mimedefang-multiplexor (8) - Linux Man Pages
mimedefang-multiplexor: Process pool controller for mail filters.
mimedefang-multiplexor - Process pool controller for mail filters.
DESCRIPTIONmimedefang-multiplexor manages a pool of Perl processes for scanning e-mail. It is designed to work in conjunction with mimedefang(8) and mimedefang.pl(8).
mimedefang-multiplexor opens a UNIX-domain socket and listens for requests for work from mimedefang. As requests come in, mimedefang-multiplexor creates Perl processes as needed to scan mail. The Perl processes are not killed when scanning is completed, but continue to run in a loop. Perl processes are re-used for subsequent e-mail messages. This eliminates the large overhead of starting a new Perl process for each incoming message.
To avoid memory leaks, the Perl processes are killed after they have handled some number of scans.
- -U user
Runs the multiplexor as user rather than root. This
option is mandatory, and must match the -U option supplied
- -m minSlaves
The minimum number of Perl processes to keep running at all times. The
default is zero.
- -x maxSlaves
The maximum number of Perl processes to run simultaneously. If a
request comes in and all processes are busy, a temporary failure
is signalled to the SMTP peer. The default is 2.
- -r maxRequests
The maximum number of requests a given process handles before it is killed
and a replacement started. The default is 500.
- -i idleTime
The idle time in seconds after which to kill of excess Perl processes.
That is, if the process is idle for longer than this time, and there
are more than minSlaves running, the process is killed. Note that
this is implemented as a timer which ticks every idleTime seconds;
therefore, processes may be idle for up to twice this time before they
are killed. The default for idleTime is 300 seconds.
- -b busyTime
The longest a Perl process is allowed to spend scanning an e-mail before
it is declared hung up and killed. The default is 120 seconds.
This option specifies that the multiplexor should accept and process
"status updates" from busy slaves. Note that this consumes one extra
file descriptor per slave, plus a small amount of CPU time per status
- -c cmdTime
The timeout for communication between
mimedefang-multiplexor and mimedefang, or between
mimedefang-multiplexor and a Perl scanning process. The
default is 10 seconds. This timeout should be kept quite short.
- -w waitTime
When mimedefang-multiplexor starts the initial slaves, or needs
to bring the number of running slaves up to the number defined by the
-m option, it does not start all the slaves at once, because this
could overload your server. Instead, it starts one slave every
waitTime seconds. The default value for waitTime is 3.
- -W waitTime
If you use this option, mimedefang-multiplexor will never
activate a slave until waitTime seconds have elapsed since the
last slave activation. This could result in mail being tempfailed
if slave activations do not keep pace with incoming mail. However,
it may be preferable to tempfail mail rather than allow the load
on your server to spike up too quickly. The default value for this
option is 0, meaning that mimedefang-multiplexor will start
slaves as quickly as necessary to keep up with incoming mail.
- -z spooldir
Set the spool directory to spooldir. If this option is omitted,
the spool directory defaults to /var/spool/MIMEDefang.
- -s pathName
The UNIX-domain socket on which
mimedefang-multiplexor listens for requests. This should be
specified as an absolute pathname. If this option is not supplied,
it defaults to mimedefang-multiplexor.sock under the spool directory.
- -a socket
A socket for listening for requests. This is similar to the
-s socket, except that a restricted set of requests
are processed. On this socket, the multiplexor will only process
requests asking for status; it will not accept any commands to do scanning
or that would consume a slave. See the SOCKET SPECIFICATION section
for the format of socket.
- -p fileName
Causes mimedefang-multiplexor to write its process-ID (after
becoming a daemon) to the specified file.
- -f filter_path
Normally, mimedefang-multiplexor executes a Perl filter script called
mimedefang.pl to scan the e-mail. However, you can have it
execute any program you like by specifying the full path to the
program with the -f option. This program must obey the
protocol documented in mimedefang-protocol(7); see that
manual page for details.
Note that the -f option does not specify the "filter" to use with mimedefang.pl; instead, it specifies the program for mimedefang-multiplexor to execute. You almost certainly should not use this option unless you wish to replace mimedefang.pl with your own program.
- -F rules_path
Specifies the path to the filter rules. By default,
/etc/mail/mimedefang-filter is used. If you use the -F
option, its value is passed to the underlying Perl filter program
Log certain events, including the output of the Perl slaves'
standard-error, using syslog. Normally, the multiplexor does not log
Write debugging information about event-handling code in
/var/log/mimedefang-event-debug.log. This is only of use to people
- -R kbytes
Limits the resident-set size of the slave filter processes to
kbytes kilobytes. This limit is not supported on all operating
systems; it is known to work on Linux.
- -M kbytes
Limits the total memory space of slave filter processes to
kbytes kilobytes. This limit is supported on all operating
systems which support the setrlimit(2) system call. This should
include most modern UNIX systems.
We recommend that you monitor your slave filter processes and get a feel for how much memory they use. You should then limit the memory to two or three times the worst-case that you have observed. This can help mitigate denial-of-service attacks which use complicated MIME messages to force mimedefang.pl to consume lots of memory.
Print usage information and exit.
- -t filename
Log statistical information to filename. See the section
STATISTICS for more information.
Log statistical information using syslog(2). You may use
any -t and -T together, in which case statistical
information is logged in a file and using syslog.
Flush the statistics file after every write. Normally,
mimedefang-multiplexor does not flush the file; this is the best choice
for minimizing disk I/O on a busy mail server. However, if you wish to
watch statistics entries in real-time, you should enable flushing.
Do not fork into the background and become a daemon. Instead, stay
in the foreground. Useful mainly for debugging or if you have a
supervisory process managing mimedefang-multiplexor.
- -q queue_size
Normally, if all slaves are busy and mimedefang-multiplexor receives
another request, it fails it with the error "No free slaves." However,
if you use the -q option, then up to queue_size requests
will be queued. As soon as a slave becomes free, the queued requests
will be handed off in FIFO order. If the queue is full and another request
comes in, then the request is failed with "No free slaves".
- -Q queue_timeout
Queued requests should not stay on the queue indefinitely. If a queued
request cannot be processed within queue_timeout (default 30) seconds
of being placed on the queue, it is failed with a "Queued request timed out"
message. See the section "QUEUEING REQUESTS" for more discussion.
- -O sock
Listen on a notification socket for connections from listeners.
mimedefang-multiplexor can inform external programs of state
changes by sending messages over a notification socket. The external
programs connect to this socket and then listen for notifications. See
the section SOCKET SPECIFICATION for the format of sock.
See the mimedefang-notify(7) man page for details of the notification protocol.
- -N map_sock
Listen on a map socket for Sendmail SOCKETMAP connections.
As of Sendmail 8.13, you can define a Sendmail map type that talks
to a daemon over a socket. mimedefang-multiplexor implements
that protocol; consult the mimedefang-filter(5) man page
for detils (see the SOCKET MAPS section).
See the section SOCKET SPECIFICATION for the format of map_sock.
- -I backlog
When mimedefang-multiplexor creates a listening socket, it
calculates the "backlog" argument to listen(2) based on the
maximum number of slaves. However, you can explicitly set this
backlog with the -I option. Setting the backlog to a high
value (around 30-50) may help on a very busy server. If you see mail
log messages saying "MXCommand: socket: Connection refused" during
busy periods, then that's an indication you need a higher listen
- -L interval
Log the slave status every interval seconds. This logs a line using
syslog; the line looks like this:
- Slave status: Stopped=s Idle=i Busy=b Killed=k Queued=q Msgs=m Activations=a
Here, "Stopped" is the number of non-running slaves, "Idle" is the number of idle slaves, "Busy" is the number of busy slaves, "Killed" is the number of killed slaves yet to be reaped, "Queued" is the number of queued requests, "Msgs" is the total number of messages processed since the multiplexor began running, and "Activations" is the number of times a Perl process has been started since the multiplexor began running.
If you supply an interval of 0 (which is the default), no periodic status logging is performed. If you supply an interval of less than 5 seconds, it is silently reset to 5 seconds.
- -S facility
Specifies the syslog facility for log messages. The default is
mail. See openlog(3) for a list of valid facilities.
You can use either the short name ("mail") or long name ("LOG_MAIL") for
the facility name.
Specifies that the multiplexor should create an embedded Perl interpreter.
This can improve performance dramatically. But see the section
"EMBEDDING PERL" for more information.
- -X n
Specifies that the multiplexor should initiate a "tick" request every
n seconds. This causes your filter_tick function (if defined)
to be called. Note that you have no control over which slave executes
filter_tick. If all slaves are busy when a tick occurs,
that tick request is skipped and a warning message is logged.
- -P n
Specifies that the multiplexor should run n tick requests in
parallel. Each tick is run as often as specified with the
-X argument. (If you omit the -P option, then the
multiplexor behaves as if -P 1 had been specified.)
If you run parallel ticks, each tick is assigned an integer identifying its "type". The type ranges from 0 to n-1. While there may be as many as n tick requests running at a time, only one tick of each type will be active at any time.
- -Y label
Sets the tag used in the multiplexor's syslog messages to
label instead of mimedefang-multiplexor.
Normally, mimedefang-multiplexor uses a umask of 027 when
creating listening sockets. If you would like the sockets to be
readable and writeable by the group as well as the owner,
supply the -G option. This causes the umask to be 007
whenever UNIX-domain sockets are created.
- -y n
Limits the maximum number of concurrent recipok checks
to n on a per-domain basis. The value of n can range
from 0 (in which case no limit is applied) to maxSlaves, where
maxSlaves is the argument to the -x option. If n is
outside that range, it is ignored (and no limit is applied.)
The recipok command ultimately invokes the filter_recipient function in your filter. If you are doing recipient verification against servers that may be slow or unreliable, you can use the -y option to limit the number of concurrent recipient verifications per domain. That way, if one domain's server becomes very slow, it won't consume all available slaves for recipient verification. Instead, its RCPT commands will be tempfailed and there will be slaves available to handle RCPT commands for other domains.
The -a, -N and -O options take a socket as an argument. This socket can be specified as:
A UNIX-domain socket
A TCP socket bound to port portnum, but which accepts connections
only from the IPv4 loopback address (127.0.0.1).
A TCP socket bound to port portnum which will accept connections
from any address. Use inet_any with caution!
A TCP socket bound to port portnum listening on the IPv6 loopback
A TCP socket bound to port portnum listening on the IPv6 wildcard
Normally, if all slaves are busy, any additional requests are failed immediately. However, the -q and -Q options allow you to queue requests for a short amount of time. This facility is intended to gracefully handle a temporary overload; most of the time, your queue should be empty.
Because mimedefang checks the number of free slaves when a connection is opened and fails the connection if there are no free slaves, the intent of the queue is to allow SMTP transactions that are already underway to continue if there is a slight overload. Any new connections will be failed if all slaves are busy, but existing connections are allowed to continue. Queuing requests may improve throughput on extremely busy servers.
Note that if you supply the -q option to mimedefang, then even new connections are allowed to queue. This may improve throughput by keeping the slave utilization higher.
The -R option to mimedefang can be used to reserve a specified number of slaves for connections from the loopback address. Using the -R option has the side-effect of permitting new connections from the loopback address to queue.
Normally, when mimedefang-multiplexor activates a slave, it forks and execs mimedefang.pl. However, if the multiplexor was compiled with embedded Perl support, and you supply the -E command-line option, the multiplexor works like this:
It creates an embedded Perl interpreter, and sources mimedefang.pl
with a special command-line argument telling it to read the filter, but
not to enter the main loop.
Each time a slave is activated, the multiplexor calls fork() and runs the
mimedefang.pl main loop. This invokes filter_initialize
and then runs the main loop.
On some platforms (for example, Red Hat Linux 7.3 with Perl 5.6.1), it is not safe to destroy and recreate a Perl interpreter without causing a memory leak. On those platforms, if you attempt to reread the filter file (by sending the multiplexor a HUP signal or reread command), the filter will not be re-read, and a message will be logged to syslog. On those platforms, you must kill and restart MIMEDefang if you change the filter file.
On most platforms, however, a filter reread is accomplished by destroying and re-creating the embedded interpreter, re-sourcing mimedefang.pl and killing slaves as soon as they are idle.
STATISTICSWith the -t option, mimedefang-multiplexor logs certain events to a file. This file can be post-processed to gather statistics about the multiplexor. You can use it to tune the number of slaves you run, adjust timeouts, and so on.
Each line of the file looks like this:
YYYY/MM/DD:HH:MM:SS timestamp event key=val key=val...
Here, YYYY/MM/DD:HH:MM:SS is the local time of day. Timestamp is the number of seconds since January 1, 1970. Event is the name of an event. The valid events are:
A slave process has been started.
A slave process has been killed.
A dead slave process has been reaped. It is possible to have a ReapSlave
event without a previous KillSlave event if the slave process terminated
A slave process has begun filtering an e-mail message.
A slave process has finished filtering an e-mail message.
The possible keys in the key=value pairs are:
The slave involved in the event. Every slave is identified by a small
The total number of running slaves immediately after the event happened.
The number of busy slaves (slaves which are processing an e-mail message)
immediately after the event happened.
The reason for a StartSlave or KillSlave event. (Present only for these
The number of e-mails processed by the slave. Present only for an
If you send the mimedefang-multiplexor process a SIGHUP signal (kill -1 pid), it closes and reopens the statistics file. This is useful during log file rotation.
If you send the mimedefang-multiplexor process a SIGINT signal (kill -INT pid), it terminates all active-but-idle slaves. Also, any active-and-busy slaves terminate as soon as they finish filtering the current message. This is useful to force a reread of the filter rules file without stopping and restarting Sendmail.
If you send the mimedefang-multiplexor process a SIGTERM signal (kill pid), it terminates all slaves and exits immediately.