Exim Internet Mailer

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Chapter 20 - The manualroute router

The manualroute router is so-called because it provides a way of manually routing an address according to its domain. It is mainly used when you want to route addresses to remote hosts according to your own rules, bypassing the normal DNS routing that looks up MX records. However, manualroute can also route to local transports, a facility that may be useful if you want to save messages for dial-in hosts in local files.

The manualroute router compares a list of domain patterns with the domain it is trying to route. If there is no match, the router declines. Each pattern has associated with it a list of hosts and some other optional data, which may include a transport. The combination of a pattern and its data is called a “routing rule”. For patterns that do not have an associated transport, the generic transport option must specify a transport, unless the router is being used purely for verification (see verify_only).

In the case of verification, matching the domain pattern is sufficient for the router to accept the address. When actually routing an address for delivery, an address that matches a domain pattern is queued for the associated transport. If the transport is not a local one, a host list must be associated with the pattern; IP addresses are looked up for the hosts, and these are passed to the transport along with the mail address. For local transports, a host list is optional. If it is present, it is passed in $host as a single text string.

The list of routing rules can be provided as an inline string in route_list, or the data can be obtained by looking up the domain in a file or database by setting route_data. Only one of these settings may appear in any one instance of manualroute. The format of routing rules is described below, following the list of private options.

1. Private options for manualroute

The private options for the manualroute router are as follows:

host_all_ignored Use: manualroute Type: string Default: defer

See host_find_failed.

host_find_failed Use: manualroute Type: string Default: freeze

This option controls what happens when manualroute tries to find an IP address for a host, and the host does not exist. The option can be set to one of the following values:

decline
defer
fail
freeze
ignore
pass

The default (“freeze”) assumes that this state is a serious configuration error. The difference between “pass” and “decline” is that the former forces the address to be passed to the next router (or the router defined by pass_router), overriding no_more, whereas the latter passes the address to the next router only if more is true.

The value “ignore” causes Exim to completely ignore a host whose IP address cannot be found. If all the hosts in the list are ignored, the behaviour is controlled by the host_all_ignored option. This takes the same values as host_find_failed, except that it cannot be set to “ignore”.

The host_find_failed option applies only to a definite “does not exist” state; if a host lookup gets a temporary error, delivery is deferred unless the generic pass_on_timeout option is set.

hosts_randomize Use: manualroute Type: boolean Default: false

If this option is set, the order of the items in a host list in a routing rule is randomized each time the list is used, unless an option in the routing rule overrides (see below). Randomizing the order of a host list can be used to do crude load sharing. However, if more than one mail address is routed by the same router to the same host list, the host lists are considered to be the same (even though they may be randomized into different orders) for the purpose of deciding whether to batch the deliveries into a single SMTP transaction.

When hosts_randomize is true, a host list may be split into groups whose order is separately randomized. This makes it possible to set up MX-like behaviour. The boundaries between groups are indicated by an item that is just + in the host list. For example:

route_list = * host1:host2:host3:+:host4:host5

The order of the first three hosts and the order of the last two hosts is randomized for each use, but the first three always end up before the last two. If hosts_randomize is not set, a + item in the list is ignored. If a randomized host list is passed to an smtp transport that also has hosts_randomize set, the list is not re-randomized.

route_data Use: manualroute Type: string Default: unset

If this option is set, it must expand to yield the data part of a routing rule. Typically, the expansion string includes a lookup based on the domain. For example:

route_data = ${lookup{$domain}dbm{/etc/routes}}

If the expansion is forced to fail, or the result is an empty string, the router declines. Other kinds of expansion failure cause delivery to be deferred.

route_list Use: manualroute Type: string list Default: unset

This string is a list of routing rules, in the form defined below. Note that, unlike most string lists, the items are separated by semicolons. This is so that they may contain colon-separated host lists.

same_domain_copy_routing Use: manualroute Type: boolean Default: false

Addresses with the same domain are normally routed by the manualroute router to the same list of hosts. However, this cannot be presumed, because the router options and preconditions may refer to the local part of the address. By default, therefore, Exim routes each address in a message independently. DNS servers run caches, so repeated DNS lookups are not normally expensive, and in any case, personal messages rarely have more than a few recipients.

If you are running mailing lists with large numbers of subscribers at the same domain, and you are using a manualroute router which is independent of the local part, you can set same_domain_copy_routing to bypass repeated DNS lookups for identical domains in one message. In this case, when manualroute routes an address to a remote transport, any other unrouted addresses in the message that have the same domain are automatically given the same routing without processing them independently. However, this is only done if headers_add and headers_remove are unset.

2. Routing rules in route_list

The value of route_list is a string consisting of a sequence of routing rules, separated by semicolons. If a semicolon is needed in a rule, it can be entered as two semicolons. Alternatively, the list separator can be changed as described (for colon-separated lists) in section 6.20. Empty rules are ignored. The format of each rule is

<domain pattern>  <list of hosts>  <options>

The following example contains two rules, each with a simple domain pattern and no options:

route_list = \
  dict.ref.example  mail-1.ref.example:mail-2.ref.example ; \
  thes.ref.example  mail-3.ref.example:mail-4.ref.example

The three parts of a rule are separated by white space. The pattern and the list of hosts can be enclosed in quotes if necessary, and if they are, the usual quoting rules apply. Each rule in a route_list must start with a single domain pattern, which is the only mandatory item in the rule. The pattern is in the same format as one item in a domain list (see section 10.9), except that it may not be the name of an interpolated file. That is, it may be wildcarded, or a regular expression, or a file or database lookup (with semicolons doubled, because of the use of semicolon as a separator in a route_list).

The rules in route_list are searched in order until one of the patterns matches the domain that is being routed. The list of hosts and then options are then used as described below. If there is no match, the router declines. When route_list is set, route_data must not be set.

3. Routing rules in route_data

The use of route_list is convenient when there are only a small number of routing rules. For larger numbers, it is easier to use a file or database to hold the routing information, and use the route_data option instead. The value of route_data is a list of hosts, followed by (optional) options. Most commonly, route_data is set as a string that contains an expansion lookup. For example, suppose we place two routing rules in a file like this:

dict.ref.example:  mail-1.ref.example:mail-2.ref.example
thes.ref.example:  mail-3.ref.example:mail-4.ref.example

This data can be accessed by setting

route_data = ${lookup{$domain}lsearch{/the/file/name}}

Failure of the lookup results in an empty string, causing the router to decline. However, you do not have to use a lookup in route_data. The only requirement is that the result of expanding the string is a list of hosts, possibly followed by options, separated by white space. The list of hosts must be enclosed in quotes if it contains white space.

4. Format of the list of hosts

A list of hosts, whether obtained via route_data or route_list, is always separately expanded before use. If the expansion fails, the router declines. The result of the expansion must be a colon-separated list of names and/or IP addresses, optionally also including ports. If the list is written with spaces, it must be protected with quotes. The format of each item in the list is described in the next section. The list separator can be changed as described in section 6.21.

If the list of hosts was obtained from a route_list item, the following variables are set during its expansion:

  • If the domain was matched against a regular expression, the numeric variables $1, $2, etc. may be set. For example:

    route_list = ^domain(\d+)   host-$1.text.example
    
  • $0 is always set to the entire domain.

  • $1 is also set when partial matching is done in a file lookup.

  • If the pattern that matched the domain was a lookup item, the data that was looked up is available in the expansion variable $value. For example:

    route_list = lsearch;;/some/file.routes  $value
    

Note the doubling of the semicolon in the pattern that is necessary because semicolon is the default route list separator.

5. Format of one host item

Each item in the list of hosts can be either a host name or an IP address, optionally with an attached port number, or it can be a single "+" (see hosts_randomize). When no port is given, an IP address is not enclosed in brackets. When a port is specified, it overrides the port specification on the transport. The port is separated from the name or address by a colon. This leads to some complications:

  • Because colon is the default separator for the list of hosts, either the colon that specifies a port must be doubled, or the list separator must be changed. The following two examples have the same effect:

    route_list = * "host1.tld::1225 : host2.tld::1226"
    route_list = * "<+ host1.tld:1225 + host2.tld:1226"
    
  • When IPv6 addresses are involved, it gets worse, because they contain colons of their own. To make this case easier, it is permitted to enclose an IP address (either v4 or v6) in square brackets if a port number follows. For example:

    route_list = * "</ [10.1.1.1]:1225 / [::1]:1226"
    

6. How the list of hosts is used

When an address is routed to an smtp transport by manualroute, each of the hosts is tried, in the order specified, when carrying out the SMTP delivery. However, the order can be changed by setting the hosts_randomize option, either on the router (see section 20.1 above), or on the transport.

Hosts may be listed by name or by IP address. An unadorned name in the list of hosts is interpreted as a host name. A name that is followed by /MX is interpreted as an indirection to a sublist of hosts obtained by looking up MX records in the DNS. For example:

route_list = *  x.y.z:p.q.r/MX:e.f.g

If this feature is used with a port specifier, the port must come last. For example:

route_list = *  dom1.tld/mx::1225

If the hosts_randomize option is set, the order of the items in the list is randomized before any lookups are done. Exim then scans the list; for any name that is not followed by /MX it looks up an IP address. If this turns out to be an interface on the local host and the item is not the first in the list, Exim discards it and any subsequent items. If it is the first item, what happens is controlled by the self option of the router.

A name on the list that is followed by /MX is replaced with the list of hosts obtained by looking up MX records for the name. This is always a DNS lookup; the bydns and byname options (see section 20.7 below) are not relevant here. The order of these hosts is determined by the preference values in the MX records, according to the usual rules. Because randomizing happens before the MX lookup, it does not affect the order that is defined by MX preferences.

If the local host is present in the sublist obtained from MX records, but is not the most preferred host in that list, it and any equally or less preferred hosts are removed before the sublist is inserted into the main list.

If the local host is the most preferred host in the MX list, what happens depends on where in the original list of hosts the /MX item appears. If it is not the first item (that is, there are previous hosts in the main list), Exim discards this name and any subsequent items in the main list.

If the MX item is first in the list of hosts, and the local host is the most preferred host, what happens is controlled by the self option of the router.

DNS failures when lookup up the MX records are treated in the same way as DNS failures when looking up IP addresses: pass_on_timeout and host_find_failed are used when relevant.

The generic ignore_target_hosts option applies to all hosts in the list, whether obtained from an MX lookup or not.

7. How the options are used

The options are a sequence of words, space-separated. One of the words can be the name of a transport; this overrides the transport option on the router for this particular routing rule only. The other words (if present) control randomization of the list of hosts on a per-rule basis, and how the IP addresses of the hosts are to be found when routing to a remote transport. These options are as follows:

  • randomize: randomize the order of the hosts in this list, overriding the setting of hosts_randomize for this routing rule only.

  • no_randomize: do not randomize the order of the hosts in this list, overriding the setting of hosts_randomize for this routing rule only.

  • byname: use getipnodebyname() (gethostbyname() on older systems) to find IP addresses. This function may ultimately cause a DNS lookup, but it may also look in /etc/hosts or other sources of information.

  • bydns: look up address records for the hosts directly in the DNS; fail if no address records are found. If there is a temporary DNS error (such as a timeout), delivery is deferred.

  • ipv4_only: in direct DNS lookups, look up only A records.

  • ipv4_prefer: in direct DNS lookups, sort A records before AAAA records.

For example:

route_list = domain1  host1:host2:host3  randomize bydns;\
             domain2  host4:host5

If neither byname nor bydns is given, Exim behaves as follows: First, a DNS lookup is done. If this yields anything other than HOST_NOT_FOUND, that result is used. Otherwise, Exim goes on to try a call to getipnodebyname() or gethostbyname(), and the result of the lookup is the result of that call.

Warning: It has been discovered that on some systems, if a DNS lookup called via getipnodebyname() times out, HOST_NOT_FOUND is returned instead of TRY_AGAIN. That is why the default action is to try a DNS lookup first. Only if that gives a definite “no such host” is the local function called.

Compatibility: From Exim 4.85 until fixed for 4.90, there was an inadvertent constraint that a transport name as an option had to be the last option specified.

If no IP address for a host can be found, what happens is controlled by the host_find_failed option.

When an address is routed to a local transport, IP addresses are not looked up. The host list is passed to the transport in the $host variable.

8. Manualroute examples

In some of the examples that follow, the presence of the remote_smtp transport, as defined in the default configuration file, is assumed:

  • The manualroute router can be used to forward all external mail to a smart host. If you have set up, in the main part of the configuration, a named domain list that contains your local domains, for example:

    domainlist local_domains = my.domain.example
    

    You can arrange for all other domains to be routed to a smart host by making your first router something like this:

    smart_route:
      driver = manualroute
      domains = !+local_domains
      transport = remote_smtp
      route_list = * smarthost.ref.example
    

    This causes all non-local addresses to be sent to the single host smarthost.ref.example. If a colon-separated list of smart hosts is given, they are tried in order (but you can use hosts_randomize to vary the order each time). Another way of configuring the same thing is this:

    smart_route:
      driver = manualroute
      transport = remote_smtp
      route_list = !+local_domains  smarthost.ref.example
    

    There is no difference in behaviour between these two routers as they stand. However, they behave differently if no_more is added to them. In the first example, the router is skipped if the domain does not match the domains precondition; the following router is always tried. If the router runs, it always matches the domain and so can never decline. Therefore, no_more would have no effect. In the second case, the router is never skipped; it always runs. However, if it doesn’t match the domain, it declines. In this case no_more would prevent subsequent routers from running.

  • A mail hub is a host which receives mail for a number of domains via MX records in the DNS and delivers it via its own private routing mechanism. Often the final destinations are behind a firewall, with the mail hub being the one machine that can connect to machines both inside and outside the firewall. The manualroute router is usually used on a mail hub to route incoming messages to the correct hosts. For a small number of domains, the routing can be inline, using the route_list option, but for a larger number a file or database lookup is easier to manage.

    If the domain names are in fact the names of the machines to which the mail is to be sent by the mail hub, the configuration can be quite simple. For example:

    hub_route:
      driver = manualroute
      transport = remote_smtp
      route_list = *.rhodes.tvs.example  $domain
    

    This configuration routes domains that match *.rhodes.tvs.example to hosts whose names are the same as the mail domains. A similar approach can be taken if the host name can be obtained from the domain name by a string manipulation that the expansion facilities can handle. Otherwise, a lookup based on the domain can be used to find the host:

    through_firewall:
      driver = manualroute
      transport = remote_smtp
      route_data = ${lookup {$domain} cdb {/internal/host/routes}}
    

    The result of the lookup must be the name or IP address of the host (or hosts) to which the address is to be routed. If the lookup fails, the route data is empty, causing the router to decline. The address then passes to the next router.

  • You can use manualroute to deliver messages to pipes or files in batched SMTP format for onward transportation by some other means. This is one way of storing mail for a dial-up host when it is not connected. The route list entry can be as simple as a single domain name in a configuration like this:

    save_in_file:
      driver = manualroute
      transport = batchsmtp_appendfile
      route_list = saved.domain.example
    

    though often a pattern is used to pick up more than one domain. If there are several domains or groups of domains with different transport requirements, different transports can be listed in the routing information:

    save_in_file:
      driver = manualroute
      route_list = \
        *.saved.domain1.example  $domain  batch_appendfile; \
        *.saved.domain2.example  \
          ${lookup{$domain}dbm{/domain2/hosts}{$value}fail} \
          batch_pipe
    

    The first of these just passes the domain in the $host variable, which doesn’t achieve much (since it is also in $domain), but the second does a file lookup to find a value to pass, causing the router to decline to handle the address if the lookup fails.

  • Routing mail directly to UUCP software is a specific case of the use of manualroute in a gateway to another mail environment. This is an example of one way it can be done:

    # Transport
    uucp:
      driver = pipe
      user = nobody
      command = /usr/local/bin/uux -r - \
        ${substr_-5:$host}!rmail ${local_part}
      return_fail_output = true
    
    # Router
    uucphost:
      transport = uucp
      driver = manualroute
      route_data = \
        ${lookup{$domain}lsearch{/usr/local/exim/uucphosts}}
    

    The file /usr/local/exim/uucphosts contains entries like

    darksite.ethereal.example:           darksite.UUCP
    

    It can be set up more simply without adding and removing “.UUCP” but this way makes clear the distinction between the domain name darksite.ethereal.example and the UUCP host name darksite.

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