qmgr − Postfix queue manager
qmgr [generic Postfix daemon options]
The qmgr(8) daemon awaits the arrival of incoming mail and arranges for its delivery via Postfix delivery processes. The actual mail routing strategy is delegated to the trivial-rewrite(8) daemon. This program expects to be run from the master(8) process manager.
Mail addressed to the local double-bounce address is logged and discarded. This stops potential loops caused by undeliverable bounce notifications.
The
qmgr(8) daemon maintains the following queues:
incoming
Inbound mail from the network, or mail picked up by the local pickup(8) daemon from the maildrop directory.
active |
Messages that the queue manager has opened for delivery. Only a limited number of messages is allowed to enter the active queue (leaky bucket strategy, for a fixed delivery rate). |
deferred
Mail that could not be delivered upon the first attempt. The queue manager implements exponential backoff by doubling the time between delivery attempts.
corrupt
Unreadable or damaged queue files are moved here for inspection.
hold |
Messages that are kept "on hold" are kept here until someone sets them free. |
The qmgr(8) daemon keeps an eye on per-message delivery status reports in the following directories. Each status report file has the same name as the corresponding message file:
bounce |
Per-recipient status information about why mail is bounced. These files are maintained by the bounce(8) daemon. | ||
defer |
Per-recipient status information about why mail is delayed. These files are maintained by the defer(8) daemon. | ||
trace |
Per-recipient status information as requested with the Postfix "sendmail -v" or "sendmail -bv" command. These files are maintained by the trace(8) daemon. |
The qmgr(8) daemon is responsible for asking the bounce(8), defer(8) or trace(8) daemons to send delivery reports.
The queue
manager implements a variety of strategies for either
opening queue files (input) or for message delivery
(output).
leaky bucket
This strategy limits the number of messages in the active queue and prevents the queue manager from running out of memory under heavy load.
fairness
When the active queue has room, the queue manager takes one message from the incoming queue and one from the deferred queue. This prevents a large mail backlog from blocking the delivery of new mail.
slow start
This strategy eliminates "thundering herd" problems by slowly adjusting the number of parallel deliveries to the same destination.
round robin
The queue manager sorts delivery requests by destination. Round-robin selection prevents one destination from dominating deliveries to other destinations.
exponential backoff
Mail that cannot be delivered upon the first attempt is deferred. The time interval between delivery attempts is doubled after each attempt.
destination status cache
The queue manager avoids unnecessary delivery attempts by maintaining a short-term, in-memory list of unreachable destinations.
preemptive message scheduling
The queue manager attempts to minimize the average per-recipient delay while still preserving the correct per-message delays, using a sophisticated preemptive message scheduling.
On an idle
system, the queue manager waits for the arrival of trigger
events, or it waits for a timer to go off. A trigger is a
one-byte message. Depending on the message received, the
queue manager performs one of the following actions (the
message is followed by the symbolic constant used internally
by the software):
D (QMGR_REQ_SCAN_DEFERRED)
Start a deferred queue scan. If a deferred queue scan is already in progress, that scan will be restarted as soon as it finishes.
I (QMGR_REQ_SCAN_INCOMING)
Start an incoming queue scan. If an incoming queue scan is already in progress, that scan will be restarted as soon as it finishes.
A (QMGR_REQ_SCAN_ALL)
Ignore deferred queue file time stamps. The request affects the next deferred queue scan.
F (QMGR_REQ_FLUSH_DEAD)
Purge all information about dead transports and destinations.
W (TRIGGER_REQ_WAKEUP)
Wakeup call, This is used by the master server to instantiate servers that should not go away forever. The action is to start an incoming queue scan.
The qmgr(8) daemon reads an entire buffer worth of triggers. Multiple identical trigger requests are collapsed into one, and trigger requests are sorted so that A and F precede D and I. Thus, in order to force a deferred queue run, one would request A F D; in order to notify the queue manager of the arrival of new mail one would request I.
RFC 3463
(Enhanced status codes)
RFC 3464 (Delivery status notifications)
The qmgr(8) daemon is not security sensitive. It reads single-character messages from untrusted local users, and thus may be susceptible to denial of service attacks. The qmgr(8) daemon does not talk to the outside world, and it can be run at fixed low privilege in a chrooted environment.
Problems and transactions are logged to the syslog daemon. Corrupted message files are saved to the corrupt queue for further inspection.
Depending on the setting of the notify_classes parameter, the postmaster is notified of bounces and of other trouble.
A single queue manager process has to compete for disk access with multiple front-end processes such as cleanup(8). A sudden burst of inbound mail can negatively impact outbound delivery rates.
Changes to main.cf are not picked up automatically as qmgr(8) is a persistent process. Use the "postfix reload" command after a configuration change.
The text below provides only a parameter summary. See postconf(5) for more details including examples.
In the text below, transport is the first field in a master.cf entry.
Available
before Postfix version 2.5:
allow_min_user (no)
Allow a sender or recipient address to have ‘-’ as the first character.
Available with
Postfix version 2.7 and later:
default_filter_nexthop (empty)
When a content_filter or FILTER request specifies no explicit next-hop destination, use $default_filter_nexthop instead; when that value is empty, use the domain in the recipient address.
qmgr_clog_warn_time (300s)
The minimal delay between warnings that a specific destination is clogging up the Postfix active queue.
qmgr_message_active_limit (20000)
The maximal number of messages in the active queue.
qmgr_message_recipient_limit (20000)
The maximal number of recipients held in memory by the Postfix queue manager, and the maximal size of the short-term, in-memory "dead" destination status cache.
qmgr_message_recipient_minimum (10)
The minimal number of in-memory recipients for any message.
default_recipient_limit (20000)
The default per-transport upper limit on the number of in-memory recipients.
transport_recipient_limit ($default_recipient_limit)
Idem, for delivery via the named message transport.
default_extra_recipient_limit (1000)
The default value for the extra per-transport limit imposed on the number of in-memory recipients.
transport_extra_recipient_limit ($default_extra_recipient_limit)
Idem, for delivery via the named message transport.
Available in
Postfix version 2.4 and later:
default_recipient_refill_limit (100)
The default per-transport limit on the number of recipients refilled at once.
transport_recipient_refill_limit ($default_recipient_refill_limit)
Idem, for delivery via the named message transport.
default_recipient_refill_delay (5s)
The default per-transport maximum delay between recipients refills.
transport_recipient_refill_delay ($default_recipient_refill_delay)
Idem, for delivery via the named message transport.
initial_destination_concurrency 411toppm(1)
The initial per-destination concurrency level for parallel delivery to the same destination.
default_destination_concurrency_limit (20)
The default maximal number of parallel deliveries to the same destination.
transport_destination_concurrency_limit
($default_destination_concurrency_limit)
Idem, for delivery via the named message transport.
Available in
Postfix version 2.5 and later:
transport_initial_destination_concurrency
($initial_destination_concurrency)
Initial concurrency for delivery via the named message transport.
default_destination_concurrency_failed_cohort_limit 411toppm(1)
How many pseudo-cohorts must suffer connection or handshake failure before a specific destination is considered unavailable (and further delivery is suspended).
transport_destination_concurrency_failed_cohort_limit
($default_destination_concurrency_failed_cohort_limit)
Idem, for delivery via the named message transport.
default_destination_concurrency_negative_feedback 411toppm(1)
The per-destination amount of delivery concurrency negative feedback, after a delivery completes with a connection or handshake failure.
transport_destination_concurrency_negative_feedback
($default_destination_concurrency_negative_feedback)
Idem, for delivery via the named message transport.
default_destination_concurrency_positive_feedback 411toppm(1)
The per-destination amount of delivery concurrency positive feedback, after a delivery completes without connection or handshake failure.
transport_destination_concurrency_positive_feedback
($default_destination_concurrency_positive_feedback)
Idem, for delivery via the named message transport.
destination_concurrency_feedback_debug (no)
Make the queue manager’s feedback algorithm verbose for performance analysis purposes.
default_destination_recipient_limit (50)
The default maximal number of recipients per message delivery.
transport_destination_recipient_limit
($default_destination_recipient_limit)
Idem, for delivery via the named message transport.
default_delivery_slot_cost 411toppm(1)
How often the Postfix queue manager’s scheduler is allowed to preempt delivery of one message with another.
transport_delivery_slot_cost ($default_delivery_slot_cost)
Idem, for delivery via the named message transport.
default_minimum_delivery_slots 411toppm(1)
How many recipients a message must have in order to invoke the Postfix queue manager’s scheduling algorithm at all.
transport_minimum_delivery_slots ($default_minimum_delivery_slots)
Idem, for delivery via the named message transport.
default_delivery_slot_discount (50)
The default value for transport-specific _delivery_slot_discount settings.
transport_delivery_slot_discount ($default_delivery_slot_discount)
Idem, for delivery via the named message transport.
default_delivery_slot_loan 411toppm(1)
The default value for transport-specific _delivery_slot_loan settings.
transport_delivery_slot_loan ($default_delivery_slot_loan)
Idem, for delivery via the named message transport.
minimal_backoff_time (300s)
The minimal time between attempts to deliver a deferred message; prior to Postfix 2.4 the default value was 1000s.
maximal_backoff_time (4000s)
The maximal time between attempts to deliver a deferred message.
maximal_queue_lifetime (5d)
Consider a message as undeliverable, when delivery fails with a temporary error, and the time in the queue has reached the maximal_queue_lifetime limit.
queue_run_delay (300s)
The time between deferred queue scans by the queue manager; prior to Postfix 2.4 the default value was 1000s.
transport_retry_time (60s)
The time between attempts by the Postfix queue manager to contact a malfunctioning message delivery transport.
Available in
Postfix version 2.1 and later:
bounce_queue_lifetime (5d)
Consider a bounce message as undeliverable, when delivery fails with a temporary error, and the time in the queue has reached the bounce_queue_lifetime limit.
Available in
Postfix version 2.5 and later:
default_destination_rate_delay (0s)
The default amount of delay that is inserted between individual deliveries to the same destination; the resulting behavior depends on the value of the corresponding per-destination recipient limit.
transport_destination_rate_delay $default_destination_rate_delay
Idem, for delivery via the named message transport.
qmgr_daemon_timeout (1000s)
How much time a Postfix queue manager process may take to handle a request before it is terminated by a built-in watchdog timer.
qmgr_ipc_timeout (60s)
The time limit for the queue manager to send or receive information over an internal communication channel.
config_directory (see ’postconf -d’ output)
The default location of the Postfix main.cf and master.cf configuration files.
defer_transports (empty)
The names of message delivery transports that should not deliver mail unless someone issues "sendmail -q" or equivalent.
delay_logging_resolution_limit 411toppm(1)
The maximal number of digits after the decimal point when logging sub-second delay values.
helpful_warnings (yes)
Log warnings about problematic configuration settings, and provide helpful suggestions.
process_id (read-only)
The process ID of a Postfix command or daemon process.
process_name (read-only)
The process name of a Postfix command or daemon process.
queue_directory (see ’postconf -d’ output)
The location of the Postfix top-level queue directory.
syslog_facility (mail)
The syslog facility of Postfix logging.
syslog_name (see ’postconf -d’ output)
The mail system name that is prepended to the process name in syslog records, so that "smtpd" becomes, for example, "postfix/smtpd".
/var/spool/postfix/incoming,
incoming queue
/var/spool/postfix/active, active queue
/var/spool/postfix/deferred, deferred queue
/var/spool/postfix/bounce, non-delivery status
/var/spool/postfix/defer, non-delivery status
/var/spool/postfix/trace, delivery status
trivial-rewrite(8),
address routing
bounce(5), delivery status reports
postconf(1), configuration parameters
master(5), generic daemon options
master(5), process manager
syslogd(8), system logging
Use
"postconf readme_directory" or
"postconf html_directory" to locate this
information.
SCHEDULER_README, scheduling algorithm
QSHAPE_README, Postfix queue analysis
The Secure Mailer license must be distributed with this software.
Wietse Venema
IBM T.J. Watson Research
P.O. Box 704
Yorktown Heights, NY 10598, USA
Preemptive
scheduler enhancements:
Patrik Rak
Modra 6
155 00, Prague, Czech Republic
Personal Opportunity - Free software gives you access to billions of dollars of software at no cost. Use this software for your business, personal use or to develop a profitable skill. Access to source code provides access to a level of capabilities/information that companies protect though copyrights. Open source is a core component of the Internet and it is available to you. Leverage the billions of dollars in resources and capabilities to build a career, establish a business or change the world. The potential is endless for those who understand the opportunity.
Business Opportunity - Goldman Sachs, IBM and countless large corporations are leveraging open source to reduce costs, develop products and increase their bottom lines. Learn what these companies know about open source and how open source can give you the advantage.
Free Software provides computer programs and capabilities at no cost but more importantly, it provides the freedom to run, edit, contribute to, and share the software. The importance of free software is a matter of access, not price. Software at no cost is a benefit but ownership rights to the software and source code is far more significant.
Free Office Software - The Libre Office suite provides top desktop productivity tools for free. This includes, a word processor, spreadsheet, presentation engine, drawing and flowcharting, database and math applications. Libre Office is available for Linux or Windows.
The Free Books Library is a collection of thousands of the most popular public domain books in an online readable format. The collection includes great classical literature and more recent works where the U.S. copyright has expired. These books are yours to read and use without restrictions.
Source Code - Want to change a program or know how it works? Open Source provides the source code for its programs so that anyone can use, modify or learn how to write those programs themselves. Visit the GNU source code repositories to download the source.
Study at Harvard, Stanford or MIT - Open edX provides free online courses from Harvard, MIT, Columbia, UC Berkeley and other top Universities. Hundreds of courses for almost all major subjects and course levels. Open edx also offers some paid courses and selected certifications.
Linux Manual Pages - A man or manual page is a form of software documentation found on Linux/Unix operating systems. Topics covered include computer programs (including library and system calls), formal standards and conventions, and even abstract concepts.