in your Local/Makefile.
+The following main-section options become available:
+ srs_config string
+ srs_hashlength int
+ srs_hashmin int
+ srs_maxage int
+ srs_secrets string
+ srs_usehash bool
+ srs_usetimestamp bool
+
+The redirect router gains these options (all of type string, unset by default):
+ srs
+ srs_alias
+ srs_condition
+ srs_dbinsert
+ srs_dbselect
+
+The following variables become available:
+ $srs_db_address
+ $srs_db_key
+ $srs_orig_recipient
+ $srs_orig_sender
+ $srs_recipient
+ $srs_status
+
+The predefined feature-macro _HAVE_SRS will be present.
+Additional delivery log line elements, tagged with "SRS=" will show the srs sender.
+For configuration information see https://github.com/Exim/exim/wiki/SRS .
+
+
DCC Support
Use a reasonable IP. eg. one the sending cluster actually uses.
-DMARC Support
---------------------------------------------------------------
-
-DMARC combines feedback from SPF, DKIM, and header From: in order
-to attempt to provide better indicators of the authenticity of an
-email. This document does not explain the fundamentals, you
-should read and understand how it works by visiting the website at
-http://www.dmarc.org/.
-
-DMARC support is added via the libopendmarc library. Visit:
-
- http://sourceforge.net/projects/opendmarc/
-
-to obtain a copy, or find it in your favorite rpm package
-repository. If building from source, this description assumes
-that headers will be in /usr/local/include, and that the libraries
-are in /usr/local/lib.
-
-1. To compile Exim with DMARC support, you must first enable SPF.
-Please read the above section on enabling the EXPERIMENTAL_SPF
-feature. You must also have DKIM support, so you cannot set the
-DISABLE_DKIM feature. Once both of those conditions have been met
-you can enable DMARC in Local/Makefile:
-
-EXPERIMENTAL_DMARC=yes
-LDFLAGS += -lopendmarc
-# CFLAGS += -I/usr/local/include
-# LDFLAGS += -L/usr/local/lib
-
-The first line sets the feature to include the correct code, and
-the second line says to link the libopendmarc libraries into the
-exim binary. The commented out lines should be uncommented if you
-built opendmarc from source and installed in the default location.
-Adjust the paths if you installed them elsewhere, but you do not
-need to uncomment them if an rpm (or you) installed them in the
-package controlled locations (/usr/include and /usr/lib).
-
-
-2. Use the following global settings to configure DMARC:
-
-Optional:
-dmarc_tld_file Defines the location of a text file of valid
- top level domains the opendmarc library uses
- during domain parsing. Maintained by Mozilla,
- the most current version can be downloaded
- from a link at http://publicsuffix.org/list/.
- If unset, "/etc/exim/opendmarc.tlds" (hardcoded)
- is used.
-
-Optional:
-dmarc_history_file Defines the location of a file to log results
- of dmarc verification on inbound emails. The
- contents are importable by the opendmarc tools
- which will manage the data, send out DMARC
- reports, and expire the data. Make sure the
- directory of this file is writable by the user
- exim runs as.
-
-dmarc_forensic_sender The email address to use when sending a
- forensic report detailing alignment failures
- if a sender domain's dmarc record specifies it
- and you have configured Exim to send them.
- Default: do-not-reply@$default_hostname
-
-
-3. By default, the DMARC processing will run for any remote,
-non-authenticated user. It makes sense to only verify DMARC
-status of messages coming from remote, untrusted sources. You can
-use standard conditions such as hosts, senders, etc, to decide that
-DMARC verification should *not* be performed for them and disable
-DMARC with a control setting:
-
- control = dmarc_disable_verify
-
-A DMARC record can also specify a "forensic address", which gives
-exim an email address to submit reports about failed alignment.
-Exim does not do this by default because in certain conditions it
-results in unintended information leakage (what lists a user might
-be subscribed to, etc). You must configure exim to submit forensic
-reports to the owner of the domain. If the DMARC record contains a
-forensic address and you specify the control statement below, then
-exim will send these forensic emails. It's also advised that you
-configure a dmarc_forensic_sender because the default sender address
-construction might be inadequate.
-
- control = dmarc_enable_forensic
-
-(AGAIN: You can choose not to send these forensic reports by simply
-not putting the dmarc_enable_forensic control line at any point in
-your exim config. If you don't tell it to send them, it will not
-send them.)
-
-There are no options to either control. Both must appear before
-the DATA acl.
-
-
-4. You can now run DMARC checks in incoming SMTP by using the
-"dmarc_status" ACL condition in the DATA ACL. You are required to
-call the spf condition first in the ACLs, then the "dmarc_status"
-condition. Putting this condition in the ACLs is required in order
-for a DMARC check to actually occur. All of the variables are set
-up before the DATA ACL, but there is no actual DMARC check that
-occurs until a "dmarc_status" condition is encountered in the ACLs.
-
-The dmarc_status condition takes a list of strings on its
-right-hand side. These strings describe recommended action based
-on the DMARC check. To understand what the policy recommendations
-mean, refer to the DMARC website above. Valid strings are:
-
- o accept The DMARC check passed and the library recommends
- accepting the email.
- o reject The DMARC check failed and the library recommends
- rejecting the email.
- o quarantine The DMARC check failed and the library recommends
- keeping it for further inspection.
- o none The DMARC check passed and the library recommends
- no specific action, neutral.
- o norecord No policy section in the DMARC record for this
- sender domain.
- o nofrom Unable to determine the domain of the sender.
- o temperror Library error or dns error.
- o off The DMARC check was disabled for this email.
-
-You can prefix each string with an exclamation mark to invert its
-meaning, for example "!accept" will match all results but
-"accept". The string list is evaluated left-to-right in a
-short-circuit fashion. When a string matches the outcome of the
-DMARC check, the condition succeeds. If none of the listed
-strings matches the outcome of the DMARC check, the condition
-fails.
-
-Of course, you can also use any other lookup method that Exim
-supports, including LDAP, Postgres, MySQL, etc, as long as the
-result is a list of colon-separated strings.
-
-Several expansion variables are set before the DATA ACL is
-processed, and you can use them in this ACL. The following
-expansion variables are available:
-
- o $dmarc_status
- This is a one word status indicating what the DMARC library
- thinks of the email. It is a combination of the results of
- DMARC record lookup and the SPF/DKIM/DMARC processing results
- (if a DMARC record was found). The actual policy declared
- in the DMARC record is in a separate expansion variable.
-
- o $dmarc_status_text
- This is a slightly longer, human readable status.
-
- o $dmarc_used_domain
- This is the domain which DMARC used to look up the DMARC
- policy record.
-
- o $dmarc_domain_policy
- This is the policy declared in the DMARC record. Valid values
- are "none", "reject" and "quarantine". It is blank when there
- is any error, including no DMARC record.
-
- o $dmarc_ar_header
- This is the entire Authentication-Results header which you can
- add using an add_header modifier.
-
-
-5. How to enable DMARC advanced operation:
-By default, Exim's DMARC configuration is intended to be
-non-intrusive and conservative. To facilitate this, Exim will not
-create any type of logging files without explicit configuration by
-you, the admin. Nor will Exim send out any emails/reports about
-DMARC issues without explicit configuration by you, the admin (other
-than typical bounce messages that may come about due to ACL
-processing or failure delivery issues).
-
-In order to log statistics suitable to be imported by the opendmarc
-tools, you need to:
-a. Configure the global setting dmarc_history_file.
-b. Configure cron jobs to call the appropriate opendmarc history
- import scripts and truncating the dmarc_history_file.
-
-In order to send forensic reports, you need to:
-a. Configure the global setting dmarc_forensic_sender.
-b. Configure, somewhere before the DATA ACL, the control option to
- enable sending DMARC forensic reports.
-
-
-6. Example usage:
-(RCPT ACL)
- warn domains = +local_domains
- hosts = +local_hosts
- control = dmarc_disable_verify
-
- warn !domains = +screwed_up_dmarc_records
- control = dmarc_enable_forensic
-
- warn condition = (lookup if destined to mailing list)
- set acl_m_mailing_list = 1
-
-(DATA ACL)
- warn dmarc_status = accept : none : off
- !authenticated = *
- log_message = DMARC DEBUG: $dmarc_status $dmarc_used_domain
- add_header = $dmarc_ar_header
-
- warn dmarc_status = !accept
- !authenticated = *
- log_message = DMARC DEBUG: '$dmarc_status' for $dmarc_used_domain
-
- warn dmarc_status = quarantine
- !authenticated = *
- set $acl_m_quarantine = 1
- # Do something in a transport with this flag variable
-
- deny condition = ${if eq{$dmarc_domain_policy}{reject}}
- condition = ${if eq{$acl_m_mailing_list}{1}}
- message = Messages from $dmarc_used_domain break mailing lists
-
- deny dmarc_status = reject
- !authenticated = *
- message = Message from $dmarc_used_domain failed sender's DMARC policy, REJECT
-
-
-
-DANE
-------------------------------------------------------------
-DNS-based Authentication of Named Entities, as applied
-to SMTP over TLS, provides assurance to a client that
-it is actually talking to the server it wants to rather
-than some attacker operating a Man In The Middle (MITM)
-operation. The latter can terminate the TLS connection
-you make, and make another one to the server (so both
-you and the server still think you have an encrypted
-connection) and, if one of the "well known" set of
-Certificate Authorities has been suborned - something
-which *has* been seen already (2014), a verifiable
-certificate (if you're using normal root CAs, eg. the
-Mozilla set, as your trust anchors).
-
-What DANE does is replace the CAs with the DNS as the
-trust anchor. The assurance is limited to a) the possibility
-that the DNS has been suborned, b) mistakes made by the
-admins of the target server. The attack surface presented
-by (a) is thought to be smaller than that of the set
-of root CAs.
-
-It also allows the server to declare (implicitly) that
-connections to it should use TLS. An MITM could simply
-fail to pass on a server's STARTTLS.
-
-DANE scales better than having to maintain (and
-side-channel communicate) copies of server certificates
-for every possible target server. It also scales
-(slightly) better than having to maintain on an SMTP
-client a copy of the standard CAs bundle. It also
-means not having to pay a CA for certificates.
-
-DANE requires a server operator to do three things:
-1) run DNSSEC. This provides assurance to clients
-that DNS lookups they do for the server have not
-been tampered with. The domain MX record applying
-to this server, its A record, its TLSA record and
-any associated CNAME records must all be covered by
-DNSSEC.
-2) add TLSA DNS records. These say what the server
-certificate for a TLS connection should be.
-3) offer a server certificate, or certificate chain,
-in TLS connections which is traceable to the one
-defined by (one of?) the TSLA records
-
-There are no changes to Exim specific to server-side
-operation of DANE.
-
-The TLSA record for the server may have "certificate
-usage" of DANE-TA(2) or DANE-EE(3). The latter specifies
-the End Entity directly, i.e. the certificate involved
-is that of the server (and should be the sole one transmitted
-during the TLS handshake); this is appropriate for a
-single system, using a self-signed certificate.
- DANE-TA usage is effectively declaring a specific CA
-to be used; this might be a private CA or a public,
-well-known one. A private CA at simplest is just
-a self-signed certificate which is used to sign
-cerver certificates, but running one securely does
-require careful arrangement. If a private CA is used
-then either all clients must be primed with it, or
-(probably simpler) the server TLS handshake must transmit
-the entire certificate chain from CA to server-certificate.
-If a public CA is used then all clients must be primed with it
-(losing one advantage of DANE) - but the attack surface is
-reduced from all public CAs to that single CA.
-DANE-TA is commonly used for several services and/or
-servers, each having a TLSA query-domain CNAME record,
-all of which point to a single TLSA record.
-
-The TLSA record should have a Selector field of SPKI(1)
-and a Matching Type field of SHA2-512(2).
-
-At the time of writing, https://www.huque.com/bin/gen_tlsa
-is useful for quickly generating TLSA records; and commands like
-
- openssl x509 -in -pubkey -noout <certificate.pem \
- | openssl rsa -outform der -pubin 2>/dev/null \
- | openssl sha512 \
- | awk '{print $2}'
-
-are workable for 4th-field hashes.
-
-For use with the DANE-TA model, server certificates
-must have a correct name (SubjectName or SubjectAltName).
-
-The use of OCSP-stapling should be considered, allowing
-for fast revocation of certificates (which would otherwise
-be limited by the DNS TTL on the TLSA records). However,
-this is likely to only be usable with DANE-TA. NOTE: the
-default of requesting OCSP for all hosts is modified iff
-DANE is in use, to:
-
- hosts_request_ocsp = ${if or { {= {0}{$tls_out_tlsa_usage}} \
- {= {4}{$tls_out_tlsa_usage}} } \
- {*}{}}
-
-The (new) variable $tls_out_tlsa_usage is a bitfield with
-numbered bits set for TLSA record usage codes.
-The zero above means DANE was not in use,
-the four means that only DANE-TA usage TLSA records were
-found. If the definition of hosts_request_ocsp includes the
-string "tls_out_tlsa_usage", they are re-expanded in time to
-control the OCSP request.
-
-This modification of hosts_request_ocsp is only done if
-it has the default value of "*". Admins who change it, and
-those who use hosts_require_ocsp, should consider the interaction
-with DANE in their OCSP settings.
-
-
-For client-side DANE there are two new smtp transport options,
-hosts_try_dane and hosts_require_dane.
-[ should they be domain-based rather than host-based? ]
-
-Hosts_require_dane will result in failure if the target host
-is not DNSSEC-secured.
-
-DANE will only be usable if the target host has DNSSEC-secured
-MX, A and TLSA records.
-
-A TLSA lookup will be done if either of the above options match
-and the host-lookup succeeded using dnssec.
-If a TLSA lookup is done and succeeds, a DANE-verified TLS connection
-will be required for the host. If it does not, the host will not
-be used; there is no fallback to non-DANE or non-TLS.
-
-If DANE is requested and useable (see above) the following transport
-options are ignored:
- hosts_require_tls
- tls_verify_hosts
- tls_try_verify_hosts
- tls_verify_certificates
- tls_crl
- tls_verify_cert_hostnames
-
-If DANE is not usable, whether requested or not, and CA-anchored
-verification evaluation is wanted, the above variables should be set
-appropriately.
-
-Currently dnssec_request_domains must be active (need to think about that)
-and dnssec_require_domains is ignored.
-
-If verification was successful using DANE then the "CV" item
-in the delivery log line will show as "CV=dane".
-
-There is a new variable $tls_out_dane which will have "yes" if
-verification succeeded using DANE and "no" otherwise (only useful
-in combination with EXPERIMENTAL_EVENT), and a new variable
-$tls_out_tlsa_usage (detailed above).
-
-Under GnuTLS, DANE is only supported from versin 3.0.0 onwards
-
DSN extra information
The spool files can then be processed by external processes and then
requeued into exim spool directories for final delivery.
+However, note carefully the warnings in the main documentation on
+qpool file formats.
The motivation/inspiration for the transport is to allow external
processes to access email queued by exim and have access to all the
The transport only takes one option:
* directory - This is used to specify the directory messages should be
-copied to
+copied to. Expanded.
The generic transport options (body_only, current_directory, disable_logging,
debug_print, delivery_date_add, envelope_to_add, event_action, group,
Experimental_QUEUEFILE in the line "Support for:".
+ARC support
+-----------
+Specification: https://tools.ietf.org/html/draft-ietf-dmarc-arc-protocol-11
+Note that this is not an RFC yet, so may change.
+
+[RFC 8617 was published 2019/06. Draft 11 was 2018/01. A review of the
+changes has not yet been done]
+
+ARC is intended to support the utility of SPF and DKIM in the presence of
+intermediaries in the transmission path - forwarders and mailinglists -
+by establishing a cryptographically-signed chain in headers.
+
+Normally one would only bother doing ARC-signing when functioning as
+an intermediary. One might do verify for local destinations.
+
+ARC uses the notion of a "ADministrative Management Domain" (ADMD).
+Described in RFC 5598 (section 2.3), this is essentially a set of
+mail-handling systems that mail transits that are all under the control
+of one organisation. A label should be chosen to identify the ADMD.
+Messages should be ARC-verified on entry to the ADMD, and ARC-signed on exit
+from it.
+
+
+Building with ARC Support
+--
+Enable using EXPERIMENTAL_ARC=yes in your Local/Makefile.
+You must also have DKIM present (not disabled), and you very likely
+want to have SPF enabled.
+
+
+Verification
+--
+An ACL condition is provided to perform the "verifier actions" detailed
+in section 6 of the above specification. It may be called from the DATA ACL
+and succeeds if the result matches any of a given list.
+It also records the highest ARC instance number (the chain size)
+and verification result for later use in creating an Authentication-Results:
+standard header.
+
+ verify = arc/<acceptable_list> none:fail:pass
+
+ add_header = :at_start:${authresults {<admd-identifier>}}
+
+ Note that it would be wise to strip incoming messages of A-R headers
+ that claim to be from our own <admd-identifier>.
+
+There are four new variables:
+
+ $arc_state One of pass, fail, none
+ $arc_state_reason (if fail, why)
+ $arc_domains colon-sep list of ARC chain domains, in chain order.
+ problematic elements may have empty list elements
+ $arc_oldest_pass lowest passing instance number of chain
+
+Example:
+ logwrite = oldest-p-ams: <${reduce {$lh_ARC-Authentication-Results:} \
+ {} \
+ {${if = {$arc_oldest_pass} \
+ {${extract {i}{${extract {1}{;}{$item}}}}} \
+ {$item} {$value}}} \
+ }>
+
+Receive log lines for an ARC pass will be tagged "ARC".
+
+
+Signing
+--
+arc_sign = <admd-identifier> : <selector> : <privkey> [ : <options> ]
+An option on the smtp transport, which constructs and prepends to the message
+an ARC set of headers. The textually-first Authentication-Results: header
+is used as a basis (you must have added one on entry to the ADMD).
+Expanded as a whole; if unset, empty or forced-failure then no signing is done.
+If it is set, all of the first three elements must be non-empty.
+
+The fourth element is optional, and if present consists of a comma-separated list
+of options. The options implemented are
+
+ timestamps Add a t= tag to the generated AMS and AS headers, with the
+ current time.
+ expire[=<val>] Add an x= tag to the generated AMS header, with an expiry time.
+ If the value <val> is an plain number it is used unchanged.
+ If it starts with a '+' then the following number is added
+ to the current time, as an offset in seconds.
+ If a value is not given it defaults to a one month offset.
+
+[As of writing, gmail insist that a t= tag on the AS is mandatory]
+
+Caveats:
+ * There must be an Authentication-Results header, presumably added by an ACL
+ while receiving the message, for the same ADMD, for arc_sign to succeed.
+ This requires careful coordination between inbound and outbound logic.
+
+ Only one A-R header is taken account of. This is a limitation versus
+ the ARC spec (which says that all A-R headers from within the ADMD must
+ be used).
+
+ * If passing a message to another system, such as a mailing-list manager
+ (MLM), between receipt and sending, be wary of manipulations to headers made
+ by the MLM.
+ + For instance, Mailman with REMOVE_DKIM_HEADERS==3 might improve
+ deliverability in a pre-ARC world, but that option also renames the
+ Authentication-Results header, which breaks signing.
+
+ * Even if you use multiple DKIM keys for different domains, the ARC concept
+ should try to stick to one ADMD, so pick a primary domain and use that for
+ AR headers and outbound signing.
+
+Signing is not compatible with cutthrough delivery; any (before expansion)
+value set for the option will result in cutthrough delivery not being
+used via the transport in question.
+
+
+
+
+TLS Session Resumption
+----------------------
+TLS Session Resumption for TLS 1.2 and TLS 1.3 connections can be used (defined
+in RFC 5077 for 1.2). The support for this can be included by building with
+EXPERIMENTAL_TLS_RESUME defined. This requires GnuTLS 3.6.3 or OpenSSL 1.1.1
+(or later).
+
+Session resumption (this is the "stateless" variant) involves the server sending
+a "session ticket" to the client on one connection, which can be stored by the
+client and used for a later session. The ticket contains sufficient state for
+the server to reconstruct the TLS session, avoiding some expensive crypto
+calculation and one full packet roundtrip time.
+
+Operational cost/benefit:
+ The extra data being transmitted costs a minor amount, and the client has
+ extra costs in storing and retrieving the data.
+
+ In the Exim/Gnutls implementation the extra cost on an initial connection
+ which is TLS1.2 over a loopback path is about 6ms on 2017-laptop class hardware.
+ The saved cost on a subsequent connection is about 4ms; three or more
+ connections become a net win. On longer network paths, two or more
+ connections will have an average lower startup time thanks to the one
+ saved packet roundtrip. TLS1.3 will save the crypto cpu costs but not any
+ packet roundtrips.
+
+ Since a new hints DB is used, the hints DB maintenance should be updated
+ to additionally handle "tls".
+
+Security aspects:
+ The session ticket is encrypted, but is obviously an additional security
+ vulnarability surface. An attacker able to decrypt it would have access
+ all connections using the resumed session.
+ The session ticket encryption key is not committed to storage by the server
+ and is rotated regularly (OpenSSL: 1hr, and one previous key is used for
+ overlap; GnuTLS 6hr but does not specify any overlap).
+ Tickets have limited lifetime (2hr, and new ones issued after 1hr under
+ OpenSSL. GnuTLS 2hr, appears to not do overlap).
+
+ There is a question-mark over the security of the Diffie-Helman parameters
+ used for session negotiation. TBD. q-value; cf bug 1895
+
+Observability:
+ New log_selector "tls_resumption", appends an asterisk to the tls_cipher "X="
+ element.
+
+ Variables $tls_{in,out}_resumption have bits 0-4 indicating respectively
+ support built, client requested ticket, client offered session,
+ server issued ticket, resume used. A suitable decode list is provided
+ in the builtin macro _RESUME_DECODE for ${listextract {}{}}.
+
+Issues:
+ In a resumed session:
+ $tls_{in,out}_cipher will have values different to the original (under GnuTLS)
+ $tls_{in,out}_ocsp will be "not requested" or "no response", and
+ hosts_require_ocsp will fail
+
+
--------------------------------------------------------------
End of file
--------------------------------------------------------------
git://git.exim.org / exim.git / blobdiff