so its status code is not checked. Exim runs
31483 under its own uid and gid when receiving incoming SMTP, so it is not possible
31484 for it to change them before running the command.
31488 Incoming local SMTP
31489 ~~~~~~~~~~~~~~~~~~~
31490 cindex:[SMTP,local incoming]
31491 Some user agents use SMTP to pass messages to their local MTA using the
31492 standard input and output, as opposed to passing the envelope on the command
31493 line and writing the message to the standard input. This is supported by the
31494 %-bs% option. This form of SMTP is handled in the same way as incoming
31495 messages over TCP/IP (including the use of ACLs), except that the envelope
31496 sender given in a MAIL command is ignored unless the caller is trusted. In
31497 an ACL you can detect this form of SMTP input by testing for an empty host
31498 identification. It is common to have this as the first line in the ACL that
31499 runs for RCPT commands:
31503 This accepts SMTP messages from local processes without doing any other tests.
31508 Outgoing batched SMTP
31509 ~~~~~~~~~~~~~~~~~~~~~
31510 cindex:[SMTP,batched outgoing]
31511 cindex:[batched SMTP output]
31512 Both the ^appendfile^ and ^pipe^ transports can be used for handling batched
31513 SMTP. Each has an option called %use_bsmtp% which causes messages to be output
31514 in BSMTP format. No SMTP responses are possible for this form of delivery. All
31515 it is doing is using SMTP commands as a way of transmitting the envelope along
31518 The message is written to the file or pipe preceded by the SMTP commands
31519 MAIL and RCPT, and followed by a line containing a single dot. Lines in
31520 the message that start with a dot have an extra dot added. The SMTP command
31521 HELO is not normally used. If it is required, the %message_prefix% option
31522 can be used to specify it.
31524 Because ^appendfile^ and ^pipe^ are both local transports, they accept only
31525 one recipient address at a time by default. However, you can arrange for them
31526 to handle several addresses at once by setting the %batch_max% option. When
31527 this is done for BSMTP, messages may contain multiple RCPT commands. See
31528 chapter <<CHAPbatching>> for more details.
31531 When one or more addresses are routed to a BSMTP transport by a router that
31532 sets up a host list, the name of the first host on the list is available to the
31533 transport in the variable $host$. Here is an example of such a transport and
31538 driver = manualroute
31539 transport = smtp_appendfile
31540 route_list = domain.example batch.host.example
31544 driver = appendfile
31545 directory = /var/bsmtp/$host
31550 This causes messages addressed to 'domain.example' to be written in BSMTP
31551 format to _/var/bsmtp/batch.host.example_, with only a single copy of each
31552 message (unless there are more than 1000 recipients).
31556 [[SECTincomingbatchedSMTP]]
31557 Incoming batched SMTP
31558 ~~~~~~~~~~~~~~~~~~~~~
31559 cindex:[SMTP,batched incoming]
31560 cindex:[batched SMTP input]
31561 The %-bS% command line option causes Exim to accept one or more messages by
31562 reading SMTP on the standard input, but to generate no responses. If the caller
31563 is trusted, the senders in the MAIL commands are believed; otherwise the
31564 sender is always the caller of Exim. Unqualified senders and receivers are not
31565 rejected (there seems little point) but instead just get qualified. HELO
31566 and EHLO act as RSET; VRFY, EXPN, ETRN and HELP, act
31567 as NOOP; QUIT quits.
31569 No policy checking is done for BSMTP input. That is, no ACL is run at anytime.
31570 In this respect it is like non-SMTP local input.
31572 If an error is detected while reading a message, including a missing ``.'' at
31573 the end, Exim gives up immediately. It writes details of the error to the
31574 standard output in a stylized way that the calling program should be able to
31575 make some use of automatically, for example:
31577 554 Unexpected end of file
31578 Transaction started in line 10
31579 Error detected in line 14
31581 It writes a more verbose version, for human consumption, to the standard error
31584 An error was detected while processing a file of BSMTP input.
31585 The error message was:
31587 501 '>' missing at end of address
31589 The SMTP transaction started in line 10.
31590 The error was detected in line 12.
31591 The SMTP command at fault was:
31593 rcpt to:<malformed@in.com.plete
31595 1 previous message was successfully processed.
31596 The rest of the batch was abandoned.
31598 The return code from Exim is zero only if there were no errors. It is 1 if some
31599 messages were accepted before an error was detected, and 2 if no messages were
31604 ////////////////////////////////////////////////////////////////////////////
31605 ////////////////////////////////////////////////////////////////////////////
31608 [titleabbrev="Customizing messages"]
31609 Customizing bounce and warning messages
31610 ---------------------------------------
31611 When a message fails to be delivered, or remains on the queue for more than a
31612 configured amount of time, Exim sends a message to the original sender, or
31613 to an alternative configured address. The text of these messages is built into
31614 the code of Exim, but it is possible to change it, either by adding a single
31615 string, or by replacing each of the paragraphs by text supplied in a file.
31617 The 'From:' and 'To:' header lines are automatically generated; you can cause
31618 a 'Reply-To:' line to be added by setting the %errors_reply_to% option. Exim
31621 Auto-Submitted: auto-generated
31623 to all warning and bounce messages,
31626 Customizing bounce messages
31627 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
31628 cindex:[customizing,bounce message]
31629 cindex:[bounce message,customizing]
31630 If %bounce_message_text% is set, its contents are included in the default
31631 message immediately after ``This message was created automatically by mail
31632 delivery software.'' The string is not expanded. It is not used if
31633 %bounce_message_file% is set.
31635 When %bounce_message_file% is set, it must point to a template file for
31636 constructing error messages. The file consists of a series of text items,
31637 separated by lines consisting of exactly four asterisks. If the file cannot be
31638 opened, default text is used and a message is written to the main and panic
31639 logs. If any text item in the file is empty, default text is used for that
31642 cindex:[$bounce_recipient$]
31643 cindex:[$bounce_return_size_limit$]
31644 Each item of text that is read from the file is expanded, and there are two
31645 expansion variables which can be of use here: $bounce_recipient$ is set to the
31646 recipient of an error message while it is being created, and
31647 $bounce_return_size_limit$ contains the value of the %return_size_limit%
31648 option, rounded to a whole number.
31650 The items must appear in the file in the following order:
31652 - The first item is included in the headers, and should include at least a
31653 'Subject:' header. Exim does not check the syntax of these headers.
31655 - The second item forms the start of the error message. After it, Exim lists the
31656 failing addresses with their error messages.
31658 - The third item is used to introduce any text from pipe transports that is to be
31659 returned to the sender. It is omitted if there is no such text.
31661 - The fourth item is used to introduce the copy of the message that is returned
31662 as part of the error report.
31664 - The fifth item is added after the fourth one if the returned message is
31665 truncated because it is bigger than %return_size_limit%.
31667 - The sixth item is added after the copy of the original message.
31669 The default state (%bounce_message_file% unset) is equivalent to the
31670 following file, in which the sixth item is empty. The 'Subject:' line has been
31671 split into two here in order to fit it on the page:
31673 Subject: Mail delivery failed
31674 ${if eq{$sender_address}{$bounce_recipient}{: returning message to sender}}
31676 This message was created automatically by mail delivery software.
31678 A message ${if eq{$sender_address}{$bounce_recipient}{that you sent }{sent by
31682 }}could not be delivered to all of its recipients.
31683 The following address(es) failed:
31685 The following text was generated during the delivery attempt(s):
31687 ------ This is a copy of the message, including all the headers. ------
31689 ------ The body of the message is $message_size characters long; only the first
31690 ------ $bounce_return_size_limit or so are included here.
31695 Customizing warning messages
31696 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31697 cindex:[customizing,warning message]
31698 cindex:[warning of delay,customizing the message]
31699 The option %warn_message_file% can be pointed at a template file for use when
31700 warnings about message delays are created. In this case there are only three
31703 - The first item is included in the headers, and should include at least a
31704 'Subject:' header. Exim does not check the syntax of these headers.
31706 - The second item forms the start of the warning message. After it, Exim lists
31707 the delayed addresses.
31709 - The third item then ends the message.
31711 The default state is equivalent to the following file, except that the line
31712 starting ``A message'' has been split here, in order to fit it on the page:
31714 Subject: Warning: message $message_exim_id delayed $warn_message_delay
31716 This message was created automatically by mail delivery software.
31718 A message ${if eq{$sender_address}{$warn_message_recipients}
31719 {that you sent }{sent by
31723 }}has not been delivered to all of its recipients after
31724 more than $warn_message_delay on the queue on $primary_hostname.
31726 The message identifier is: $message_exim_id
31727 The subject of the message is: $h_subject
31728 The date of the message is: $h_date
31730 The following address(es) have not yet been delivered:
31732 No action is required on your part. Delivery attempts will continue for
31733 some time, and this warning may be repeated at intervals if the message
31734 remains undelivered. Eventually the mail delivery software will give up,
31735 and when that happens, the message will be returned to you.
31737 cindex:[$warn_message_delay$]
31738 cindex:[$warn_message_recipients$]
31739 except that in the default state the subject and date lines are omitted if no
31740 appropriate headers exist. During the expansion of this file,
31741 $warn_message_delay$ is set to the delay time in one of the forms ``<''n'>
31742 minutes' or ``<''n'> hours', and $warn_message_recipients$ contains a list of
31743 recipients for the warning message. There may be more than one if there are
31744 multiple addresses with different %errors_to% settings on the routers that
31750 ////////////////////////////////////////////////////////////////////////////
31751 ////////////////////////////////////////////////////////////////////////////
31754 [titleabbrev="Common configuration settings"]
31755 Some common configuration settings
31756 ----------------------------------
31757 This chapter discusses some configuration settings that seem to be fairly
31758 common. More examples and discussion can be found in the Exim book.
31762 Sending mail to a smart host
31763 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31764 cindex:[smart host,example router]
31765 If you want to send all mail for non-local domains to a ``smart host'', you
31766 should replace the default ^dnslookup^ router with a router which does the
31767 routing explicitly:
31769 send_to_smart_host:
31770 driver = manualroute
31771 route_list = !+local_domains smart.host.name
31772 transport = remote_smtp
31774 You can use the smart host's IP address instead of the name if you wish.
31776 If you are using Exim only to submit messages to a smart host, and not for
31777 receiving incoming messages, you can arrange for it to do the submission
31778 synchronously by setting the %mua_wrapper% option (see chapter
31779 <<CHAPnonqueueing>>).
31784 [[SECTmailinglists]]
31785 Using Exim to handle mailing lists
31786 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31787 cindex:[mailing lists]
31788 Exim can be used to run simple mailing lists, but for large and/or complicated
31789 requirements, the use of additional specialized mailing list software such as
31790 Majordomo or Mailman is recommended.
31792 The ^redirect^ router can be used to handle mailing lists where each list
31793 is maintained in a separate file, which can therefore be managed by an
31794 independent manager. The %domains% router option can be used to run these
31795 lists in a separate domain from normal mail. For example:
31799 domains = lists.example
31800 file = /usr/lists/$local_part
31803 errors_to = $local_part-request@lists.example
31806 This router is skipped for domains other than 'lists.example'. For addresses
31807 in that domain, it looks for a file that matches the local part. If there is no
31808 such file, the router declines, but because %no_more% is set, no subsequent
31809 routers are tried, and so the whole delivery fails.
31811 The %forbid_pipe% and %forbid_file% options prevent a local part from being
31812 expanded into a file name or a pipe delivery, which is usually inappropriate in
31815 cindex:[%errors_to%]
31816 The %errors_to% option specifies that any delivery errors caused by addresses
31817 taken from a mailing list are to be sent to the given address rather than the
31818 original sender of the message. However, before acting on this, Exim verifies
31819 the error address, and ignores it if verification fails.
31821 For example, using the configuration above, mail sent to
31822 'dicts@lists.example' is passed on to those addresses contained in
31823 _/usr/lists/dicts_, with error reports directed to
31824 'dicts-request@lists.example', provided that this address can be verified.
31825 There could be a file called _/usr/lists/dicts-request_ containing
31826 the address(es) of this particular list's manager(s), but other approaches,
31827 such as setting up an earlier router (possibly using the %local_part_prefix%
31828 or %local_part_suffix% options) to handle addresses of the form %owner-xxx%
31829 or %xxx-request%, are also possible.
31833 Syntax errors in mailing lists
31834 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31835 cindex:[mailing lists,syntax errors in]
31836 If an entry in redirection data contains a syntax error, Exim normally defers
31837 delivery of the original address. That means that a syntax error in a mailing
31838 list holds up all deliveries to the list. This may not be appropriate when a
31839 list is being maintained automatically from data supplied by users, and the
31840 addresses are not rigorously checked.
31842 If the %skip_syntax_errors% option is set, the ^redirect^ router just skips
31843 entries that fail to parse, noting the incident in the log. If in addition
31844 %syntax_errors_to% is set to a verifiable address, a message is sent to it
31845 whenever a broken address is skipped. It is usually appropriate to set
31846 %syntax_errors_to% to the same address as %errors_to%.
31850 Re-expansion of mailing lists
31851 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
31852 cindex:[mailing lists,re-expansion of]
31853 Exim remembers every individual address to which a message has been delivered,
31854 in order to avoid duplication, but it normally stores only the original
31855 recipient addresses with a message. If all the deliveries to a mailing list
31856 cannot be done at the first attempt, the mailing list is re-expanded when the
31857 delivery is next tried. This means that alterations to the list are taken into
31858 account at each delivery attempt, so addresses that have been added to
31859 the list since the message arrived will therefore receive a copy of the
31860 message, even though it pre-dates their subscription.
31862 If this behaviour is felt to be undesirable, the %one_time% option can be set
31863 on the ^redirect^ router. If this is done, any addresses generated by the
31864 router that fail to deliver at the first attempt are added to the message as
31865 ``top level'' addresses, and the parent address that generated them is marked
31866 ``delivered''. Thus, expansion of the mailing list does not happen again at the
31867 subsequent delivery attempts. The disadvantage of this is that if any of the
31868 failing addresses are incorrect, correcting them in the file has no effect on
31869 pre-existing messages.
31871 The original top-level address is remembered with each of the generated
31872 addresses, and is output in any log messages. However, any intermediate parent
31873 addresses are not recorded. This makes a difference to the log only if the
31874 %all_parents% selector is set, but for mailing lists there is normally only
31875 one level of expansion anyway.
31879 Closed mailing lists
31880 ~~~~~~~~~~~~~~~~~~~~
31881 cindex:[mailing lists,closed]
31882 The examples so far have assumed open mailing lists, to which anybody may
31883 send mail. It is also possible to set up closed lists, where mail is accepted
31884 from specified senders only. This is done by making use of the generic
31885 %senders% option to restrict the router that handles the list.
31887 The following example uses the same file as a list of recipients and as a list
31888 of permitted senders. It requires three routers:
31893 domains = lists.example
31894 local_part_suffix = -request
31895 file = /usr/lists/$local_part$local_part_suffix
31900 domains = lists.example
31901 senders = ${if exists {/usr/lists/$local_part}\
31902 {lsearch;/usr/lists/$local_part}{*}}
31903 file = /usr/lists/$local_part
31906 errors_to = $local_part-request@lists.example
31911 domains = lists.example
31913 data = :fail: $local_part@lists.example is a closed mailing list
31916 All three routers have the same %domains% setting, so for any other domains,
31917 they are all skipped. The first router runs only if the local part ends in
31918 %-request%. It handles messages to the list manager(s) by means of an open
31921 The second router runs only if the %senders% precondition is satisfied. It
31922 checks for the existence of a list that corresponds to the local part, and then
31923 checks that the sender is on the list by means of a linear search. It is
31924 necessary to check for the existence of the file before trying to search it,
31925 because otherwise Exim thinks there is a configuration error. If the file does
31926 not exist, the expansion of %senders% is \*, which matches all senders. This
31927 means that the router runs, but because there is no list, declines, and
31928 %no_more% ensures that no further routers are run. The address fails with an
31929 ``unrouteable address'' error.
31931 The third router runs only if the second router is skipped, which happens when
31932 a mailing list exists, but the sender is not on it. This router forcibly fails
31933 the address, giving a suitable error message.
31938 [[SECTvirtualdomains]]
31941 cindex:[virtual domains]
31942 cindex:[domain,virtual]
31943 The phrase 'virtual domain' is unfortunately used with two rather different
31946 - A domain for which there are no real mailboxes; all valid local parts are
31947 aliases for other email addresses. Common examples are organizational
31948 top-level domains and ``vanity'' domains.
31950 - One of a number of independent domains that are all handled by the same host,
31951 with mailboxes on that host, but where the mailbox owners do not necessarily
31952 have login accounts on that host.
31954 The first usage is probably more common, and does seem more ``virtual'' than the
31955 second. This kind of domain can be handled in Exim with a straightforward
31956 aliasing router. One approach is to create a separate alias file for each
31957 virtual domain. Exim can test for the existence of the alias file to determine
31958 whether the domain exists. The ^dsearch^ lookup type is useful here, leading
31959 to a router of this form:
31963 domains = dsearch;/etc/mail/virtual
31964 data = ${lookup{$local_part}lsearch{/etc/mail/virtual/$domain}}
31967 The %domains% option specifies that the router is to be skipped, unless there
31968 is a file in the _/etc/mail/virtual_ directory whose name is the same as the
31969 domain that is being processed. When the router runs, it looks up the local
31970 part in the file to find a new address (or list of addresses). The %no_more%
31971 setting ensures that if the lookup fails (leading to %data% being an empty
31972 string), Exim gives up on the address without trying any subsequent routers.
31974 This one router can handle all the virtual domains because the alias file names
31975 follow a fixed pattern. Permissions can be arranged so that appropriate people
31976 can edit the different alias files. A successful aliasing operation results in
31977 a new envelope recipient address, which is then routed from scratch.
31979 The other kind of ``virtual'' domain can also be handled in a straightforward
31980 way. One approach is to create a file for each domain containing a list of
31981 valid local parts, and use it in a router like this:
31985 domains = dsearch;/etc/mail/domains
31986 local_parts = lsearch;/etc/mail/domains/$domain
31987 transport = my_mailboxes
31989 The address is accepted if there is a file for the domain, and the local part
31990 can be found in the file. The %domains% option is used to check for the file's
31991 existence because %domains% is tested before the %local_parts% option (see
31992 section <<SECTrouprecon>>). You can't use %require_files%, because that option
31993 is tested after %local_parts%. The transport is as follows:
31996 driver = appendfile
31997 file = /var/mail/$domain/$local_part
32000 This uses a directory of mailboxes for each domain. The %user% setting is
32001 required, to specify which uid is to be used for writing to the mailboxes.
32003 The configuration shown here is just one example of how you might support this
32004 requirement. There are many other ways this kind of configuration can be set
32005 up, for example, by using a database instead of separate files to hold all the
32006 information about the domains.
32011 Multiple user mailboxes
32012 ~~~~~~~~~~~~~~~~~~~~~~~
32013 cindex:[multiple mailboxes]
32014 cindex:[mailbox,multiple]
32015 cindex:[local part,prefix]
32016 cindex:[local part,suffix]
32017 Heavy email users often want to operate with multiple mailboxes, into which
32018 incoming mail is automatically sorted. A popular way of handling this is to
32019 allow users to use multiple sender addresses, so that replies can easily be
32020 identified. Users are permitted to add prefixes or suffixes to their local
32021 parts for this purpose. The wildcard facility of the generic router options
32022 %local_part_prefix% and %local_part_suffix% can be used for this. For
32023 example, consider this router:
32028 file = $home/.forward
32029 local_part_suffix = -*
32030 local_part_suffix_optional
32033 cindex:[$local_part_suffix$]
32034 It runs a user's _.forward_ file for all local parts of the form
32035 'username-\*'. Within the filter file the user can distinguish different
32036 cases by testing the variable $local_part_suffix$. For example:
32038 if $local_part_suffix contains -special then
32039 save /home/$local_part/Mail/special
32042 If the filter file does not exist, or does not deal with such addresses, they
32043 fall through to subsequent routers, and, assuming no subsequent use of the
32044 %local_part_suffix% option is made, they presumably fail. Thus, users have
32045 control over which suffixes are valid.
32047 Alternatively, a suffix can be used to trigger the use of a different
32048 _.forward_ file -- which is the way a similar facility is implemented in
32054 file = $home/.forward$local_part_suffix
32055 local_part_suffix = -*
32056 local_part_suffix_optional
32059 If there is no suffix, _.forward_ is used; if the suffix is '-special', for
32060 example, _.forward-special_ is used. Once again, if the appropriate file
32061 does not exist, or does not deal with the address, it is passed on to
32062 subsequent routers, which could, if required, look for an unqualified
32063 _.forward_ file to use as a default.
32067 Simplified vacation processing
32068 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32069 cindex:[vacation processing]
32070 The traditional way of running the 'vacation' program is for a user to set up
32071 a pipe command in a _.forward_ file
32072 (see section <<SECTspecitredli>> for syntax details).
32073 This is prone to error by inexperienced users. There are two features of Exim
32074 that can be used to make this process simpler for users:
32076 - A local part prefix such as ``vacation-'' can be specified on a router which
32077 can cause the message to be delivered directly to the 'vacation' program, or
32078 alternatively can use Exim's ^autoreply^ transport. The contents of a user's
32079 _.forward_ file are then much simpler. For example:
32081 spqr, vacation-spqr
32083 - The %require_files% generic router option can be used to trigger a
32084 vacation delivery by checking for the existence of a certain file in the
32085 user's home directory. The %unseen% generic option should also be used, to
32086 ensure that the original delivery also proceeds. In this case, all the user has
32087 to do is to create a file called, say, _.vacation_, containing a vacation
32090 Another advantage of both these methods is that they both work even when the
32091 use of arbitrary pipes by users is locked out.
32095 Taking copies of mail
32096 ~~~~~~~~~~~~~~~~~~~~~
32097 cindex:[message,copying every]
32098 Some installations have policies that require archive copies of all messages to
32099 be made. A single copy of each message can easily be taken by an appropriate
32100 command in a system filter, which could, for example, use a different file for
32101 each day's messages.
32103 There is also a shadow transport mechanism that can be used to take copies of
32104 messages that are successfully delivered by local transports, one copy per
32105 delivery. This could be used, 'inter alia', to implement automatic
32106 notification of delivery by sites that insist on doing such things.
32110 Intermittently connected hosts
32111 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32112 cindex:[intermittently connected hosts]
32113 It has become quite common (because it is cheaper) for hosts to connect to the
32114 Internet periodically rather than remain connected all the time. The normal
32115 arrangement is that mail for such hosts accumulates on a system that is
32116 permanently connected.
32118 Exim was designed for use on permanently connected hosts, and so it is not
32119 particularly well-suited to use in an intermittently connected environment.
32120 Nevertheless there are some features that can be used.
32123 Exim on the upstream server host
32124 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32125 It is tempting to arrange for incoming mail for the intermittently connected
32126 host to remain on Exim's queue until the client connects. However, this
32127 approach does not scale very well. Two different kinds of waiting message are
32128 being mixed up in the same queue -- those that cannot be delivered because of
32129 some temporary problem, and those that are waiting for their destination host
32130 to connect. This makes it hard to manage the queue, as well as wasting
32131 resources, because each queue runner scans the entire queue.
32133 A better approach is to separate off those messages that are waiting for an
32134 intermittently connected host. This can be done by delivering these messages
32135 into local files in batch SMTP, ``mailstore'', or other envelope-preserving
32136 format, from where they are transmitted by other software when their
32137 destination connects. This makes it easy to collect all the mail for one host
32138 in a single directory, and to apply local timeout rules on a per-message basis
32141 On a very small scale, leaving the mail on Exim's queue can be made to work. If
32142 you are doing this, you should configure Exim with a long retry period for the
32143 intermittent host. For example:
32145 cheshire.wonderland.fict.example * F,5d,24h
32147 This stops a lot of failed delivery attempts from occurring, but Exim remembers
32148 which messages it has queued up for that host. Once the intermittent host comes
32149 online, forcing delivery of one message (either by using the %-M% or %-R%
32150 options, or by using the ETRN SMTP command (see section <<SECTETRN>>)
32151 causes all the queued up messages to be delivered, often down a single SMTP
32152 connection. While the host remains connected, any new messages get delivered
32155 If the connecting hosts do not have fixed IP addresses, that is, if a host is
32156 issued with a different IP address each time it connects, Exim's retry
32157 mechanisms on the holding host get confused, because the IP address is normally
32158 used as part of the key string for holding retry information. This can be
32159 avoided by unsetting %retry_include_ip_address% on the ^smtp^ transport.
32160 Since this has disadvantages for permanently connected hosts, it is best to
32161 arrange a separate transport for the intermittently connected ones.
32165 Exim on the intermittently connected client host
32166 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32167 The value of %smtp_accept_queue_per_connection% should probably be
32168 increased, or even set to zero (that is, disabled) on the intermittently
32169 connected host, so that all incoming messages down a single connection get
32170 delivered immediately.
32172 cindex:[SMTP,passed connection]
32173 cindex:[SMTP,multiple deliveries]
32174 cindex:[multiple SMTP deliveries]
32175 Mail waiting to be sent from an intermittently connected host will probably
32176 not have been routed, because without a connection DNS lookups are not
32177 possible. This means that if a normal queue run is done at connection time,
32178 each message is likely to be sent in a separate SMTP session. This can be
32179 avoided by starting the queue run with a command line option beginning with
32180 %-qq% instead of %-q%. In this case, the queue is scanned twice. In the first
32181 pass, routing is done but no deliveries take place. The second pass is a normal
32182 queue run; since all the messages have been previously routed, those destined
32183 for the same host are likely to get sent as multiple deliveries in a single
32188 ////////////////////////////////////////////////////////////////////////////
32189 ////////////////////////////////////////////////////////////////////////////
32191 [[CHAPnonqueueing]]
32192 [titleabbrev="Exim as a non-queueing client"]
32193 Using Exim as a non-queueing client
32194 -----------------------------------
32195 cindex:[client, non-queueing]
32196 cindex:[smart host,queueing; suppressing]
32197 On a personal computer, it is a common requirement for all
32198 email to be sent to a ``smart host''. There are plenty of MUAs that can be
32199 configured to operate that way, for all the popular operating systems.
32200 However, there are some MUAs for Unix-like systems that cannot be so
32201 configured: they submit messages using the command line interface of
32202 _/usr/sbin/sendmail_. Furthermore, utility programs such as 'cron' submit
32205 If the personal computer runs continuously, there is no problem, because it can
32206 run a conventional MTA that handles delivery to the smart host, and deal with
32207 any delays via its queueing mechanism. However, if the computer does not run
32208 continuously or runs different operating systems at different times, queueing
32209 email is not desirable.
32211 There is therefore a requirement for something that can provide the
32212 _/usr/sbin/sendmail_ interface but deliver messages to a smart host without
32213 any queueing or retrying facilities. Furthermore, the delivery to the smart
32214 host should be synchronous, so that if it fails, the sending MUA is immediately
32215 informed. In other words, we want something that extends an MUA that submits
32216 to a local MTA via the command line so that it behaves like one that submits
32217 to a remote smart host using TCP/SMTP.
32219 There are a number of applications (for example, there is one called 'ssmtp')
32220 that do this job. However, people have found them to be lacking in various
32221 ways. For instance, you might want to allow aliasing and forwarding to be done
32222 before sending a message to the smart host.
32224 Exim already had the necessary infrastructure for doing this job. Just a few
32225 tweaks were needed to make it behave as required, though it is somewhat of an
32226 overkill to use a fully-featured MTA for this purpose.
32228 cindex:[%mua_wrapper%]
32229 There is a Boolean global option called %mua_wrapper%, defaulting false.
32230 Setting %mua_wrapper% true causes Exim to run in a special mode where it
32231 assumes that it is being used to ``wrap'' a command-line MUA in the manner
32232 just described. As well as setting %mua_wrapper%, you also need to provide a
32233 compatible router and transport configuration. Typically there will be just one
32234 router and one transport, sending everything to a smart host.
32236 When run in MUA wrapping mode, the behaviour of Exim changes in the
32239 - A daemon cannot be run, nor will Exim accept incoming messages from 'inetd'.
32240 In other words, the only way to submit messages is via the command line.
32242 - Each message is synchonously delivered as soon as it is received (%-odi% is
32243 assumed). All queueing options (%queue_only%, %queue_smtp_domains%,
32244 %control% in an ACL, etc.) are quietly ignored. The Exim reception process does
32245 not finish until the delivery attempt is complete. If the delivery is
32246 successful, a zero return code is given.
32248 - Address redirection is permitted, but the final routing for all addresses must
32249 be to the same remote transport, and to the same list of hosts. Furthermore,
32250 the return address (envelope sender) must be the same for all recipients, as
32251 must any added or deleted header lines. In other words, it must be possible to
32252 deliver the message in a single SMTP transaction, however many recipients there
32255 - If these conditions are not met, or if routing any address results in a
32256 failure or defer status, or if Exim is unable to deliver all the recipients
32257 successfully to one of the smart hosts, delivery of the entire message fails.
32259 - Because no queueing is allowed, all failures are treated as permanent; there
32260 is no distinction between 4##'xx' and 5##'xx' SMTP response codes from the
32261 smart host. Furthermore, because only a single yes/no response can be given to
32262 the caller, it is not possible to deliver to some recipients and not others. If
32263 there is an error (temporary or permanent) for any recipient, all are failed.
32265 - If more than one smart host is listed, Exim will try another host after a
32266 connection failure or a timeout, in the normal way. However, if this kind of
32267 failure happens for all the hosts, the delivery fails.
32269 - When delivery fails, an error message is written to the standard error stream
32270 (as well as to Exim's log), and Exim exits to the caller with a return code
32271 value 1. The message is expunged from Exim's spool files. No bounce messages
32272 are ever generated.
32274 - No retry data is maintained, and any retry rules are ignored.
32276 - A number of Exim options are overridden: %deliver_drop_privilege% is forced
32277 true, %max_rcpt% in the smtp transport is forced to ``unlimited'',
32278 %remote_max_parallel% is forced to one, and fallback hosts are ignored.
32280 The overall effect is that Exim makes a single synchronous attempt to deliver
32281 the message, failing if there is any kind of problem. Because no local
32282 deliveries are done and no daemon can be run, Exim does not need root
32283 privilege. It should be possible to run it setuid to 'exim' instead of setuid
32284 to 'root'. See section <<SECTrunexiwitpri>> for a general discussion about the
32285 advantages and disadvantages of running without root privilege.
32290 ////////////////////////////////////////////////////////////////////////////
32291 ////////////////////////////////////////////////////////////////////////////
32296 cindex:[log,types of]
32297 cindex:[log,general description]
32298 Exim writes three different logs, referred to as the main log, the reject log,
32301 - cindex:[main log]
32302 The main log records the arrival of each message and each delivery in a single
32303 line in each case. The format is as compact as possible, in an attempt to keep
32304 down the size of log files. Two-character flag sequences make it easy to pick
32305 out these lines. A number of other events are recorded in the main log. Some of
32306 them are optional, in which case the %log_selector% option controls whether
32307 they are included or not. A Perl script called 'eximstats', which does simple
32308 analysis of main log files, is provided in the Exim distribution (see section
32311 - cindex:[reject log]
32312 The reject log records information from messages that are rejected as a result
32313 of a configuration option (that is, for policy reasons).
32314 The first line of each rejection is a copy of the line that is also written to
32315 the main log. Then, if the message's header has been read at the time the log
32316 is written, its contents are written to this log. Only the original header
32317 lines are available; header lines added by ACLs are not logged. You can use the
32318 reject log to check that your policy controls are working correctly; on a busy
32319 host this may be easier than scanning the main log for rejection messages. You
32320 can suppress the writing of the reject log by setting %write_rejectlog% false.
32322 - cindex:[panic log]
32323 cindex:[system log]
32324 When certain serious errors occur, Exim writes entries to its panic log. If the
32325 error is sufficiently disastrous, Exim bombs out afterwards. Panic log entries
32326 are usually written to the main log as well, but can get lost amid the mass of
32327 other entries. The panic log should be empty under normal circumstances. It is
32328 therefore a good idea to check it (or to have a 'cron' script check it)
32329 regularly, in order to become aware of any problems. When Exim cannot open its
32330 panic log, it tries as a last resort to write to the system log (syslog). This
32331 is opened with LOG_PID+LOG_CONS and the facility code of LOG_MAIL. The
32332 message itself is written at priority LOG_CRIT.
32334 Every log line starts with a timestamp, in the format shown in this example:
32336 2001-09-16 16:09:47 SMTP connection from [127.0.0.1] closed by QUIT
32338 By default, the timestamps are in the local timezone. There are two
32339 ways of changing this:
32341 - You can set the %timezone% option to a different time zone; in particular, if
32346 the timestamps will be in UTC (aka GMT).
32348 - If you set %log_timezone% true, the time zone is added to the timestamp, for
32351 2003-04-25 11:17:07 +0100 Start queue run: pid=12762
32358 Where the logs are written
32359 ~~~~~~~~~~~~~~~~~~~~~~~~~~
32360 cindex:[log,destination]
32361 cindex:[log,to file]
32362 cindex:[log,to syslog]
32364 The logs may be written to local files, or to syslog, or both. However, it
32365 should be noted that many syslog implementations use UDP as a transport, and
32366 are therefore unreliable in the sense that messages are not guaranteed to
32367 arrive at the loghost, nor is the ordering of messages necessarily maintained.
32368 It has also been reported that on large log files (tens of megabytes) you may
32369 need to tweak syslog to prevent it syncing the file with each write -- on Linux
32370 this has been seen to make syslog take 90% plus of CPU time.
32372 The destination for Exim's logs is configured by setting LOG_FILE_PATH in
32373 _Local/Makefile_ or by setting %log_file_path% in the run time
32374 configuration. This latter string is expanded, so it can contain, for example,
32375 references to the host name:
32377 log_file_path = /var/log/$primary_hostname/exim_%slog
32379 It is generally advisable, however, to set the string in _Local/Makefile_
32380 rather than at run time, because then the setting is available right from the
32381 start of Exim's execution. Otherwise, if there's something it wants to log
32382 before it has read the configuration file (for example, an error in the
32383 configuration file) it will not use the path you want, and may not be able to
32386 The value of LOG_FILE_PATH or %log_file_path% is a colon-separated
32387 list, currently limited to at most two items. This is one option where the
32388 facility for changing a list separator may not be used. The list must always be
32389 colon-separated. If an item in the list is ``syslog'' then syslog is used;
32390 otherwise the item must either be an absolute path, containing `%s` at the
32391 point where ``main'', ``reject'', or ``panic'' is to be inserted, or be empty,
32392 implying the use of a default path.
32394 When Exim encounters an empty item in the list, it searches the list defined by
32395 LOG_FILE_PATH, and uses the first item it finds that is neither empty nor
32396 ``syslog''. This means that an empty item in %log_file_path% can be used to
32397 mean ``use the path specified at build time''. It no such item exists, log files
32398 are written in the _log_ subdirectory of the spool directory. This is
32399 equivalent to the setting:
32401 log_file_path = $spool_directory/log/%slog
32403 If you do not specify anything at build time or run time, that is where the
32406 A log file path may also contain `%D` if datestamped log file names are in
32407 use -- see section <<SECTdatlogfil>> below.
32409 Here are some examples of possible settings:
32412 `LOG_FILE_PATH=syslog ` syslog only
32413 `LOG_FILE_PATH=:syslog ` syslog and default path
32414 `LOG_FILE_PATH=syslog : /usr/log/exim_%s ` syslog and specified path
32415 `LOG_FILE_PATH=/usr/log/exim_%s ` specified path only
32418 If there are more than two paths in the list, the first is used and a panic
32423 Logging to local files that are periodically ``cycled''
32424 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32425 cindex:[log,cycling local files]
32426 cindex:[cycling logs]
32427 cindex:['exicyclog']
32428 cindex:[log,local files; writing to]
32429 Some operating systems provide centralized and standardised methods for cycling
32430 log files. For those that do not, a utility script called 'exicyclog' is
32431 provided (see section <<SECTcyclogfil>>). This renames and compresses the main
32432 and reject logs each time it is called. The maximum number of old logs to keep
32433 can be set. It is suggested this script is run as a daily 'cron' job.
32435 An Exim delivery process opens the main log when it first needs to write to it,
32436 and it keeps the file open in case subsequent entries are required -- for
32437 example, if a number of different deliveries are being done for the same
32438 message. However, remote SMTP deliveries can take a long time, and this means
32439 that the file may be kept open long after it is renamed if 'exicyclog' or
32440 something similar is being used to rename log files on a regular basis. To
32441 ensure that a switch of log files is noticed as soon as possible, Exim calls
32442 'stat()' on the main log's name before reusing an open file, and if the file
32443 does not exist, or its inode has changed, the old file is closed and Exim
32444 tries to open the main log from scratch. Thus, an old log file may remain open
32445 for quite some time, but no Exim processes should write to it once it has been
32451 Datestamped log files
32452 ~~~~~~~~~~~~~~~~~~~~~
32453 cindex:[log,datestamped files]
32454 Instead of cycling the main and reject log files by renaming them
32455 periodically, some sites like to use files whose names contain a datestamp,
32456 for example, _mainlog-20031225_. The datestamp is in the form _yyyymmdd_.
32457 Exim has support for this way of working. It is enabled by setting the
32458 %log_file_path% option to a path that includes `%D` at the point where the
32459 datestamp is required. For example:
32461 log_file_path = /var/spool/exim/log/%slog-%D
32462 log_file_path = /var/log/exim-%s-%D.log
32463 log_file_path = /var/spool/exim/log/%D-%slog
32465 As before, `%s` is replaced by ``main'' or ``reject''; the following are examples
32466 of names generated by the above examples:
32468 /var/spool/exim/log/mainlog-20021225
32469 /var/log/exim-reject-20021225.log
32470 /var/spool/exim/log/20021225-mainlog
32472 When this form of log file is specified, Exim automatically switches to new
32473 files at midnight. It does not make any attempt to compress old logs; you
32474 will need to write your own script if you require this. You should not
32475 run 'exicyclog' with this form of logging.
32477 The location of the panic log is also determined by %log_file_path%, but it
32478 is not datestamped, because rotation of the panic log does not make sense.
32479 When generating the name of the panic log, `%D` is removed from the string.
32480 In addition, if it immediately follows a slash, a following non-alphanumeric
32481 character is removed; otherwise a preceding non-alphanumeric character is
32482 removed. Thus, the three examples above would give these panic log names:
32484 /var/spool/exim/log/paniclog
32485 /var/log/exim-panic.log
32486 /var/spool/exim/log/paniclog
32493 cindex:[log,syslog; writing to]
32494 The use of syslog does not change what Exim logs or the format of its messages,
32495 except in one respect. If %syslog_timestamp% is set false, the timestamps on
32496 Exim's log lines are omitted when these lines are sent to syslog. Apart from
32497 that, the same strings are written to syslog as to log files. The syslog
32498 ``facility'' is set to LOG_MAIL, and the program name to ``exim''
32499 by default, but you can change these by setting the %syslog_facility% and
32500 %syslog_processname% options, respectively. If Exim was compiled with
32501 SYSLOG_LOG_PID set in _Local/Makefile_ (this is the default in
32502 _src/EDITME_), then, on systems that permit it (all except ULTRIX), the
32503 LOG_PID flag is set so that the 'syslog()' call adds the pid as well as
32504 the time and host name to each line.
32505 The three log streams are mapped onto syslog priorities as follows:
32507 - 'mainlog' is mapped to LOG_INFO
32509 - 'rejectlog' is mapped to LOG_NOTICE
32511 - 'paniclog' is mapped to LOG_ALERT
32513 Many log lines are written to both 'mainlog' and 'rejectlog', and some are
32514 written to both 'mainlog' and 'paniclog', so there will be duplicates if
32515 these are routed by syslog to the same place. You can suppress this duplication
32516 by setting %syslog_duplication% false.
32518 Exim's log lines can sometimes be very long, and some of its 'rejectlog'
32519 entries contain multiple lines when headers are included. To cope with both
32520 these cases, entries written to syslog are split into separate 'syslog()'
32521 calls at each internal newline, and also after a maximum of
32522 870 data characters. (This allows for a total syslog line length of 1024, when
32523 additions such as timestamps are added.) If you are running a syslog
32524 replacement that can handle lines longer than the 1024 characters allowed by
32525 RFC 3164, you should set
32527 SYSLOG_LONG_LINES=yes
32529 in _Local/Makefile_ before building Exim. That stops Exim from splitting long
32530 lines, but it still splits at internal newlines in 'reject' log entries.
32532 To make it easy to re-assemble split lines later, each component of a split
32533 entry starts with a string of the form ``[<''n'>/<'m'>]' or ``[<''n'>\<'m'>]'
32534 where <'n'> is the component number and <'m'> is the total number of components
32535 in the entry. The / delimiter is used when the line was split because it was
32536 too long; if it was split because of an internal newline, the \ delimiter is
32537 used. For example, supposing the length limit to be 70 instead of 1000, the
32538 following would be the result of a typical rejection message to 'mainlog'
32539 (LOG_INFO), each line in addition being preceded by the time, host name, and
32540 pid as added by syslog:
32542 $smc\{[1/3] 2002-09-16 16:09:43 16RdAL-0006pc-00 rejected from [127.0.0.1] (ph10):
32543 [2/3] syntax error in 'From' header when scanning for sender: missing or ma
32544 [3/3] lformed local part in "<>" (envelope sender is <ph10@cam.example>)\}
32546 The same error might cause the following lines to be written to ``rejectlog''
32549 $smc\{[1/14] 2002-09-16 16:09:43 16RdAL-0006pc-00 rejected from [127.0.0.1] (ph10):
32550 [2/14] syntax error in 'From' header when scanning for sender: missing or ma
32551 [3\14] lformed local part in "<>" (envelope sender is <ph10@cam.example>)
32552 [4\14] Recipients: ph10@some.domain.cam.example
32553 [5\14] P Received: from [127.0.0.1] (ident=ph10)
32554 [6\14] by xxxxx.cam.example with smtp (Exim 4.00)
32555 [7\14] id 16RdAL-0006pc-00
32556 [8\14] for ph10@cam.example; Mon, 16 Sep 2002 16:09:43 +0100
32558 [10\14] Subject: this is a test header
32559 [11\14] X-something: this is another header
32560 [12\14] I Message-Id: <E16RdAL-0006pc-00@xxxxx.cam.example>
32562 [14/14] Date: Mon, 16 Sep 2002 16:09:43 +0100\}
32564 Log lines that are neither too long nor contain newlines are written to syslog
32565 without modification.
32567 If only syslog is being used, the Exim monitor is unable to provide a log tail
32568 display, unless syslog is routing 'mainlog' to a file on the local host and
32569 the environment variable EXIMON_LOG_FILE_PATH is set to tell the monitor
32576 One line is written to the main log for each message received, and for each
32577 successful, unsuccessful, and delayed delivery. These lines can readily be
32578 picked out by the distinctive two-character flags that immediately follow the
32579 timestamp. The flags are:
32582 `<=` message arrival
32583 `=>` normal message delivery
32584 `->` additional address in same delivery
32585 `\*>` delivery suppressed by %-N%
32586 `\*\*` delivery failed; address bounced
32587 `==` delivery deferred; temporary problem
32592 Logging message reception
32593 ~~~~~~~~~~~~~~~~~~~~~~~~~
32594 cindex:[log,reception line]
32595 The format of the single-line entry in the main log that is written for every
32596 message received is shown in the basic example below, which is split over
32597 several lines in order to fit it on the page:
32599 2002-10-31 08:57:53 16ZCW1-0005MB-00 <= kryten@dwarf.fict.example
32600 H=mailer.fict.example [192.168.123.123] U=exim
32601 P=smtp S=5678 id=<incoming message id>
32603 The address immediately following ``<='' is the envelope sender address. A bounce
32604 message is shown with the sender address ``<>'', and if it is locally generated,
32605 this is followed by an item of the form
32609 which is a reference to the message that caused the bounce to be sent.
32613 For messages from other hosts, the H and U fields identify the remote host and
32614 record the RFC 1413 identity of the user that sent the message, if one was
32615 received. The number given in square brackets is the IP address of the sending
32616 host. If there is a single, unparenthesized host name in the H field, as
32617 above, it has been verified to correspond to the IP address (see the
32618 %host_lookup% option). If the name is in parentheses, it was the name quoted
32619 by the remote host in the SMTP HELO or EHLO command, and has not been
32620 verified. If verification yields a different name to that given for HELO or
32621 EHLO, the verified name appears first, followed by the HELO or EHLO
32622 name in parentheses.
32624 Misconfigured hosts (and mail forgers) sometimes put an IP address, with or
32625 without brackets, in the HELO or EHLO command, leading to entries in
32626 the log containing text like these examples:
32628 H=(10.21.32.43) [192.168.8.34]
32629 H=([10.21.32.43]) [192.168.8.34]
32631 This can be confusing. Only the final address in square brackets can be relied
32634 For locally generated messages (that is, messages not received over TCP/IP),
32635 the H field is omitted, and the U field contains the login name of the caller
32638 [revisionflag="changed"]
32639 cindex:[authentication,logging]
32640 cindex:[AUTH,logging]
32641 For all messages, the P field specifies the protocol used to receive the
32642 message. This is the value that is stored in $received_protocol$. In the case
32643 of incoming SMTP messages, the value indicates whether or not any SMTP
32644 extensions (ESMTP), encryption, or authentication were used. If the SMTP
32645 session was encrypted, there is an additional X field that records the cipher
32646 suite that was used.
32648 [revisionflag="changed"]
32649 The protocol is set to ``esmptsa'' or ``esmtpa'' for messages received from
32650 hosts that have authenticated themselves using the SMTP AUTH command. The first
32651 value is used when the SMTP connection was encrypted (``secure''). In this case
32652 there is an additional item A= followed by the name of the authenticator that
32653 was used. If an authenticated identification was set up by the authenticator's
32654 %server_set_id% option, this is logged too, separated by a colon from the
32655 authenticator name.
32658 cindex:[size,of message]
32659 The id field records the existing message id, if present. The size of the
32660 received message is given by the S field. When the message is delivered,
32661 headers may be removed or added, so that the size of delivered copies of the
32662 message may not correspond with this value (and indeed may be different to each
32665 The %log_selector% option can be used to request the logging of additional
32666 data when a message is received. See section <<SECTlogselector>> below.
32672 cindex:[log,delivery line]
32673 The format of the single-line entry in the main log that is written for every
32674 delivery is shown in one of the examples below, for local and remote deliveries,
32675 respectively. Each example has been split into two lines in order to fit
32678 2002-10-31 08:59:13 16ZCW1-0005MB-00 => marv <marv@hitch.fict.example>
32679 R=localuser T=local_delivery
32680 2002-10-31 09:00:10 16ZCW1-0005MB-00 => monk@holistic.fict.example
32681 R=dnslookup T=remote_smtp H=holistic.fict.example [192.168.234.234]
32683 For ordinary local deliveries, the original address is given in angle brackets
32684 after the final delivery address, which might be a pipe or a file. If
32685 intermediate address(es) exist between the original and the final address, the
32686 last of these is given in parentheses after the final address. The R and T
32687 fields record the router and transport that were used to process the address.
32689 If a shadow transport was run after a successful local delivery, the log line
32690 for the successful delivery has an item added on the end, of the form
32692 ST=<shadow transport name>
32694 If the shadow transport did not succeed, the error message is put in
32695 parentheses afterwards.
32697 cindex:[asterisk,after IP address]
32698 When more than one address is included in a single delivery (for example, two
32699 SMTP RCPT commands in one transaction) the second and subsequent addresses are
32700 flagged with `->` instead of `=>`. When two or more messages are delivered down
32701 a single SMTP connection, an asterisk follows the IP address in the log lines
32702 for the second and subsequent messages.
32704 The generation of a reply message by a filter file gets logged as a ``delivery''
32705 to the addressee, preceded by ``>''.
32707 The %log_selector% option can be used to request the logging of additional
32708 data when a message is delivered. See section <<SECTlogselector>> below.
32711 Discarded deliveries
32712 ~~~~~~~~~~~~~~~~~~~~
32713 cindex:[discarded messages]
32714 cindex:[message,discarded]
32715 cindex:[delivery,discarded; logging]
32716 When a message is discarded as a result of the command ``seen finish'' being
32717 obeyed in a filter file which generates no deliveries, a log entry of the form
32719 2002-12-10 00:50:49 16auJc-0001UB-00 => discarded
32720 <low.club@bridge.example> R=userforward
32722 is written, to record why no deliveries are logged. When a message is discarded
32723 because it is aliased to ``:blackhole:'' the log line is like this:
32725 1999-03-02 09:44:33 10HmaX-0005vi-00 => :blackhole:
32726 <hole@nowhere.example> R=blackhole_router
32731 Deferred deliveries
32732 ~~~~~~~~~~~~~~~~~~~
32733 When a delivery is deferred, a line of the following form is logged:
32735 2002-12-19 16:20:23 16aiQz-0002Q5-00 == marvin@endrest.example
32736 R=dnslookup T=smtp defer (146): Connection refused
32738 In the case of remote deliveries, the error is the one that was given for the
32739 last IP address that was tried. Details of individual SMTP failures are also
32740 written to the log, so the above line would be preceded by something like
32742 2002-12-19 16:20:23 16aiQz-0002Q5-00 Failed to connect to
32743 mail1.endrest.example [192.168.239.239]: Connection refused
32745 When a deferred address is skipped because its retry time has not been reached,
32746 a message is written to the log, but this can be suppressed by setting an
32747 appropriate value in %log_selector%.
32753 cindex:[delivery,failure; logging]
32754 If a delivery fails because an address cannot be routed, a line of the
32755 following form is logged:
32757 1995-12-19 16:20:23 0tRiQz-0002Q5-00 ** jim@trek99.example
32758 <jim@trek99.example>: unknown mail domain
32760 If a delivery fails at transport time, the router and transport are shown, and
32761 the response from the remote host is included, as in this example:
32763 2002-07-11 07:14:17 17SXDU-000189-00 ** ace400@pb.example R=dnslookup
32764 T=remote_smtp: SMTP error from remote mailer after pipelined
32765 RCPT TO:<ace400@pb.example>: host pbmail3.py.example
32766 [192.168.63.111]: 553 5.3.0 <ace400@pb.example>...
32769 The word ``pipelined'' indicates that the SMTP PIPELINING extension was being
32770 used. See %hosts_avoid_esmtp% in the ^smtp^ transport for a way of
32771 disabling PIPELINING.
32773 The log lines for all forms of delivery failure are flagged with `\*\*`.
32779 cindex:[delivery,fake; logging]
32780 If a delivery does not actually take place because the %-N% option has been
32781 used to suppress it, a normal delivery line is written to the log, except that
32782 ``=>'' is replaced by ``\*>''.
32790 2002-10-31 09:00:11 16ZCW1-0005MB-00 Completed
32792 is written to the main log when a message is about to be removed from the spool
32793 at the end of its processing.
32798 Summary of Fields in Log Lines
32799 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32800 cindex:[log,summary of fields]
32801 A summary of the field identifiers that are used in log lines is shown in
32802 the following table:
32805 `A ` authenticator name (and optional id)
32806 `C ` SMTP confirmation on delivery
32807 `CV ` certificate verification status
32808 `DN ` distinguished name from peer certificate
32809 `DT ` on `=>` lines: time taken for a delivery
32810 `F ` sender address (on delivery lines)
32811 `H ` host name and IP address
32812 `I ` local interface used
32813 `id ` message id for incoming message
32814 `P ` on `<=` lines: protocol used
32815 ` ` on `=>` and `\*\*` lines: return path
32816 `QT ` on `=>` lines: time spent on queue so far
32817 ` ` on ``Completed'' lines: time spent on queue
32818 `R ` on `<=` lines: reference for local bounce
32819 ` ` on `=>` `\*\*` and `==` lines: router name
32820 `S ` size of message
32821 `ST ` shadow transport name
32822 `T ` on `<=` lines: message subject (topic)
32823 ` ` on `=>` `\*\*` and `==` lines: transport name
32824 `U ` local user or RFC 1413 identity
32825 `X ` TLS cipher suite
32832 Various other types of log entry are written from time to time. Most should be
32833 self-explanatory. Among the more common are:
32835 - cindex:[retry,time not reached]
32836 'retry time not reached'~~An address previously suffered a temporary error
32837 during routing or local delivery, and the time to retry has not yet arrived.
32838 This message is not written to an individual message log file unless it happens
32839 during the first delivery attempt.
32841 - 'retry time not reached for any host'~~An address previously suffered
32842 temporary errors during remote delivery, and the retry time has not yet arrived
32843 for any of the hosts to which it is routed.
32845 - cindex:[spool directory,file locked]
32846 'spool file locked'~~An attempt to deliver a message cannot proceed because
32847 some other Exim process is already working on the message. This can be quite
32848 common if queue running processes are started at frequent intervals. The
32849 'exiwhat' utility script can be used to find out what Exim processes are
32852 - cindex:[error,ignored]
32853 'error ignored'~~There are several circumstances that give rise to this
32856 . Exim failed to deliver a bounce message whose age was greater than
32857 %ignore_bounce_errors_after%. The bounce was discarded.
32859 . A filter file set up a delivery using the ``noerror'' option, and the delivery
32860 failed. The delivery was discarded.
32862 . A delivery set up by a router configured with
32866 failed. The delivery was discarded.
32872 [[SECTlogselector]]
32873 Reducing or increasing what is logged
32874 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
32875 cindex:[log,selectors]
32876 By setting the %log_selector% global option, you can disable some of Exim's
32877 default logging, or you can request additional logging. The value of
32878 %log_selector% is made up of names preceded by plus or minus characters. For
32881 log_selector = +arguments -retry_defer
32883 The list of optional log items is in the following table, with the default
32884 selection marked by asterisks:
32887 `\*acl_warn_skipped ` skipped %warn% statement in ACL
32888 ` address_rewrite ` address rewriting
32889 ` all_parents ` all parents in => lines
32890 ` arguments ` command line arguments
32891 `\*connection_reject ` connection rejections
32892 `\*delay_delivery ` immediate delivery delayed
32893 ` deliver_time ` time taken to perform delivery
32894 ` delivery_size ` add S=nnn to => lines
32895 `\*dnslist_defer ` defers of DNS list (aka RBL) lookups
32896 `\*etrn ` ETRN commands
32897 `\*host_lookup_failed ` as it says
32898 ` ident_timeout ` timeout for ident connection
32899 ` incoming_interface ` incoming interface on <= lines
32900 ` incoming_port ` incoming port on <= lines
32901 `\*lost_incoming_connection ` as it says (includes timeouts)
32902 ` outgoing_port ` add remote port to => lines
32903 `\*queue_run ` start and end queue runs
32904 ` queue_time ` time on queue for one recipient
32905 ` queue_time_overall ` time on queue for whole message
32906 ` received_recipients ` recipients on <= lines
32907 ` received_sender ` sender on <= lines
32908 `\*rejected_header ` header contents on reject log
32909 `\*retry_defer ` ``retry time not reached''
32910 ` return_path_on_delivery ` put return path on => and \*\ lines
32911 ` sender_on_delivery ` add sender to => lines
32912 `\*size_reject ` rejection because too big
32913 `\*skip_delivery ` delivery skipped in a queue run
32914 ` smtp_confirmation ` SMTP confirmation on => lines
32915 ` smtp_connection ` SMTP connections
32916 ` smtp_incomplete_transaction` incomplete SMTP transactions
32917 ` smtp_protocol_error ` SMTP protocol errors
32918 ` smtp_syntax_error ` SMTP syntax errors
32919 ` subject ` contents of 'Subject:' on <= lines
32920 ` tls_certificate_verified ` certificate verification status
32921 `\*tls_cipher ` TLS cipher suite on <= and => lines
32922 ` tls_peerdn ` TLS peer DN on <= and => lines
32923 ` unknown_in_list ` DNS lookup failed in list match
32925 ` all ` all of the above
32928 More details on each of these items follows:
32930 [revisionflag="changed"]
32931 - cindex:[%warn% statement,log when skipping]
32932 %acl_warn_skipped%: When an ACL %warn% statement is skipped because one of its
32933 conditions cannot be evaluated, a log line to this effect is written if this
32934 log selector is set.
32936 - cindex:[log,rewriting]
32937 cindex:[rewriting,logging]
32938 %address_rewrite%: This applies both to global rewrites and per-transport
32939 rewrites, but not to rewrites in filters run as an unprivileged user (because
32940 such users cannot access the log).
32942 - cindex:[log,full parentage]
32943 %all_parents%: Normally only the original and final addresses are logged on
32944 delivery lines; with this selector, intermediate parents are given in
32945 parentheses between them.
32947 - cindex:[log,Exim arguments]
32948 cindex:[Exim arguments, logging]
32949 %arguments%: This causes Exim to write the arguments with which it was called
32950 to the main log, preceded by the current working directory. This is a debugging
32951 feature, added to make it easier to find out how certain MUAs call
32952 _/usr/sbin/sendmail_. The logging does not happen if Exim has given up root
32953 privilege because it was called with the %-C% or %-D% options. Arguments that
32954 are empty or that contain white space are quoted. Non-printing characters are
32955 shown as escape sequences. This facility cannot log unrecognized arguments,
32956 because the arguments are checked before the configuration file is read. The
32957 only way to log such cases is to interpose a script such as _util/logargs.sh_
32958 between the caller and Exim.
32960 - cindex:[log,connection rejections]
32961 %connection_reject%: A log entry is written whenever an incoming SMTP
32962 connection is rejected, for whatever reason.
32964 - cindex:[log,delayed delivery]
32965 cindex:[delayed delivery, logging]
32966 %delay_delivery%: A log entry is written whenever a delivery process is not
32967 started for an incoming message because the load is too high or too many
32968 messages were received on one connection. Logging does not occur if no delivery
32969 process is started because %queue_only% is set or %-odq% was used.
32971 - cindex:[log,delivery duration]
32972 %deliver_time%: For each delivery, the amount of real time it has taken to
32973 perform the actual delivery is logged as DT=<'time'>, for example, `DT=1s`.
32975 - cindex:[log,message size on delivery]
32976 cindex:[size,of message]
32977 %delivery_size%: For each delivery, the size of message delivered is added to
32978 the ``=>'' line, tagged with S=.
32980 - cindex:[log,dnslist defer]
32981 cindex:[DNS list,logging defer]
32982 cindex:[black list (DNS)]
32983 %dnslist_defer%: A log entry is written if an attempt to look up a host in a
32984 DNS black list suffers a temporary error.
32986 - cindex:[log,ETRN commands]
32987 cindex:[ETRN,logging]
32988 %etrn%: Every legal ETRN command that is received is logged, before the ACL is
32989 run to determine whether or not it is actually accepted. An invalid ETRN
32990 command, or one received within a message transaction is not logged by this
32991 selector (see %smtp_syntax_error% and %smtp_protocol_error%).
32993 - cindex:[log,host lookup failure]
32994 %host_lookup_failed%: When a lookup of a host's IP addresses fails to find
32995 any addresses, or when a lookup of an IP address fails to find a host name, a
32996 log line is written. This logging does not apply to direct DNS lookups when
32997 routing email addresses, but it does apply to ``byname'' lookups.
32999 - cindex:[log,ident timeout]
33000 cindex:[RFC 1413,logging timeout]
33001 %ident_timeout%: A log line is written whenever an attempt to connect to a
33002 client's ident port times out.
33004 - cindex:[log,incoming interface]
33005 cindex:[interface,logging]
33006 %incoming_interface%: The interface on which a message was received is added to
33007 the ``<='' line as an IP address in square brackets, tagged by I= and followed
33008 by a colon and the port number. The local interface and port are also added to
33009 other SMTP log lines, for example ``SMTP connection from'', and to rejection
33012 - cindex:[log,incoming remote port]
33013 cindex:[port,logging remote]
33014 cindex:[TCP/IP,logging incoming remote port]
33015 cindex:[$sender_fullhost$]
33016 cindex:[$sender_rcvhost$]
33017 %incoming_port%: The remote port number from which a message was received is
33018 added to log entries and 'Received:' header lines, following the IP address in
33019 square brackets, and separated from it by a colon. This is implemented by
33020 changing the value that is put in the $sender_fullhost$ and
33021 $sender_rcvhost$ variables. Recording the remote port number has become more
33022 important with the widening use of NAT (see RFC 2505).
33024 - cindex:[log,dropped connection]
33025 %lost_incoming_connection%: A log line is written when an incoming SMTP
33026 connection is unexpectedly dropped.
33028 - cindex:[log,outgoing remote port]
33029 cindex:[port,logging outgoint remote]
33030 cindex:[TCP/IP,logging ougtoing remote port]
33031 %outgoing_port%: The remote port number is added to delivery log lines (those
33032 containing => tags) following the IP address. This option is not included in
33033 the default setting, because for most ordinary configurations, the remote port
33034 number is always 25 (the SMTP port).
33036 - cindex:[log,queue run]
33037 cindex:[queue runner,logging]
33038 %queue_run%: The start and end of every queue run are logged.
33040 - cindex:[log,queue time]
33041 %queue_time%: The amount of time the message has been in the queue on the local
33042 host is logged as QT=<'time'> on delivery (`=>`) lines, for example,
33043 `QT=3m45s`. The clock starts when Exim starts to receive the message, so it
33044 includes reception time as well as the delivery time for the current address.
33045 This means that it may be longer than the difference between the arrival and
33046 delivery log line times, because the arrival log line is not written until the
33047 message has been successfully received.
33049 - %queue_time_overall%: The amount of time the message has been in the queue on
33050 the local host is logged as QT=<'time'> on ``Completed'' lines, for
33051 example, `QT=3m45s`. The clock starts when Exim starts to receive the
33052 message, so it includes reception time as well as the total delivery time.
33054 - cindex:[log,recipients]
33055 %received_recipients%: The recipients of a message are listed in the main log
33056 as soon as the message is received. The list appears at the end of the log line
33057 that is written when a message is received, preceded by the word ``for''. The
33058 addresses are listed after they have been qualified, but before any rewriting
33060 Recipients that were discarded by an ACL for MAIL or RCPT do not appear
33063 - cindex:[log,sender reception]
33064 %received_sender%: The unrewritten original sender of a message is added to
33065 the end of the log line that records the message's arrival, after the word
33066 ``from'' (before the recipients if %received_recipients% is also set).
33068 - cindex:[log,header lines for rejection]
33069 %rejected_header%: If a message's header has been received at the time a
33070 rejection is written to the reject log, the complete header is added to the
33071 log. Header logging can be turned off individually for messages that are
33072 rejected by the 'local_scan()' function (see section <<SECTapiforloc>>).
33074 - cindex:[log,retry defer]
33075 %retry_defer%: A log line is written if a delivery is deferred because a retry
33076 time has not yet been reached. However, this ``retry time not reached'' message
33077 is always omitted from individual message logs after the first delivery
33080 - cindex:[log,return path]
33081 %return_path_on_delivery%: The return path that is being transmitted with
33082 the message is included in delivery and bounce lines, using the tag P=.
33083 This is omitted if no delivery actually happens, for example, if routing fails,
33084 or if delivery is to _/dev/null_ or to `:blackhole:`.
33086 - cindex:[log,sender on delivery]
33087 %sender_on_delivery%: The message's sender address is added to every delivery
33088 and bounce line, tagged by F= (for ``from'').
33089 This is the original sender that was received with the message; it is not
33090 necessarily the same as the outgoing return path.
33092 - cindex:[log,size rejection]
33093 %size_reject%: A log line is written whenever a message is rejected because it
33096 - cindex:[log,frozen messages; skipped]
33097 cindex:[frozen messages,logging skipping]
33098 %skip_delivery%: A log line is written whenever a message is skipped during a
33099 queue run because it is frozen or because another process is already delivering
33101 cindex:[``spool file is locked'']
33102 The message that is written is ``spool file is locked''.
33104 - cindex:[log,smtp confirmation]
33105 cindex:[SMTP,logging confirmation]
33106 %smtp_confirmation%: The response to the final ``.'' in the SMTP dialogue for
33107 outgoing messages is added to delivery log lines in the form ``C="<''text'>"'. A
33108 number of MTAs (including Exim) return an identifying string in this response.
33110 - cindex:[log,SMTP connections]
33111 cindex:[SMTP,logging connections]
33112 %smtp_connection%: A log line is written whenever an SMTP connection is
33113 established or closed, unless the connection is from a host that matches
33114 %hosts_connection_nolog%. (In contrast, %lost_incoming_connection% applies only
33115 when the closure is unexpected.) This applies to connections from local
33116 processes that use %-bs% as well as to TCP/IP connections. If a connection is
33117 dropped in the middle of a message, a log line is always written, whether or
33118 not this selector is set, but otherwise nothing is written at the start and end
33119 of connections unless this selector is enabled.
33121 For TCP/IP connections to an Exim daemon, the current number of connections is
33122 included in the log message for each new connection, but note that the count is
33123 reset if the daemon is restarted.
33124 Also, because connections are closed (and the closure is logged) in
33125 subprocesses, the count may not include connections that have been closed but
33126 whose termination the daemon has not yet noticed. Thus, while it is possible to
33127 match up the opening and closing of connections in the log, the value of the
33128 logged counts may not be entirely accurate.
33130 - cindex:[log,SMTP transaction; incomplete]
33131 cindex:[SMTP,logging incomplete transactions]
33132 %smtp_incomplete_transaction%: When a mail transaction is aborted by
33133 RSET, QUIT, loss of connection, or otherwise, the incident is logged,
33134 and the message sender plus any accepted recipients are included in the log
33135 line. This can provide evidence of dictionary attacks.
33137 - cindex:[log,SMTP protocol error]
33138 cindex:[SMTP,logging protocol error]
33139 %smtp_protocol_error%: A log line is written for every SMTP protocol error
33140 encountered. Exim does not have perfect detection of all protocol errors
33141 because of transmission delays and the use of pipelining. If PIPELINING has
33142 been advertised to a client, an Exim server assumes that the client will use
33143 it, and therefore it does not count ``expected'' errors (for example, RCPT
33144 received after rejecting MAIL) as protocol errors.
33146 - cindex:[SMTP,logging syntax errors]
33147 cindex:[SMTP,syntax errors; logging]
33148 cindex:[SMTP,unknown command; logging]
33149 cindex:[log,unknown SMTP command]
33150 cindex:[log,SMTP syntax error]
33151 %smtp_syntax_error%: A log line is written for every SMTP syntax error
33152 encountered. An unrecognized command is treated as a syntax error. For an
33153 external connection, the host identity is given; for an internal connection
33154 using %-bs% the sender identification (normally the calling user) is given.
33156 - cindex:[log,subject]
33157 cindex:[subject, logging]
33158 %subject%: The subject of the message is added to the arrival log line,
33159 preceded by ``T='' (T for ``topic'', since S is already used for ``size'').
33160 Any MIME ``words'' in the subject are decoded. The %print_topbitchars% option
33161 specifies whether characters with values greater than 127 should be logged
33162 unchanged, or whether they should be rendered as escape sequences.
33164 - cindex:[log,certificate verification]
33165 %tls_certificate_verified%: An extra item is added to <= and => log lines
33166 when TLS is in use. The item is `CV=yes` if the peer's certificate was
33167 verified, and `CV=no` if not.
33169 - cindex:[log,TLS cipher]
33170 cindex:[TLS,logging cipher]
33171 %tls_cipher%: When a message is sent or received over an encrypted connection,
33172 the cipher suite used is added to the log line, preceded by X=.
33174 - cindex:[log,TLS peer DN]
33175 cindex:[TLS,logging peer DN]
33176 %tls_peerdn%: When a message is sent or received over an encrypted connection,
33177 and a certificate is supplied by the remote host, the peer DN is added to the
33178 log line, preceded by DN=.
33180 [revisionflag="changed"]
33181 - cindex:[log,DNS failure in list]
33182 %unknown_in_list%: This setting causes a log entry to be written when the
33183 result of a list match is failure because a DNS lookup failed.
33188 cindex:[message,log file for]
33189 cindex:[log,message log; description of]
33190 In addition to the general log files, Exim writes a log file for each message
33191 that it handles. The names of these per-message logs are the message ids, and
33193 cindex:[_msglog_ directory]
33194 they are kept in the _msglog_ sub-directory of the spool directory. Each
33195 message log contains copies of the log lines that apply to the message. This
33196 makes it easier to inspect the status of an individual message without having
33197 to search the main log. A message log is deleted when processing of the message
33200 cindex:[%preserve_message_logs%]
33201 unless %preserve_message_logs% is set, but this should be used only with
33202 great care because they can fill up your disk very quickly.
33204 On a heavily loaded system, it may be desirable to disable the use of
33205 per-message logs, in order to reduce disk I/O. This can be done by setting the
33206 %message_logs% option false.
33210 ////////////////////////////////////////////////////////////////////////////
33211 ////////////////////////////////////////////////////////////////////////////
33217 A number of utility scripts and programs are supplied with Exim and are
33218 described in this chapter. There is also the Exim Monitor, which is covered in
33219 the next chapter. The utilities described here are:
33223 ,<<SECTfinoutwha>> , 'exiwhat' , list what Exim processes are doing
33224 ,<<SECTgreptheque>> , 'exiqgrep' , grep the queue
33225 ,<<SECTsumtheque>> , 'exiqsumm' , summarize the queue
33226 ,<<SECTextspeinf>> , 'exigrep' , search the main log
33227 ,<<SECTexipick>> , 'exipick' , select messages on various criteria
33228 ,<<SECTcyclogfil>> , 'exicyclog' , cycle (rotate) log files
33229 ,<<SECTmailstat>> , 'eximstats' , extract statistics from the log
33230 ,<<SECTcheckaccess>> , 'exim_checkaccess', check address acceptance from given IP
33231 ,<<SECTdbmbuild>> , 'exim_dbmbuild' , build a DBM file
33232 ,<<SECTfinindret>> , 'exinext' , extract retry information
33233 ,<<SECThindatmai>> , 'exim_dumpdb' , dump a hints database
33234 ,<<SECThindatmai>> , 'exim_tidydb' , clean up a hints database
33235 ,<<SECThindatmai>> , 'exim_fixdb' , patch a hints database
33236 ,<<SECTmailboxmaint>>, 'exim_lock' , lock a mailbox file
33239 [revisionflag="changed"]
33240 Another utility that might be of use to sites with many MTAs is Tom Kistner's
33241 'exilog'. It provides log visualizations across multiple Exim servers. See
33242 (*http://duncanthrax.net/exilog/[]*) for details.
33249 Finding out what Exim processes are doing (exiwhat)
33250 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33252 cindex:[process, querying]
33254 On operating systems that can restart a system call after receiving a signal
33255 (most modern OS), an Exim process responds to the SIGUSR1 signal by writing
33256 a line describing what it is doing to the file _exim-process.info_ in the
33257 Exim spool directory. The 'exiwhat' script sends the signal to all Exim
33258 processes it can find, having first emptied the file. It then waits for one
33259 second to allow the Exim processes to react before displaying the results. In
33260 order to run 'exiwhat' successfully you have to have sufficient privilege to
33261 send the signal to the Exim processes, so it is normally run as root.
33263 *Warning*: This is not an efficient process. It is intended for occasional
33264 use by system administrators. It is not sensible, for example, to set up a
33265 script that sends SIGUSR1 signals to Exim processes at short intervals.
33268 Unfortunately, the 'ps' command that 'exiwhat' uses to find Exim processes
33269 varies in different operating systems. Not only are different options used,
33270 but the format of the output is different. For this reason, there are some
33271 system configuration options that configure exactly how 'exiwhat' works. If it
33272 doesn't seem to be working for you, check the following compile-time options:
33275 `EXIWHAT_PS_CMD ` the command for running 'ps'
33276 `EXIWHAT_PS_ARG ` the argument for 'ps'
33277 `EXIWHAT_EGREP_ARG ` the argument for 'egrep' to select from 'ps' output
33278 `EXIWHAT_KILL_ARG ` the argument for the 'kill' command
33281 An example of typical output from 'exiwhat' is
33283 164 daemon: -q1h, listening on port 25
33284 10483 running queue: waiting for 0tAycK-0002ij-00 (10492)
33285 10492 delivering 0tAycK-0002ij-00 to mail.ref.example [10.19.42.42]
33286 (editor@ref.example)
33287 10592 handling incoming call from [192.168.243.242]
33288 10628 accepting a local non-SMTP message
33290 The first number in the output line is the process number. The third line has
33291 been split here, in order to fit it on the page.
33296 Selective queue listing (exiqgrep)
33297 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33298 cindex:['exiqgrep']
33299 cindex:[queue,grepping]
33300 This utility is a Perl script contributed by Matt Hubbard. It runs
33304 to obtain a queue listing with undelivered recipients only, and then greps the
33305 output to select messages that match given criteria. The following selection
33306 options are available:
33309 Match the sender address. The field that is tested is enclosed in angle
33310 brackets, so you can test for bounce messages with
33315 Match a recipient address. The field that is tested is not enclosed in angle
33319 Match against the size field.
33322 Match messages that are younger than the given time.
33325 Match messages that are older than the given time.
33328 Match only frozen messages.
33331 Match only non-frozen messages.
33337 The following options control the format of the output:
33340 Display only the count of matching messages.
33343 Long format -- display the full message information as output by Exim. This is
33347 Display message ids only.
33350 Brief format -- one line per message.
33353 Display messages in reverse order.
33359 There is one more option, %-h%, which outputs a list of options.
33364 Summarising the queue (exiqsumm)
33365 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33366 cindex:['exiqsumm']
33367 cindex:[queue,summary]
33368 The 'exiqsumm' utility is a Perl script which reads the output of 'exim
33369 -bp' and produces a summary of the messages on the queue. Thus, you use it by
33370 running a command such as
33372 exim -bp | exiqsumm
33374 The output consists of one line for each domain that has messages waiting for
33375 it, as in the following example:
33377 3 2322 74m 66m msn.com.example
33379 Each line lists the number of
33380 pending deliveries for a domain, their total volume, and the length of time
33381 that the oldest and the newest messages have been waiting. Note that the number
33382 of pending deliveries is greater than the number of messages when messages
33383 have more than one recipient.
33385 A summary line is output at the end. By default the output is sorted on the
33386 domain name, but 'exiqsumm' has the options %-a% and %-c%, which cause the
33387 output to be sorted by oldest message and by count of messages, respectively.
33389 The output of 'exim -bp' contains the original addresses in the message, so
33390 this also applies to the output from 'exiqsumm'. No domains from addresses
33391 generated by aliasing or forwarding are included (unless the %one_time% option
33392 of the ^redirect^ router has been used to convert them into ``top level''
33399 Extracting specific information from the log (exigrep)
33400 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33401 [revisionflag="changed"]
33403 cindex:[log,extracts; grepping for]
33404 The 'exigrep' utility is a Perl script that searches one or more main log
33405 files for entries that match a given pattern. When it finds a match, it
33406 extracts all the log entries for the relevant message, not just those that
33407 match the pattern. Thus, 'exigrep' can extract complete log entries for a
33408 given message, or all mail for a given user, or for a given host, for example.
33409 The input files can be in Exim log format or syslog format.
33411 If a matching log line is not associated with a specific message, it is always
33412 included in 'exigrep''s output. The usage is:
33414 exigrep [-l] [-t<n>] <pattern> [<log file>] ...
33416 The %-t% argument specifies a number of seconds. It adds an additional
33417 condition for message selection. Messages that are complete are shown only if
33418 they spent more than <'n'> seconds on the queue.
33420 The %-l% flag means ``literal'', that is, treat all characters in the
33421 pattern as standing for themselves. Otherwise the pattern must be a Perl
33422 regular expression. The pattern match is case-insensitive. If no file names are
33423 given on the command line, the standard input is read.
33425 If the location of a 'zcat' command is known from the definition of
33426 ZCAT_COMMAND in _Local/Makefile_, 'exigrep' automatically passes any file whose
33427 name ends in COMPRESS_SUFFIX through 'zcat' as it searches it.
33431 Selecting messages by various criteria (exipick)
33432 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33434 John Jetmore's 'exipick' utility is included in the Exim distribution. It
33435 lists messages from the queue according to a variety of criteria. For details,
33444 Cycling log files (exicyclog)
33445 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33446 cindex:[log,cycling local files]
33447 cindex:[cycling logs]
33448 cindex:['exicyclog']
33449 The 'exicyclog' script can be used to cycle (rotate) 'mainlog' and
33450 'rejectlog' files. This is not necessary if only syslog is being used, or if
33451 you are using log files with datestamps in their names (see section
33452 <<SECTdatlogfil>>). Some operating systems have their own standard mechanisms for
33453 log cycling, and these can be used instead of 'exicyclog' if preferred.
33455 Each time 'exicyclog' is run the file names get ``shuffled down'' by one. If
33456 the main log file name is _mainlog_ (the default) then when 'exicyclog' is
33457 run _mainlog_ becomes _mainlog.01_, the previous _mainlog.01_ becomes
33458 _mainlog.02_ and so on, up to a limit which is set in the script, and which
33459 defaults to 10. Log files whose numbers exceed the limit are discarded. Reject
33460 logs are handled similarly.
33462 If the limit is greater than 99, the script uses 3-digit numbers such as
33463 _mainlog.001_, _mainlog.002_, etc. If you change from a number less than 99
33464 to one that is greater, or 'vice versa', you will have to fix the names of
33465 any existing log files.
33468 If no _mainlog_ file exists, the script does nothing. Files that ``drop off''
33469 the end are deleted. All files with numbers greater than 01 are compressed,
33470 using a compression command which is configured by the COMPRESS_COMMAND
33471 setting in _Local/Makefile_. It is usual to run 'exicyclog' daily from a
33472 root %crontab% entry of the form
33474 1 0 * * * su exim -c /usr/exim/bin/exicyclog
33476 assuming you have used the name ``exim'' for the Exim user. You can run
33477 'exicyclog' as root if you wish, but there is no need.
33482 Mail statistics (eximstats)
33483 ~~~~~~~~~~~~~~~~~~~~~~~~~~~
33484 cindex:[statistics]
33485 cindex:['eximstats']
33486 A Perl script called 'eximstats' is provided for extracting statistical
33487 information from log files. The output is either plain text, or HTML.
33488 Exim log files are also suported by the 'Lire' system produced by the
33489 LogReport Foundation (*http://www.logreport.org[]*).
33491 The 'eximstats' script has been hacked about quite a bit over time. The
33492 latest version is the result of some extensive revision by Steve Campbell. A
33493 lot of information is given by default, but there are options for suppressing
33494 various parts of it. Following any options, the arguments to the script are a
33495 list of files, which should be main log files. For example:
33497 eximstats -nr /var/spool/exim/log/mainlog.01
33499 By default, 'eximstats' extracts information about the number and volume of
33500 messages received from or delivered to various hosts. The information is sorted
33501 both by message count and by volume, and the top fifty hosts in each category
33502 are listed on the standard output. Similar information, based on email
33503 addresses or domains instead of hosts can be requested by means of various
33504 options. For messages delivered and received locally, similar statistics are
33505 also produced per user.
33507 The output also includes total counts and statistics about delivery errors, and
33508 histograms showing the number of messages received and deliveries made in each
33509 hour of the day. A delivery with more than one address in its envelope (for
33510 example, an SMTP transaction with more than one RCPT command) is counted
33511 as a single delivery by 'eximstats'.
33513 Though normally more deliveries than receipts are reported (as messages may
33514 have multiple recipients), it is possible for 'eximstats' to report more
33515 messages received than delivered, even though the queue is empty at the start
33516 and end of the period in question. If an incoming message contains no valid
33517 recipients, no deliveries are recorded for it. A bounce message is handled as
33518 an entirely separate message.
33520 'eximstats' always outputs a grand total summary giving the volume and number
33521 of messages received and deliveries made, and the number of hosts involved in
33522 each case. It also outputs the number of messages that were delayed (that is,
33523 not completely delivered at the first attempt), and the number that had at
33524 least one address that failed.
33526 The remainder of the output is in sections that can be independently disabled
33527 or modified by various options. It consists of a summary of deliveries by
33528 transport, histograms of messages received and delivered per time interval
33529 (default per hour), information about the time messages spent on the queue,
33530 a list of relayed messages, lists of the top fifty sending hosts, local
33531 senders, destination hosts, and destination local users by count and by volume,
33532 and a list of delivery errors that occurred.
33534 The relay information lists messages that were actually relayed, that is, they
33535 came from a remote host and were directly delivered to some other remote host,
33536 without being processed (for example, for aliasing or forwarding) locally.
33538 There are quite a few options for 'eximstats' to control exactly what it
33539 outputs. These are documented in the Perl script itself, and can be extracted
33540 by running the command ^perldoc^ on the script. For example:
33542 perldoc /usr/exim/bin/eximstats
33546 [[SECTcheckaccess]]
33547 Checking access policy (exim_checkaccess)
33548 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33549 cindex:['exim_checkaccess']
33550 cindex:[policy control,checking access]
33551 cindex:[checking access]
33552 The %-bh% command line argument allows you to run a fake SMTP session with
33553 debugging output, in order to check what Exim is doing when it is applying
33554 policy controls to incoming SMTP mail. However, not everybody is sufficiently
33555 familiar with the SMTP protocol to be able to make full use of %-bh%, and
33556 sometimes you just want to answer the question 'Does this address have
33557 access?' without bothering with any further details.
33559 The 'exim_checkaccess' utility is a ``packaged'' version of %-bh%. It takes
33560 two arguments, an IP address and an email address:
33562 exim_checkaccess 10.9.8.7 A.User@a.domain.example
33564 The utility runs a call to Exim with the %-bh% option, to test whether the
33565 given email address would be accepted in a RCPT command in a TCP/IP
33566 connection from the host with the given IP address. The output of the utility
33567 is either the word ``accepted'', or the SMTP error response, for example:
33570 550 Relay not permitted
33572 When running this test, the utility uses `<>` as the envelope sender address
33573 for the MAIL command, but you can change this by providing additional
33574 options. These are passed directly to the Exim command. For example, to specify
33575 that the test is to be run with the sender address 'himself@there.example'
33579 exim_checkaccess 10.9.8.7 A.User@a.domain.example \
33580 -f himself@there.example
33583 Note that these additional Exim command line items must be given after the two
33584 mandatory arguments.
33586 Because the %exim_checkaccess% uses %-bh%, it does not perform callouts while
33587 running its checks. You can run checks that include callouts by using %-bhc%,
33588 but this is not yet available in a ``packaged'' form.
33593 Making DBM files (exim_dbmbuild)
33594 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33595 cindex:[DBM,building dbm files]
33596 cindex:[building DBM files]
33597 cindex:['exim_dbmbuild']
33598 cindex:[lower casing]
33599 cindex:[binary zero,in lookup key]
33600 The 'exim_dbmbuild' program reads an input file containing keys and data in
33601 the format used by the ^lsearch^ lookup (see section <<SECTsinglekeylookups>>).
33602 It writes a DBM file using the lower-cased alias names as keys and the
33603 remainder of the information as data. The lower-casing can be prevented by
33604 calling the program with the %-nolc% option.
33606 A terminating zero is included as part of the key string. This is expected by
33607 the ^dbm^ lookup type. However, if the option %-nozero% is given,
33608 'exim_dbmbuild' creates files without terminating zeroes in either the key
33609 strings or the data strings. The ^dbmnz^ lookup type can be used with such
33612 The program requires two arguments: the name of the input file (which can be a
33613 single hyphen to indicate the standard input), and the name of the output file.
33614 It creates the output under a temporary name, and then renames it if all went
33618 If the native DB interface is in use (USE_DB is set in a compile-time
33619 configuration file -- this is common in free versions of Unix) the two file
33620 names must be different, because in this mode the Berkeley DB functions create
33621 a single output file using exactly the name given. For example,
33623 exim_dbmbuild /etc/aliases /etc/aliases.db
33625 reads the system alias file and creates a DBM version of it in
33628 In systems that use the 'ndbm' routines (mostly proprietary versions of Unix),
33629 two files are used, with the suffixes _.dir_ and _.pag_. In this
33630 environment, the suffixes are added to the second argument of
33631 'exim_dbmbuild', so it can be the same as the first. This is also the case
33632 when the Berkeley functions are used in compatibility mode (though this is not
33633 recommended), because in that case it adds a _.db_ suffix to the file name.
33635 If a duplicate key is encountered, the program outputs a warning, and when it
33636 finishes, its return code is 1 rather than zero, unless the %-noduperr% option
33637 is used. By default, only the first of a set of duplicates is used -- this
33638 makes it compatible with ^lsearch^ lookups. There is an option %-lastdup%
33639 which causes it to use the data for the last duplicate instead. There is also
33640 an option %-nowarn%, which stops it listing duplicate keys to %stderr%. For
33641 other errors, where it doesn't actually make a new file, the return code is 2.
33647 Finding individual retry times (exinext)
33648 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33649 cindex:[retry,times]
33651 A utility called 'exinext' (mostly a Perl script) provides the ability to fish
33652 specific information out of the retry database. Given a mail domain (or a
33653 complete address), it looks up the hosts for that domain, and outputs any retry
33654 information for the hosts or for the domain. At present, the retry information
33655 is obtained by running 'exim_dumpdb' (see below) and post-processing the
33656 output. For example:
33658 $ exinext piglet@milne.fict.example
33659 kanga.milne.fict.example:192.168.8.1 error 146: Connection refused
33660 first failed: 21-Feb-1996 14:57:34
33661 last tried: 21-Feb-1996 14:57:34
33662 next try at: 21-Feb-1996 15:02:34
33663 roo.milne.fict.example:192.168.8.3 error 146: Connection refused
33664 first failed: 20-Jan-1996 13:12:08
33665 last tried: 21-Feb-1996 11:42:03
33666 next try at: 21-Feb-1996 19:42:03
33667 past final cutoff time
33669 You can also give 'exinext' a local part, without a domain, and it
33670 will give any retry information for that local part in your default domain.
33671 A message id can be used to obtain retry information pertaining to a specific
33672 message. This exists only when an attempt to deliver a message to a remote host
33673 suffers a message-specific error (see section <<SECToutSMTPerr>>). 'exinext' is
33674 not particularly efficient, but then it isn't expected to be run very often.
33676 The 'exinext' utility calls Exim to find out information such as the location
33677 of the spool directory. The utility has %-C% and %-D% options, which are
33678 passed on to the 'exim' commands. The first specifies an alternate Exim
33679 configuration file, and the second sets macros for use within the configuration
33680 file. These features are mainly to help in testing, but might also be useful in
33681 environments where more than one configuration file is in use.
33687 Hints database maintenance (exim_dumpdb, exim_fixdb, exim_tidydb)
33688 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33689 cindex:[hints database,maintenance]
33690 cindex:[maintaining Exim's hints database]
33691 Three utility programs are provided for maintaining the DBM files that Exim
33692 uses to contain its delivery hint information. Each program requires two
33693 arguments. The first specifies the name of Exim's spool directory, and the
33694 second is the name of the database it is to operate on. These are as follows:
33696 - 'retry': the database of retry information
33698 - 'wait-'<'transport name'>: databases of information about messages waiting
33701 - 'callout': the callout cache
33703 [revisionflag="changed"]
33704 - 'ratelimit': the data for implementing the ratelimit ACL condition
33706 - 'misc': other hints data
33708 The 'misc' database is used for
33710 - Serializing ETRN runs (when %smtp_etrn_serialize% is set)
33712 - Serializing delivery to a specific host (when %serialize_hosts% is set in an
33719 cindex:['exim_dumpdb']
33720 The entire contents of a database are written to the standard output by the
33721 'exim_dumpdb' program, which has no options or arguments other than the
33722 spool and database names. For example, to dump the retry database:
33724 exim_dumpdb /var/spool/exim retry
33726 Two lines of output are produced for each entry:
33728 T:mail.ref.example:192.168.242.242 146 77 Connection refused
33729 31-Oct-1995 12:00:12 02-Nov-1995 12:21:39 02-Nov-1995 20:21:39 *
33731 The first item on the first line is the key of the record. It starts with one
33732 of the letters R, or T, depending on whether it refers to a routing or
33733 transport retry. For a local delivery, the next part is the local address; for
33734 a remote delivery it is the name of the remote host, followed by its failing IP
33735 address (unless %no_retry_include_ip_address% is set on the ^smtp^
33736 transport). If the remote port is not the standard one (port 25), it is added
33737 to the IP address. Then there follows an error code, an additional error code,
33738 and a textual description of the error.
33740 The three times on the second line are the time of first failure, the time of
33741 the last delivery attempt, and the computed time for the next attempt. The line
33742 ends with an asterisk if the cutoff time for the last retry rule has been
33745 Each output line from 'exim_dumpdb' for the 'wait-''xxx' databases
33746 consists of a host name followed by a list of ids for messages that are or were
33747 waiting to be delivered to that host. If there are a very large number for any
33748 one host, continuation records, with a sequence number added to the host name,
33749 may be seen. The data in these records is often out of date, because a message
33750 may be routed to several alternative hosts, and Exim makes no effort to keep
33757 [revisionflag="changed"]
33758 cindex:['exim_tidydb']
33759 The 'exim_tidydb' utility program is used to tidy up the contents of a hints
33760 database. If run with no options, it removes all records that are more than 30
33761 days old. The age is calculated from the date and time that the record was last
33762 updated. Note that, in the case of the retry database, it is 'not' the time
33763 since the first delivery failure. Information about a host that has been down
33764 for more than 30 days will remain in the database, provided that the record is
33765 updated sufficiently often.
33767 The cutoff date can be altered by means of the %-t% option, which must be
33768 followed by a time. For example, to remove all records older than a week from
33769 the retry database:
33771 exim_tidydb -t 7d /var/spool/exim retry
33773 Both the 'wait-''xxx' and 'retry' databases contain items that involve
33774 message ids. In the former these appear as data in records keyed by host --
33775 they were messages that were waiting for that host -- and in the latter they
33776 are the keys for retry information for messages that have suffered certain
33777 types of error. When 'exim_tidydb' is run, a check is made to ensure that
33778 message ids in database records are those of messages that are still on the
33779 queue. Message ids for messages that no longer exist are removed from
33780 'wait-''xxx' records, and if this leaves any records empty, they are
33781 deleted. For the 'retry' database, records whose keys are non-existent
33782 message ids are removed. The 'exim_tidydb' utility outputs comments on the
33783 standard output whenever it removes information from the database.
33785 Certain records are automatically removed by Exim when they are no longer
33786 needed, but others are not. For example, if all the MX hosts for a domain are
33787 down, a retry record is created for each one. If the primary MX host comes back
33788 first, its record is removed when Exim successfully delivers to it, but the
33789 records for the others remain because Exim has not tried to use those hosts.
33791 It is important, therefore, to run 'exim_tidydb' periodically on all the
33792 hints databases. You should do this at a quiet time of day, because it requires
33793 a database to be locked (and therefore inaccessible to Exim) while it does its
33794 work. Removing records from a DBM file does not normally make the file smaller,
33795 but all the common DBM libraries are able to re-use the space that is released.
33796 After an initial phase of increasing in size, the databases normally reach a
33797 point at which they no longer get any bigger, as long as they are regularly
33800 *Warning*: If you never run 'exim_tidydb', the space used by the hints
33801 databases is likely to keep on increasing.
33808 cindex:['exim_fixdb']
33809 The 'exim_fixdb' program is a utility for interactively modifying databases.
33810 Its main use is for testing Exim, but it might also be occasionally useful for
33811 getting round problems in a live system. It has no options, and its interface
33812 is somewhat crude. On entry, it prompts for input with a right angle-bracket. A
33813 key of a database record can then be entered, and the data for that record is
33816 If ``d'' is typed at the next prompt, the entire record is deleted. For all
33817 except the 'retry' database, that is the only operation that can be carried
33818 out. For the 'retry' database, each field is output preceded by a number, and
33819 data for individual fields can be changed by typing the field number followed
33820 by new data, for example:
33824 resets the time of the next delivery attempt. Time values are given as a
33825 sequence of digit pairs for year, month, day, hour, and minute. Colons can be
33826 used as optional separators.
33831 [[SECTmailboxmaint]]
33832 Mailbox maintenance (exim_lock)
33833 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
33834 cindex:[mailbox,maintenance]
33835 cindex:['exim_lock']
33836 cindex:[locking mailboxes]
33837 The 'exim_lock' utility locks a mailbox file using the same algorithm as
33838 Exim. For a discussion of locking issues, see section <<SECTopappend>>.
33839 'Exim_lock' can be used to prevent any modification of a mailbox by Exim or
33840 a user agent while investigating a problem. The utility requires the name of
33841 the file as its first argument. If the locking is successful, the second
33842 argument is run as a command (using C's 'system()' function); if there is no
33843 second argument, the value of the SHELL environment variable is used; if this
33844 is unset or empty, _/bin/sh_ is run. When the command finishes, the mailbox
33845 is unlocked and the utility ends. The following options are available:
33847 *-fcntl*:: Use 'fcntl()' locking on the open mailbox.
33849 *-flock*:: Use 'flock()' locking on the open mailbox, provided the operating
33850 system supports it.
33852 *-interval*:: This must be followed by a number, which is a number of seconds;
33853 it sets the interval to sleep between retries (default 3).
33855 *-lockfile*:: Create a lock file before opening the mailbox.
33857 *-mbx*:: Lock the mailbox using MBX rules.
33859 *-q*:: Suppress verification output.
33861 *-retries*:: This must be followed by a number; it sets the number of times to
33862 try to get the lock (default 10).
33864 *-restore_time*:: This option causes %exim_lock% to restore the modified and
33865 read times to the locked file before exiting. This allows you to access a
33866 locked mailbox (for example, to take a backup copy) without disturbing the
33867 times that the user subsequently sees.
33869 *-timeout*:: This must be followed by a number, which is a number of seconds;
33870 it sets a timeout to be used with a blocking 'fcntl()' lock. If it is not set
33871 (the default), a non-blocking call is used.
33873 *-v*:: Generate verbose output.
33875 If none of %-fcntl%, %-flock%, %-lockfile% or %-mbx% are given, the default is
33876 to create a lock file and also to use 'fcntl()' locking on the mailbox, which
33877 is the same as Exim's default. The use of %-flock% or %-fcntl% requires that
33878 the file be writeable; the use of %-lockfile% requires that the directory
33879 containing the file be writeable. Locking by lock file does not last for ever;
33880 Exim assumes that a lock file is expired if it is more than 30 minutes old.
33882 The %-mbx% option can be used with either or both of %-fcntl% or %-flock%.
33883 It assumes %-fcntl% by default.
33884 MBX locking causes a shared lock to be taken out on the open mailbox, and an
33885 exclusive lock on the file _/tmp/._'n'.'m' where 'n' and 'm' are
33886 the device number and inode number of the mailbox file. When the locking is
33887 released, if an exclusive lock can be obtained for the mailbox, the file in
33890 The default output contains verification of the locking that takes place. The
33891 %-v% option causes some additional information to be given. The %-q% option
33892 suppresses all output except error messages.
33896 exim_lock /var/spool/mail/spqr
33898 runs an interactive shell while the file is locked, whereas
33900 exim_lock -q /var/spool/mail/spqr <<End
33904 runs a specific non-interactive sequence of commands while the file is locked,
33905 suppressing all verification output. A single command can be run by a command
33909 exim_lock -q /var/spool/mail/spqr \
33910 "cp /var/spool/mail/spqr /some/where"
33913 Note that if a command is supplied, it must be entirely contained within the
33914 second argument -- hence the quotes.
33918 ////////////////////////////////////////////////////////////////////////////
33919 ////////////////////////////////////////////////////////////////////////////
33924 cindex:[Exim monitor,description]
33927 cindex:[Local/eximon.conf]
33928 cindex:[_exim_monitor/EDITME_]
33929 The Exim monitor is an application which displays in an X window information
33930 about the state of Exim's queue and what Exim is doing. An admin user can
33931 perform certain operations on messages from this GUI interface; however all
33932 such facilities are also available from the command line, and indeed, the
33933 monitor itself makes use of the command line to perform any actions requested.
33937 Running the monitor
33938 ~~~~~~~~~~~~~~~~~~~
33939 The monitor is started by running the script called 'eximon'. This is a shell
33940 script that sets up a number of environment variables, and then runs the
33941 binary called _eximon.bin_. The default appearance of the monitor window can
33942 be changed by editing the _Local/eximon.conf_ file created by editing
33943 _exim_monitor/EDITME_. Comments in that file describe what the various
33944 parameters are for.
33946 The parameters that get built into the 'eximon' script can be overridden for a
33947 particular invocation by setting up environment variables of the same names,
33948 preceded by `EXIMON_`. For example, a shell command such as
33950 EXIMON_LOG_DEPTH=400 eximon
33952 (in a Bourne-compatible shell) runs 'eximon' with an overriding setting of the
33953 LOG_DEPTH parameter. If EXIMON_LOG_FILE_PATH is set in the
33954 environment, it overrides the Exim log file configuration. This makes it
33955 possible to have 'eximon' tailing log data that is written to syslog, provided
33956 that MAIL.INFO syslog messages are routed to a file on the local host.
33958 X resources can be used to change the appearance of the window in the normal
33959 way. For example, a resource setting of the form
33961 Eximon*background: gray94
33963 changes the colour of the background to light grey rather than white. The
33964 stripcharts are drawn with both the data lines and the reference lines in
33965 black. This means that the reference lines are not visible when on top of the
33966 data. However, their colour can be changed by setting a resource called
33967 ``highlight'' (an odd name, but that's what the Athena stripchart widget uses).
33968 For example, if your X server is running Unix, you could set up lighter
33969 reference lines in the stripcharts by obeying
33972 Eximon*highlight: gray
33976 cindex:[admin user]
33977 In order to see the contents of messages on the queue, and to operate on them,
33978 'eximon' must either be run as root or by an admin user.
33980 The monitor's window is divided into three parts. The first contains one or
33981 more stripcharts and two action buttons, the second contains a ``tail'' of the
33982 main log file, and the third is a display of the queue of messages awaiting
33983 delivery, with two more action buttons. The following sections describe these
33984 different parts of the display.
33991 cindex:[stripchart]
33992 The first stripchart is always a count of messages on the queue. Its name can
33993 be configured by setting QUEUE_STRIPCHART_NAME in the
33994 _Local/eximon.conf_ file. The remaining stripcharts are defined in the
33995 configuration script by regular expression matches on log file entries, making
33996 it possible to display, for example, counts of messages delivered to certain
33997 hosts or using certain transports. The supplied defaults display counts of
33998 received and delivered messages, and of local and SMTP deliveries. The default
33999 period between stripchart updates is one minute; this can be adjusted by a
34000 parameter in the _Local/eximon.conf_ file.
34002 The stripchart displays rescale themselves automatically as the value they are
34003 displaying changes. There are always 10 horizontal lines in each chart; the
34004 title string indicates the value of each division when it is greater than one.
34005 For example, ``x2'' means that each division represents a value of 2.
34007 It is also possible to have a stripchart which shows the percentage fullness of
34008 a particular disk partition, which is useful when local deliveries are confined
34009 to a single partition.
34011 cindex:[%statvfs% function]
34012 This relies on the availability of the 'statvfs()' function or equivalent in
34013 the operating system. Most, but not all versions of Unix that support Exim have
34014 this. For this particular stripchart, the top of the chart always represents
34015 100%, and the scale is given as ``x10%''. This chart is configured by setting
34016 SIZE_STRIPCHART and (optionally) SIZE_STRIPCHART_NAME in the
34017 _Local/eximon.conf_ file.
34022 Main action buttons
34023 ~~~~~~~~~~~~~~~~~~~
34024 cindex:[size,of monitor window]
34025 cindex:[Exim monitor,window size]
34026 cindex:[window size]
34027 Below the stripcharts there is an action button for quitting the monitor. Next
34028 to this is another button marked ``Size''. They are placed here so that shrinking
34029 the window to its default minimum size leaves just the queue count stripchart
34030 and these two buttons visible. Pressing the ``Size'' button causes the window to
34031 expand to its maximum size, unless it is already at the maximum, in which case
34032 it is reduced to its minimum.
34034 When expanding to the maximum, if the window cannot be fully seen where it
34035 currently is, it is moved back to where it was the last time it was at full
34036 size. When it is expanding from its minimum size, the old position is
34037 remembered, and next time it is reduced to the minimum it is moved back there.
34039 The idea is that you can keep a reduced window just showing one or two
34040 stripcharts at a convenient place on your screen, easily expand it to show
34041 the full window when required, and just as easily put it back to what it was.
34042 The idea is copied from what the 'twm' window manager does for its
34043 'f.fullzoom' action. The minimum size of the window can be changed by setting
34044 the MIN_HEIGHT and MIN_WIDTH values in _Local/eximon.conf_.
34046 Normally, the monitor starts up with the window at its full size, but it can be
34047 built so that it starts up with the window at its smallest size, by setting
34048 START_SMALL=yes in _Local/eximon.conf_.
34054 cindex:[log,tail of; in monitor]
34055 The second section of the window is an area in which a display of the tail of
34056 the main log is maintained.
34057 To save space on the screen, the timestamp on each log line is shortened by
34058 removing the date and, if %log_timezone% is set, the timezone.
34059 The log tail is not available when the only destination for logging data is
34060 syslog, unless the syslog lines are routed to a local file whose name is passed
34061 to 'eximon' via the EXIMON_LOG_FILE_PATH environment variable.
34063 The log sub-window has a scroll bar at its lefthand side which can be used to
34064 move back to look at earlier text, and the up and down arrow keys also have a
34065 scrolling effect. The amount of log that is kept depends on the setting of
34066 LOG_BUFFER in _Local/eximon.conf_, which specifies the amount of memory
34067 to use. When this is full, the earlier 50% of data is discarded -- this is much
34068 more efficient than throwing it away line by line. The sub-window also has a
34069 horizontal scroll bar for accessing the ends of long log lines. This is the
34070 only means of horizontal scrolling; the right and left arrow keys are not
34071 available. Text can be cut from this part of the window using the mouse in the
34072 normal way. The size of this subwindow is controlled by parameters in the
34073 configuration file _Local/eximon.conf_.
34075 Searches of the text in the log window can be carried out by means of the ^R
34076 and ^S keystrokes, which default to a reverse and a forward search,
34077 respectively. The search covers only the text that is displayed in the window.
34078 It cannot go further back up the log.
34080 The point from which the search starts is indicated by a caret marker. This is
34081 normally at the end of the text in the window, but can be positioned explicitly
34082 by pointing and clicking with the left mouse button, and is moved automatically
34083 by a successful search. If new text arrives in the window when it is scrolled
34084 back, the caret remains where it is, but if the window is not scrolled back,
34085 the caret is moved to the end of the new text.
34087 Pressing ^R or ^S pops up a window into which the search text can be typed.
34088 There are buttons for selecting forward or reverse searching, for carrying out
34089 the search, and for cancelling. If the ``Search'' button is pressed, the search
34090 happens and the window remains so that further searches can be done. If the
34091 ``Return'' key is pressed, a single search is done and the window is closed. If
34092 ^C is typed the search is cancelled.
34094 The searching facility is implemented using the facilities of the Athena text
34095 widget. By default this pops up a window containing both ``search'' and ``replace''
34096 options. In order to suppress the unwanted ``replace'' portion for eximon, a
34097 modified version of the %TextPop% widget is distributed with Exim. However, the
34098 linkers in BSDI and HP-UX seem unable to handle an externally provided version
34099 of %TextPop% when the remaining parts of the text widget come from the standard
34100 libraries. The compile-time option EXIMON_TEXTPOP can be unset to cut out
34101 the modified %TextPop%, making it possible to build Eximon on these systems, at
34102 the expense of having unwanted items in the search popup window.
34108 cindex:[queue,display in monitor]
34109 The bottom section of the monitor window contains a list of all messages that
34110 are on the queue, which includes those currently being received or delivered,
34111 as well as those awaiting delivery. The size of this subwindow is controlled by
34112 parameters in the configuration file _Local/eximon.conf_, and the frequency
34113 at which it is updated is controlled by another parameter in the same file --
34114 the default is 5 minutes, since queue scans can be quite expensive. However,
34115 there is an ``Update'' action button just above the display which can be used to
34116 force an update of the queue display at any time.
34118 When a host is down for some time, a lot of pending mail can build up for it,
34119 and this can make it hard to deal with other messages on the queue. To help
34120 with this situation there is a button next to ``Update'' called ``Hide''. If
34121 pressed, a dialogue box called ``Hide addresses ending with'' is put up. If you
34122 type anything in here and press ``Return'', the text is added to a chain of such
34123 texts, and if every undelivered address in a message matches at least one
34124 of the texts, the message is not displayed.
34126 If there is an address that does not match any of the texts, all the addresses
34127 are displayed as normal. The matching happens on the ends of addresses so, for
34128 example, 'cam.ac.uk' specifies all addresses in Cambridge, while
34129 'xxx@foo.com.example' specifies just one specific address. When any hiding
34130 has been set up, a button called ``Unhide'' is displayed. If pressed, it cancels
34131 all hiding. Also, to ensure that hidden messages do not get forgotten, a hide
34132 request is automatically cancelled after one hour.
34134 While the dialogue box is displayed, you can't press any buttons or do anything
34135 else to the monitor window. For this reason, if you want to cut text from the
34136 queue display to use in the dialogue box, you have to do the cutting before
34137 pressing the ``Hide'' button.
34139 The queue display contains, for each unhidden queued message, the length of
34140 time it has been on the queue, the size of the message, the message id, the
34141 message sender, and the first undelivered recipient, all on one line. If it is
34142 a bounce message, the sender is shown as ``<>''. If there is more than one
34143 recipient to which the message has not yet been delivered, subsequent ones are
34144 listed on additional lines, up to a maximum configured number, following which
34145 an ellipsis is displayed. Recipients that have already received the message are
34148 cindex:[frozen messages,display]
34149 If a message is frozen, an asterisk is displayed at the left-hand side.
34151 The queue display has a vertical scroll bar, and can also be scrolled by means
34152 of the arrow keys. Text can be cut from it using the mouse in the normal way.
34153 The text searching facilities, as described above for the log window, are also
34154 available, but the caret is always moved to the end of the text when the queue
34155 display is updated.
34161 cindex:[queue,menu in monitor]
34162 If the %shift% key is held down and the left button is clicked when the mouse
34163 pointer is over the text for any message, an action menu pops up, and the first
34164 line of the queue display for the message is highlighted. This does not affect
34167 If you want to use some other event for popping up the menu, you can set the
34168 MENU_EVENT parameter in _Local/eximon.conf_ to change the default, or
34169 set EXIMON_MENU_EVENT in the environment before starting the monitor. The
34170 value set in this parameter is a standard X event description. For example, to
34171 run eximon using %ctrl% rather than %shift% you could use
34173 EXIMON_MENU_EVENT='Ctrl<Btn1Down>' eximon
34175 The title of the menu is the message id, and it contains entries which act as
34178 - 'message log': The contents of the message log for the message are displayed in
34181 - 'headers': Information from the spool file that contains the envelope
34182 information and headers is displayed in a new text window. See chapter
34183 <<CHAPspool>> for a description of the format of spool files.
34185 - 'body': The contents of the spool file containing the body of the message are
34186 displayed in a new text window. There is a default limit of 20,000 bytes to the
34187 amount of data displayed. This can be changed by setting the BODY_MAX
34188 option at compile time, or the EXIMON_BODY_MAX option at run time.
34190 - 'deliver message': A call to Exim is made using the %-M% option to request
34191 delivery of the message. This causes an automatic thaw if the message is
34192 frozen. The %-v% option is also set, and the output from Exim is displayed in
34193 a new text window. The delivery is run in a separate process, to avoid holding
34194 up the monitor while the delivery proceeds.
34196 - 'freeze message': A call to Exim is made using the %-Mf% option to request
34197 that the message be frozen.
34199 - cindex:[thawing messages]
34200 cindex:[unfreezing messages]
34201 cindex:[frozen messages,thawing]
34202 'thaw message': A call to Exim is made using the %-Mt% option to request that
34203 the message be thawed.
34205 - cindex:[delivery,forcing failure]
34206 'give up on msg': A call to Exim is made using the %-Mg% option to request
34207 that Exim gives up trying to deliver the message. A bounce message is generated
34208 for any remaining undelivered addresses.
34210 - 'remove message': A call to Exim is made using the %-Mrm% option to request
34211 that the message be deleted from the system without generating a bounce
34214 - 'add recipient': A dialog box is displayed into which a recipient address can
34215 be typed. If the address is not qualified and the QUALIFY_DOMAIN parameter
34216 is set in _Local/eximon.conf_, the address is qualified with that domain.
34217 Otherwise it must be entered as a fully qualified address. Pressing RETURN
34218 causes a call to Exim to be made using the %-Mar% option to request that an
34219 additional recipient be added to the message, unless the entry box is empty, in
34220 which case no action is taken.
34222 - 'mark delivered': A dialog box is displayed into which a recipient address can
34223 be typed. If the address is not qualified and the QUALIFY_DOMAIN parameter
34224 is set in _Local/eximon.conf_, the address is qualified with that domain.
34225 Otherwise it must be entered as a fully qualified address. Pressing RETURN
34226 causes a call to Exim to be made using the %-Mmd% option to mark the given
34227 recipient address as already delivered, unless the entry box is empty, in which
34228 case no action is taken.
34230 - 'mark all delivered': A call to Exim is made using the %-Mmad% option to mark
34231 all recipient addresses as already delivered.
34233 - 'edit sender': A dialog box is displayed initialized with the current sender's
34234 address. Pressing RETURN causes a call to Exim to be made using the %-Mes%
34235 option to replace the sender address, unless the entry box is empty, in which
34236 case no action is taken. If you want to set an empty sender (as in bounce
34237 messages), you must specify it as ``<>''. Otherwise, if the address is not
34238 qualified and the QUALIFY_DOMAIN parameter is set in
34239 _Local/eximon.conf_, the address is qualified with that domain.
34241 When a delivery is forced, a window showing the %-v% output is displayed. In
34242 other cases when a call to Exim is made, if there is any output from Exim (in
34243 particular, if the command fails) a window containing the command and the
34244 output is displayed. Otherwise, the results of the action are normally apparent
34245 from the log and queue displays. However, if you set ACTION_OUTPUT=yes in
34246 _Local/eximon.conf_, a window showing the Exim command is always opened, even
34247 if no output is generated.
34249 The queue display is automatically updated for actions such as freezing and
34250 thawing, unless ACTION_QUEUE_UPDATE=no has been set in
34251 _Local/eximon.conf_. In this case the ``Update'' button has to be used to force
34252 an update of the display after one of these actions.
34254 In any text window that is displayed as result of a menu action, the normal
34255 cut-and-paste facility is available, and searching can be carried out using ^R
34256 and ^S, as described above for the log tail window.
34263 ////////////////////////////////////////////////////////////////////////////
34264 ////////////////////////////////////////////////////////////////////////////
34267 Security considerations
34268 -----------------------
34270 This chapter discusses a number of issues concerned with security, some of
34271 which are also covered in other parts of this manual.
34273 For reasons that this author does not understand, some people have promoted
34274 Exim as a ``particularly secure'' mailer. Perhaps it is because of the existence
34275 of this chapter in the documentation. However, the intent of the chapter is
34276 simply to describe the way Exim works in relation to certain security concerns,
34277 not to make any specific claims about the effectiveness of its security as
34278 compared with other MTAs.
34280 What follows is a description of the way Exim is supposed to be. Best efforts
34281 have been made to try to ensure that the code agrees with the theory, but an
34282 absence of bugs can never be guaranteed. Any that are reported will get fixed
34283 as soon as possible.
34286 Building a more ``hardened'' Exim
34287 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
34288 cindex:[security,build-time features]
34289 There are a number of build-time options that can be set in _Local/Makefile_
34290 to create Exim binaries that are ``harder'' to attack, in particular by a rogue
34291 Exim administrator who does not have the root password, or by someone who has
34292 penetrated the Exim (but not the root) account. These options are as follows:
34294 - ALT_CONFIG_PREFIX can be set to a string that is required to match the
34295 start of any file names used with the %-C% option. When it is set, these file
34296 names are also not allowed to contain the sequence ``/../''. (However, if the
34297 value of the %-C% option is identical to the value of CONFIGURE_FILE in
34298 _Local/Makefile_, Exim ignores %-C% and proceeds as usual.) There is no
34299 default setting for %ALT_CONFIG_PREFIX%.
34301 If the permitted configuration files are confined to a directory to
34302 which only root has access, this guards against someone who has broken
34303 into the Exim account from running a privileged Exim with an arbitrary
34304 configuration file, and using it to break into other accounts.
34306 - If ALT_CONFIG_ROOT_ONLY is defined, root privilege is retained for %-C%
34307 and %-D% only if the caller of Exim is root. Without it, the Exim user may
34308 also use %-C% and %-D% and retain privilege. Setting this option locks out
34309 the possibility of testing a configuration using %-C% right through message
34310 reception and delivery, even if the caller is root. The reception works, but by
34311 that time, Exim is running as the Exim user, so when it re-execs to regain
34312 privilege for the delivery, the use of %-C% causes privilege to be lost.
34313 However, root can test reception and delivery using two separate commands.
34314 ALT_CONFIG_ROOT_ONLY is not set by default.
34316 - If DISABLE_D_OPTION is defined, the use of the %-D% command line option
34319 - FIXED_NEVER_USERS can be set to a colon-separated list of users that are
34320 never to be used for any deliveries. This is like the %never_users% runtime
34321 option, but it cannot be overridden; the runtime option adds additional users
34322 to the list. The default setting is ``root''; this prevents a non-root user who
34323 is permitted to modify the runtime file from using Exim as a way to get root.
34331 cindex:[root privilege]
34332 The Exim binary is normally setuid to root, which means that it gains root
34333 privilege (runs as root) when it starts execution. In some special cases (for
34334 example, when the daemon is not in use and there are no local deliveries), it
34335 may be possible to run Exim setuid to some user other than root. This is
34336 discussed in the next section. However, in most installations, root privilege
34337 is required for two things:
34339 - To set up a socket connected to the standard SMTP port (25) when initialising
34340 the listening daemon. If Exim is run from 'inetd', this privileged action is
34343 - To be able to change uid and gid in order to read users' _.forward_ files and
34344 perform local deliveries as the receiving user or as specified in the
34347 It is not necessary to be root to do any of the other things Exim does, such as
34348 receiving messages and delivering them externally over SMTP, and it is
34349 obviously more secure if Exim does not run as root except when necessary.
34350 For this reason, a user and group for Exim to use must be defined in
34351 _Local/Makefile_. These are known as ``the Exim user'' and ``the Exim group''.
34352 Their values can be changed by the run time configuration, though this is not
34353 recommended. Often a user called 'exim' is used, but some sites use 'mail'
34354 or another user name altogether.
34356 Exim uses 'setuid()' whenever it gives up root privilege. This is a permanent
34357 abdication; the process cannot regain root afterwards. Prior to release 4.00,
34358 'seteuid()' was used in some circumstances, but this is no longer the case.
34360 After a new Exim process has interpreted its command line options, it changes
34361 uid and gid in the following cases:
34363 - cindex:[%-C% option]
34364 cindex:[%-D% option]
34365 If the %-C% option is used to specify an alternate configuration file, or if
34366 the %-D% option is used to define macro values for the configuration, and the
34367 calling process is not running as root or the Exim user, the uid and gid are
34368 changed to those of the calling process.
34369 However, if ALT_CONFIG_ROOT_ONLY is defined in _Local/Makefile_, only
34370 root callers may use %-C% and %-D% without losing privilege, and if
34371 DISABLE_D_OPTION is set, the %-D% option may not be used at all.
34373 - cindex:[%-be% option]
34374 cindex:[%-bf% option]
34375 cindex:[%-bF% option]
34376 If the expansion test option (%-be%) or one of the filter testing options
34377 (%-bf% or %-bF%) are used, the uid and gid are changed to those of the
34380 - If the process is not a daemon process or a queue runner process or a delivery
34381 process or a process for testing address routing (started with %-bt%), the uid
34382 and gid are changed to the Exim user and group. This means that Exim always
34383 runs under its own uid and gid when receiving messages. This also applies when
34384 testing address verification
34385 cindex:[%-bv% option]
34386 cindex:[%-bh% option]
34387 (the %-bv% option) and testing incoming message policy controls (the %-bh%
34390 - For a daemon, queue runner, delivery, or address testing process, the uid
34391 remains as root at this stage, but the gid is changed to the Exim group.
34397 The processes that initially retain root privilege behave as follows:
34399 - A daemon process changes the gid to the Exim group and the uid to the Exim
34400 user after setting up one or more listening sockets. The 'initgroups()'
34401 function is called, so that if the Exim user is in any additional groups, they
34402 will be used during message reception.
34404 - A queue runner process retains root privilege throughout its execution. Its
34405 job is to fork a controlled sequence of delivery processes.
34407 - A delivery process retains root privilege throughout most of its execution,
34408 but any actual deliveries (that is, the transports themselves) are run in
34409 subprocesses which always change to a non-root uid and gid. For local
34410 deliveries this is typically the uid and gid of the owner of the mailbox; for
34411 remote deliveries, the Exim uid and gid are used. Once all the delivery
34412 subprocesses have been run, a delivery process changes to the Exim uid and gid
34413 while doing post-delivery tidying up such as updating the retry database and
34414 generating bounce and warning messages.
34416 While the recipient addresses in a message are being routed, the delivery
34417 process runs as root. However, if a user's filter file has to be processed,
34418 this is done in a subprocess that runs under the individual user's uid and
34419 gid. A system filter is run as root unless %system_filter_user% is set.
34421 - A process that is testing addresses (the %-bt% option) runs as root so that
34422 the routing is done in the same environment as a message delivery.
34427 [[SECTrunexiwitpri]]
34428 Running Exim without privilege
34429 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
34430 cindex:[privilege, running without]
34431 cindex:[unprivileged running]
34432 cindex:[root privilege,running without]
34433 Some installations like to run Exim in an unprivileged state for more of its
34434 operation, for added security. Support for this mode of operation is provided
34435 by the global option %deliver_drop_privilege%. When this is set, the uid and
34436 gid are changed to the Exim user and group at the start of a delivery process
34437 (and also queue runner and address testing processes). This means that address
34438 routing is no longer run as root, and the deliveries themselves cannot change
34441 Leaving the binary setuid to root, but setting %deliver_drop_privilege% means
34442 that the daemon can still be started in the usual way, and it can respond
34443 correctly to SIGHUP because the re-invocation regains root privilege.
34445 An alternative approach is to make Exim setuid to the Exim user and also setgid
34447 If you do this, the daemon must be started from a root process. (Calling
34448 Exim from a root process makes it behave in the way it does when it is setuid
34449 root.) However, the daemon cannot restart itself after a SIGHUP signal because
34450 it cannot regain privilege.
34452 It is still useful to set %deliver_drop_privilege% in this case, because it
34453 stops Exim from trying to re-invoke itself to do a delivery after a message has
34454 been received. Such a re-invocation is a waste of resources because it has no
34457 If restarting the daemon is not an issue (for example, if %mua_wrapper% is set,
34458 or 'inetd' is being used instead of a daemon), having the binary setuid to the
34459 Exim user seems a clean approach, but there is one complication:
34461 In this style of operation, Exim is running with the real uid and gid set to
34462 those of the calling process, and the effective uid/gid set to Exim's values.
34463 Ideally, any association with the calling process' uid/gid should be dropped,
34464 that is, the real uid/gid should be reset to the effective values so as to
34465 discard any privileges that the caller may have. While some operating systems
34466 have a function that permits this action for a non-root effective uid, quite a
34467 number of them do not. Because of this lack of standardization, Exim does not
34468 address this problem at this time.
34470 For this reason, the recommended approach for ``mostly unprivileged'' running is
34471 to keep the Exim binary setuid to root, and to set %deliver_drop_privilege%.
34472 This also has the advantage of allowing a daemon to be used in the most
34473 straightforward way.
34475 If you configure Exim not to run delivery processes as root, there are a
34476 number of restrictions on what you can do:
34478 - You can deliver only as the Exim user/group. You should explicitly use the
34479 %user% and %group% options to override routers or local transports that
34480 normally deliver as the recipient. This makes sure that configurations that
34481 work in this mode function the same way in normal mode. Any implicit or
34482 explicit specification of another user causes an error.
34484 - Use of _.forward_ files is severely restricted, such that it is usually
34485 not worthwhile to include them in the configuration.
34487 - Users who wish to use _.forward_ would have to make their home directory and
34488 the file itself accessible to the Exim user. Pipe and append-to-file entries,
34489 and their equivalents in Exim filters, cannot be used. While they could be
34490 enabled in the Exim user's name, that would be insecure and not very useful.
34492 - Unless the local user mailboxes are all owned by the Exim user (possible in
34493 some POP3 or IMAP-only environments):
34495 * They must be owned by the Exim group and be writable by that group. This
34496 implies you must set %mode% in the appendfile configuration, as well as the
34497 mode of the mailbox files themselves.
34499 * You must set %no_check_owner%, since most or all of the files will not be
34500 owned by the Exim user.
34502 * You must set %file_must_exist%, because Exim cannot set the owner correctly
34503 on a newly created mailbox when unprivileged. This also implies that new
34504 mailboxes need to be created manually.
34506 These restrictions severely restrict what can be done in local deliveries.
34507 However, there are no restrictions on remote deliveries. If you are running a
34508 gateway host that does no local deliveries, setting %deliver_drop_privilege%
34509 gives more security at essentially no cost.
34511 If you are using the %mua_wrapper% facility (see chapter <<CHAPnonqueueing>>),
34512 %deliver_drop_privilege% is forced to be true.
34517 Delivering to local files
34518 ~~~~~~~~~~~~~~~~~~~~~~~~~
34519 Full details of the checks applied by ^appendfile^ before it writes to a file
34520 are given in chapter <<CHAPappendfile>>.
34524 IPv4 source routing
34525 ~~~~~~~~~~~~~~~~~~~
34526 cindex:[source routing,in IP packets]
34527 cindex:[IP source routing]
34528 Many operating systems suppress IP source-routed packets in the kernel, but
34529 some cannot be made to do this, so Exim does its own check. It logs incoming
34530 IPv4 source-routed TCP calls, and then drops them. Things are all different in
34531 IPv6. No special checking is currently done.
34535 The VRFY, EXPN, and ETRN commands in SMTP
34536 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
34537 Support for these SMTP commands is disabled by default. If required, they can
34538 be enabled by defining suitable ACLs.
34545 cindex:[trusted user]
34546 cindex:[admin user]
34547 cindex:[privileged user]
34548 cindex:[user,trusted]
34549 cindex:[user,admin]
34550 Exim recognises two sets of users with special privileges. Trusted users are
34551 able to submit new messages to Exim locally, but supply their own sender
34552 addresses and information about a sending host. For other users submitting
34553 local messages, Exim sets up the sender address from the uid, and doesn't
34554 permit a remote host to be specified.
34556 cindex:[%-f% option]
34557 However, an untrusted user is permitted to use the %-f% command line option in
34558 the special form %-f <>% to indicate that a delivery failure for the message
34559 should not cause an error report. This affects the message's envelope, but it
34560 does not affect the 'Sender:' header. Untrusted users may also be permitted to
34561 use specific forms of address with the %-f% option by setting the
34562 %untrusted_set_sender% option.
34564 Trusted users are used to run processes that receive mail messages from some
34565 other mail domain and pass them on to Exim for delivery either locally, or over
34566 the Internet. Exim trusts a caller that is running as root, as the Exim user,
34567 as any user listed in the %trusted_users% configuration option, or under any
34568 group listed in the %trusted_groups% option.
34570 Admin users are permitted to do things to the messages on Exim's queue. They
34571 can freeze or thaw messages, cause them to be returned to their senders, remove
34572 them entirely, or modify them in various ways. In addition, admin users can run
34573 the Exim monitor and see all the information it is capable of providing, which
34574 includes the contents of files on the spool.
34576 cindex:[%-M% option]
34577 cindex:[%-q% option]
34578 By default, the use of the %-M% and %-q% options to cause Exim to attempt
34579 delivery of messages on its queue is restricted to admin users. This
34580 restriction can be relaxed by setting the %no_prod_requires_admin% option.
34581 Similarly, the use of %-bp% (and its variants) to list the contents of the
34582 queue is also restricted to admin users. This restriction can be relaxed by
34583 setting %no_queue_list_requires_admin%.
34585 Exim recognises an admin user if the calling process is running as root or as
34586 the Exim user or if any of the groups associated with the calling process is
34587 the Exim group. It is not necessary actually to be running under the Exim
34588 group. However, if admin users who are not root or the Exim user are to access
34589 the contents of files on the spool via the Exim monitor (which runs
34590 unprivileged), Exim must be built to allow group read access to its spool
34597 cindex:[spool directory,files]
34598 Exim's spool directory and everything it contains is owned by the Exim user and
34599 set to the Exim group. The mode for spool files is defined in the
34600 _Local/Makefile_ configuration file, and defaults to 0640. This means that
34601 any user who is a member of the Exim group can access these files.
34607 Exim examines the last component of %argv[0]%, and if it matches one of a set
34608 of specific strings, Exim assumes certain options. For example, calling Exim
34609 with the last component of %argv[0]% set to ``rsmtp'' is exactly equivalent to
34610 calling it with the option %-bS%. There are no security implications in this.
34614 Use of %f formatting
34615 ~~~~~~~~~~~~~~~~~~~~
34616 The only use made of ``%f'' by Exim is in formatting load average values. These
34617 are actually stored in integer variables as 1000 times the load average.
34618 Consequently, their range is limited and so therefore is the length of the
34625 Exim uses its own path name, which is embedded in the code, only when it needs
34626 to re-exec in order to regain root privilege. Therefore, it is not root when it
34627 does so. If some bug allowed the path to get overwritten, it would lead to an
34628 arbitrary program's being run as exim, not as root.
34634 cindex:['sprintf()']
34635 A large number of occurrences of ``sprintf'' in the code are actually calls to
34636 'string_sprintf()', a function that returns the result in malloc'd store.
34637 The intermediate formatting is done into a large fixed buffer by a function
34638 that runs through the format string itself, and checks the length of each
34639 conversion before performing it, thus preventing buffer overruns.
34641 The remaining uses of 'sprintf()' happen in controlled circumstances where
34642 the output buffer is known to be sufficiently long to contain the converted
34647 Use of debug_printf() and log_write()
34648 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
34649 Arbitrary strings are passed to both these functions, but they do their
34650 formatting by calling the function 'string_vformat()', which runs through
34651 the format string itself, and checks the length of each conversion.
34655 Use of strcat() and strcpy()
34656 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
34657 These are used only in cases where the output buffer is known to be large
34658 enough to hold the result.
34663 ////////////////////////////////////////////////////////////////////////////
34664 ////////////////////////////////////////////////////////////////////////////
34667 Format of spool files
34668 ---------------------
34669 cindex:[format,spool files]
34670 cindex:[spool directory,format of files]
34671 cindex:[spool files, format of]
34672 cindex:[spool files, editing]
34673 A message on Exim's queue consists of two files, whose names are the message id
34674 followed by -D and -H, respectively. The data portion of the message is kept in
34675 the -D file on its own. The message's envelope, status, and headers are all
34676 kept in the -H file, whose format is described in this chapter. Each of these
34677 two files contains the final component of its own name as its first line. This
34678 is insurance against disk crashes where the directory is lost but the files
34679 themselves are recoverable.
34681 Some people are tempted into editing -D files in order to modify messages. You
34682 need to be extremely careful if you do this; it is not recommended and you are
34683 on your own if you do it. Here are some of the pitfalls:
34685 [revisionflag="changed"]
34686 - You must ensure that Exim does not try to deliver the message while you are
34687 fiddling with it. The safest way is to take out a write lock on the -D file,
34688 which is what Exim itself does, using ^^fcntl()^^. If you update the file in
34689 place, the lock will be retained. If you write a new file and rename it, the
34690 lock will be lost at the instant of rename.
34692 [revisionflag="changed"]
34693 - cindex:[$body_linecount$]
34694 If you change the number of lines in the file, the value of
34695 $body_linecount$, which is stored in the -H file, will be incorrect. At
34696 present, this value is not used by Exim, but there is no guarantee that this
34697 will always be the case.
34699 - If the message is in MIME format, you must take care not to break it.
34701 - If the message is cryptographically signed, any change will invalidate the
34705 Files whose names end with -J may also be seen in the _input_ directory (or
34706 its subdirectories when %split_spool_directory% is set). These are journal
34707 files, used to record addresses to which the message has been delivered during
34708 the course of a delivery run. At the end of the run, the -H file is updated,
34709 and the -J file is deleted.
34712 Format of the -H file
34713 ~~~~~~~~~~~~~~~~~~~~~
34714 cindex:[uid (user id),in spool file]
34715 cindex:[gid (group id),in spool file]
34716 The second line of the -H file contains the login name for the uid of the
34717 process that called Exim to read the message, followed by the numerical uid and
34718 gid. For a locally generated message, this is normally the user who sent the
34719 message. For a message received over TCP/IP, it is normally the Exim user.
34721 The third line of the file contains the address of the message's sender as
34722 transmitted in the envelope, contained in angle brackets. The sender address is
34723 empty for bounce messages. For incoming SMTP mail, the sender address is given
34724 in the MAIL command. For locally generated mail, the sender address is
34725 created by Exim from the login name of the current user and the configured
34726 %qualify_domain%. However, this can be overridden by the %-f% option or a
34727 leading ``From'' line if the caller is trusted, or if the supplied address is
34728 ``<>'' or an address that matches %untrusted_set_senders%.
34730 The fourth line contains two numbers. The first is the time that the message
34731 was received, in the conventional Unix form -- the number of seconds since the
34732 start of the epoch. The second number is a count of the number of messages
34733 warning of delayed delivery that have been sent to the sender.
34735 There follow a number of lines starting with a hyphen. These can appear in any
34736 order, and are omitted when not relevant:
34738 %-acl% <'number'> <'length'>::
34739 A line of this form is present for every ACL variable that is not empty. The
34740 number identifies the variable; the %acl_c%*x* variables are numbered 0--9 and
34741 the %acl_m%*x* variables are numbered 10--19. The length is the length of the
34742 data string for the variable. The string itself starts at the beginning of the
34743 next line, and is followed by a newline character. It may contain internal
34746 %-active_hostname% <'hostname'>::
34747 This is present if, when the message was received over SMTP, the value of
34748 $smtp_active_hostname$ was different to the value of $primary_hostname$.
34750 %-allow_unqualified_recipient%::
34751 This is present if unqualified recipient addresses are permitted in header
34752 lines (to stop such addresses from being qualified if rewriting occurs at
34753 transport time). Local messages that were input using %-bnq% and remote
34754 messages from hosts that match %recipient_unqualified_hosts% set this flag.
34756 %-allow_unqualified_sender%::
34757 This is present if unqualified sender addresses are permitted in header lines
34758 (to stop such addresses from being qualified if rewriting occurs at transport
34759 time). Local messages that were input using %-bnq% and remote messages from
34760 hosts that match %sender_unqualified_hosts% set this flag.
34762 %-auth_id% <'text'>::
34763 The id information for a message received on an authenticated SMTP connection
34764 -- the value of the $authenticated_id$ variable.
34766 %-auth_sender% <'address'>::
34767 The address of an authenticated sender -- the value of the
34768 $authenticated_sender$ variable.
34770 %-body_linecount% <'number'>::
34771 This records the number of lines in the body of the message, and is always
34774 %-body_zerocount% <'number'>::
34775 This records the number of binary zero bytes in the body of the message, and is
34776 present if the number is greater than zero.
34778 %-deliver_firsttime%::
34779 This is written when a new message is first added to the spool. When the spool
34780 file is updated after a deferral, it is omitted.
34782 %-frozen% <'time'>::
34783 cindex:[frozen messages,spool data]
34784 The message is frozen, and the freezing happened at <'time'>.
34786 %-helo_name% <'text'>::
34787 This records the host name as specified by a remote host in a HELO or EHLO
34790 %-host_address% <'address'>.<'port'>::
34791 This records the IP address of the host from which the message was received and
34792 the remote port number that was used. It is omitted for locally generated
34795 %-host_auth% <'text'>::
34796 If the message was received on an authenticated SMTP connection, this records
34797 the name of the authenticator -- the value of the $sender_host_authenticated$
34800 %-host_lookup_failed%::
34801 This is present if an attempt to look up the sending host's name from its IP
34802 address failed. It corresponds to the $host_lookup_failed$ variable.
34804 %-host_name% <'text'>::
34805 cindex:[reverse DNS lookup]
34806 cindex:[DNS,reverse lookup]
34807 This records the name of the remote host from which the message was received,
34808 if the host name was looked up from the IP address when the message was being
34809 received. It is not present if no reverse lookup was done.
34811 %-ident% <'text'>::
34812 For locally submitted messages, this records the login of the originating user,
34813 unless it was a trusted user and the %-oMt% option was used to specify an ident
34814 value. For messages received over TCP/IP, this records the ident string
34815 supplied by the remote host, if any.
34817 %-interface_address% <'address'>.<'port'>::
34818 This records the IP address of the local interface and the port number through
34819 which a message was received from a remote host. It is omitted for locally
34820 generated messages.
34823 The message is from a local sender.
34826 The message is a locally-generated bounce message.
34828 %-local_scan% <'string'>::
34829 This records the data string that was returned by the 'local_scan()' function
34830 when the message was received -- the value of the $local_scan_data$ variable.
34831 It is omitted if no data was returned.
34834 The message was frozen but has been thawed manually, that is, by an explicit
34835 Exim command rather than via the auto-thaw process.
34838 A testing delivery process was started using the %-N% option to suppress any
34839 actual deliveries, but delivery was deferred. At any further delivery attempts,
34842 %-received_protocol%::
34843 This records the value of the $received_protocol$ variable, which contains the
34844 name of the protocol by which the message was received.
34846 %-sender_set_untrusted%::
34847 The envelope sender of this message was set by an untrusted local caller (used
34848 to ensure that the caller is displayed in queue listings).
34850 %-spam_score_int% <'number'>::
34851 If a message was scanned by SpamAssassin, this is present. It records the value
34852 of $spam_score_int$.
34854 %-tls_certificate_verified%::
34855 A TLS certificate was received from the client that sent this message, and the
34856 certificate was verified by the server.
34858 %-tls_cipher% <'cipher name'>::
34859 When the message was received over an encrypted connection, this records the
34860 name of the cipher suite that was used.
34862 %-tls_peerdn% <'peer DN'>::
34863 When the message was received over an encrypted connection, and a certificate
34864 was received from the client, this records the Distinguished Name from that
34871 Following the options there is a list of those addresses to which the message
34872 is not to be delivered. This set of addresses is initialized from the command
34873 line when the %-t% option is used and %extract_addresses_remove_arguments%
34874 is set; otherwise it starts out empty. Whenever a successful delivery is made,
34875 the address is added to this set. The addresses are kept internally as a
34876 balanced binary tree, and it is a representation of that tree which is written
34877 to the spool file. If an address is expanded via an alias or forward file, the
34878 original address is added to the tree when deliveries to all its child
34879 addresses are complete.
34881 If the tree is empty, there is a single line in the spool file containing just
34882 the text ``XX''. Otherwise, each line consists of two letters, which are either
34883 Y or N, followed by an address. The address is the value for the node of the
34884 tree, and the letters indicate whether the node has a left branch and/or a
34885 right branch attached to it, respectively. If branches exist, they immediately
34886 follow. Here is an example of a three-node tree:
34888 YY darcy@austen.fict.example
34889 NN alice@wonderland.fict.example
34890 NN editor@thesaurus.ref.example
34892 After the non-recipients tree, there is a list of the message's recipients.
34893 This is a simple list, preceded by a count. It includes all the original
34894 recipients of the message, including those to whom the message has already been
34895 delivered. In the simplest case, the list contains one address per line. For
34899 editor@thesaurus.ref.example
34900 darcy@austen.fict.example
34902 alice@wonderland.fict.example
34904 However, when a child address has been added to the top-level addresses as a
34905 result of the use of the %one_time% option on a ^redirect^ router, each line
34906 is of the following form:
34909 <'top-level address'> <'errors_to address'> <'length'>,<'parent number'>#<'flag bits'>
34912 The 01 flag bit indicates the presence of the three other fields that follow
34913 the top-level address. Other bits may be used in future to support additional
34914 fields. The <'parent number'> is the offset in the recipients list of the
34915 original parent of the ``one time'' address. The first two fields are the
34916 envelope sender that is associated with this address and its length. If the
34917 length is zero, there is no special envelope sender (there are then two space
34918 characters in the line). A non-empty field can arise from a ^redirect^ router
34919 that has an %errors_to% setting.
34922 A blank line separates the envelope and status information from the headers
34923 which follow. A header may occupy several lines of the file, and to save effort
34924 when reading it in, each header is preceded by a number and an identifying
34925 character. The number is the number of characters in the header, including any
34926 embedded newlines and the terminating newline. The character is one of the
34930 `-`--------`----------------------------------------------
34931 <'blank'>header in which Exim has no special interest
34935 `I` 'Message-id:' header
34936 `P` 'Received:' header -- P for ``postmark''
34937 `R` 'Reply-To:' header
34938 `S` 'Sender:' header
34940 `*` replaced or deleted header
34941 ----------------------------------------------------------
34943 Deleted or replaced (rewritten) headers remain in the spool file for debugging
34944 purposes. They are not transmitted when the message is delivered. Here is a
34945 typical set of headers:
34947 111P Received: by hobbit.fict.example with local (Exim 4.00)
34948 id 14y9EI-00026G-00; Fri, 11 May 2001 10:28:59 +0100
34949 049 Message-Id: <E14y9EI-00026G-00@hobbit.fict.example>
34950 038* X-rewrote-sender: bb@hobbit.fict.example
34951 042* From: Bilbo Baggins <bb@hobbit.fict.example>
34952 049F From: Bilbo Baggins <B.Baggins@hobbit.fict.example>
34953 099* To: alice@wonderland.fict.example, rdo@foundation,
34954 darcy@austen.fict.example, editor@thesaurus.ref.example
34955 109T To: alice@wonderland.fict.example, rdo@foundation.fict.example,
34956 darcy@austen.fict.example, editor@thesaurus.ref.example
34957 038 Date: Fri, 11 May 2001 10:28:59 +0100
34959 The asterisked headers indicate that the envelope sender, 'From:' header, and
34960 'To:' header have been rewritten, the last one because routing expanded the
34961 unqualified domain 'foundation'.
34966 ////////////////////////////////////////////////////////////////////////////
34967 ////////////////////////////////////////////////////////////////////////////
34969 [titleabbrev="Adding drivers or lookups"]
34970 Adding new drivers or lookup types
34971 ----------------------------------
34972 cindex:[adding drivers]
34973 cindex:[new drivers, adding]
34974 cindex:[drivers,adding new]
34975 The following actions have to be taken in order to add a new router, transport,
34976 authenticator, or lookup type to Exim:
34978 . Choose a name for the driver or lookup type that does not conflict with any
34979 existing name; I will use ``newdriver'' in what follows.
34981 . Add to _src/EDITME_ the line
34983 <type>_NEWDRIVER=yes
34985 where <'type'> is ROUTER, TRANSPORT, AUTH, or LOOKUP. If the
34986 code is not to be included in the binary by default, comment this line out. You
34987 should also add any relevant comments about the driver or lookup type.
34989 . Add to _src/config.h.defaults_ the line
34991 #define <type>_NEWDRIVER
34993 . Edit _src/drtables.c_, adding conditional code to pull in the private header
34994 and create a table entry as is done for all the other drivers and lookup types.
34996 . Edit _Makefile_ in the appropriate sub-directory (_src/routers_,
34997 _src/transports_, _src/auths_, or _src/lookups_); add a line for the new
34998 driver or lookup type and add it to the definition of OBJ.
35000 . Create _newdriver.h_ and _newdriver.c_ in the appropriate sub-directory of
35003 . Edit _scripts/MakeLinks_ and add commands to link the _.h_ and _.c_ files
35004 as for other drivers and lookups.
35006 Then all you need to do is write the code! A good way to start is to make a
35007 proforma by copying an existing module of the same type, globally changing all
35008 occurrences of the name, and cutting out most of the code. Note that any
35009 options you create must be listed in alphabetical order, because the tables are
35010 searched using a binary chop procedure.
35012 There is a _README_ file in each of the sub-directories of _src_ describing
35013 the interface that is expected.
35018 ////////////////////////////////////////////////////////////////////////////
35019 ////////////////////////////////////////////////////////////////////////////
35021 [title="Option index",role="option"]
35025 [title="Concept index",role="concept"]
35029 ///////////////////////////////////////////////////////////////////////////////
35030 Nothing needs to be included here except "Index" as pseudo chapter headings.
35031 ///////////////////////////////////////////////////////////////////////////////