This chapter describes the generic options that apply to all routers, identifying those that are preconditions. For a general description of how a router operates, see sections 3.10 and 3.11. The latter specifies the order in which the preconditions are tested. The order of expansion of the options that provide data for a transport is: errors_to, headers_add, headers_remove, transport.
The string is expanded just before the router is run, that is, after all the precondition tests have succeeded. If the expansion is forced to fail, the router declines. Other expansion failures cause delivery of the address to be deferred.
When the expansion succeeds, the value is retained with the address, and can be accessed using the variable $address_data in the current router, subsequent routers, and the eventual transport.
Warning: if the current or any subsequent router is a redirect router that runs a user's filter file, the contents of $address_data are accessible in the filter. This is not normally a problem, because such data is usually either not confidential or it belongs to the current user, but if you do put confidential data into $address_data you need to remember this point.
Even if the router declines or passes, the value of $address_data remains with the address, though it can be changed by another address_data setting on a subsequent router. If a router generates child addresses, the value of $address_data propagates to them. This also applies to the special kind of child that is generated by a router with the unseen option.
The idea of address_data is that you can use it to look up a lot of data for the address once, and then pick out parts of the data later. For example, you could use a single LDAP lookup to return a string of the form
uid=1234 gid=5678 mailbox=/mail/xyz forward=/home/xyz/.forward
In the transport you could pick out the mailbox by a setting such as
file = ${extract{mailbox}{$address_data}}
This makes the configuration file less messy, and also reduces the number of lookups (though Exim does cache lookups).
The address_data facility is also useful as a means of passing information from one router to another, and from a router to a transport. In addition, if $address_data is set by a router when verifying a recipient address from an ACL, it remains available for use in the rest of the ACL statement. After verifying a sender, the value is transferred to $sender_address_data.
If this option is set false, the router is skipped when routing is being tested by means of the -bt command line option. This can be a convenience when your first router sends messages to an external scanner, because it saves you having to set the already scanned indicator when testing real address routing.
This option specifies a text message that is used when an address cannot be routed because Exim has run out of routers. The default message is Unrouteable address. This option is useful only on routers that have more set false, or on the very last router in a configuration, because the value that is used is taken from the last router that inspects an address. For example, using the default configuration, you could put:
cannot_route_message = Remote domain not found in DNS
on the first (dnslookup) router, and
cannot_route_message = Unknown local user
on the final router that checks for local users. If string expansion fails, the default message is used. Unless the expansion failure was explicitly forced, a message about the failure is written to the main and panic logs, in addition to the normal message about the routing failure.
By default, routers handle the local parts of addresses in a case-insensitive manner, though the actual case is preserved for transmission with the message. If you want the case of letters to be significant in a router, you must set this option true. For individual router options that contain address or local part lists (for example, local_parts), case-sensitive matching can be turned on by +caseful as a list item. See section 10.19 for more details.
The value of the $local_part variable is forced to lower case while a router is running unless caseful_local_part is set. When a router assigns an address to a transport, the value of $local_part when the transport runs is the same as it was in the router. Similarly, when a router generates child addresses by aliasing or forwarding, the values of $original_local_part and $parent_local_part are those that were used by the redirecting router.
This option applies to the processing of an address by a router. When a recipient address is being processed in an ACL, there is a separate control modifier that can be used to specify case-sensitive processing within the ACL (see section 39.18).
When this option is true, Exim checks that the local part of the recipient address (with affixes removed if relevant) is the name of an account on the local system. The check is done by calling the getpwnam() function rather than trying to read /etc/passwd directly. This means that other methods of holding password data (such as NIS) are supported. If the local part is a local user, $home is set from the password data, and can be tested in other preconditions that are evaluated after this one (the order of evaluation is given in section 3.11). However, the value of $home can be overridden by router_home_directory. If the local part is not a local user, the router is skipped.
If you want to check that the local part is either the name of a local user or matches something else, you cannot combine check_local_user with a setting of local_parts, because that specifies the logical and of the two conditions. However, you can use a passwd lookup in a local_parts setting to achieve this. For example:
local_parts = passwd;$local_part : lsearch;/etc/other/users
Note, however, that the side effects of check_local_user (such as setting up a home directory) do not occur when a passwd lookup is used in a local_parts (or any other) precondition.
This option specifies a general precondition test that has to succeed for the router to be called. The condition option is the last precondition to be evaluated (see section 3.11). The string is expanded, and if the result is a forced failure, or an empty string, or one of the strings 0 or no or false (checked without regard to the case of the letters), the router is skipped, and the address is offered to the next one. If the result is any other value, the router is run (as this is the last precondition to be evaluated, all the other preconditions must be true).
The condition option provides a means of applying custom conditions to the running of routers. Note that in the case of a simple conditional expansion, the default expansion values are exactly what is wanted. For example:
condition = ${if >{$message_age}{600}}
Because of the default behaviour of the string expansion, this is equivalent to
condition = ${if >{$message_age}{600}{true}{}}
If the expansion fails (other than forced failure) delivery is deferred. Some of the other precondition options are common special cases that could in fact be specified using condition.
If this option is set and debugging is enabled (see the -d command line option), the string is expanded and included in the debugging output. If expansion of the string fails, the error message is written to the debugging output, and Exim carries on processing. This option is provided to help with checking out the values of variables and so on when debugging router configurations. For example, if a condition option appears not to be working, debug_print can be used to output the variables it references. The output happens after checks for domains, local_parts, and check_local_user but before any other preconditions are tested. A newline is added to the text if it does not end with one.
If this option is set true, nothing is logged for any routing errors or for any deliveries caused by this router. You should not set this option unless you really, really know what you are doing. See also the generic transport option of the same name.
If this option is set, the router is skipped unless the current domain matches the list. If the match is achieved by means of a file lookup, the data that the lookup returned for the domain is placed in $domain_data for use in string expansions of the driver's private options. See section 3.11 for a list of the order in which preconditions are evaluated.
This option must always be set. It specifies which of the available routers is to be used.
If a router successfully handles an address, it may queue the address for delivery or it may generate child addresses. In both cases, if there is a delivery problem during later processing, the resulting bounce message is sent to the address that results from expanding this string, provided that the address verifies successfully. errors_to is expanded before headers_add, headers_remove, and transport.
If the option is unset, or the expansion is forced to fail, or the result of the expansion fails to verify, the errors address associated with the incoming address is used. At top level, this is the envelope sender. A non-forced expansion failure causes delivery to be deferred.
If an address for which errors_to has been set ends up being delivered over SMTP, the envelope sender for that delivery is the errors_to value, so that any bounces that are generated by other MTAs on the delivery route are also sent there. The most common use of errors_to is probably to direct mailing list bounces to the manager of the list, as described in section 46.2.
The errors_to setting associated with an address can be overridden if it subsequently passes through other routers that have their own errors_to settings, or if it is delivered by a transport with a return_path setting.
You can set errors_to to the empty string by either of these settings:
errors_to = errors_to = ""
An expansion item that yields an empty string has the same effect. If you do this, a locally detected delivery error for addresses processed by this router no longer gives rise to a bounce message; the error is discarded. If the address is delivered to a remote host, the return path is set to <>, unless overridden by the return_path option on the transport.
If for some reason you want to discard local errors, but use a non-empty MAIL command for remote delivery, you can preserve the original return path in $address_data in the router, and reinstate it in the transport by setting return_path.
If this option is turned off, the router is skipped when testing an address as a result of processing an SMTP EXPN command. You might, for example, want to turn it off on a router for users' .forward files, while leaving it on for the system alias file. See section 3.11 for a list of the order in which preconditions are evaluated.
The use of the SMTP EXPN command is controlled by an ACL (see chapter 39). When Exim is running an EXPN command, it is similar to testing an address with -bt. Compare VRFY, whose counterpart is -bv.
Setting this option has the effect of setting both fail_verify_sender and fail_verify_recipient to the same value.
If this option is true and an address is accepted by this router when verifying a recipient, verification fails.
If this option is true and an address is accepted by this router when verifying a sender, verification fails.
String expansion is not applied to this option. The argument must be a colon-separated list of host names or IP addresses. If a router queues an address for a remote transport, this host list is associated with the address, and used instead of the transport's fallback host list. If hosts_randomize is set on the transport, the order of the list is randomized for each use. See the fallback_hosts option of the smtp transport for further details.
When a router queues an address for a transport, and the transport does not specify a group, the group given here is used when running the delivery process. The group may be specified numerically or by name. If expansion fails, the error is logged and delivery is deferred. The default is unset, unless check_local_user is set, when the default is taken from the password information. See also initgroups and user and the discussion in chapter 23.
This option specifies a string of text that is expanded at routing time, and associated with any addresses that are accepted by the router. However, this option has no effect when an address is just being verified. The way in which the text is used to add header lines at transport time is described in section 43.16.
The headers_add option is expanded after errors_to, but before headers_remove and transport. If the expanded string is empty, or if the expansion is forced to fail, the option has no effect. Other expansion failures are treated as configuration errors.
Warning: The headers_add option cannot be used for a redirect router that has the one_time option set.
This option specifies a string of text that is expanded at routing time, and associated with any addresses that are accepted by the router. However, this option has no effect when an address is just being verified. The way in which the text is used to remove header lines at transport time is described in section 43.16.
The headers_remove option is expanded after errors_to and headers_add, but before transport. If the expansion is forced to fail, the option has no effect. Other expansion failures are treated as configuration errors.
Warning: The headers_remove option cannot be used for a redirect router that has the one_time option set.
Although this option is a host list, it should normally contain IP address entries rather than names. If any host that is looked up by the router has an IP address that matches an item in this list, Exim behaves as if that IP address did not exist. This option allows you to cope with rogue DNS entries like
remote.domain.example. A 127.0.0.1
by setting
ignore_target_hosts = 127.0.0.1
on the relevant router. If all the hosts found by a dnslookup router are discarded in this way, the router declines. In a conventional configuration, an attempt to mail to such a domain would normally provoke the unrouteable domain error, and an attempt to verify an address in the domain would fail.
Similarly, if ignore_target_hosts is set on an ipliteral router, the router declines if presented with one of the listed addresses.
This option may also be useful for ignoring link-local and site-local IPv6 addresses. Because, like all host lists, the value of ignore_target_hosts is expanded before use as a list, it is possible to make it dependent on the domain that is being routed. During its expansion, $host_address is set to the IP address that is being checked.
If the router queues an address for a transport, and this option is true, and the uid supplied by the router is not overridden by the transport, the initgroups() function is called when running the transport to ensure that any additional groups associated with the uid are set up. See also group and user and the discussion in chapter 23.
If this option is set, the router is skipped unless the local part starts with one of the given strings, or local_part_prefix_optional is true. See section 3.11 for a list of the order in which preconditions are evaluated.
The list is scanned from left to right, and the first prefix that matches is used. A limited form of wildcard is available; if the prefix begins with an asterisk, it matches the longest possible sequence of arbitrary characters at the start of the local part. An asterisk should therefore always be followed by some character that does not occur in normal local parts. Wildcarding can be used to set up multiple user mailboxes, as described in section 46.7.
During the testing of the local_parts option, and while the router is running, the prefix is removed from the local part, and is available in the expansion variable $local_part_prefix. If the router accepts the address, this remains true during subsequent delivery. In particular, the local part that is transmitted in the RCPT command for LMTP, SMTP, and BSMTP deliveries has the prefix removed by default. This behaviour can be overridden by setting rcpt_include_affixes true on the relevant transport.
The prefix facility is commonly used to handle local parts of the form owner-something. Another common use is to support local parts of the form real-username to bypass a user's .forward file helpful when trying to tell a user their forwarding is broken by placing a router like this one immediately before the router that handles .forward files:
real_localuser: driver = accept local_part_prefix = real- check_local_user transport = local_delivery
If both local_part_prefix and local_part_suffix are set for a router, both conditions must be met if not optional. Care must be taken if wildcards are used in both a prefix and a suffix on the same router. Different separator characters must be used to avoid ambiguity.
See local_part_prefix above.
This option operates in the same way as local_part_prefix, except that the local part must end (rather than start) with the given string, the local_part_suffix_optional option determines whether the suffix is mandatory, and the wildcard * character, if present, must be the last character of the suffix. This option facility is commonly used to handle local parts of the form something-request and multiple user mailboxes of the form username-foo.
See local_part_suffix above.
The router is run only if the local part of the address matches the list. See section 3.11 for a list of the order in which preconditions are evaluated, and section 10.20 for a discussion of local part lists. Because the string is expanded, it is possible to make it depend on the domain, for example:
local_parts = dbm;/usr/local/specials/$domain
If the match is achieved by a lookup, the data that the lookup returned for the local part is placed in the variable $local_part_data for use in expansions of the router's private options. You might use this option, for example, if you have a large number of local virtual domains, and you want to send all postmaster mail to the same place without having to set up an alias in each virtual domain:
postmaster: driver = redirect local_parts = postmaster data = postmaster@real.domain.example
Exim has two logging styles for delivery, the idea being to make local deliveries stand out more visibly from remote ones. In the local style, the recipient address is given just as the local part, without a domain. The use of this style is controlled by this option. It defaults to true for the accept router, and false for all the others.
The result of string expansion for this option must be a valid boolean value, that is, one of the strings yes, no, true, or false. Any other result causes an error, and delivery is deferred. If the expansion is forced to fail, the default value for the option (true) is used. Other failures cause delivery to be deferred.
If this option is set false, and the router is run, but declines to handle the address, no further routers are tried, routing fails, and the address is bounced. However, if the router explicitly passes an address to the following router by means of the setting
self = pass
or otherwise, the setting of more is ignored. Also, the setting of more does not affect the behaviour if one of the precondition tests fails. In that case, the address is always passed to the next router.
If a router times out during a host lookup, it normally causes deferral of the address. If pass_on_timeout is set, the address is passed on to the next router, overriding no_more. This may be helpful for systems that are intermittently connected to the Internet, or those that want to pass to a smart host any messages that cannot immediately be delivered.
There are occasional other temporary errors that can occur while doing DNS lookups. They are treated in the same way as a timeout, and this option applies to all of them.
When a router returns pass, the address is normally handed on to the next router in sequence. This can be changed by setting pass_router to the name of another router. However (unlike redirect_router) the named router must be below the current router, to avoid loops. Note that this option applies only to the special case of pass. It does not apply when a router returns decline.
Sometimes an administrator knows that it is pointless to reprocess addresses generated from alias or forward files with the same router again. For example, if an alias file translates real names into login ids there is no point searching the alias file a second time, especially if it is a large file.
The redirect_router option can be set to the name of any router instance. It causes the routing of any generated addresses to start at the named router instead of at the first router. This option has no effect if the router in which it is set does not generate new addresses.
This option provides a general mechanism for predicating the running of a router on the existence or non-existence of certain files or directories. Before running a router, as one of its precondition tests, Exim works its way through the require_files list, expanding each item separately.
Because the list is split before expansion, any colons in expansion items must be doubled, or the facility for using a different list separator must be used. If any expansion is forced to fail, the item is ignored. Other expansion failures cause routing of the address to be deferred.
If any expanded string is empty, it is ignored. Otherwise, except as described below, each string must be a fully qualified file path, optionally preceded by !. The paths are passed to the stat() function to test for the existence of the files or directories. The router is skipped if any paths not preceded by ! do not exist, or if any paths preceded by ! do exist.
If stat() cannot determine whether a file exists or not, delivery of the message is deferred. This can happen when NFS-mounted filesystems are unavailable.
This option is checked after the domains, local_parts, and senders options, so you cannot use it to check for the existence of a file in which to look up a domain, local part, or sender. (See section 3.11 for a full list of the order in which preconditions are evaluated.) However, as these options are all expanded, you can use the exists expansion condition to make such tests. The require_files option is intended for checking files that the router may be going to use internally, or which are needed by a transport (for example .procmailrc).
During delivery, the stat() function is run as root, but there is a facility for some checking of the accessibility of a file by another user. This is not a proper permissions check, but just a rough check that operates as follows:
If an item in a require_files list does not contain any forward slash characters, it is taken to be the user (and optional group, separated by a comma) to be checked for subsequent files in the list. If no group is specified but the user is specified symbolically, the gid associated with the uid is used. For example:
require_files = mail:/some/file require_files = $local_part:$home/.procmailrc
If a user or group name in a require_files list does not exist, the require_files condition fails.
Exim performs the check by scanning along the components of the file path, and checking the access for the given uid and gid. It checks for x access on directories, and r access on the final file. Note that this means that file access control lists, if the operating system has them, are ignored.
Warning 1: When the router is being run to verify addresses for an incoming SMTP message, Exim is not running as root, but under its own uid. This may affect the result of a require_files check. In particular, stat() may yield the error EACCES (Permission denied). This means that the Exim user is not permitted to read one of the directories on the file's path.
Warning 2: Even when Exim is running as root while delivering a message, stat() can yield EACCES for a file in an NFS directory that is mounted without root access. In this case, if a check for access by a particular user is requested, Exim creates a subprocess that runs as that user, and tries the check again in that process.
The default action for handling an unresolved EACCES is to consider it to be caused by a configuration error, and routing is deferred because the existence or non-existence of the file cannot be determined. However, in some circumstances it may be desirable to treat this condition as if the file did not exist. If the file name (or the exclamation mark that precedes the file name for non-existence) is preceded by a plus sign, the EACCES error is treated as if the file did not exist. For example:
require_files = +/some/file
If the router is not an essential part of verification (for example, it handles users' .forward files), another solution is to set the verify option false so that the router is skipped when verifying.
When a delivery suffers a temporary routing failure, a retry record is created in Exim's hints database. For addresses whose routing depends only on the domain, the key for the retry record should not involve the local part, but for other addresses, both the domain and the local part should be included. Usually, remote routing is of the former kind, and local routing is of the latter kind.
This option controls whether the local part is used to form the key for retry hints for addresses that suffer temporary errors while being handled by this router. The default value is true for any router that has check_local_user set, and false otherwise. Note that this option does not apply to hints keys for transport delays; they are controlled by a generic transport option of the same name.
The setting of retry_use_local_part applies only to the router on which it appears. If the router generates child addresses, they are routed independently; this setting does not become attached to them.
This option sets a home directory for use while the router is running. (Compare transport_home_directory, which sets a home directory for later transporting.) In particular, if used on a redirect router, this option sets a value for $home while a filter is running. The value is expanded; forced expansion failure causes the option to be ignored other failures cause the router to defer.
Expansion of router_home_directory happens immediately after the check_local_user test (if configured), before any further expansions take place. (See section 3.11 for a list of the order in which preconditions are evaluated.) While the router is running, router_home_directory overrides the value of $home that came from check_local_user.
When a router accepts an address and routes it to a transport (including the cases when a redirect router generates a pipe, file, or autoreply delivery), the home directory setting for the transport is taken from the first of these values that is set:
The home_directory option on the transport;
The transport_home_directory option on the router;
The password data if check_local_user is set on the router;
The router_home_directory option on the router.
In other words, router_home_directory overrides the password data for the router, but not for the transport.
This option applies to those routers that use a recipient address to find a list of remote hosts. Currently, these are the dnslookup, ipliteral, and manualroute routers. Certain configurations of the queryprogram router can also specify a list of remote hosts. Usually such routers are configured to send the message to a remote host via an smtp transport. The self option specifies what happens when the first host on the list turns out to be the local host. The way in which Exim checks for the local host is described in section 13.7.
Normally this situation indicates either an error in Exim's configuration (for example, the router should be configured not to process this domain), or an error in the DNS (for example, the MX should not point to this host). For this reason, the default action is to log the incident, defer the address, and freeze the message. The following alternatives are provided for use in special cases:
defer
Delivery of the message is tried again later, but the message is not frozen.
reroute: <domain>
The domain is changed to the given domain, and the address is passed back to be reprocessed by the routers. No rewriting of headers takes place. This behaviour is essentially a redirection.
reroute: rewrite: <domain>
The domain is changed to the given domain, and the address is passed back to be reprocessed by the routers. Any headers that contain the original domain are rewritten.
pass
The router passes the address to the next router, or to the router named in the pass_router option if it is set. This overrides no_more.
During subsequent routing and delivery, the variable $self_hostname contains the name of the local host that the router encountered. This can be used to distinguish between different cases for hosts with multiple names. The combination
self = pass no_more
ensures that only those addresses that routed to the local host are passed on. Without no_more, addresses that were declined for other reasons would also be passed to the next router.
fail
Delivery fails and an error report is generated.
The anomaly is ignored and the address is queued for the transport. This setting should be used with extreme caution. For an smtp transport, it makes sense only in cases where the program that is listening on the SMTP port is not this version of Exim. That is, it must be some other MTA, or Exim with a different configuration file that handles the domain in another way.
If this option is set, the router is skipped unless the message's sender address matches something on the list. See section 3.11 for a list of the order in which preconditions are evaluated.
There are issues concerning verification when the running of routers is dependent on the sender. When Exim is verifying the address in an errors_to setting, it sets the sender to the null string. When using the -bt option to check a configuration file, it is necessary also to use the -f option to set an appropriate sender. For incoming mail, the sender is unset when verifying the sender, but is available when verifying any recipients. If the SMTP VRFY command is enabled, it must be used after MAIL if the sender address matters.
There exist some rare networking situations (for example, packet radio) where it is helpful to be able to translate IP addresses generated by normal routing mechanisms into other IP addresses, thus performing a kind of manual IP routing. This should be done only if the normal IP routing of the TCP/IP stack is inadequate or broken. Because this is an extremely uncommon requirement, the code to support this option is not included in the Exim binary unless SUPPORT_TRANSLATE_IP_ADDRESS=yes is set in Local/Makefile.
The translate_ip_address string is expanded for every IP address generated by the router, with the generated address set in $host_address. If the expansion is forced to fail, no action is taken. For any other expansion error, delivery of the message is deferred. If the result of the expansion is an IP address, that replaces the original address; otherwise the result is assumed to be a host name this is looked up using gethostbyname() (or getipnodebyname() when available) to produce one or more replacement IP addresses. For example, to subvert all IP addresses in some specific networks, this could be added to a router:
translate_ip_address = \
${lookup{${mask:$host_address/26}}lsearch{/some/file}{$value}fail}}
The file would contain lines like
10.2.3.128/26 some.host 10.8.4.34/26 10.44.8.15
You should not make use of this facility unless you really understand what you are doing.
This option specifies the transport to be used when a router accepts an address and sets it up for delivery. A transport is never needed if a router is used only for verification. The value of the option is expanded at routing time, after the expansion of errors_to, headers_add, and headers_remove, and result must be the name of one of the configured transports. If it is not, delivery is deferred.
The transport option is not used by the redirect router, but it does have some private options that set up transports for pipe and file deliveries (see chapter 22).
This option associates a current directory with any address that is routed to a local transport. This can happen either because a transport is explicitly configured for the router, or because it generates a delivery to a file or a pipe. During the delivery process (that is, at transport time), this option string is expanded and is set as the current directory, unless overridden by a setting on the transport. If the expansion fails for any reason, including forced failure, an error is logged, and delivery is deferred. See chapter 23 for details of the local delivery environment.
This option associates a home directory with any address that is routed to a local transport. This can happen either because a transport is explicitly configured for the router, or because it generates a delivery to a file or a pipe. During the delivery process (that is, at transport time), the option string is expanded and is set as the home directory, unless overridden by a setting of home_directory on the transport. If the expansion fails for any reason, including forced failure, an error is logged, and delivery is deferred.
If the transport does not specify a home directory, and transport_home_directory is not set for the router, the home directory for the tranport is taken from the password data if check_local_user is set for the router. Otherwise it is taken from router_home_directory if that option is set; if not, no home directory is set for the transport.
See chapter 23 for further details of the local delivery environment.
The result of string expansion for this option must be a valid boolean value, that is, one of the strings yes, no, true, or false. Any other result causes an error, and delivery is deferred. If the expansion is forced to fail, the default value for the option (false) is used. Other failures cause delivery to be deferred.
When this option is set true, routing does not cease if the router accepts the address. Instead, a copy of the incoming address is passed to the next router, overriding a false setting of more. There is little point in setting more false if unseen is always true, but it may be useful in cases when the value of unseen contains expansion items (and therefore, presumably, is sometimes true and sometimes false).
The unseen option can be used to cause copies of messages to be delivered to some other destination, while also carrying out a normal delivery. In effect, the current address is made into a parent that has two children one that is delivered as specified by this router, and a clone that goes on to be routed further.
Header lines added to the address (or specified for removal) by this router or by previous routers affect the unseen copy of the message only. The clone that continues to be processed by further routers starts with no added headers and none specified for removal.
However, any data that was set by the address_data option in the current or previous routers is passed on. Setting this option has a similar effect to the unseen command qualifier in filter files.
When a router queues an address for a transport, and the transport does not specify a user, the user given here is used when running the delivery process. The user may be specified numerically or by name. If expansion fails, the error is logged and delivery is deferred. This user is also used by the redirect router when running a filter file. The default is unset, except when check_local_user is set. In this case, the default is taken from the password information. If the user is specified as a name, and group is not set, the group associated with the user is used. See also initgroups and group and the discussion in chapter 23.
Setting this option has the effect of setting verify_sender and verify_recipient to the same value.
If this option is set, the router is used only when verifying an address or testing with the -bv option, not when actually doing a delivery, testing with the -bt option, or running the SMTP EXPN command. It can be further restricted to verifying only senders or recipients by means of verify_sender and verify_recipient.
Warning: When the router is being run to verify addresses for an incoming SMTP message, Exim is not running as root, but under its own uid. If the router accesses any files, you need to make sure that they are accessible to the Exim user or group.
If this option is false, the router is skipped when verifying recipient addresses or testing recipient verification using -bv. See section 3.11 for a list of the order in which preconditions are evaluated.
If this option is false, the router is skipped when verifying sender addresses or testing sender verification using -bvs. See section 3.11 for a list of the order in which preconditions are evaluated.