1 From time to time, experimental features may be added to Exim.
2 While a feature is experimental, there will be a build-time
3 option whose name starts "EXPERIMENTAL_" that must be set in
4 order to include the feature. This file contains information
5 about experimental features, all of which are unstable and
6 liable to incompatible change.
9 Brightmail AntiSpam (BMI) suppport
10 --------------------------------------------------------------
12 Brightmail AntiSpam is a commercial package. Please see
13 http://www.brightmail.com for more information on
14 the product. For the sake of clarity, we'll refer to it as
18 0) BMI concept and implementation overview
20 In contrast to how spam-scanning with SpamAssassin is
21 implemented in exiscan-acl, BMI is more suited for per
22 -recipient scanning of messages. However, each messages is
23 scanned only once, but multiple "verdicts" for multiple
24 recipients can be returned from the BMI server. The exiscan
25 implementation passes the message to the BMI server just
26 before accepting it. It then adds the retrieved verdicts to
27 the messages header file in the spool. These verdicts can then
28 be queried in routers, where operation is per-recipient
29 instead of per-message. To use BMI, you need to take the
32 1) Compile Exim with BMI support
33 2) Set up main BMI options (top section of Exim config file)
34 3) Set up ACL control statement (ACL section of the config
36 4) Set up your routers to use BMI verdicts (routers section
38 5) (Optional) Set up per-recipient opt-in information.
40 These four steps are explained in more details below.
42 1) Adding support for BMI at compile time
44 To compile with BMI support, you need to link Exim against
45 the Brighmail client SDK, consisting of a library
46 (libbmiclient_single.so) and a header file (bmi_api.h).
47 You'll also need to explicitly set a flag in the Makefile to
48 include BMI support in the Exim binary. Both can be achieved
49 with these lines in Local/Makefile:
51 EXPERIMENTAL_BRIGHTMAIL=yes
52 CFLAGS=-I/path/to/the/dir/with/the/includefile
53 EXTRALIBS_EXIM=-L/path/to/the/dir/with/the/library -lbmiclient_single
55 If you use other CFLAGS or EXTRALIBS_EXIM settings then
56 merge the content of these lines with them.
58 Note for BMI6.x users: You'll also have to add -lxml2_single
59 to the EXTRALIBS_EXIM line. Users of 5.5x do not need to do
62 You should also include the location of
63 libbmiclient_single.so in your dynamic linker configuration
64 file (usually /etc/ld.so.conf) and run "ldconfig"
65 afterwards, or else the produced Exim binary will not be
66 able to find the library file.
69 2) Setting up BMI support in the Exim main configuration
71 To enable BMI support in the main Exim configuration, you
72 should set the path to the main BMI configuration file with
73 the "bmi_config_file" option, like this:
75 bmi_config_file = /opt/brightmail/etc/brightmail.cfg
77 This must go into section 1 of Exim's configuration file (You
78 can put it right on top). If you omit this option, it
79 defaults to /opt/brightmail/etc/brightmail.cfg.
81 Note for BMI6.x users: This file is in XML format in V6.xx
82 and its name is /opt/brightmail/etc/bmiconfig.xml. So BMI
83 6.x users MUST set the bmi_config_file option.
86 3) Set up ACL control statement
88 To optimize performance, it makes sense only to process
89 messages coming from remote, untrusted sources with the BMI
90 server. To set up a messages for processing by the BMI
91 server, you MUST set the "bmi_run" control statement in any
92 ACL for an incoming message. You will typically do this in
93 an "accept" block in the "acl_check_rcpt" ACL. You should
94 use the "accept" block(s) that accept messages from remote
95 servers for your own domain(s). Here is an example that uses
96 the "accept" blocks from Exim's default configuration file:
99 accept domains = +local_domains
104 accept domains = +relay_to_domains
109 If bmi_run is not set in any ACL during reception of the
110 message, it will NOT be passed to the BMI server.
113 4) Setting up routers to use BMI verdicts
115 When a message has been run through the BMI server, one or
116 more "verdicts" are present. Different recipients can have
117 different verdicts. Each recipient is treated individually
118 during routing, so you can query the verdicts by recipient
119 at that stage. From Exim's view, a verdict can have the
122 o deliver the message normally
123 o deliver the message to an alternate location
124 o do not deliver the message
126 To query the verdict for a recipient, the implementation
127 offers the following tools:
130 - Boolean router preconditions. These can be used in any
131 router. For a simple implementation of BMI, these may be
132 all that you need. The following preconditions are
135 o bmi_deliver_default
137 This precondition is TRUE if the verdict for the
138 recipient is to deliver the message normally. If the
139 message has not been processed by the BMI server, this
140 variable defaults to TRUE.
142 o bmi_deliver_alternate
144 This precondition is TRUE if the verdict for the
145 recipient is to deliver the message to an alternate
146 location. You can get the location string from the
147 $bmi_alt_location expansion variable if you need it. See
148 further below. If the message has not been processed by
149 the BMI server, this variable defaults to FALSE.
153 This precondition is TRUE if the verdict for the
154 recipient is NOT to deliver the message to the
155 recipient. You will typically use this precondition in a
156 top-level blackhole router, like this:
158 # don't deliver messages handled by the BMI server
164 This router should be on top of all others, so messages
165 that should not be delivered do not reach other routers
166 at all. If the message has not been processed by
167 the BMI server, this variable defaults to FALSE.
170 - A list router precondition to query if rules "fired" on
171 the message for the recipient. Its name is "bmi_rule". You
172 use it by passing it a colon-separated list of rule
173 numbers. You can use this condition to route messages that
174 matched specific rules. Here is an example:
176 # special router for BMI rule #5, #8 and #11
180 data = postmaster@mydomain.com
183 - Expansion variables. Several expansion variables are set
184 during routing. You can use them in custom router
185 conditions, for example. The following variables are
188 o $bmi_base64_verdict
190 This variable will contain the BASE64 encoded verdict
191 for the recipient being routed. You can use it to add a
192 header to messages for tracking purposes, for example:
197 headers_add = X-Brightmail-Verdict: $bmi_base64_verdict
198 transport = local_delivery
200 If there is no verdict available for the recipient being
201 routed, this variable contains the empty string.
203 o $bmi_base64_tracker_verdict
205 This variable will contain a BASE64 encoded subset of
206 the verdict information concerning the "rules" that
207 fired on the message. You can add this string to a
208 header, commonly named "X-Brightmail-Tracker". Example:
213 headers_add = X-Brightmail-Tracker: $bmi_base64_tracker_verdict
214 transport = local_delivery
216 If there is no verdict available for the recipient being
217 routed, this variable contains the empty string.
221 If the verdict is to redirect the message to an
222 alternate location, this variable will contain the
223 alternate location string returned by the BMI server. In
224 its default configuration, this is a header-like string
225 that can be added to the message with "headers_add". If
226 there is no verdict available for the recipient being
227 routed, or if the message is to be delivered normally,
228 this variable contains the empty string.
232 This is an additional integer variable that can be used
233 to query if the message should be delivered at all. You
234 should use router preconditions instead if possible.
236 $bmi_deliver is '0': the message should NOT be delivered.
237 $bmi_deliver is '1': the message should be delivered.
240 IMPORTANT NOTE: Verdict inheritance.
241 The message is passed to the BMI server during message
242 reception, using the target addresses from the RCPT TO:
243 commands in the SMTP transaction. If recipients get expanded
244 or re-written (for example by aliasing), the new address(es)
245 inherit the verdict from the original address. This means
246 that verdicts also apply to all "child" addresses generated
247 from top-level addresses that were sent to the BMI server.
250 5) Using per-recipient opt-in information (Optional)
252 The BMI server features multiple scanning "profiles" for
253 individual recipients. These are usually stored in a LDAP
254 server and are queried by the BMI server itself. However,
255 you can also pass opt-in data for each recipient from the
256 MTA to the BMI server. This is particularly useful if you
257 already look up recipient data in Exim anyway (which can
258 also be stored in a SQL database or other source). This
259 implementation enables you to pass opt-in data to the BMI
260 server in the RCPT ACL. This works by setting the
261 'bmi_optin' modifier in a block of that ACL. If should be
262 set to a list of comma-separated strings that identify the
263 features which the BMI server should use for that particular
264 recipient. Ideally, you would use the 'bmi_optin' modifier
265 in the same ACL block where you set the 'bmi_run' control
266 flag. Here is an example that will pull opt-in data for each
267 recipient from a flat file called
268 '/etc/exim/bmi_optin_data'.
272 user1@mydomain.com: <OPTIN STRING1>:<OPTIN STRING2>
273 user2@thatdomain.com: <OPTIN STRING3>
278 accept domains = +relay_to_domains
281 bmi_optin = ${lookup{$local_part@$domain}lsearch{/etc/exim/bmi_optin_data}}
284 Of course, you can also use any other lookup method that
285 Exim supports, including LDAP, Postgres, MySQL, Oracle etc.,
286 as long as the result is a list of colon-separated opt-in
289 For a list of available opt-in strings, please contact your
290 Brightmail representative.
295 Sender Policy Framework (SPF) support
296 --------------------------------------------------------------
298 To learn more about SPF, visit http://www.openspf.org. This
299 document does not explain the SPF fundamentals, you should
300 read and understand the implications of deploying SPF on your
301 system before doing so.
303 SPF support is added via the libspf2 library. Visit
305 http://www.libspf2.org/
307 to obtain a copy, then compile and install it. By default,
308 this will put headers in /usr/local/include and the static
309 library in /usr/local/lib.
311 To compile Exim with SPF support, set these additional flags in
315 CFLAGS=-DSPF -I/usr/local/include
316 EXTRALIBS_EXIM=-L/usr/local/lib -lspf2
318 This assumes that the libspf2 files are installed in
319 their default locations.
321 You can now run SPF checks in incoming SMTP by using the "spf"
322 ACL condition in either the MAIL, RCPT or DATA ACLs. When
323 using it in the RCPT ACL, you can make the checks dependent on
324 the RCPT address (or domain), so you can check SPF records
325 only for certain target domains. This gives you the
326 possibility to opt-out certain customers that do not want
327 their mail to be subject to SPF checking.
329 The spf condition takes a list of strings on its right-hand
330 side. These strings describe the outcome of the SPF check for
331 which the spf condition should succeed. Valid strings are:
333 o pass The SPF check passed, the sending host
334 is positively verified by SPF.
335 o fail The SPF check failed, the sending host
336 is NOT allowed to send mail for the domain
337 in the envelope-from address.
338 o softfail The SPF check failed, but the queried
339 domain can't absolutely confirm that this
341 o none The queried domain does not publish SPF
343 o neutral The SPF check returned a "neutral" state.
344 This means the queried domain has published
345 a SPF record, but wants to allow outside
346 servers to send mail under its domain as well.
347 This should be treated like "none".
348 o permerror This indicates a syntax error in the SPF
349 record of the queried domain. You may deny
350 messages when this occurs. (Changed in 4.83)
351 o temperror This indicates a temporary error during all
352 processing, including Exim's SPF processing.
353 You may defer messages when this occurs.
355 o err_temp Same as permerror, deprecated in 4.83, will be
356 removed in a future release.
357 o err_perm Same as temperror, deprecated in 4.83, will be
358 removed in a future release.
360 You can prefix each string with an exclamation mark to invert
361 its meaning, for example "!fail" will match all results but
362 "fail". The string list is evaluated left-to-right, in a
363 short-circuit fashion. When a string matches the outcome of
364 the SPF check, the condition succeeds. If none of the listed
365 strings matches the outcome of the SPF check, the condition
368 Here is an example to fail forgery attempts from domains that
372 deny message = $sender_host_address is not allowed to send mail from ${if def:sender_address_domain {$sender_address_domain}{$sender_helo_name}}. \
373 Please see http://www.openspf.org/Why?scope=${if def:sender_address_domain {mfrom}{helo}};identity=${if def:sender_address_domain {$sender_address}{$sender_helo_name}};ip=$sender_host_address
375 --------------------- */
377 You can also give special treatment to specific domains:
380 deny message = AOL sender, but not from AOL-approved relay.
381 sender_domains = aol.com
383 --------------------- */
385 Explanation: AOL publishes SPF records, but is liberal and
386 still allows non-approved relays to send mail from aol.com.
387 This will result in a "neutral" state, while mail from genuine
388 AOL servers will result in "pass". The example above takes
389 this into account and treats "neutral" like "fail", but only
390 for aol.com. Please note that this violates the SPF draft.
392 When the spf condition has run, it sets up several expansion
396 This contains a human-readable string describing the outcome
397 of the SPF check. You can add it to a custom header or use
398 it for logging purposes.
401 This contains a complete Received-SPF: header that can be
402 added to the message. Please note that according to the SPF
403 draft, this header must be added at the top of the header
404 list. Please see section 10 on how you can do this.
406 Note: in case of "Best-guess" (see below), the convention is
407 to put this string in a header called X-SPF-Guess: instead.
410 This contains the outcome of the SPF check in string form,
411 one of pass, fail, softfail, none, neutral, permerror or
415 This contains a string that can be used in a SMTP response
416 to the calling party. Useful for "fail".
418 In addition to SPF, you can also perform checks for so-called
419 "Best-guess". Strictly speaking, "Best-guess" is not standard
420 SPF, but it is supported by the same framework that enables SPF
421 capability. Refer to http://www.openspf.org/FAQ/Best_guess_record
422 for a description of what it means.
424 To access this feature, simply use the spf_guess condition in place
425 of the spf one. For example:
428 deny message = $sender_host_address doesn't look trustworthy to me
430 --------------------- */
432 In case you decide to reject messages based on this check, you
433 should note that although it uses the same framework, "Best-guess"
434 is NOT SPF, and therefore you should not mention SPF at all in your
437 When the spf_guess condition has run, it sets up the same expansion
438 variables as when spf condition is run, described above.
440 Additionally, since Best-guess is not standardized, you may redefine
441 what "Best-guess" means to you by redefining spf_guess variable in
442 global config. For example, the following:
445 spf_guess = v=spf1 a/16 mx/16 ptr ?all
446 --------------------- */
448 would relax host matching rules to a broader network range.
451 SRS (Sender Rewriting Scheme) Support
452 --------------------------------------------------------------
454 Exiscan currently includes SRS support via Miles Wilton's
455 libsrs_alt library. The current version of the supported
458 In order to use SRS, you must get a copy of libsrs_alt from
460 http://srs.mirtol.com/
462 Unpack the tarball, then refer to MTAs/README.EXIM
463 to proceed. You need to set
467 in your Local/Makefile.
471 --------------------------------------------------------------
475 In order to build exim with DCC support add
479 to your Makefile. (Re-)build/install exim. exim -d should show
480 EXPERIMENTAL_DCC under "Support for".
485 In the main section of exim.cf add at least
486 dccifd_address = /usr/local/dcc/var/dccifd
488 dccifd_address = <ip> <port>
490 In the DATA ACL you can use the new condition
493 After that "$dcc_header" contains the X-DCC-Header.
496 fail for overall "R", "G" from dccifd
497 defer for overall "T" from dccifd
498 accept for overall "A", "S" from dccifd
500 dcc = */defer_ok works as for spamd.
502 The "$dcc_result" variable contains the overall result from DCC
503 answer. There will an X-DCC: header added to the mail.
507 to greylist with DCC.
509 If you set, in the main section,
510 dcc_direct_add_header = true
511 then the dcc header will be added "in deep" and if the spool
512 file was already written it gets removed. This forces Exim to
513 write it again if needed. This helps to get the DCC Header
514 through to eg. SpamAssassin.
516 If you want to pass even more headers in the middle of the
517 DATA stage you can set
518 $acl_m_dcc_add_header
519 to tell the DCC routines to add more information; eg, you might set
520 this to some results from ClamAV. Be careful. Header syntax is
521 not checked and is added "as is".
523 In case you've troubles with sites sending the same queue items from several
524 hosts and fail to get through greylisting you can use
525 $acl_m_dcc_override_client_ip
527 Setting $acl_m_dcc_override_client_ip to an IP address overrides the default
528 of $sender_host_address. eg. use the following ACL in DATA stage:
530 warn set acl_m_dcc_override_client_ip = \
531 ${lookup{$sender_helo_name}nwildlsearch{/etc/mail/multipleip_sites}{$value}{}}
532 condition = ${if def:acl_m_dcc_override_client_ip}
533 log_message = dbg: acl_m_dcc_override_client_ip set to \
534 $acl_m_dcc_override_client_ip
536 Then set something like
537 # cat /etc/mail/multipleip_sites
538 mout-xforward.gmx.net 82.165.159.12
539 mout.gmx.net 212.227.15.16
541 Use a reasonable IP. eg. one the sending cluster acutally uses.
544 --------------------------------------------------------------
546 DMARC combines feedback from SPF, DKIM, and header From: in order
547 to attempt to provide better indicators of the authenticity of an
548 email. This document does not explain the fundamentals, you
549 should read and understand how it works by visiting the website at
550 http://www.dmarc.org/.
552 DMARC support is added via the libopendmarc library. Visit:
554 http://sourceforge.net/projects/opendmarc/
556 to obtain a copy, or find it in your favorite rpm package
557 repository. If building from source, this description assumes
558 that headers will be in /usr/local/include, and that the libraries
559 are in /usr/local/lib.
561 1. To compile Exim with DMARC support, you must first enable SPF.
562 Please read the above section on enabling the EXPERIMENTAL_SPF
563 feature. You must also have DKIM support, so you cannot set the
564 DISABLE_DKIM feature. Once both of those conditions have been met
565 you can enable DMARC in Local/Makefile:
567 EXPERIMENTAL_DMARC=yes
568 LDFLAGS += -lopendmarc
569 # CFLAGS += -I/usr/local/include
570 # LDFLAGS += -L/usr/local/lib
572 The first line sets the feature to include the correct code, and
573 the second line says to link the libopendmarc libraries into the
574 exim binary. The commented out lines should be uncommented if you
575 built opendmarc from source and installed in the default location.
576 Adjust the paths if you installed them elsewhere, but you do not
577 need to uncomment them if an rpm (or you) installed them in the
578 package controlled locations (/usr/include and /usr/lib).
581 2. Use the following global settings to configure DMARC:
584 dmarc_tld_file Defines the location of a text file of valid
585 top level domains the opendmarc library uses
586 during domain parsing. Maintained by Mozilla,
587 the most current version can be downloaded
588 from a link at http://publicsuffix.org/list/.
591 dmarc_history_file Defines the location of a file to log results
592 of dmarc verification on inbound emails. The
593 contents are importable by the opendmarc tools
594 which will manage the data, send out DMARC
595 reports, and expire the data. Make sure the
596 directory of this file is writable by the user
599 dmarc_forensic_sender The email address to use when sending a
600 forensic report detailing alignment failures
601 if a sender domain's dmarc record specifies it
602 and you have configured Exim to send them.
603 Default: do-not-reply@$default_hostname
606 3. By default, the DMARC processing will run for any remote,
607 non-authenticated user. It makes sense to only verify DMARC
608 status of messages coming from remote, untrusted sources. You can
609 use standard conditions such as hosts, senders, etc, to decide that
610 DMARC verification should *not* be performed for them and disable
611 DMARC with a control setting:
613 control = dmarc_disable_verify
615 A DMARC record can also specify a "forensic address", which gives
616 exim an email address to submit reports about failed alignment.
617 Exim does not do this by default because in certain conditions it
618 results in unintended information leakage (what lists a user might
619 be subscribed to, etc). You must configure exim to submit forensic
620 reports to the owner of the domain. If the DMARC record contains a
621 forensic address and you specify the control statement below, then
622 exim will send these forensic emails. It's also advised that you
623 configure a dmarc_forensic_sender because the default sender address
624 construction might be inadequate.
626 control = dmarc_forensic_enable
628 (AGAIN: You can choose not to send these forensic reports by simply
629 not putting the dmarc_forensic_enable control line at any point in
630 your exim config. If you don't tell it to send them, it will not
633 There are no options to either control. Both must appear before
637 4. You can now run DMARC checks in incoming SMTP by using the
638 "dmarc_status" ACL condition in the DATA ACL. You are required to
639 call the spf condition first in the ACLs, then the "dmarc_status"
640 condition. Putting this condition in the ACLs is required in order
641 for a DMARC check to actually occur. All of the variables are set
642 up before the DATA ACL, but there is no actual DMARC check that
643 occurs until a "dmarc_status" condition is encountered in the ACLs.
645 The dmarc_status condition takes a list of strings on its
646 right-hand side. These strings describe recommended action based
647 on the DMARC check. To understand what the policy recommendations
648 mean, refer to the DMARC website above. Valid strings are:
650 o accept The DMARC check passed and the library recommends
652 o reject The DMARC check failed and the library recommends
654 o quarantine The DMARC check failed and the library recommends
655 keeping it for further inspection.
656 o none The DMARC check passed and the library recommends
657 no specific action, neutral.
658 o norecord No policy section in the DMARC record for this
660 o nofrom Unable to determine the domain of the sender.
661 o temperror Library error or dns error.
662 o off The DMARC check was disabled for this email.
664 You can prefix each string with an exclamation mark to invert its
665 meaning, for example "!accept" will match all results but
666 "accept". The string list is evaluated left-to-right in a
667 short-circuit fashion. When a string matches the outcome of the
668 DMARC check, the condition succeeds. If none of the listed
669 strings matches the outcome of the DMARC check, the condition
672 Of course, you can also use any other lookup method that Exim
673 supports, including LDAP, Postgres, MySQL, etc, as long as the
674 result is a list of colon-separated strings.
676 Several expansion variables are set before the DATA ACL is
677 processed, and you can use them in this ACL. The following
678 expansion variables are available:
681 This is a one word status indicating what the DMARC library
682 thinks of the email. It is a combination of the results of
683 DMARC record lookup and the SPF/DKIM/DMARC processing results
684 (if a DMARC record was found). The actual policy declared
685 in the DMARC record is in a separate expansion variable.
688 This is a slightly longer, human readable status.
691 This is the domain which DMARC used to look up the DMARC
694 o $dmarc_domain_policy
695 This is the policy declared in the DMARC record. Valid values
696 are "none", "reject" and "quarantine". It is blank when there
697 is any error, including no DMARC record.
700 This is the entire Authentication-Results header which you can
701 add using an add_header modifier.
704 5. How to enable DMARC advanced operation:
705 By default, Exim's DMARC configuration is intended to be
706 non-intrusive and conservative. To facilitate this, Exim will not
707 create any type of logging files without explicit configuration by
708 you, the admin. Nor will Exim send out any emails/reports about
709 DMARC issues without explicit configuration by you, the admin (other
710 than typical bounce messages that may come about due to ACL
711 processing or failure delivery issues).
713 In order to log statistics suitable to be imported by the opendmarc
715 a. Configure the global setting dmarc_history_file.
716 b. Configure cron jobs to call the appropriate opendmarc history
717 import scripts and truncating the dmarc_history_file.
719 In order to send forensic reports, you need to:
720 a. Configure the global setting dmarc_forensic_sender.
721 b. Configure, somewhere before the DATA ACL, the control option to
722 enable sending DMARC forensic reports.
727 warn domains = +local_domains
729 control = dmarc_disable_verify
731 warn !domains = +screwed_up_dmarc_records
732 control = dmarc_enable_forensic
734 warn condition = (lookup if destined to mailing list)
735 set acl_m_mailing_list = 1
738 warn dmarc_status = accept : none : off
740 log_message = DMARC DEBUG: $dmarc_status $dmarc_used_domain
741 add_header = $dmarc_ar_header
743 warn dmarc_status = !accept
745 log_message = DMARC DEBUG: '$dmarc_status' for $dmarc_used_domain
747 warn dmarc_status = quarantine
749 set $acl_m_quarantine = 1
750 # Do something in a transport with this flag variable
752 deny condition = ${if eq{$dmarc_domain_policy}{reject}}
753 condition = ${if eq{$acl_m_mailing_list}{1}}
754 message = Messages from $dmarc_used_domain break mailing lists
756 deny dmarc_status = reject
758 message = Message from $domain_used_domain failed sender's DMARC policy, REJECT
762 Transport post-delivery actions
763 --------------------------------------------------------------
765 An arbitrary per-transport string can be expanded upon various transport events
766 and (for SMTP transports) a second string on deferrals caused by a host error.
767 Additionally a main-section configuration option can be expanded on some
769 This feature may be used, for example, to write exim internal log information
770 (not available otherwise) into a database.
772 In order to use the feature, you must compile with
774 EXPERIMENTAL_TPDA=yes
776 in your Local/Makefile
778 and define one or both of
779 - the tpda_event_action option in the transport
780 - the delivery_event_action
781 to be expanded when the event fires.
783 A new variable, $tpda_event, is set to the event type when the
784 expansion is done. The current list of events is:
786 msg:complete main per message
787 msg:delivery transport per recipient
788 msg:host:defer transport per attempt
789 msg:fail:delivery main per recipient
790 msg:fail:internal main per recipient
791 tcp:connect transport per connection
792 tcp:close transport per connection
793 tls:cert transport per certificate in verification chain
794 smtp:connect transport per connection
796 The expansion is called for all event types, and should use the $tpda_event
797 value to decide when to act. The variable data is a colon-separated
798 list, describing an event tree.
800 There is an auxilary variable, $tpda_data, for which the
801 content is event_dependent:
803 msg:delivery smtp confirmation mssage
804 msg:host:defer error string
805 tls:cert verification chain depth
806 smtp:connect smtp banner
808 The msg:host:defer event populates one extra variable, $tpda_defer_errno.
810 The following variables are likely to be useful depending on the event type:
812 router_name, transport_name
814 host, host_address, host_port
816 lookup_dnssec_authenticated, tls_out_dane
817 sending_ip_address, sending_port
821 An example might look like:
823 tpda_event_action = ${if = {msg:delivery}{$tpda_event} \
824 {${lookup pgsql {SELECT * FROM record_Delivery( \
825 '${quote_pgsql:$sender_address_domain}',\
826 '${quote_pgsql:${lc:$sender_address_local_part}}', \
827 '${quote_pgsql:$domain}', \
828 '${quote_pgsql:${lc:$local_part}}', \
829 '${quote_pgsql:$host_address}', \
830 '${quote_pgsql:${lc:$host}}', \
831 '${quote_pgsql:$message_exim_id}')}} \
834 The string is expanded for each of the supported events and any
835 side-effects will happen. The result is then discarded.
836 Note that for complex operations an ACL expansion can be used.
839 The expansion of the tpda_event_action option should normally
840 return an empty string. Should it return anything else the
841 following will be forced:
843 msg:delivery (ignored)
844 msg:host:defer (ignored)
845 msg:fail:delivery (ignored)
846 tcp:connect do not connect
848 tls:cert refuse verification
849 smtp:connect close connection
856 --------------------------------------------------------------
858 Redis is open source advanced key-value data store. This document
859 does not explain the fundamentals, you should read and understand how
860 it works by visiting the website at http://www.redis.io/.
862 Redis lookup support is added via the hiredis library. Visit:
864 https://github.com/redis/hiredis
866 to obtain a copy, or find it in your operating systems package repository.
867 If building from source, this description assumes that headers will be in
868 /usr/local/include, and that the libraries are in /usr/local/lib.
870 1. In order to build exim with Redis lookup support add
872 EXPERIMENTAL_REDIS=yes
874 to your Local/Makefile. (Re-)build/install exim. exim -d should show
875 Experimental_Redis in the line "Support for:".
877 EXPERIMENTAL_REDIS=yes
879 # CFLAGS += -I/usr/local/include
880 # LDFLAGS += -L/usr/local/lib
882 The first line sets the feature to include the correct code, and
883 the second line says to link the hiredis libraries into the
884 exim binary. The commented out lines should be uncommented if you
885 built hiredis from source and installed in the default location.
886 Adjust the paths if you installed them elsewhere, but you do not
887 need to uncomment them if an rpm (or you) installed them in the
888 package controlled locations (/usr/include and /usr/lib).
891 2. Use the following global settings to configure Redis lookup support:
894 redis_servers This option provides a list of Redis servers
895 and associated connection data, to be used in
896 conjunction with redis lookups. The option is
897 only available if Exim is configured with Redis
902 redis_servers = 127.0.0.1/10/ - using database 10 with no password
903 redis_servers = 127.0.0.1//password - to make use of the default database of 0 with a password
904 redis_servers = 127.0.0.1// - for default database of 0 with no password
906 3. Once you have the Redis servers defined you can then make use of the
907 experimental Redis lookup by specifying ${lookup redis{}} in a lookup query.
912 hostlist relay_from_ips = <\n ${lookup redis{SMEMBERS relay_from_ips}}
914 Where relay_from_ips is a Redis set which contains entries such as "192.168.0.0/24" "10.0.0.0/8" and so on.
915 The result set is returned as
922 domainlist virtual_domains = ${lookup redis {HGET $domain domain}}
924 Where $domain is a hash which includes the key 'domain' and the value '$domain'.
926 (Adding or updating an existing key)
927 set acl_c_spammer = ${if eq{${lookup redis{SPAMMER_SET}}}{OK}}
929 Where SPAMMER_SET is a macro and it is defined as
931 "SET SPAMMER <some_value>"
933 (Getting a value from Redis)
935 set acl_c_spam_host = ${lookup redis{GET...}}
938 Proxy Protocol Support
939 --------------------------------------------------------------
941 Exim now has Experimental "Proxy Protocol" support. It was built on
943 http://haproxy.1wt.eu/download/1.5/doc/proxy-protocol.txt
944 Above URL revised May 2014 to change version 2 spec:
945 http://git.1wt.eu/web?p=haproxy.git;a=commitdiff;h=afb768340c9d7e50d8e
947 The purpose of this function is so that an application load balancer,
948 such as HAProxy, can sit in front of several Exim servers and Exim
949 will log the IP that is connecting to the proxy server instead of
950 the IP of the proxy server when it connects to Exim. It resets the
951 $sender_address_host and $sender_address_port to the IP:port of the
952 connection to the proxy. It also re-queries the DNS information for
953 this new IP address so that the original sender's hostname and IP
954 get logged in the Exim logfile. There is no logging if a host passes or
955 fails Proxy Protocol negotiation, but it can easily be determined and
956 recorded in an ACL (example is below).
958 1. To compile Exim with Proxy Protocol support, put this in
961 EXPERIMENTAL_PROXY=yes
963 2. Global configuration settings:
965 proxy_required_hosts = HOSTLIST
967 The proxy_required_hosts option will require any IP in that hostlist
968 to use Proxy Protocol. The specification of Proxy Protocol is very
969 strict, and if proxy negotiation fails, Exim will not allow any SMTP
970 command other than QUIT. (See end of this section for an example.)
971 The option is expanded when used, so it can be a hostlist as well as
972 string of IP addresses. Since it is expanded, specifying an alternate
973 separator is supported for ease of use with IPv6 addresses.
975 To log the IP of the proxy in the incoming logline, add:
976 log_selector = +proxy
978 A default incoming logline (wrapped for appearance) will look like this:
980 2013-11-04 09:25:06 1VdNti-0001OY-1V <= me@example.net
981 H=mail.example.net [1.2.3.4] P=esmtp S=433
983 With the log selector enabled, an email that was proxied through a
984 Proxy Protocol server at 192.168.1.2 will look like this:
986 2013-11-04 09:25:06 1VdNti-0001OY-1V <= me@example.net
987 H=mail.example.net [1.2.3.4] P=esmtp PRX=192.168.1.2 S=433
989 3. In the ACL's the following expansion variables are available.
991 proxy_host_address The (internal) src IP of the proxy server
992 making the connection to the Exim server.
993 proxy_host_port The (internal) src port the proxy server is
994 using to connect to the Exim server.
995 proxy_target_address The dest (public) IP of the remote host to
997 proxy_target_port The dest port the remote host is using to
998 connect to the proxy server.
999 proxy_session Boolean, yes/no, the connected host is required
1000 to use Proxy Protocol.
1002 There is no expansion for a failed proxy session, however you can detect
1003 it by checking if $proxy_session is true but $proxy_host is empty. As
1004 an example, in my connect ACL, I have:
1006 warn condition = ${if and{ {bool{$proxy_session}} \
1007 {eq{$proxy_host_address}{}} } }
1008 log_message = Failed required proxy protocol negotiation \
1009 from $sender_host_name [$sender_host_address]
1011 warn condition = ${if and{ {bool{$proxy_session}} \
1012 {!eq{$proxy_host_address}{}} } }
1013 # But don't log health probes from the proxy itself
1014 condition = ${if eq{$proxy_host_address}{$sender_host_address} \
1016 log_message = Successfully proxied from $sender_host_name \
1017 [$sender_host_address] through proxy protocol \
1018 host $proxy_host_address
1020 # Possibly more clear
1021 warn logwrite = Remote Source Address: $sender_host_address:$sender_host_port
1022 logwrite = Proxy Target Address: $proxy_target_address:$proxy_target_port
1023 logwrite = Proxy Internal Address: $proxy_host_address:$proxy_host_port
1024 logwrite = Internal Server Address: $received_ip_address:$received_port
1027 4. Recommended ACL additions:
1028 - Since the real connections are all coming from your proxy, and the
1029 per host connection tracking is done before Proxy Protocol is
1030 evaluated, smtp_accept_max_per_host must be set high enough to
1031 handle all of the parallel volume you expect per inbound proxy.
1032 - With the smtp_accept_max_per_host set so high, you lose the ability
1033 to protect your server from massive numbers of inbound connections
1034 from one IP. In order to prevent your server from being DOS'd, you
1035 need to add a per connection ratelimit to your connect ACL. I
1036 suggest something like this:
1038 # Set max number of connections per host
1040 # Or do some kind of IP lookup in a flat file or database
1041 # LIMIT = ${lookup{$sender_host_address}iplsearch{/etc/exim/proxy_limits}}
1043 defer message = Too many connections from this IP right now
1044 ratelimit = LIMIT / 5s / per_conn / strict
1047 5. Runtime issues to be aware of:
1048 - The proxy has 3 seconds (hard-coded in the source code) to send the
1049 required Proxy Protocol header after it connects. If it does not,
1050 the response to any commands will be:
1051 "503 Command refused, required Proxy negotiation failed"
1052 - If the incoming connection is configured in Exim to be a Proxy
1053 Protocol host, but the proxy is not sending the header, the banner
1054 does not get sent until the timeout occurs. If the sending host
1055 sent any input (before the banner), this causes a standard Exim
1056 synchronization error (i.e. trying to pipeline before PIPELINING
1058 - This is not advised, but is mentioned for completeness if you have
1059 a specific internal configuration that you want this: If the Exim
1060 server only has an internal IP address and no other machines in your
1061 organization will connect to it to try to send email, you may
1062 simply set the hostlist to "*", however, this will prevent local
1063 mail programs from working because that would require mail from
1064 localhost to use Proxy Protocol. Again, not advised!
1066 6. Example of a refused connection because the Proxy Protocol header was
1067 not sent from a host configured to use Proxy Protocol. In the example,
1068 the 3 second timeout occurred (when a Proxy Protocol banner should have
1069 been sent), the banner was displayed to the user, but all commands are
1070 rejected except for QUIT:
1072 # nc mail.example.net 25
1073 220-mail.example.net, ESMTP Exim 4.82+proxy, Mon, 04 Nov 2013 10:45:59
1074 220 -0800 RFC's enforced
1076 503 Command refused, required Proxy negotiation failed
1078 221 mail.example.net closing connection
1082 --------------------------------------------------------------
1084 DSN Support tries to add RFC 3461 support to Exim. It adds support for
1085 *) the additional parameters for MAIL FROM and RCPT TO
1086 *) RFC complient MIME DSN messages for all of
1087 success, failure and delay notifications
1088 *) dsn_advertise_hosts main option to select which hosts are able
1089 to use the extension
1090 *) dsn_lasthop router switch to end DSN processing
1092 In case of failure reports this means that the last three parts, the message body
1093 intro, size info and final text, of the defined template are ignored since there is no
1094 logical place to put them in the MIME message.
1096 All the other changes are made without changing any defaults
1102 EXPERIMENTAL_DSN=YES
1103 in your Local/Makefile.
1107 All DSNs are sent in MIME format if you built exim with EXPERIMENTAL_DSN=YES
1108 No option needed to activate it, and no way to turn it off.
1110 Failure and delay DSNs are triggered as usual except a sender used NOTIFY=...
1113 Support for Success DSNs is added and activated by NOTIFY=SUCCESS by clients.
1116 dsn_advertise_hosts = *
1117 or a more restrictive host_list to announce DSN in EHLO answers
1119 Those hosts can then use NOTIFY,ENVID,RET,ORCPT options.
1121 If a message is relayed to a DSN aware host without changing the envelope
1122 recipient the options are passed along and no success DSN is generated.
1124 A redirect router will always trigger a success DSN if requested and the DSN
1125 options are not passed any further.
1127 A success DSN always contains the recipient address as submitted by the
1128 client as required by RFC. Rewritten addresses are never exposed.
1130 If you used DSN patch up to 1.3 before remove all "dsn_process" switches from
1131 your routers since you don't need them anymore. There is no way to "gag"
1132 success DSNs anymore. Announcing DSN means answering as requested.
1134 You can prevent Exim from passing DSN options along to other DSN aware hosts by defining
1136 in a router. Exim will then send the success DSN himself if requested as if
1137 the next hop does not support DSN.
1138 Adding it to a redirect router makes no difference.
1141 Certificate name checking
1142 --------------------------------------------------------------
1143 The X509 certificates used for TLS are supposed be verified
1144 that they are owned by the expected host. The coding of TLS
1145 support to date has not made these checks.
1147 If built with EXPERIMENTAL_CERTNAMES defined, code is
1148 included to do so, and a new smtp transport option
1149 "tls_verify_cert_hostname" supported which takes a list of
1150 names for which the checks must be made. The host must
1151 also be in "tls_verify_hosts".
1153 Both Subject and Subject-Alternate-Name certificate fields
1154 are supported, as are wildcard certificates (limited to
1155 a single wildcard being the initial component of a 3-or-more
1160 ------------------------------------------------------------
1161 DNS-based Authentication of Named Entities, as applied
1162 to SMTP over TLS, provides assurance to a client that
1163 it is actually talking to the server it wants to rather
1164 than some attacker operating a Man In The Middle (MITM)
1165 operation. The latter can terminate the TLS connection
1166 you make, and make another one to the server (so both
1167 you and the server still think you have an encrypted
1168 connection) and, if one of the "well known" set of
1169 Certificate Authorities has been suborned - something
1170 which *has* been seen already (2014), a verifiable
1171 certificate (if you're using normal root CAs, eg. the
1172 Mozilla set, as your trust anchors).
1174 What DANE does is replace the CAs with the DNS as the
1175 trust anchor. The assurance is limited to a) the possibility
1176 that the DNS has been suborned, b) mistakes made by the
1177 admins of the target server. The attack surface presented
1178 by (a) is thought to be smaller than that of the set
1181 It also allows the server to declare (implicitly) that
1182 connections to it should use TLS. An MITM could simply
1183 fail to pass on a server's STARTTLS.
1185 DANE scales better than having to maintain (and
1186 side-channel communicate) copies of server certificates
1187 for every possible target server. It also scales
1188 (slightly) better than having to maintain on an SMTP
1189 client a copy of the standard CAs bundle. It also
1190 means not having to pay a CA for certificates.
1192 DANE requires a server operator to do three things:
1193 1) run DNSSEC. This provides assurance to clients
1194 that DNS lookups they do for the server have not
1195 been tampered with. The domain MX record applying
1196 to this server, its A record, its TLSA record and
1197 any associated CNAME records must all be covered by
1199 2) add TLSA DNS records. These say what the server
1200 certificate for a TLS connection should be.
1201 3) offer a server certificate, or certificate chain,
1202 in TLS connections which is traceable to the one
1203 defined by (one of?) the TSLA records
1205 There are no changes to Exim specific to server-side
1208 The TLSA record for the server may have "certificate
1209 usage" of DANE-TA(2) or DANE-EE(3). The latter specifies
1210 the End Entity directly, i.e. the certificate involved
1211 is that of the server (and should be the sole one transmitted
1212 during the TLS handshake); this is appropriate for a
1213 single system, using a self-signed certificate.
1214 DANE-TA usage is effectively declaring a specific CA
1215 to be used; this might be a private CA or a public,
1216 well-known one. A private CA at simplest is just
1217 a self-signed certificate which is used to sign
1218 cerver certificates, but running one securely does
1219 require careful arrangement. If a private CA is used
1220 then either all clients must be primed with it, or
1221 (probably simpler) the server TLS handshake must transmit
1222 the entire certificate chain from CA to server-certificate.
1223 If a public CA is used then all clients must be primed with it
1224 (losing one advantage of DANE) - but the attack surface is
1225 reduced from all public CAs to that single CA.
1226 DANE-TA is commonly used for several services and/or
1227 servers, each having a TLSA query-domain CNAME record,
1228 all of which point to a single TLSA record.
1230 The TLSA record should have a Selector field of SPKI(1)
1231 and a Matching Type field of SHA2-512(2).
1233 At the time of writing, https://www.huque.com/bin/gen_tlsa
1234 is useful for quickly generating TLSA records; and commands like
1236 openssl x509 -in -pubkey -noout <certificate.pem \
1237 | openssl rsa -outform der -pubin 2>/dev/null \
1241 are workable for 4th-field hashes.
1243 For use with the DANE-TA model, server certificates
1244 must have a correct name (SubjectName or SubjectAltName).
1246 The use of OCSP-stapling should be considered, allowing
1247 for fast revocation of certificates (which would otherwise
1248 be limited by the DNS TTL on the TLSA records). However,
1249 this is likely to only be usable with DANE-TA. NOTE: the
1250 default of requesting OCSP for all hosts is modified iff
1253 hosts_request_ocsp = ${if or { {= {0}{$tls_out_tlsa_usage}} \
1254 {= {4}{$tls_out_tlsa_usage}} } \
1257 The (new) variable $tls_out_tlsa_usage is a bitfield with
1258 numbered bits set for TLSA record usage codes.
1259 The zero above means DANE was not in use,
1260 the four means that only DANE-TA usage TLSA records were
1261 found. If the definition of hosts_request_ocsp includes the
1262 string "tls_out_tlsa_usage", they are re-expanded in time to
1263 control the OCSP request.
1265 This modification of hosts_request_ocsp is only done if
1266 it has the default value of "*". Admins who change it, and
1267 those who use hosts_require_ocsp, should consider the interaction
1268 with DANE in their OCSP settings.
1271 For client-side DANE there are two new smtp transport options,
1272 hosts_try_dane and hosts_require_dane. They do the obvious thing.
1273 [ should they be domain-based rather than host-based? ]
1275 DANE will only be usable if the target host has DNSSEC-secured
1276 MX, A and TLSA records.
1278 A TLSA lookup will be done if either of the above options match
1279 and the host-lookup succeded using dnssec.
1280 If the TLSA lookup succeeds, a TLS connection will be required
1283 (TODO: specify when fallback happens vs. when the host is not used)
1285 If dane is in use the following transport options are ignored:
1288 tls_try_verify_hosts
1289 tls_verify_certificates
1291 tls_verify_cert_hostnames
1293 Currently dnssec_request_domains must be active (need to think about that)
1294 and dnssec_require_domains is ignored.
1296 If verification was successful using DANE then the "CV" item
1297 in the delivery log line will show as "CV=dane".
1299 There is a new variable $tls_out_dane which will have "yes" if
1300 verification succeeded using DANE and "no" otherwise (only useful
1301 in combination with EXPERIMENTAL_TPDA), and a new variable
1302 $tls_out_tlsa_usage (detailed above).
1305 --------------------------------------------------------------
1307 --------------------------------------------------------------