This document is a guide to managing multiple Postfix instances on a single host using the postmulti(1) instance manager. Multi-instance support is available with Postfix version 2.6 and later. See the postfix-wrapper(5) manual page for background on the instance management framework, and on how to deploy a custom instance manager.
Topics covered in this document:
Postfix is a general-purpose mail system that can be configured to serve a variety of needs. Examples of Postfix applications are:
Local mail submission for shell users and system processes.
Incoming (MX host) email from the Internet.
Outbound mail relay for a corporate network.
Authenticated submission for roaming users.
Before/after content-filter mail.
A single Postfix configuration can provide many or all of these services, but a complex interplay of settings may be required, for example with master.cf options overriding main.cf settings. In this document we take the view that multiple Postfix instances may be a simpler way to configure a multi-function Postfix system. With multiple Postfix instances, each instance has its own directories for configuration, queue and data files, but it shares all Postfix program and documentation files with other instances.
Since there is no single right way to configure your system, we recommend that you choose what makes you most comfortable. If different Postfix services don't involve incompatible main.cf or master.cf settings, and if they can be combined together without complex tricks, then a single monolithic configuration may be the simplest approach.
The purpose of multi-instance support in Postfix is not to force you to create multiple Postfix instances, but rather to give you a choice. Multiple instances give you the freedom to tune each Postfix instance to a single task that it does well and to combine instances into complete systems.
With the introduction of the postmulti(1) utility and the reduction of the per-instance configuration footprint of a secondary Postfix instance to just a main.cf and master.cf file (other files are now in shared locations), we hope that multiple instances will be easier to use than ever before.
In the multi-instance approach to configuring Postfix, the first simplification is with the default local-submission Postfix instance.
Most UNIX systems require support for email submission with the sendmail(1) command so that system processes such as cron jobs can send status reports, and so that system users can send email with command-line utilities. Such email can be handled with a null-client Postfix configuration that forwards all mail to a central mail hub. The null client will typically either not run an SMTP listener at all (master_service_disable = inet), or it will listen only on the loopback interface (inet_interfaces = loopback-only).
When implementing specialized servers for inbound Internet email, outbound MTAs, internal mail hubs, and so on, we recommend using a null client for local submission and creating single-function secondary Postfix instances to serve the specialized needs.
Note: usually, you need to use different "myhostname" settings when you run multiple instances on the same host. Otherwise, there will be false "mail loops back to myself" alarms when one instance tries to send mail into another instance. Typically, the null-client instance will use the system's hostname, and other instances will use their own dedicated "myhostname" settings. Different names are not needed when instances send mail to each other with a protocol other than SMTP, or with SMTP over a TCP port other than 25 as is usual with SMTP-based content filters.
Before discussing the fine details of multi-instance operation we first show the steps for creating a border mail server. This server has with a null-client Postfix instance for local submission, an input Postfix instance to receive mail from the Internet, plus an advanced SMTP content-filter and an output Postfix instance to deliver filtered email to its internal destination.
On a border mail hub, while mail from the Internet requires a great deal of scrutiny, locally submitted messages are typically limited to mail from cron jobs and other system services. In this regard the border MTA is not different from other Unix hosts in your environment. For this reason, it will submit locally-generated email to the internal mail hub. We start the construction of the border mail server with the default instance, which will be a local-submission null client:
/etc/postfix/main.cf: # We are mta1.example.com # myhostname = mta1.example.com mydomain = example.com # Flat user-account namespace in example.com: # # user@example.com not user@host.example.com # myorigin = $mydomain # Postfix 2.6+, disable inet services, specifically disable smtpd(8) # master_service_disable = inet # No local delivery: # mydestination = local_transport = error:5.1.1 Mailbox unavailable alias_database = alias_maps = local_recipient_maps = # Send everything to the internal mailhub # relayhost = [mailhub.example.com] # Indexed table macro: # (use "hash", ... when cdb is not available) # default_database_type = cdb indexed = ${default_database_type}:${config_directory}/ # Expose origin host of mail from "root", ... # smtp_generic_maps = ${indexed}generic # Send messages addressed to "root", ... to the MTA support team # virtual_alias_maps = ${indexed}virtual /etc/postfix/generic: # The smarthost supports "+" addressing (recipient_delimiter = +). # Mail from "root" exposes the origin host, without replies # and bounces going back to the same host. # # On clustered MTAs this file is typically machine-built from # a template file. The build process expands the template into # "mtaadmin+root=mta1" # root mtaadmin+root=mta1 /etc/postfix/virtual: # Caretaker aliases: # root mtaadmin postmaster root
You would typically also add a Makefile, to automatically run postmap(1) commands when source files change. This Makefile also creates a "generic" database when none exists.
/etc/postfix/Makefile: MTAADMIN=mtaadmin all: virtual.cdb generic.cdb generic: Makefile @echo Creating $@ @rm -f $@.tmp @printf '%s\t%s+root=%s\n' root ${MTAADMIN} `uname -n` > $@.tmp @mv $@.tmp generic %.cdb: % postmap cdb:$<
Construct the "virtual" and "generic" databases (the latter is created by running "make"), then start and test the null-client:
# cd /etc/postfix; make # postfix start # sendmail -i -f root -t <<EOF From: root To: root Subject: test testing EOF
The test message should be delivered the members of the "mtaadmin" address group (or whatever address group you choose) with the following headers:
From: mtaadmin+root=mta1@example.com To: mtadmin+root=mta1@example.com Subject: test
With the null-client instance out of the way, we can create the MTA "output" instance that will deliver filtered mail to the inside network. We add the "output" instance first, because the output instance needs to be up and running before the input instance can be fully tested, and when the system boots, the "output" instance must start before the input instance. We will put the output and input instances into a single instance group named "mta".
Just once, when adding the first secondary instance, enable multi-instance support in the default (null-client) instance:
# postmulti -e init
Then create the output instance:
# postmulti -I postfix-out -G mta -e create
The instance configuration directory defaults to /etc/postfix-out, more precisely, the "postfix-out" subdirectory of the parent directory of the default-instance configuration directory. The new instance will be created in a "disabled" state:
/etc/postfix-out/main.cf # # ... "stock" main.cf settings ... # multi_instance_name = postfix-out queue_directory = /var/spool/postfix-out data_directory = /var/lib/postfix-out # multi_instance_enable = no master_service_disable = inet authorized_submit_users =
This instance has a "stock" master.cf file, and its queue and data directories, also named "postfix-out", will be located in the same parent directories as the corresponding directories of the default instance (e.g., /var/spool/postfix-out and /var/lib/postfix-out).
While this instance is immediately safe to start, it is not yet usefully configured. It needs to be customized to fit the role of a post-filter re-injection SMTP service. Typical additions include:
/etc/postfix-out/master.cf: # Replace default "smtp inet" entry with one listening on port 10026. 127.0.0.1:10026 inet n - n - - smtpd /etc/postfix-out/main.cf # ... # Comment out if you don't use IPv6 internally # inet_protocols = ipv4 inet_interfaces = loopback-only mynetworks_style = host smtpd_authorized_xforward_hosts = $mynetworks # Don't anvil(8) control the re-injection port. # smtpd_client_connection_count_limit = 0 smtpd_client_event_limit_exceptions = $mynetworks # Best practice when inet_interfaces is set, as this is not a # "secondary IP personality" configuration. # smtp_bind_address = 0.0.0.0 # All header rewriting happens upstream # local_header_rewrite_clients = # No local delivery on border gateway # mydestination = alias_maps = alias_database = local_recipient_maps = local_transport = error:5.1.1 Mailbox unavailable # May need a recipient_delimiter for per-user transport lookups: # recipient_delimiter = + # Only one (unrestricted client) # With multiple instances, rarely need "-o param=value" overrides # in master.cf, each instance gets its own main.cf file. # # Postfix 2.10 and later: specify empty smtpd_relay_restrictions. smtpd_relay_restrictions = smtpd_recipient_restrictions = permit_mynetworks, reject # Tolerate occasional high latency in the content filter. # smtpd_timeout = 1200s # Best when empty, with all parent domain matches explicit. # parent_domain_matches_subdomains = # Use the "relay" transport for inbound mail, and the default # "smtp" transport for outbound mail (bounces, ...). The latter # won't starve the former of delivery agent slots. # relay_domains = example.com, .example.com # With xforward, match the input instance setting, if you # want "yes", set both to "yes". # smtpd_client_port_logging = no # Transport settings ... # Message size limit # Concurrency tuning for "relay" and "smtp" transport # ...
With the "output" configuration in place, enable and start the instance:
1 # postmulti -i postfix-out -x postconf -e \ 2 "master_service_disable =" "authorized_submit_users = root" 3 # postmulti -i postfix-out -e enable 4 # postmulti -i postfix-out -p start
This uses the postmulti(1) command to invoke postconf(1) in the context (MAIL_CONFIG=/etc/postfix-out) of the output instance.
Lines 1-2: With "authorized_submit_users = root", the superuser can test the postfix-out instance with "postmulti -i postfix-out -x sendmail -bv recipient...", but otherwise local submission remains disabled.
Lines 1-2: With "master_service_disable =", the "inet" listeners are re-enabled.
Line 3: The output instance is enabled for multi-instance start/stop.
Line 4: The output instance is started.
Test the output instance by submitting probe messages via "sendmail -bv" and "telnet". For production systems, in-depth configuration tests should be done on a lab system. The simple tests just suggested will only confirm successful deployment of a configuration that should already be known good.
With the output instance ready, deploy your content-filter proxy. Most proxies will need their own /etc/rc* start/stop script. Some proxies, however, are started on demand by the Postfix spawn(8) service, in which case you need to add the relevant spawn(8) entry to the output instance master.cf file.
Configure the proxy to listen on 127.0.0.1:10025 and to re-inject filtered email to 127.0.0.1:10026. Start the proxy service if necessary, then test the proxy via "telnet" or automated SMTP injectors. The proxy should support the following ESMTP features: DSN, 8BITMIME, and XFORWARD. In addition, the proxy should support multiple mail deliveries within an SMTP session.
The input Postfix instance receives mail from the network and sends it through the content filter. Now we create the input instance, also part of the "mta" instance group:
# postmulti -I postfix-in -G mta -e create
The new instance configuration directory defaults to /etc/postfix-in, more precisely, the "postfix-in" subdirectory of the parent directory of the default-instance configuration directory. The new instance will be created in a "disabled" state:
/etc/postfix-in/main.cf # # ... "stock" main.cf settings ... # multi_instance_name = postfix-in queue_directory = /var/spool/postfix-in data_directory = /var/lib/postfix-in # multi_instance_enable = no master_service_disable = inet authorized_submit_users =
As before, make appropriate changes to main.cf and master.cf to make the instance production ready. Consider setting "soft_bounce = yes" during the first few hours of deployment, so you can iron-out any unexpected "kinks".
Manual testing can start with:
/etc/postfix-in/main.cf # Accept only local traffic, but allow impersonation: inet_interfaces = 127.0.0.1 smtpd_authorized_xclient_hosts = 127.0.0.1
This allows you to use the Postfix-specific XCLIENT SMTP command to safely simulate connections from remote systems before any remote systems are able to connect. If the test results look good, revert the above settings to the required production values. Typical settings in the pre-filter input instance include:
/etc/postfix-in/main.cf # # ... # # No local delivery on border gateway # mydestination = alias_maps = alias_database = local_recipient_maps = local_transport = error:5.1.1 Mailbox unavailable # Don't rewrite remote headers # local_header_rewrite_clients = # All recipients of not yet filtered email go to the same filter together. # # With multiple instances, the content-filter is specified # via transport settings not the "content_filter" transport # switch override! Here the filter listens on local port 10025. # # If you need to route some users or recipient domains directly to the # output instance bypassing the filter, just define a transport table # with suitable entries. # default_transport = smtp:[127.0.0.1]:10025 relay_transport = $default_transport virtual_transport = $default_transport transport_maps = # Pass original client log information through the filter. # smtp_send_xforward_command = yes # Avoid splitting the envelope and scanning messages multiple times. # Match the re-injection server's recipient limit. # smtp_destination_recipient_limit = 1000 # Tolerate occasional high latency in the content filter. # smtp_data_done_timeout = 1200s # With xforward, match the output instance setting, if you # want "yes", set both to "yes". # smtpd_client_port_logging = no # ... Lots of settings for inbound MX host ...
With the "input" instance configured, enable and start it:
# postmulti -i postfix-in -x postconf -e \ "master_service_disable =" "authorized_submit_users = root" # postmulti -i postfix-in -e enable # postmulti -i postfix-in -p start
That's it. You now have a 3-instance configuration. A null-client sending all locally submitted mail to the internal mail hub and a pair of "mta" instances that receive mail from the Internet, pass it through a content-filter, and then deliver it to the internal destination.
Running "postfix start" or "postfix stop" will now start/stop all three Postfix instances. You can use "postfix -c /config/path start" to start just one instance, or use the instance name (or instance group name) via postmulti(1):
# postmulti -i - -p stop # postmulti -g mta -p status # postmulti -i postfix-out -p flush # postmulti -i postfix-in -p reload # ...
This example ends the multi-instance "walk through". The remainder of this document provides background information on Postfix multi-instance support features and options.
A Postfix system consists of the following components:
Shared among all instances:
Command-line utilities for administrators and users installed in $command_directory, $sendmail_path, $mailq_path and $newaliases_path.
Daemon executables, and run-time support files installed in $daemon_directory.
Bundled documentation, installed in $html_directory, $manpage_directory and $readme_directory.
Entries in /etc/passwd and /etc/group for the $mail_owner user and $setgid_group group. The $mail_owner user provides the mail system with a protected (non-root) execution context. The $setgid_group group is used exclusively to support the setgid postdrop(1) and postqueue(1) utilities (it must not be the primary group or secondary group of any users, including the $mail_owner user).
Private to each instance:
The main.cf, master.cf (and other optional) configuration files in $config_directory.
The maildrop, incoming, active, deferred and hold queues in $queue_directory (which contains additional directories needed by Postfix, and which optionally doubles as a chroot jail for Postfix daemon processes).
Various caches (TLS session, address verification, ...) in $data_directory.
The Postfix configuration parameters mentioned above are collectively referred to as "installation parameters". Their default values are set when the Postfix software is built from source, and all but one may be optionally set to a non-default value via the main.cf file. The one parameter that (catch-22) cannot be set in main.cf is $config_directory, as this defines the location of the main.cf file itself.
Though config_directory cannot be set in main.cf, postfix(1) and most of the other command-line Postfix utilities allow you to specify a non-default configuration directory via a command line option (typically -c) or via the MAIL_CONFIG environment variable. In this way, it is possible to have multiple configuration directories on the same machine, and to have multiple running master(8) daemons each with its own configuration files, queue directory and data directory.
These multiple running copies of master(8) share the base Postfix software. They do not (and cannot) share their configuration directories, queue directories or data directories.
Each combination of configuration directory, together with the queue directory and data directory (specified in the corresponding main.cf file) make up a Postfix instance.
One Postfix instance is special: this is the instance whose configuration directory is the default one compiled into the Postfix utilities. The location of the default configuration directory is typically /etc/postfix, and can be queried via the "postconf -d config_directory" command. We call the instance with this configuration directory the "default instance".
The default instance is responsible for local mail submission. The setgid postdrop(1) utility is used by the sendmail(1) local submission program to spool messages into the maildrop sub-directory of the queue directory of the default instance.
Even in the rare case when "sendmail -C" is used to submit local mail into a non-default Postfix instance, for security reasons, postdrop(1) will consult the default main.cf file to check the validity of the requested non-default configuration directory.
So, while in most other respects, all instances are equal, the default instance is "more equal than others". You may choose to create additional instances, but you must have at least the default instance, with its configuration directory in the default compiled-in location.
The postmulti(1) multi-instance manager supports the notion of an instance "group". Typically, the member instances of an instance group constitute a logical service, and are expected to all be running or all be stopped.
In many cases a single Postfix instance will be a complete logical "service". You should define such instances as stand-alone instances that are not members of any instance "group". The null-client instance is an example of a non-group instance.
When a logical service consists of multiple Postfix instances, often a pair of pre-filter and post-filter instances with a content filter proxy between them, the related instances should be members of a single instance group (however, the content filter usually has its own start/stop procedure that is separate from any Postfix instance).
The default instance main.cf file's $multi_instance_directories configuration parameter lists the configuration directories of all secondary (non-default) instances. Together with the default instance, these secondary instances are managed by the multi-instance manager. Instances are started in the order listed, and stopped in the opposite order. For instances that are members of a service "group", you should arrange to start the service back-to-front, with the output stages started and ready to receive mail before the input stages are started.
This default-instance configuration parameter must be set to a suitable multi-instance manager's "wrapper" program that controls the starting, stopping, etc. of a multi-instance Postfix system. To use the postmulti(1) manager described in this document, this parameter should be set with the "postmulti -e init" command.
This default-instance configuration parameter specifies an optional list of the secondary instances controlled via the multi-instance manager. Instances are listed in their "start" order, with the default instance always started first (if enabled). If $multi_instance_directories is left empty, the postfix(1) command runs with multi-instance support turned off, and none of the multi_instance_ configuration parameters will have any effect.
Do not assign a non-empty list of secondary instance configuration directories to multi_instance_directories until you have configured a suitable multi_instance_wrapper setting! This is best accomplished via the "postmulti -e init" command.
Each Postfix instance may be assigned a distinct name (with "postfix -e create/import/assign -I name..."). This name can be used with the postmulti(1) command-line utility to perform tasks on the instance by name (rather than the full pathname of its configuration directory). Choose a name that concisely captures the role of the instance (it must start with "postfix-"). It is an error for two instances to have the same $multi_instance_name. You can leave an instance "nameless" by leaving this parameter at the default empty setting.
To avoid confusion in your logs, if you don't assign each secondary instance a non-empty (distinct) $multi_instance_name, you should make sure that the $syslog_name setting is different for each instance. The $syslog_name parameter defaults to $multi_instance_name when the latter is non-empty. If at all possible, the syslog_name should start with "postfix-", this helps log parsers to identify log entries from secondary Postfix instances.
Each Postfix instance may be assigned an "instance group" name (with "postfix -e create/import/assign -G name..."). The default (empty) value of multi_instance_group parameter indicates a stand-alone instance that is not part of any group. The group name can be used with the postmulti(1) command-line utility to perform a task on the members of a group by name. Choose a single-word group name that concisely captures the role of the group.
This parameter controls whether a Postfix instance will be started by a Postfix multi-instance manager. The default value is "no". The instance can be started explicitly with "postfix -c /path/to/config/directory"; this is useful for testing.
When an instance is disabled, the postfix(1) "start" command is replaced by "check".
Some postfix(1) commands (such as "stop", "flush", ...) require a running Postfix instance, and skip instances that are disabled.
Other postfix(1) commands (such as "status", "set-permissions", "upgrade-configuration", ...) do not require a running Postfix system, and apply to all instances whether enabled or not.
The postmulti(1) utility can be used to create (or destroy) instances. It can also be used to "import" or "deport" existing instances into or from the list of managed instances. When using postmulti(1) to manage instances, the above configuration parameters are managed for you automatically. See below.
Before postmulti(1) is used for the first time, you must install it as the multi_instance_wrapper for your Postfix system and enable multi-instance operation of the default Postfix instance. You can then proceed to add new or existing instances to the multi-instance configuration. This initial installation is accomplished as follows:
# postmulti -e init
This updates the default instance main.cf file as follows:
# Use postmulti(1) as a postfix-wrapper(5) # multi_instance_wrapper = ${command_directory}/postmulti -p -- # Configure the default instance to start when in multi-instance mode # multi_instance_enable = yes
If you prefer, you can make these changes by editing the default main.cf directly, or by using "postconf -e".
The list of managed instances consists of the default instance and the additional instances whose configuration directories are listed (in start order) under the multi_instance_directories parameter of the default main.cf configuration file.
You can list selected instances, groups of instances or all instances by specifying only the instance matching options with the "-l" option. The "-a" option is assumed if no other instance selection options are specified (this behavior changes with the "-e" option). As a special case, even if it has an explicit name, the default instance can always be selected via "-i -".
# postmulti -l -a # postmulti -l -g a_group # postmulti -l -i an_instance
The output is one line per instance (in "postfix start" order):
name group enabled config_directory - - yes /etc/postfix mta-out mta yes /etc/postfix/mta-out mta-in mta yes /etc/postfix-mta-in msa-out msa yes /etc/postfix-msa-out msa-in msa yes /etc/postfix-msa-in test - no /etc/postfix-test
The first line showing the column headings is not part of the output. When either the instance name or the instance group is not set, it is shown as a "-".
When selecting an existing instance via the "-i" option, you can always use the full pathname of its configuration directory instead of the instance (short) name. This is the only way to select a non-default nameless instance. The default instance can be selected via "-i -", whether it has a name or not.
To list instances in reverse start order, include the "-R" option together with the instance selection options.
To start, stop, reload, etc. the complete (already configured as above) multi-instance system just use postfix(1) as you would with a single-instance system. The Postfix multi-instance wrapper framework insulates Postfix init.d start and package upgrade scripts from the details of multi-instance management!
The -p option of postmulti(1) turns on postfix(1) compatibility mode. With this option the remaining arguments are exactly those supported by postfix(1), but commands are applied to all instances or all enabled instances as appropriate. As described above, this switch is required when using postmulti(1) as the multi_instance_wrapper.
If you want to specify a subset of instances by name, or group name, or run arbitrary commands (not just "postfix stop/start/etc. in the context (MAIL_CONFIG environment variable setting) of a particular instance or group of instances, then you can use the instance-aware postmulti(1) utility directly.
The postmulti(1) command can be used by the administrator to run arbitrary commands in the context of one or more Postfix instances. The most common use-case is stopping or starting a group of Postfix instances:
# postmulti -g mygroup -p start # postmulti -g mygroup -p flush # postmulti -g mygroup -p reload # postmulti -g mygroup -p status # postmulti -g mygroup -p stop # postmulti -g mygroup -p upgrade-configuration
The -p option is essentially a short-hand for a leading postfix command argument, but with appropriate additional options turned on depending on the first argument. In the case of "start", disabled instances are "checked" (postfix check) rather than simply skipped.
The resulting command is executed for each candidate instance with the MAIL_CONFIG environment variable set to the configuration directory of the corresponding Postfix instance.
The postmulti(1) utility is able to launch commands other than postfix(1), Use the -x option to ask postmulti to execute an ad-hoc command for all instances, a group of instances, or just one instance. With ad-hoc commands the multi_instance_enable parameter is ignored: the command is unconditionally executed for the instances selected via -a, -g or -i. In addition to MAIL_CONFIG, the following instance parameters are exported into the command environment:
command_directory=$command_directory daemon_directory=$daemon_directory config_directory=$config_directory queue_directory=$queue_directory data_directory=$data_directory multi_instance_name=$multi_instance_name multi_instance_group=$multi_instance_group multi_instance_enable=$multi_instance_enable
The config_directory setting is of course the same as MAIL_CONFIG, and is arguably redundant, but leaving it in is less surprising. If you want to skip disabled instances, just check multi_instance_enable environment variable and exit if it is set to "no".
The ability to run ad-hoc commands opens up a wealth of additional possibilities:
Specify an instance by name rather than configuration directory when using sendmail(1) to send a verification probe:
$ postmulti -i postfix-myinst -x sendmail -bv test@example.net
Display non-default main.cf settings of all Postfix instances. This uses an inline shell script to package together multiple shell commands to execute for each instance:
$ postmulti -x sh -c 'echo "-- $MAIL_CONFIG"; postconf -n'
Put all mail in enabled member instances of a group on hold:
# postmulti -g group_name -x \ sh -c 'test $multi_instance_enable = yes && postsuper -h ALL'
Show top 10 domains in the deferred queue of all instances:
# postmulti -x sh -c 'echo "-- $MAIL_CONFIG"; qshape deferred | head -12'
The postmulti(1) command can be used to create additional Postfix instances. New instances are created with local submission and all "inet" services disabled via the following non-default parameter settings in the main.cf file:
authorized_submit_users = master_service_disable = inet
The above settings ensure that new instances are safe to start immediately: they will not conflict with inet listeners in existing Postfix instances. They will also not accept any mail until they are fully configured, at which point you can do away with one or both of the above safety measures.
The postmulti(1) command encourages a preferred way of organizing the configuration directories, queue directories and data directories of non-default instances. If the default instance settings are:
config_directory = /conf-path/postfix queue_directory = /queue-path/postfix data_directory = /data-path/postfix
A newly-created instance named postfix-myinst will by default have:
multi_instance_enable = no multi_instance_name = postfix-myinst config_directory = /conf-path/postfix-myinst queue_directory = /queue-path/postfix-myinst data_directory = /data-path/postfix-myinst
You can override any of these defaults when creating the instance, but unless you want to spread instance queue directories over multiple file-systems, use the default naming strategy. It keeps the multiple instances organized in a uniform, predictable fashion.
When specifying the instance name later, you can refer to it either as "postfix-myinst", or via the full path of the configuration directory.
To create a new instance just use the -e create option:
# postmulti -I postfix-myinst -e create
If the new instance is to belong to a group of related instances that implement a single logical service, assign it to a group:
# postmulti -I postfix-myinst -G mygroup -e create
If you want to override the conventional values of the instance installation parameters, specify their values on the command-line:
# postmulti [-I postfix-myinst] [-G mygroup] -e create \ "config_directory = /path/to/config_directory" \ "queue_directory = /path/to/queue_directory" \ "data_directory = /path/to/data_directory"
A note on the -I and -G options above. These are always used to assign a name or group name to an instance, while the -i and -g options always select existing instances. By default, the configuration directories of newly managed instances are appended to the instance list. You can use the "-i" or "-g" or "-a" options to insert the new instance before the specified instance or group, or at the beginning of the instance list (multi_instance_directories parameter of the default instance).
If you do specify a name (use "-I" with a name that is not "-") for the new instance, you may omit any of the 3 instance installation parameters whose instance-name based value is acceptable. Otherwise, all three instance installation parameters are required. You should set the "syslog_name" explicitly in the main.cf file of a "nameless" instance, in order to avoid confusion in the mail logs when multiple instances are in use.
If you no longer need an instance, you can destroy it via:
# postmulti -i postfix-myinst -p stop # postmulti -i postfix-myinst -e disable # postmulti -i postfix-myinst -e destroy
The instance must be stopped, disabled and have no queued messages. This is expected to fully delete a just created instance that has never been used. If the instance is not freshly created, files added after the instance was created will remain in the configuration, queue or data directories, in which case the corresponding directory may not be fully removed and a warning to that effect will be displayed. You can complete the destruction of the instance manually by removing any unwanted remnants of the instance-specific "private" directories.
If you already have an existing secondary Postfix instance that is not yet managed via postmulti(1), you can "import" it into the list of managed instances. If your instance is already using the default configuration directory naming scheme, just specify the corresponding instance name (the multi_instance_name parameter in its configuration file will be adjusted to match this name if necessary):
# postmulti -I postfix-myinst [-G mygroup] -e import
Otherwise, you must specify the location of its configuration directory:
# postmulti [-I postfix-myinst] [-G mygroup] -e import \ "config_directory = /path/of/config_directory"
When the instance is imported, you can assign a name or a group. As with "create", you can control the placement of the new instance in the start order by using "-i", "-g" or "-a" to prepend before the selected instance or instances.
An imported instance is usually not multi-instance "enabled", unless it was part of a multi-instance configuration at an earlier time. If it is fully configured and ready to run, don't forget to enable it and if necessary start it. When other enabled instances are already running, new instances need to be started individually when they are first created or imported.
To find out what instances are running, use:
# postfix status
You can "deport" an existing instance from the list of managed instances. This does not destroy the instance, rather the instance just becomes a stand-alone Postfix instance not registered with the multi-instance manager. postmulti(1) will refuse to "deport" an instance that is not stopped and disabled.
# postmulti -i postfix-myinst -p stop # postmulti -i postfix-myinst -e disable # postmulti -i postfix-myinst -e deport
You can assign a new name or new group to a managed instance. Use "-" as the new value to assign the instance to no group or make it nameless. To specify a nameless secondary instance use the configuration directory path instead of the old name:
# postmulti -i postfix-old [-I postfix-new] [-G newgroup] -e assign
You can enable or disable a managed instance. As documented in postfix-wrapper(5), disabled instances are skipped with actions that start, stop or control running Postfix instances.
# postmulti -i postfix-myinst -e enable # postmulti -i postfix-myinst -e disable
Wietse Venema created Postfix, designed and implemented the multi-instance wrapper framework and provided design feedback that made the postmulti(1) utility much more general and useful than originally envisioned.
The postmulti(1) utility was developed by Victor Duchovni of Morgan Stanley, who also wrote the initial version of this document.