url http://mmonit.com/monit/documentation/monit.html
Version 5.12
NAME
SYNOPSIS
DESCRIPTION
WHAT TO MONITOR?
GENERAL OPERATION
Options
Arguments
THE MONIT CONTROL FILE
LOGGING
DAEMON MODE
INIT SUPPORT
INCLUDE FILES
MONIT HTTPD
Authentication
Client certificates
Host and network allow list
Basic Authentication
Cleartext user and password
PAM
htpasswd file
Read-only users
ALERT MESSAGES
Setting an alert recipient
Setting an event filter
Setting an error reminder
Disabling alerts for some service
Message format
Setting a mail server for alert delivery
Event queue
SERVICE METHODS
SERVICE POLL TIME
SERVICE GROUPS
SERVICE MONITORING MODE
SERVICE TIMEOUT
SERVICE DEPENDENCIES
SERVICE TESTS
GENERAL SYNTAX
ACTION
FAILURE TOLERANCE
EXISTENCE TESTING
RESOURCE TESTING
FILE CHECKSUM TESTING
TIMESTAMP TESTING
FILE SIZE TESTING
FILE CONTENT TESTING
FILESYSTEM FLAGS TESTING
SPACE TESTING
INODE TESTING
PERMISSION TESTING
UID TESTING
GID TESTING
PID TESTING
PPID TESTING
PROCESS UPTIME TESTING
PROGRAM STATUS TESTING
NETWORK LINK STATUS TEST
NETWORK LINK CAPACITY TEST
NETWORK SATURATION TEST
NETWORK BANDWIDTH TEST
NETWORK PACKETS TEST
NETWORK PING TEST
CONNECTION TESTING
Specific protocol test options
GENERIC (SEND/EXPECT)
HTTP
APACHE-STATUS
SIP
RADIUS
WEBSOCKET
CONFIGURATION EXAMPLES
FILES
ENVIRONMENT
SIGNALS
NOTES
COPYRIGHT
SEE ALSO
NAME
Monit - utility for monitoring services on a Unix system
SYNOPSIS
monit [options] {arguments}
DESCRIPTION
Monit is a utility for managing and monitoring processes, programs, files, directories and filesystems on a Unix system. Monit conducts automatic maintenance and repair and can execute meaningful causal actions in error situations. E.g. Monit can start a process if it does not run, restart a process if it does not respond and stop a process if it uses too much resources. You can use Monit to monitor files, directories and filesystems for changes, such as timestamps changes, checksum changes or size changes.
Monit is controlled via an easy to configure control file based on a free-format, token-oriented syntax. Monit logs to syslog or to its own log file and notifies you about error conditions via customizable alert messages. Monit can perform various TCP/IP network checks, protocol checks and can utilize SSL for such checks. Monit provides a http(s) interface and you may use a browser to access the Monit program.
WHAT TO MONITOR?
You can use Monit to monitor daemon processes or similar programs running on localhost. Monit is particularly useful for monitoring daemon processes, such as those started at system boot time. For instance sendmail, sshd, apache and mysql. In contrast to many other monitoring systems, Monit can act if an error situation should occur, e.g.; if sendmail is not running, monit can start sendmail again automatically or if apache is using too many resources (e.g. if a DoS attack is in progress) Monit can stop or restart apache and send you an alert message. Monit can also monitor process characteristics, such as how much memory or cpu cycles a process is using.
You can also use Monit to monitor files, directories and filesystems on localhost. Monit can monitor these items for changes, such as timestamps changes, checksum changes or size changes. This is also useful for security reasons - you can monitor the md5 or sha1 checksum of files that should not change and get an alert or perform an action if they should change.
Monit can monitor network connections to various servers, either on localhost or on remote hosts. TCP, UDP and Unix Domain Sockets are supported. Network test can be performed on a protocol level; Monit has built-in tests for the main Internet protocols, such as HTTP, SMTP etc. Even if a protocol is not supported you can still test the server because you can configure Monit to send any data and test the response from the server.
Monit can be used to test programs or scripts at certain times, much like cron, but in addition, you can test the exit value of a program and perform an action or send an alert if the exit value indicates an error. This means that you can use Monit to perform any type of check you can write a script for.
Finally, Monit can be used to monitor general system resources on localhost such as overall CPU usage, Memory and System Load.
GENERAL OPERATION
The behavior of Monit is controlled by command-line options and a run control file, monitrc, the syntax of which we describe in a later section. Command-line options override .monitrc declarations.
The default location for monitrc is ~/.monitrc. If this file does not exist, Monit will try /etc/monitrc and a few other places. See FILES for details. You can also specify the control file directly by using the -c command-line switch to monit. For instance,
$ monit -c /var/monit/monitrc
Before Monit is started the first time, you can test the control file for syntax errors:
$ monit -t
$ Control file syntax OK
If there was an error, Monit will print an error message to the console, including the line number in the control file from where the error was found.
Once you have a working Monit control file, simply start Monit from the console, like so:
$ monit
You can change some configuration directives via command-line switches, but for simplicity it is recommended that you put these in the control file.
Monit will detach from the terminal and run as a background process, i.e. as a daemon process. As a daemon, Monit runs in cycles; It monitor services, then goes to sleep for a configured period, then wakes up and start monitoring again in an endless loop.
Options
The following options are recognized by Monit. However, it is recommended that you set options (when applicable) directly in the .monitrc control file.
-c file Use this control file
-d n Run Monit as a daemon once per n seconds. Or use “set daemon” in monitrc.
-g name Set group name for start, stop, restart, monitor and unmonitor action.
-l logfile Print log information to this file. Or use “set logfile” in monitrc.
-p pidfile Use this lock file in daemon mode. Or use “set pidfile” in monitrc.
-s statefile Write state information to this file. Or use “set statefile” in monitrc.
-I Do not run in background (needed for run from init)
-i Print Monit's unique ID
-r Reset Monit's unique ID. Use with caution
-t Run syntax check for the control file
-v Verbose mode, work noisy (diagnostic output)
-vv Very verbose mode, same as -v plus log stack-trace on error
-H [filename] Print MD5 and SHA1 hashes of the file or of stdin if the filename is omitted; Monit will exit afterwards
-V Print version number and patch level
-h Print a help text
Arguments
Once you have Monit running as a daemon process, you can call Monit with one of the following arguments. Monit will then connect to the Monit daemon (on TCP port 127.0.0.1:2812 by default) and ask the Monit daemon to perform the requested action. In other words; calling monit without arguments starts the Monit daemon, and calling monit with arguments enables you to communicate with the Monit daemon process.
start all
Start all services listed in the control file and enable monitoring for them. If the group option is set (-g), only start and enable monitoring of services in the named group (“all” is not required in this case).
start name
Start the named service and enable monitoring for it. The name is a service entry name from the monitrc file.
stop all
Stop all services listed in the control file and disable their monitoring. If the group option is set, only stop and disable monitoring of the services in the named group (all” is not required in this case).
stop name
Stop the named service and disable its monitoring. The name is a service entry name from the monitrc file.
restart all
Stop and start all services. If the group option is set, only restart the services in the named group (“all” is not required in this case).
restart name
Restart the named service. The name is a service entry name from the monitrc file.
monitor all
Enable monitoring of all services listed in the control file. If the group option is set, only start monitoring of services in the named group (“all” is not required in this case).
monitor name
Enable monitoring of the named service. The name is a service entry name from the monitrc file. Monit will also enable monitoring of all services this service depends on.
unmonitor all
Disable monitoring of all services listed in the control file. If the group option is set, only disable monitoring of services in the named group (“all” is not required in this case).
unmonitor name
Disable monitoring of the named service. The name is a service entry name from the monitrc file. Monit will also disable monitoring of all services that depends on this service.
status
Print status information of each service.
summary
Print a short status summary.
reload
Reinitialize a running Monit daemon, the daemon will reread its configuration, close and reopen log files.
quit
Kill the Monit daemon process
validate
Check all services listed in the control file. This action is also the default behavior when Monit runs in daemon mode.
procmatch regex
Allows for easy testing of pattern for process match check. The command takes regular expression as an argument and displays all running processes matching the pattern.
THE MONIT CONTROL FILE
Monit is configured and controlled via a control file called monitrc. The default location for this file is ~/.monitrc. If this file does not exist, Monit will try /etc/monitrc, then @sysconfdir@/monitrc and finally ./monitrc. If you build Monit from source, the value of @sysconfdir@ can be given at configure time as ./configure –sysconfdir. For instance, using ./configure –sysconfdir /var/monit/etc will make Monit search for monitrc in /var/monit/etc
To protect the security of your control file and passwords the control file must have read-write permissions no more than 0700 (u=xrw,g=,o=); Monit will complain and exit otherwise.
When there is a conflict between the command-line arguments and the arguments in this file, the command-line arguments takes precedence.
Monit uses its own Domain Specific Language (DSL); The control file consists of a series of service entries and global option statements.
Comments begin with a '#' and extend through the end of the line. Otherwise the file consists of a series of service entries or global option statements in a free-format, token-oriented syntax.
You can use noise keywords like 'if', 'and', 'with(in)', 'has', 'us(ing|e)', 'on(ly)', 'then', 'for', 'of' anywhere in an entry to make it resemble English. They're ignored, but can make entries much easier to read at a glance. Keywords are case insensitive.
There are three kinds of tokens: grammar, numbers (i.e. decimal digit sequences) and strings. Strings can be either quoted or unquoted. A quoted string is bounded by double quotes and may contain whitespace (and quoted digits are treated as a string). An unquoted string is any whitespace-delimited token, containing characters and/or numbers.
On a semantic level, the control file consists of three types of entries:
Global set-statements
A global set-statement starts with the keyword set and the item to configure.
Global include-statement
The include statement consists of the keyword include and a glob string. This statement is used to include configure directives from separate files.
One or more service entry statements.
Each service entry consists of the keywords check, followed by the service type. Each entry requires a unique descriptive name, which may be freely chosen. This name is used by Monit to refer to the service internally and in all interactions with the user.
Currently, nine types of check statements are supported:
is an alternative to using PID files and uses process name pattern matching to find the process to monitor. The first match is used so this form of check is most useful if the process name is unique. Pid-file should be used where possible as it defines expected pid exactly (pattern matching won't be useful for processes which start a child process using fork/clone as the child will match the same pattern temporarily). You can test if a process match a pattern from the command-line using monit procmatch “regex-pattern”. This will lists all processes matching or not, the regex-pattern.
CHECK FILE PATH
is the absolute path to the file. If the file does not exist, Monit will call the entry's start method if defined, if does not point to a regular file type (for instance a directory), Monit will disable monitoring of this entry. If Monit runs in passive mode or the start methods is not defined, Monit will just send an alert on error.
CHECK FIFO PATH
is the absolute path to the fifo. If the fifo does not exist, Monit will call the entry's start method if defined, if does not point to a fifo type (for instance a directory), Monit will disable monitoring of this entry. If Monit runs in passive mode or the start methods is not defined, Monit will just send an alert on error.
CHECK FILESYSTEM PATH
is the path to the device/disk, mount point, file or a directory which is part of a filesystem. It is recommended to use a block special file directly (for example /dev/hda1 on Linux or /dev/dsk/c0t0d0s1 on Solaris, etc.) If you use a mount point (for example /data), note if the filesystem is unmounted the test will still be true because the mount point exist.
If the filesystem becomes unavailable, Monit will call the entry's start method if defined. if does not point to a filesystem, Monit will disable monitoring of this entry. If Monit runs in passive mode or the start methods is not defined, Monit will just send an alert on error.
CHECK DIRECTORY PATH
is the absolute path to the directory. If the directory does not exist, Monit will call the entry's start method if defined. If does not point to a directory, monit will disable monitoring of this entry. If Monit runs in passive mode or the start methods is not defined, Monit will just send an alert on error.
CHECK HOST ADDRESS
The host address can be specified as a hostname string or as an IP-address string on a dotted decimal format. Such as, tildeslash.com or “64.87.72.95”.
CHECK SYSTEM
The unique name is usually the local host name, but any descriptive name can be used. If you use the variable $HOST as the name, it will expand to the hostname. This check allows one to monitor general system resources such as CPU usage, total memory usage or load average. The unique name is used as the system hostname in mail alerts and as the initial name of the host entry in M/Monit.
CHECK PROGRAM PATH [TIMEOUT SECONDS]
is the absolute path to the executable program or script. The status test allows one to check the program's exit status. If the program does not finish executing within seconds, Monit will terminate it. The default program timeout is 300 seconds (5 minutes). The output of the program is recorded and made available in the User Interface and in alerts (up to 1kB).
CHECK NETWORK
| INTERFACE >LOGGING
Monit will log status and error messages to a log file. Use the set logfile statement in the monitrc control file. To setup Monit to log to its own logfile, use e.g. set logfile /var/log/monit.log. If syslog is given as a value for the -l command-line switch (or the keyword set logfile syslog is found in the control file) Monit will use the syslog system daemon to log messages with a priority assigned to each message based on the context. To turn off logging, simply do not set the logfile in the control file (and of course, do not use the -l switch)
The format for logfile is:
[date] priority : message
for example:
[CET Jan 5 18:49:29] info : 'mymachine' Monit started
DAEMON MODE
Use
set daemon n (where n is a number in seconds)
to specify Monit's poll cycle length and run Monit in daemon mode. You must specify a numeric argument which is a polling interval in seconds. In daemon mode, Monit detaches from the console, puts itself in the background and runs continuously, monitoring each specified service and then goes to sleep for the given poll interval, wakes up and start monitoring again in an endless cycle.
Alternatively, you can use the -d command line switch to set the poll interval, but it is strongly recommended to set the poll interval in your ~/.monitrc file, by using set daemon.
Monit will then always start in daemon mode. If you do not use this statement and do not start monit with the -d option, Monit will just run through the service checks once and then exit. This might be useful in some situations, but Monit is primarily designed to run as a daemon process.
Calling monit with a Monit daemon running in the background sends a wake-up signal to the daemon, forcing it to check services immediately. Calling monit with the quit argument will kill a running Monit daemon process instead of waking it up.
INIT SUPPORT
The set init statement prevents Monit from transforming itself into a daemon process. Instead Monit will run as a foreground process. (You should still use set daemon to specify the poll cycle).
This is required to run Monit from init. Using init to start Monit is probably the best way to run Monit if you want to be certain that you always have a running Monit daemon on your system. Another option is to run Monit from crontab. In any case, you should make sure that the control file does not have any syntax errors before you start Monit from init or crontab (use monit -t to check).
To setup Monit to run from init, you can either use the set init statement in Monit's control file or use the -I option from the command line. Here is what you must add to /etc/inittab:
mo:2345:respawn:/usr/local/bin/monit -Ic /etc/monitrc
After you have modified init's configuration file, you can run the following command to re-examine /etc/inittab and start Monit:
telinit q
For systems without telinit:
kill -1 1
If Monit is used to monitor services that are also started at boot time (e.g. services started via SYSV init rc scripts or via inittab) then, in some cases, a race condition could occur. That is; if a service is slow to start, Monit can assume that the service is not running and possibly try to start it and raise an alert, while, in fact the service is already about to start or already in its startup sequence. Please see the FAQ for a solution to this problem. The short version is to start Monit on a higher run-level after system processes.
INCLUDE FILES
The Monit control file, monitrc, can include additional configuration files. This feature helps one to organize configuration into separate files instead of having everything in one file, if you like this kind of thing. Include statements can be placed at virtually any place in monitrc though the convention is at the bottom. The syntax is the following:
include globstring
The globstring is any kind of string as defined in glob(7). Thus, you can refer to a single file or you can load several files at once. If you want to use whitespace in your string the globstring needs to be embedded into quotes (') or double quotes (“). If the globstring matches a directory instead of a file, it is silently ignored.
Any include statements in an included file are parsed as in the main control file.
If the globstring matches several results, the files are included in a non sorted manner. If you need to rely on a certain order, you should avoid wild-card globbing and instead specify the full path of files included.
An example,
include /etc/monit.d/*.cfg
This will load any file matching the globstring. That is, all files in /etc/monit.d that ends with the prefix .cfg.
MONIT HTTPD
If specified in the control file, Monit will start with http support. You can then use Monit CLI to start and stop services, disable or enable service monitoring as well as view the status of each service.
If http support is enabled over TCP rather than over a Unix Socket, you can also view Monit's informative dashboard in your web browser.
Note that if HTTP support is disabled, the Monit CLI interface will have reduced functionality, as most CLI commands (such as “monit status”) need to communicate with the Monit background process via the the HTTP interface. We strongly recommend having HTTP support enabled. If security is a concern, bind the HTTP interface to local host only or use Unix Socket so Monit is not accessible from the outside.
Syntax for TCP port:
SET HTTPD PORT [ADDRESS ]
[SSL <ENABLE | DISABLE>]
[PEMFILE <path>]
[CLIENTPEMFILE <path>]
[ALLOWSELFCERTIFICATION]
[SIGNATURE <ENABLE | DISABLE>]
ALLOW <user:password | IP-address | IP-range>+
Example:
set httpd port 2812
allow username:password
You can now use http://localhost:2812/ to access Monit's web interface from a browser, after you have entered username and password as credentials.
Syntax for Unix Socket:
SET HTTPD UNIXSOCKET
ALLOW <user:password>+
Example:
set httpd unixsocket /var/run/monit.sock
allow username:password
Options:
UNIXSOCKET set the path to the Unix Socket Monit should bind to and listen on.
PORT set the port Monit should bind to and listen on. Monit is usually setup on port 2812.
ADDRESS make Monit listen on a specific interface only. For example if you don't want to expose Monit's web interface to the network, bind it to localhost only. Monit will accept connections on any address by default (if ADDRESS option is missing).
For example to limit the web interface to localhost only:
set httpd
port 2812
use address 127.0.0.1
allow username:password
SSL enable TLS for Monit's web interface. The PEMFILE option holds both the server's private key and certificate. This file should be stored in a safe place on the filesystem and should have strict permissions, no more than 0700.
For example:
set httpd
port 2812
ssl enable
pemfile /etc/certs/monit.pem
allow myuser:mypassword
You can now use https://localhost:2812/ to access the Monit web server over a TLS encrypted connection.
OpenSSL FIPS is supported. To enable FIPS mode (provided your OpenSSL library supports it), add this statement to Monit control file:
SET FIPS
CLIENTPEMFILE client certificate based authentication. A connecting client has to provide a certificate known to Monit in order to connect. This file also needs to have all necessary CA certificates. By default self-signed client certificates are not allowed. If you want to use a self signed certificate from a client it has to be allowed explicitly with the ALLOWSELFCERTIFICATION statement.
For example:
set httpd
port 2812
ssl enable
pemfile /etc/certs/monit.pem
clientpemfile /etc/certs/monit-client.pem
SIGNATURE can be used to hide Monit version from the HTTP response header and error pages. For example:
set httpd
port 2812
signature disable
allow myuser:mypassword
Authentication
Access to the Monit web interface is controlled primarily via the ALLOW option which is used to specify authentication and authorize only specific clients to connect.
If the Monit command line interface is being used, at least one cleartext password is necessary (see bellow), otherwise the Monit command line interface will not be able to connect to the Monit web interface.
Clients trying to connect to Monit, but submit a wrong username and/or password are logged with their IP-address.
Client certificates
This authentication method is a strong authentication mechanism and employ HTTPS client certificates to verify the authenticity of a connecting client. Clients must posses a Public Key Certificate known by Monit. The client must connect to Monit over SSL and Monit ask the client to send its certificate. Upon receiving the certificate Monit compares the certificate to certificates located in the CLIENTPEMFILE file. Access is granted if the client certificate is in this file. See CLIENTPEMFILE above for details.
Host and network allow list
Monit maintains an access-control list of hosts and networks allowed to connect. You can add as many hosts as you want to, but only hosts with a valid domain name or its IP address are allowed.
Monit will query a name server to check any hosts trying to connect. If a host (client) is trying to connect, but cannot be found in the access list or cannot be resolved, Monit will shutdown the connection to the client promptly.
Control file example:
set httpd port 2812
allow localhost
allow my.other.work.machine.com
allow 10.1.1.1
allow 192.168.1.0/255.255.255.0
allow 10.0.0.0/8
Clients, not mentioned in the allow list, trying to connect to Monit will be denied access and are logged with their IP-address.
Basic Authentication
Monit supports Basic Authentication as described in RFC 2617.
In short; a server challenge a client (e.g. a Browser) to send authentication information (username and password) and if accepted, the server will allow the client access to the requested document.
The biggest weakness with Basic Authentication is that username and password is sent in clear-text over the network (i.e. base64 encoded). It is therefor recommended that you do not use this authentication method unless you run Monit with ssl support. With ssl, it is safe to use Basic Authentication since all http data, including Basic Authentication headers will be encrypted.
Cleartext user and password
Monit will use Basic Authentication if an allow statement contains a username and a password separated with a single ':' character. Special characters can be used, but for non-alphanumerics the password has to be quoted.
Syntax:
ALLOW :
PAM
PAM is supported on platforms which provide PAM (such as Linux, Mac OS X, FreeBSD, NetBSD).
Syntax:
ALLOW @
where group is the group name allowed to access Monit's web interface. Monit uses a PAM service called monit for PAM authentication, see the PAM manual page for detailed instructions on how to set the PAM service and PAM authentication plugins.
Sample PAM service for Monit on Mac OS X (store as “/etc/pam.d/monit” file):
auth sufficient pam_securityserver.so
auth sufficient pam_unix.so
auth required pam_deny.so
account required pam_permit.so
And monitrc config which only allows group admin authenticated via PAM to access the web interface:
set httpd
port 2812
allow @admin
htpasswd file
Alternatively you can use files in htpasswd format (one user:passwd entry per line), like so: allow [cleartext|crypt|md5] /path [users]. By default cleartext passwords are read. In case the passwords are digested it is necessary to specify the cryptographic method. If you do not want all users in the password file to have access to Monit you can specify only those users that should have access, in the allow statement. Otherwise all users are added.
Example1:
set httpd port 2812
allow hauk:password
allow md5 /etc/httpd/htpasswd john paul ringo george
If you use this method together with a host list, then only clients from the listed hosts will be allowed to connect to the Monit http server and each client will be asked to provide a username and a password.
Example2:
set httpd port 2812
allow localhost
allow 10.1.1.1
allow hauk:"passw@rd"
If you only want to use Basic Authentication, then just provide allow entries with username and password or password files as in example 1 above.
Read-only users
Finally it is possible to define some users as read-only. A read-only user can read the Monit web pages but will not get access to push-buttons and cannot change a service from the web interface.
set httpd port 2812
allow admin:password
allow hauk:password read-only
allow @admins
allow @users read-only
A user is set to read-only by using the read-only keyword after username:password. In the above example the user hauk is defined as a read-only user, while the admin user has all access rights.
ALERT MESSAGES
Monit will raise an alert in the following situations:
o A service does not exist (e.g. process is not running)
o Cannot read service data (e.g. cannot get filesystem usage)
o Execution of a service related script failed (e.g. start failed)
o Invalid service type (e.g. if path points to directory instead of file)
o Custom test script returned error
o Ping test failed
o TCP/UDP connection and/or port test failed
o Resource usage test failed (e.g. cpu usage too high)
o Checksum mismatch or change (e.g. file changed)
o File size test failed (e.g. file too large)
o Timestamp test failed (e.g. file is older then expected)
o Permission test failed (e.g. file mode doesn't match)
o An UID test failed (e.g. file owned by different user)
o A GID test failed (e.g. file owned by different group)
o A process' PID changed out of Monit's control
o A process' PPID changed out of Monit control
o Too many service recovery attempts failed
o A file content test found a match
o Filesystem flags changed
o A service action was performed by administrator
o A network link failed
o A network link capacity changed
o A network link saturation failed
o A network link upload/download rate failed
o Monit was started, stopped or reloaded
To get an alert via e-mail, set the alert target using the global set alert statement (for all services) or the alert statement in the context of a service entry (for a single service).
Setting an alert recipient
If an event occurs, Monit will send an alert. There are two kinds of alert statement: global and local.
Global syntax:
SET ALERT mail-address [[NOT] {event, …}] [REMINDER cycles]
Example:
set alert foo@bar
will send a default email to the address foo@bar whenever any event occurs on any service.
If you want to send alert messages to more email addresses, add a set alert 'email' statement for each address.
It is also possible to use the local alert statement in the context of a service check to enable alert for the given service only:
ALERT mail-address [[NOT] {event, …}] [REMINDER cycles]
Local alert example:
check host myhost with address 1.2.3.4
if failed port 3306 protocol mysql then alert
if failed port 80 protocol http then alert
alert foo@baz # Local service alert
You can combine global and local alert statements. If there is a conflict, the local alert has precedence and overrides the global statement.
Setting an event filter
If you only want an alert message sent for certain events, list them in an {event, …} block, e.g.:
set alert foo@bar only on { timeout, nonexist }
The event list can also be negated to send alerts for all events except those which are listed, by prepending the list with the word not. For example, to receive all alerts except notification about Monit program start and stop:
set alert foo@bar but not on { instance }
Here is a list of all possible event types emitted by Monit. Values from the first column can be used in the event filter list mentioned above:
Event: | Failure state: | Success state:
action | “Action done” | “Action done”
checksum | “Checksum failed” | “Checksum succeeded”
bytein | “Download bytes exceeded” | “Download bytes ok”
byteout | “Upload bytes exceeded” | “Upload bytes ok”
connection | “Connection failed” | “Connection succeeded”
content | “Content failed”, | “Content succeeded”
data | “Data access error” | “Data access succeeded”
exec | “Execution failed” | “Execution succeeded”
fsflags | “Filesystem flags failed” | “Filesystem flags succeeded”
gid | “GID failed” | “GID succeeded”
icmp | “Ping failed” | “Ping succeeded”
instance | “Monit instance changed” | “Monit instance changed not”
invalid | “Invalid type” | “Type succeeded”
link | “Link down” | “Link up”
nonexist | “Does not exist” | “Exists”
packetin | “Download packets exceeded” | “Download packets ok”
packetout | “Upload packets exceeded” | “Upload packets ok”
permission | “Permission failed” | “Permission succeeded”
pid | “PID failed” | “PID succeeded”
ppid | “PPID failed” | “PPID succeeded”
resource | “Resource limit matched” | “Resource limit succeeded”
saturation | “Saturation exceeded” | “Saturation ok”
size | “Size failed” | “Size succeeded”
speed | “Speed failed” | “Speed ok”
status | “Status failed” | “Status succeeded”
timeout | “Timeout” | “Timeout recovery”
timestamp | “Timestamp failed” | “Timestamp succeeded”
uid | “UID failed” | “UID succeeded”
uptime | “Uptime failed” | “Uptime succeeded”
Each alert recipient can have it's own filter, for example:
set alert foo@bar { nonexist, timeout, resource, icmp, connection }
set alert security@bar on { checksum, permission, uid, gid }
set alert admin@bar
Setting an error reminder
Monit by default sends just one notification if a service failed and another when/if it recover. If you want to be notified that the service is still in a failed state, you can use the reminder option in the alert statement:
SET ALERT mail-address [WITH] REMINDER [ON] number [CYCLES]
For example if you want to be notified each tenth cycle if a service remains in a failed state, you can use:
alert foo@bar with reminder on 10 cycles
Likewise if you want to be notified on each failed cycle, you can use:
alert foo@bar with reminder on 1 cycle
Disabling alerts for some service
To suppress alerts for some user and service, add the noalert statement in the context of a service check.
NOALERT mail-address
Example (send all alerts to foo@bar except for service p3):
set alert foo@bar
check process p1 with pidfile /var/run/p1.pid
check process p2 with pidfile /var/run/p2.pid
check process p3 with pidfile /var/run/p3.pid
noalert foo@bar
Message format
The alert message format can be modified by using the set mail-format statement:
SET MAIL-FORMAT {mail-format}
Example:
set mail-format {
from: [email protected]
reply-to: [email protected]
subject: $SERVICE $EVENT at $DATE
message: Monit $ACTION $SERVICE at $DATE on $HOST: $DESCRIPTION.
Yours sincerely,
monit
}
The from: option is the sender's email address. That is, the email address Monit will pretend it is sending alerts from. It does not have to be a real email-address only a proper formatted address.
The reply-to: option can be used to set the reply-to mail header.
The subject: option sets the message subject and must be on only one line.
The message: option sets the mail body. This option should always be the last in a mail-format statement. The mail body can be as long as needed, but must not contain the block-closing '}' character.
You need not use all options, only the option which you want to override. For example to globally change the senders address only:
set mail-format { from: [email protected] }
The subject and body may contain $NAME variables, which are expanded by Monit. Here is a list of variables that can be used when composing an alert message.
$EVENT
A string describing the event that occurred.
$SERVICE
The service name
$DATE
The current time and date (RFC 822 date style).
$HOST
The name of the host Monit is running on
$ACTION
The name of the action which was done by Monit.
$DESCRIPTION
The description of the error condition
Setting a mail server for alert delivery
The mail server Monit should use to send alert messages is defined with a set mailserver statement:
SET MAILSERVER [PASSWORD string] [using SSLAUTO|SSLV2|SSLV3|TLSV1|TLSV11|TLSV12]
[CERTMD5 checksum]>, …
[with TIMEOUT X SECONDS]
[using HOSTNAME hostname]
Multiple mail servers can be set by using a comma separated list. If Monit cannot connect to the first server, it will try the next in the list and so on.
The port statement allows to override the default SMTP port (465 for SSL, or 25 for TLS and non secure connection).
Monit supports AUTH PLAIN and AUTH LOGIN for SMTP authentication. You can set a username and a password using the USERNAME and PASSWORD options.
You can enable SSL or TLS with optional certificate checksum.
The default connection timeout is 5 seconds. You can rise this limit using the TIMEOUT option.
Example (setting two mail servers for failover):
set mailserver smtp.gmail.com, smtp.other.host
By default, Monit uses the local host name in SMTP HELO/EHLO and in the Message-ID header. You can override this using the HOSTNAME option.
Event queue
If no mail server is available, Monit can queue events in the local file-system for retry until the mail server recovers.
If Monit is used with M/Monit, the event queue provides a safe event store for M/Monit in the case of temporary problems.
The event queue is persistent across Monit restarts and provided that the back-end filesystem is persistent, across system restart as well.
By default, the queue is disabled and if the alert handler fails, Monit will simply drop the alert message.
To enable the event queue, add the following statement:
SET EVENTQUEUE BASEDIR [SLOTS ]
The is the path to the directory where events will be stored.
Optionally if you want to limit the queue size, use the slots option to only store up to number event messages.
Example:
set eventqueue basedir /var/monit slots 5000
If you are running more then one Monit instance on the same machine, you must use separated event queue directories.
SERVICE METHODS
Each service can have associated start, stop and restart methods which Monit can use to execute action on the service.
Syntax:
[PROGRAM] = “program”
[[AS] UID <number | string>]
[[AS] GID <number | string>]
[[WITH] TIMEOUT <number> SECOND(S)]
If the program is a shell script it must begin with #! and the remainder of the first line must specify an interpreter for the program. e.g. #!/bin/sh
The program must also be executable (for example mode 0755).
It's possible to write scripts directly into the program this way:
stop = “/bin/bash -c 'kill -s SIGTERM cat /var/run/process.pid
'”
By default the program is executed as the user under which Monit is running. If Monit is running as root, you may optionally specify the UID and GID the executed program should switch to.
Example:
check process mmonit with pidfile /usr/local/mmonit/mmonit/logs/mmonit.pid
start program = “/usr/local/mmonit/bin/mmonit” as uid “mmonit” and gid “mmonit”
stop program = “/usr/local/mmonit/bin/mmonit stop” as uid “mmonit” and gid “mmonit”
In the case of a process check, Monit will wait up to 30 seconds for the start/stop action to finish before giving up and report an error. You can override this timeout using the TIMEOUT option.
Example:
check process foobar with pidfile /var/run/foobar.pid
start program = “/etc/init.d/foobar start” with timeout 60 seconds
stop program = “/etc/init.d/foobar stop”
SERVICE POLL TIME
Services are checked in regular intervals by the set daemon n statement. Checks are performed in the same order as they are written in the .monitrc file, except if dependencies are setup between services.
It is possible to modify a service check schedule by using the every statement.
There are three variants:
custom interval based on a poll cycle multiple
EVERY [number] CYCLES
check is schedule based on a cron-style string
EVERY [cron]
do-not-check schedule based on a cron-style string
NOT EVERY [cron]
A cron-style string, consist of 5 fields separated with white-space. All fields are required:
Minutes | 0-59 | * - ,
Hours | 0-23 | * - ,
Day of month | 1-31 | * - ,
Month | 1-12 (1=jan, 12=dec) | * - ,
Day of week | 0-6 (0=sunday, 6=saturday) | * - ,
The special characters:
(asterisk) | The asterisk indicates that the expression will
| match for all values of the field; e.g., using
| an asterisk in the 4th field (month) would
| indicate every month.
(hyphen) | Hyphens are used to define ranges. For example,
| 8-9 in the hour field indicate between 8AM and
| 9AM. Note that range is from start time until and
| including end time. That is, from 8AM and until
| 10AM unless minutes are set. Another example,
| 1-5 in the weekday field, specify from monday to
| friday (including friday).
, (comma) | Comma are used to specify a sequence. For example
| 17,18 in the day field indicate the 17th and 18th
| day of the month. A sequence can also include
| ranges. For example, using 1-5,0 in the weekday
| field indicate monday to friday and sunday.
Example 1: Check once per two cycles
check process nginx with pidfile /var/run/nginx.pid
every 2 cycles
Example 2: Check every workday 8AM-7PM
check program checkOracleDatabase
with path /var/monit/programs/checkoracle.pl
every “* 8-19 * * 1-5”
Example 3: Do not run the check in the backup window on Sunday 0AM-3AM
check process mysqld with pidfile /var/run/mysqld.pid
not every “* 0-3 * * 0”
Limitations:
The current scheduler is poll cycle based. When a service check is constraint with the every cron statement, Monit will check whether the current time match the cron-string pattern. If it does, the check is performed, otherwise it is skipped. The cron specification thus does not guarantee when exactly the test will run, this depends on the default poll time and the length of the check cycle. In other words, we cannot guarantee that Monit will run on a specific time. Therefor we strongly recommend to use an asterix in the minute field or at minimum a range, e..g. 0-15. Never use a specific minute as Monit may not run on that minute.
We will address this limitation in a future release and convert the scheduler from serial polling into a parallel non-blocking scheduler where checks are guaranteed to run on time and with seconds resolution.
SERVICE GROUPS
Service entries in the control file, monitrc, can be grouped together by the group statement. The syntax is simply (keyword in capital):
GROUP groupname
With this statement it is possible to group similar service entries together and manage them as a whole. Monit provides functions to start, stop, restart, monitor and unmonitor a group of services, like so:
To start a group of services from the console:
monit -g start
To stop a group of services:
monit -g stop
To restart a group of services:
monit -g restart
Note: the status and summary commands does not support the -g option and will print the state of all services.
A service can be added to multiple groups by using more than one group statement:
group www
group filesystem
SERVICE MONITORING MODE
Monit supports three monitoring modes per service: active, passive and manual. See also the example section below for usage of the mode statement.
In active mode (the default), Monit will pro-actively monitor a service and in case of problems raise alerts and/or restart the service.
In passive mode, Monit will passively monitor a service and will raise alerts, but will not try to fix a problem by executing start, stop or restart.
In manual mode, Monit will enter active mode only if a service was started via Monit:
monit start
Use “monit stop ” to stop the service and take it out of Monit's control. The manual mode can be used to build a simple cluster with active/passive HA-services.
A service's monitoring state is persistent across Monit restart.
If you use Monit in a HA-cluster you should place the Monit state file in a temporary filesystem so if the machine which runs HA-services should crash and the stand-by machine take over its services, the HA-services won't be started after the crashed node will boot again:
set statefile /tmp/monit.state
SERVICE TIMEOUT
Monit provides a service timeout mechanism for situations where a service simply refuses to start or respond over a longer period.
The timeout mechanism is based on number of service restarts and number of poll-cycles. For example, if a service had x restarts within y poll-cycles (where x <= y) then Monit will perform an action (for example unmonitor the service). If a timeout occurs, Monit will send an alert message if you have register interest for this event.
The syntax for the timeout statement is as follows (keywords are in capital):
IF RESTART CYCLE(S) THEN
Here is an example where Monit will unmonitor the service if it was restarted 2 times within 3 cycles:
if 2 restarts within 3 cycles then unmonitor
To have Monit check the service again after monitoring was disabled, run monit monitor servicename from the command line.
Example for setting custom exec on timeout:
if 5 restarts within 5 cycles then exec “/foo/bar”
Example for stopping the service:
if 7 restarts within 10 cycles then stop
SERVICE DEPENDENCIES
If specified in the control file, Monit can do dependency checking before start, stop, monitoring or unmonitoring of services. The dependency statement may be used within any service entries in the Monit control file.
The syntax for the depend statement is simply:
DEPENDS on service[, service [,…]]
Where service is a check service entry name used in your .monitrc file, for instance apache or datafs.
You may add more than one service name of any type or use more than one depend statement in an entry.
Services specified in a depend statement will be checked during stop/start/monitor/unmonitor operations. If a service is stopped or unmonitored it will stop/unmonitor any services that depends on itself. Likewise, if a service is started, it will first stop any services that depends on itself and after it is started, start all depending services again. If the service is to be monitored (enable monitoring), all services which this service depends on will be monitored before enabling monitoring of this service.
Here is an example where we set up an apache service entry to depend on the underlying apache binary. If the binary should change an alert is sent and apache is not monitored anymore. The rationale is security and that Monit should not execute a possibly cracked apache binary.
(1) check process apache
(2) with pidfile “/usr/local/apache/logs/httpd.pid”
(3) …
(4) depends on httpd
(5)
(6) check file httpd with path /usr/local/apache/bin/httpd
(7) if failed checksum then unmonitor
The first entry is the process entry for apache (abbreviated for clarity). The fourth line sets up a dependency between this entry and the service entry named httpd in line 6. A dependency tree works as follows, if an action is conducted in a lower branch it will propagate upward in the tree and for every dependent entry execute the same action. In this case, if the checksum should fail in line 7 then an unmonitor action is executed and the apache binary is not checked anymore. But since the apache process entry depends on the httpd entry this entry will also execute the unmonitor action. In short, if the checksum test for the httpd binary file should fail, both the check file httpd entry and the check process apache entry is set in un-monitoring mode.
A dependency tree is a general construct and can be used between all types of service entries and span many levels and propagate any supported action (except the exec action which will not propagate upward in a dependency tree for obvious reasons).
Here is another different example. Consider the following common server setup:
WEB-SERVER -> APPLICATION-SERVER -> DATABASE -> FILESYSTEM
(a) (b) (c) (d)
You can set dependencies so that the web-server depends on the application server to run before the web-server starts and the application server depends on the database server and the database depends on the file-system to be mounted before it starts. See also the example section below for examples using the depend statement.
Here we describe how Monit will function with the above dependencies:
If no servers are running
Monit will start the servers in the following order: d, c, b, a
If all servers are running
When you run 'Monit stop all' this is the stop order: a, b, c, d. If you run 'Monit stop d' then a, b and c are also stopped because they depend on d and finally d is stopped.
If a does not run
When Monit runs it will start a
If b does not run
When Monit runs it will first stop a then start b and finally start a again.
If c does not run
When Monit runs it will first stop a and b then start c and finally start b then a.
If d does not run
When Monit runs it will first stop a, b and c then start d and finally start c, b then a.
If the control file contains a depend loop.
A depend loop is for example; a->b and b->a or a->b->c->a.
When Monit starts it will check for such loops and complain and exit if a loop was found. It will also exit with a complaint if a depend statement was used that does not point to a service in the control file.
SERVICE TESTS
GENERAL SYNTAX
Monit provides several tests you can use in a 'check' statement to test a service.
You can test either for some expected value or range and take actions if the value changed.
General syntax for testing a specific value or range:
IF THEN ACTION [ELSE IF SUCCEEDED THEN ACTION]
The action is evaluated each time the condition is true. Success action is optional and executed only when the state changes from failure to success. If success action is not set, Monit will send a recovery alert by default.
General syntax for a value change test:
IF CHANGED THEN ACTION
The action is executed each time the value changes. Monit will remember the new value and will trigger event if the value change again.
ACTION
In each test you must select the action to be executed from this list:
ALERT sends the user an alert event on each state change.
RESTART restarts the service and send an alert. Restart is performed by calling the service's registered restart method or by first calling the stop method followed by the start method if restart is not set.
START starts the service by calling the service's registered start method and send an alert.
STOP stops the service by calling the service's registered stop method and send an alert. If Monit stops a service it will not be checked by Monit anymore nor restarted again later. To reactivate monitoring of the service again you must explicitly enable monitoring from the web interface or from the console.
EXEC can be used to execute an arbitrary program and send an alert. If you choose this action you must state the program to be executed and if the program require arguments you must enclose the program and its arguments in a quoted string. You may optionally specify the uid and gid the executed program should switch to upon start. For instance:
exec “/usr/local/tomcat/bin/startup.sh”
as uid nobody and gid nobody
Remember, if Monit is run by root, then all programs executed by Monit will be started with superuser privileges unless the uid and gid extension is used.
UNMONITOR will disable monitoring of the service and send an alert. The service will not be checked by Monit anymore nor restarted again later. To reactivate monitoring of the service you must explicitly enable monitoring from the web interface or from the console.
FAILURE TOLERANCE
By default the action is executed if it matches and the service set in an error state. However, you can require a test to fail more than once before the error event is triggered and the service state changed to failed. This is useful to avoid getting alerts on spurious errors, which can happen, especially with network tests.
Syntax:
FOR CYCLES …
or:
[TIMES WITHIN] CYCLES …
The condition can be used both for failure and success action.
The first, simpler and recommended format requires X consecutive events before switching the state:
if failed
port 80
for 3 cycles
then alert
The second format is more advanced and allows to tolerate intermittent issues, but still catch excessive problems, where the service is flapping between error and success states frequently.
For example if every second cycle fails (1-0-1-0-1-0-…), then “for 2 cycles” condition will never match, despite the service having problems. The following statement will catch such a state:
if failed
port 80
for 3 times within 5 cycles
then alert
Example which sets multiple error levels and actions:
check filesystem rootfs with path /dev/hda1
if space usage > 80% for 5 times within 15 cycles then alert
if space usage > 90% for 5 cycles then exec '/try/to/free/the/space'
Note: the maximum value for cycles is 64.
EXISTENCE TESTING
This test is always active for the process, file, directory and fifo checks and is if not defined, it defaults to a restart action.
You can override the default action with the following statement:
IF [DOES] NOT EXIST THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check file with path /cifs/mydata
if does not exist then exec "/usr/bin/mount_cifs.sh"
RESOURCE TESTING
Monit can examine how much system resources a service is using. This test can only be used within a system or process service entry in the Monit control file.
Depending on system or process characteristics, services can be stopped or restarted and alerts can be generated. Thus it is possible to utilize systems which are idle and to spare system under high load.
The full syntax for a resource-statement used for resource testing is as follows (keywords are in capital and optional statements in [brackets]),
IF resource operator value THEN action
resource is a choice of “CPU”, “TOTAL CPU”, “CPU([user|system|wait])“, “MEMORY”, “SWAP”, “CHILDREN”, “TOTAL MEMORY”, “LOADAVG([1min|5min|15min])“. Some resource tests can be used inside a check system entry, some in a check process entry and some in both:
System only resource tests:
CPU([user|system|wait]) is the percent of time the system spend in user or kernel space and I/O.
SWAP is the swap usage of the system in either percent (of the systems total) or as an amount (Byte, kB, MB, GB).
Process only resource tests:
CPU is the CPU usage of the process itself (percent).
TOTAL CPU is the total CPU usage of the process and its children in (percent). You will want to use TOTAL CPU typically for services like Apache web server where one master process forks child processes as workers.
CHILDREN is the number of child processes of the process.
TOTAL MEMORY is the memory usage of the process and its child processes in either percent or as an amount (Byte, kB, MB, GB).
System and process resource tests:
MEMORY is the memory usage of the system or of a process (without children) in either percent (of the systems total) or as an amount (Byte, kB, MB, GB).
LOADAVG([1min|5min|15min]) refers to the system's load average. The load average is the number of processes in the system run queue, averaged over the specified time period.
operator is a choice of “<", ">“, “!=“, “==” in C notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
value is either an integer or a real number (except for CHILDREN). For CPU, TOTAL CPU, MEMORY and TOTAL MEMORY you need to specify a unit. This could be “%” or if applicable “B” (Byte), “kB” (1024 Byte), “MB” (1024 KiloByte) or “GB” (1024 MegaByte).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
To calculate the cycles, a counter is raised whenever the expression above is true and it is lowered whenever it is false (but not below 0). All counters are reset in case of a restart.
The following is an example to check that the CPU usage of a service is not going beyond 50% during five poll cycles. If it does, Monit will restart the service:
if cpu is greater than 50% for 5 cycles then restart
FILE CHECKSUM TESTING
The checksum statement may only be used in a file service entry and can be used to check the file's MD5 or SHA1 checksum.
Check specific checksum:
IF FAILED [MD5|SHA1] CHECKSUM [EXPECT checksum] THEN action
Check any file changes:
IF CHANGED [MD5|SHA1] CHECKSUM THEN action
The choice of MD5 or SHA1 is optional. MD5 features a 128 bits checksum (32 bytes hex encoded string) and SHA1 a 160 bits checksum (40 bytes hex encoded string). If this option is omitted, Monit will try to guess the method from the EXPECT string or use MD5 as the default checksum.
expect is optional and if used, specifies the md5 or sha1 string Monit should expect when testing a file's checksum. Monit will then not compute an initial checksum for the file, but instead use the string you submit. For example:
if failed
checksum expect 8f7f419955cefa0b33a2ba316cba3659
then alert
You can, for example, use the GNU utility md5sum(1) or sha1sum(1) to create a checksum string for a file and use this string in the expect-statement.
Reloading a server if its configuration file was changed:
check file apache_conf with path /etc/apache/httpd.conf
if changed checksum then exec "/usr/bin/apachectl graceful"
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
TIMESTAMP TESTING
The timestamp statement may only be used in a file, fifo or directory service entry.
Specific timestamp syntax:
IF TIMESTAMP [[operator] value [unit]] THEN action
Timestamp changed syntax:
IF CHANGED TIMESTAMP THEN action
operator is a choice of “<", ">“, “!=“, “==” in C notation, “GT”, “LT”, “EQ”, “NE” in shell sh notation and “GREATER”, “LESS”, “EQUAL”, “NOTEQUAL” in human readable form (if not specified, default is EQUAL).
value is a time watermark.
unit is either “SECOND(S)“, “MINUTE(S)“, “HOUR(S)” or “DAY(S)“.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
For example to reload apache if the configuration file timestamp changed:
check file apache_conf with path /etc/apache/httpd.conf
if changed timestamp then exec “/usr/bin/apachectl graceful”
For example testing directory for file addition or removal:
check directory bar path /foo/bar
if timestamp < 1 hour then alert
FILE SIZE TESTING
The size statement may only be used in a check file service entry. If specified in the control file, Monit will compute a size for a file.
Testing specific size or range:
IF SIZE [[operator] value [unit]] THEN action
Testing size changes:
IF CHANGED SIZE THEN action
operator is a choice of “<", ">“, “!=“, “==” in C notation, “GT”, “LT”, “EQ”, “NE” in shell sh notation and “GREATER”, “LESS”, “EQUAL”, “NOTEQUAL” in human readable form (if not specified, default is EQUAL).
value is a size watermark.
unit is a choice of “B”,“KB”,“MB”,“GB” or long alternatives “byte”, “kilobyte”, “megabyte”, “gigabyte”. If it is not specified, “byte” unit is assumed by default.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
For example to send an alert if the file is too large:
check file mydb with path /data/mydatabase.db
if size > 1 GB then alert
FILE CONTENT TESTING
The match statement can be used to incrementally test the content of a text file by using regular expressions.
Syntax:
IF [NOT] MATCH {regex|path} THEN action
regex is a string containing the extended regular expression. See also regex(7).
path is an absolute path to a file containing extended regular expression on every line. See also regex(7).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
You can use the NOT statement to invert a match.
On startup the read position is set to the end of the file and Monit continues to scan to the end of the file on each cycle.
If the file size should decrease or inode changed, the read position is set to the start of the file.
Only lines ending with a newline character are inspected.
Only the first 511 characters of a line are inspected.
IGNORE [NOT] MATCH {regex|path}
Lines matching an IGNORE are not inspected during later evaluations. IGNORE MATCH has always precedence over IF MATCH.
All IGNORE MATCH statements are evaluated first, in the order of their appearance. Thereafter, all the IF MATCH statements are evaluated.
For example:
check file syslog with path /var/log/syslog
ignore match "^monit"
if match "^mrcoffee" then alert
FILESYSTEM FLAGS TESTING
Monit can test the flags of a filesystem for changes. This test is implicit and Monit will send alert in case of failure by default.
This test is useful for detecting changes of filesystem flags such as if the filesystem become read-only (on disk error) or mount flags were changed (such as nosuid).
The syntax for the fsflags statement is:
IF CHANGED FSFLAGS THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check filesystem rootfs with path /
if changed fsflags then exec "/my/script"
SPACE TESTING
Monit can test a filesystem or a disk for space usage. This test may only be used in the context of a filesystem service type.
Filesystems usually have some space reserved for the root user (ca. 1-5%), so non-superusers cannot write to a nearly full filesystem. If you set a limit for the filesystem which is used by non-root users you might want to consider these reserved blocks when setting the limit. You can use Monit itself to view the reserved blocks percentage by using the CLI status command or the HTTP interface for the given filesystem.
Syntax:
IF SPACE operator value unit THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
unit is a choice of “B”,“KB”,“MB”,“GB”, “%” or long alternatives “byte”, “kilobyte”, “megabyte”, “gigabyte”, “percent”.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check filesystem rootfs with path /
if space usage > 90% then alert
INODE TESTING
Monit can test filesystem inode usage. This test may only be used in the context of a filesystem service type.
Syntax:
IF INODE(S) operator value [unit] THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
unit is optional. If not specified, the value is an absolute count of inodes. You can use the “%” character or the longer alternative “percent” as a unit.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check filesystem rootfs with path /
if inode usage > 90% then alert
PERMISSION TESTING
Monit can test the permissions of file objects. This test may only be used in the context of a file, fifo, directory or filesystem service types.
Syntax for testing specific permissions:
IF FAILED PERM(ISSION) octalnumber THEN action
Syntax for testing any permission change:
IF CHANGED PERM(ISSION) THEN action
octalnumber defines permissions for a file, a directory or a filesystem as four octal digits (0-7). Valid range is 0000 - 7777 (you can omit the leading zeros, Monit will add the zeros to the left. For example, “640” is a valid value and matches “0640”).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check file shadow with path /etc/shadow
if failed permission 0640 then alert
UID TESTING
Monit can monitor the owner user id (uid) of a file, fifo, directory or owner and effective user of a process.
Syntax:
IF FAILED [E]UID user THEN action
user defines a user id either in numeric or in string form.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check file shadow with path /etc/shadow
if failed uid root then alert
GID TESTING
Monit can monitor the owner group id (gid) of a file, fifo, directory or process.
Syntax:
IF FAILED GID group THEN action
group defines a group id either in numeric or in string form.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check file shadow with path /etc/shadow
if failed gid shadow then alert
PID TESTING
Monit can test the process' PID. This test is implicit and Monit will send an alert in case the PID changed outside of Monit's control.
Syntax:
IF CHANGED PID THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
This test is useful to detect possible process restarts which has occurred in the timeframe between two Monit testing cycles.
For example if someone changes sshd configuration and did sshd restart outside of Monit's control you will be notified that the process was replaced by a new instance:
check process sshd with pidfile /var/run/sshd.pid
if changed pid then alert
PPID TESTING
Monit can test the process' parent PID (PPID) for changes. This test is implicit and Monit will send alert in the case that the PPID changed outside of Monit control.
The syntax for the ppid statement is:
IF CHANGED PPID THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check process myproc with pidfile /var/run/myproc.pid
if changed ppid then exec "/my/script"
PROCESS UPTIME TESTING
The uptime statement may only be used in a process service type context.
Syntax:
IF UPTIME [[operator] value [unit]] THEN action
operator is a choice of “<", ">“, “!=“, “==” in C notation, “GT”, “LT”, “EQ”, “NE” in shell sh notation and “GREATER”, “LESS”, “EQUAL”, “NOTEQUAL” in human readable form (if not specified, default is EQUAL).
value is a uptime watermark.
unit is either “SECOND”, “MINUTE”, “HOUR” or “DAY” (it is also possible to use “SECONDS”, “MINUTES”, “HOURS”, or “DAYS”).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example of restarting the process every three days:
check process myapp with pidfile /var/run/myapp.pid
start program = "/etc/init.d/myapp start"
stop program = "/etc/init.d/myapp stop"
if uptime > 3 days then restart
PROGRAM STATUS TESTING
You can check the exit status of a program or a script. This test may only be used within a check program service entry in the Monit control file.
Syntax for testing specific exit value:
IF STATUS operator value THEN action
Syntax for testing any exit value change:
IF CHANGED STATUS THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Example:
check program myscript with path /usr/local/bin/myscript.sh
if status != 0 then alert
Sample script for the above example (/usr/local/bin/myscript.sh):
echo test
exit $?
You can also send parameters with the program:
check program list-files with path “/bin/ls -lrt /tmp/”
if status != 0 then alert
Arguments to the program or script is a sequence of whitespace separated strings. In the above example the strings '-lrt' and '/tmp/' are arguments to the program '/bin/ls'. If arguments are used, it is recommended to use quotes " to enclose the string, otherwise, if no arguments are used, quotes are not needed.
Notes: If the program is a script, the interpreter is required in the first line. The program or script must also be executable.
If Monit is run as the super user, you can optionally run the program as a different user and/or group. In this example we run the ls program as user www and as group staff:
check program ls with path “/bin/ls /tmp” as uid “www”
and gid "staff"
if status != 0 then alert
Monit will execute the program periodically and if the exit status of the program does not match the expected result, Monit can perform an action. In the example above, Monit will raise an alert if the exit value is different from 0. By convention, 0 means the program exited normally.
Program checks are asynchronous. Meaning that Monit will not wait for the program to exit, but instead, Monit will start the program in the background and immediately continue checking the next service entry in monitrc. At the next cycle, Monit will check if the program has finished and if so, collect the program's exit status. If the status indicate a failure, Monit will raise an alert message containing the program's error (stderr) output, if any. If the program has not exited after the first cycle, Monit will wait another cycle and so on. If the program is still running after 5 minutes, Monit will kill it and generate a program timeout event. It is possible to override the default timeout (see the syntax below).
The asynchronous nature of the program check allows for non-blocking behavior in the current Monit design, but it comes with a side-effect: when the program has finished executing and is waiting for Monit to collect the result, it becomes a so-called “zombie” process. A zombie process does not consume any system resources (only the PID remains in use) and it is under Monit's control and the zombie process is removed from the system as soon as Monit collects the exit status. This means that every “check program” will be associated with either a running process or a temporary zombie. This unwanted zombie side-effect will be removed in a later release of Monit.
Multiple status tests can be used, for example:
check program hwtest with path /usr/local/bin/hwtest.sh
with timeout 500 seconds
if status = 1 then alert
if status = 3 for 5 cycles then exec "/usr/local/bin/emergency.sh"
NETWORK LINK STATUS TEST
You can check the network link state. This test may only be used within a check network service entry in the Monit control file.
Syntax:
IF FAILED LINK THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
The test will fail if the link/interface is down or link errors were detected.
Example:
check network eth0 with interface eth0
if failed link then alert
In case a link failed you can add a start and stop program to automatically restart the interface which might help. (Substitute with the relevant network commands for your system)
check network eth0 with interface eth0
start program = '/sbin/ipup eth0'
stop program = '/sbin/ipdown eth0'
if failed link then restart
NETWORK LINK CAPACITY TEST
You can check the network link mode capacity for changes. This test may only be used within a check network service entry in the Monit control file.
Syntax:
IF CHANGED LINK [CAPACITY] THEN action
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
The test will match if the link mode has changed (e.g. maximum speed dropped) or if the duplex mode has changed.
NOTE: not all interface types allow for capacity monitoring. Pseudo interfaces such as loopback device or VMWare interfaces does not have a speed attribute.
Example:
check network eth0 with interface eth0
if changed link capacity then alert
NETWORK SATURATION TEST
You can check the network link saturation. Monit then computes the link utilization based on the current transfer rate vs. link capacity. This test may only be used within a check network service entry in the Monit control file.
Syntax:
IF SATURATION operator value% THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
NOTE: this test depends on the availability of the speed attribute and not all interface types have this attribute. See the LINK SPEED test description.
Example:
check network eth0 with interface eth0
if saturation > 90% then alert
NETWORK BANDWIDTH TEST
You can check a network link upload and download bandwidth usage, current transfer rate and total data transferred in the last 24 hours. This test may only be used within a check network service entry in the Monit control file.
Current upload bandwidth rate test syntax:
IF UPLOAD operator value unit THEN action
Current download bandwidth rate test syntax:
IF DOWNLOAD operator value unit THEN action
Total upload test syntax:
IF TOTAL UPLOAD operator value unit IN LAST number time-unit THEN action
Total download test syntax:
IF TOTAL DOWNLOAD operator value unit IN LAST number time-unit THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
unit is a choice of “B”,“KB”,“MB”,“GB” or long alternatives “byte”, “kilobyte”, “megabyte”, “gigabyte”.
time-unit is a choice of “MINUTE(S)“, “HOUR(S)“, “DAY”. NOTE: Monit maintains a rolling count of total uploaded and downloaded bytes for the last 24 hours only. The value of time-unit can therefor not specify a range wider than one day.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Examples:
check network eth0 with interface eth0
if upload > 500 kB/s then alert
if total download > 1 GB in last 2 hours then alert
if total download > 10 GB in last day then alert
NETWORK PACKETS TEST
You can check the network link upload and download packets count, current transfer rate and total data transferred in last 24 hours. This test may only be used within a check network service entry in the Monit control file.
Current upload bandwidth rate test syntax:
IF UPLOAD operator value PACKETS/S THEN action
Current download bandwidth rate test syntax:
IF DOWNLOAD operator value PACKETS/S THEN action
Total upload test syntax:
IF TOTAL UPLOAD operator value PACKETS IN LAST number time-unit THEN action
Total download test syntax:
IF TOTAL DOWNLOAD operator value PACKETS IN LAST number time-unit THEN action
operator is a choice of “<",">“,“!=“,“==” in c notation, “gt”, “lt”, “eq”, “ne” in shell sh notation and “greater”, “less”, “equal”, “notequal” in human readable form (if not specified, default is EQUAL).
time-unit is a choice of “MINUTE(S)“, “HOUR(S)“, “DAY”. NOTE: Monit keeps total upload/download statistics only for the last 24 hours. The time-unit value cannot therefor span more than one day.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Examples:
check network eth0 with interface eth0
if upload > 1000 packets/s then alert
if total upload > 900000 packets in last hour then alert
NETWORK PING TEST
Monit can perform a network ping test by sending ICMP echo request datagram packets to a host and wait for the reply. This test can only be used within a check host statement. Monit must also run as the root user in order to be able to perform the ping test (because a ping test must use raw sockets which usually only the super user is allowed to).
Syntax:
IF FAILED PING
[COUNT number] [WITH] [TIMEOUT number SECONDS]
THEN action
The COUNT parameter specifies how many consecutive ping requests will be sent to the host in one cycle. If no reply arrive within TIMEOUT seconds, Monit reports an error. If at least one reply was received, the ping test is considered a success. Monit will, by default, send three ping request packets in one cycle to prevent false alarm (i.e. up to 66% packet loss is tolerated). You can set the COUNT option to a value between 1 and 20 to send more or fewer packets. If you require 100% ping success, set the count to 1 (i.e. just one request will be sent, and if the packet was lost an error will be reported).
Note that many ISPs have started to filter out ping or ICMP packets now, in which case there will be no reply from the host.
If a ping test is used in a check host entry, this test is run first and if the test should fail, we assume that the connection to the host is down and Monit will not continue with any subsequent port tests.
Example:
check host mmonit.com with address mmonit.com
if failed ping then alert
or with all parameters; Send 5 pings to mmonit.com and wait for up to 10 seconds for a reply
check host mmonit.com with address mmonit.com
if failed
ping count 5 with timeout 10 seconds
then alert
CONNECTION TESTING
Monit can perform connection testing via network ports or via Unix sockets. A connection test may only be used within a process or host service type context.
If a service listens on one or more sockets, Monit can connect to the port (using TCP or UDP) and verify that the service will accept a connection and that it is possible to write and read from the socket. If a connection is not accepted or if there is a problem with socket I/O, Monit will execute a specified action.
TCP/UDP port test syntax:
IF FAILED
[host]
<port>
[type]
[protocol | {send/expect}+]
[timeout]
[retry]
THEN action
Unix socket test syntax:
IF FAILED
<unixsocket>
[type]
[protocol | {send/expect}+]
[timeout]
[retry]
THEN action
Examples:
if failed port 80 then alert
if failed port 53 type udp protocol dns then alert
if failed unixsocket /var/run/sophie then alert
Options:
host: HOST hostname. Optionally specify the host to connect to. If the host is not given then localhost is assumed if this test is used inside a process entry. If this test is used inside a remote host entry then the entry's remote host is assumed.
port: PORT number. The port number to connect to
unixsocket: UNIXSOCKET path. Specifies the path to a Unix socket (local machine only).
type: TYPE {TCP|UDP|TCPSSL}. Optionally specify the socket type Monit should use when trying to connect to the port. The different socket types are; TCP, UDP or TCPSSL, where TCP is a regular stream based socket, UDP is a datagram socket and TCPSSL specifies that Monit should use a TCP socket with SSL when connecting to a port. The default socket type is TCP. If TCPSSL is used you may optionally specify the SSL/TLS protocol to be used and the MD5 checksum of the server's certificate.
The TCPSSL options are:
TCPSSL [SSLAUTO|SSLV2|SSLV3|TLSV1|TLSV11|TLSV12] [CERTMD5 md5sum]
The default mode is SSLAUTO and it will select the method automatically, but for security reasons only TLS is used, not SSL. If you need SSLv2 or SSLv3 you have to explicitly select that method using SSLV2 or SSLV3 option.
protocol: PROTO(COL) protocol. Optionally specify the protocol Monit should speak when a connection is established. At the moment Monit knows how to speak: APACHE-STATUS DNS DWP FTP GPS HTTP HTTPS IMAP IMAPS CLAMAV LDAP2 LDAP3 LMTP MEMCACHE MONGODB MYSQL NNTP NTP3 PGSQL POP POSTFIX-POLICY RADIUS RDATE REDIS RSYNC SIEVE SIP SMTP SMTPS SSH TNS WEBSOCKET
If the target server's protocol is not found in this list, simply do not specify the protocol and Monit will use a default connection test.
timeout: [WITH] TIMEOUT number SECONDS. Optionally specifies the connect and read timeout for the connection. If Monit cannot connect to the server within this time it will assume that the connection failed and execute the specified action. The default connect timeout is 5 seconds.
retry: RETRY number. Optionally specifies the number of consecutive retries within the same testing cycle in the case that the connection failed. The default is fail on first error.
action is a choice of “ALERT”, “RESTART”, “START”, “STOP”, “EXEC” or “UNMONITOR”.
Specific protocol test options
GENERIC (SEND/EXPECT)
If Monit does not support the protocol spoken by the server, you can write your own protocol-test using send and expect strings. The SEND statement sends a string to the server port and the EXPECT statement compares a string read from the server with the string given in the expect statement.
Syntax:
[{SEND|EXPECT} “string”]+
Monit will send a string as it is, and you must remember to include CR and LF in the string sent to the server if the protocol expects such characters to terminate a string (most text based protocols used over Internet do).
Monit will by default read up to 255 bytes from the server and use this string when comparing the EXPECT string. You can override the default value by using this statement at the top of the Monit configuration file:
SET EXPECTBUFFER [“b”|“kb”]
Max value for the expect buffer is 100 kb. For example, to set the expect buffer to read 10 kilobytes:
set expectbuffer 10 kb
You can use non-printable characters in a SEND string if needed. Use the hex notation, \0xHEXHEX to send any char in the range \0x00-\0xFF, that is, 0-255 in decimal. For example, to test a Quake 3 server:
send “\0xFF\0xFF\0xFF\0xFFgetstatus”
expect “sv_floodProtect|sv_maxPing”
If your system supports POSIX regular expressions, you can use regular expressions in the EXPECT string, see regex(7) to learn more about the types of regular expressions you can use in an expect string.
Since both regex and string compare operates on a zero terminated string, you cannot test for '\0' in an EXPECT buffer since this character marks the end of the buffer. However, we escape '\0' in the expect buffer as “\0” which you can test for. That is, '' followed by the ascii value for 0. For instance, here is how to test for an expect string that starts with zero followed by any number of characters.
expect “^[\]0.*”
Here is a simple SMTP protocol example:
if failed
port 25 and
expect "^220.*"
send "HELO localhost.localdomain\r\n"
expect "^250.*"
send "QUIT\r\n"
then alert
SEND/EXPECT can be used with any socket type, such as TCP sockets, UNIX sockets and UDP sockets.
HTTP
Syntax:
PROTO(COL) HTTP
[REQUEST "string"]
[STATUS operator number]
[CHECKSUM checksum]
[HTTP HEADERS list of headers]
[CONTENT {= | != } STRING]
REQUEST option can set an URL string specifying a document on the HTTP server. If the request statement isn't specified, the default “/” page will be requested.
For example:
if failed
port 80
protocol http
request "/data/show?a=b&c=d"
then restart
STATUS option can be used to explicitly test the HTTP status code returned by the HTTP server. If not used, the http protocol test will fail if the status code returned is greater than or equal to 400. You can override this behaviour by using the status qualifier.
For example to test that a page does not exist (the HTTP server should return 404 in this case):
if failed
port 80
protocol http
request "/non/existent.php"
status = 404
then alert
CHECKSUM You can test the checksum of documents returned by a HTTP server. Either MD5 or SHA1 hash can be used. Monit will not test the checksum for a document if the server does not set the HTTP Content-Length header. A HTTP server should set this header when it server a static document (i.e. a file). There are no limitation on the document size, but keep in mind that Monit will use time to download the document over the network to compute the checksum.
Example:
if failed
port 80
protocol http
request "/page.html"
checksum 8f7f419955cefa0b33a2ba316cba3659
then alert
HTTP HEADERS can be used to send a list of any HTTP headers with a http protocol test. For instance, the host header. If the host header is not set, Monit will use the hostname or IP-address of the host as specified in the check host statement. Specifying a host header is useful if you want to connect to and test a name-based virtual host. The syntax for setting HTTP headers is
http headers [name:value, name:value,..]
where each name:value pair is separated with ','. If you need to use ':' in the value string, for instance to set port number for a host header, you must enclose the value in quotes. For example,
http headers [Host: “mmonit.com:443”]
In a check host context, using this statement might look like
check host mmonit.com with address mmonit.com
if failed
port 80 protocol http
with http headers [Host: mmonit.com, Cache-Control: no-cache,
Cookie: csrftoken=nj1bI3CnMCaiNv4beqo8ZaCfAQQvpgLH]
and request /monit/ with content = "Monit [0-9.]+"
then alert
Setting http headers is associated with the http protocol test and must come before request as in the example above.
CONTENT option sets the pattern which is expected in the data returned by the server. If the pattern doesn't match, event is triggered.
For example:
if failed
port 80
protocol http
content = "foobar [0-9.]+"
then alert
APACHE-STATUS
The APACHE-STATUS test allows to check server performance by examination of the status page generated by Apache's mod_status, which is expected to be at its default address of http://www.example.com/server-status.
Syntax:
PROTOCOL APACHE-STATUS +
limit is acronym for child status: o logging (loglimit) o closing connections (closelimit) o performing DNS lookups (dnslimit) o in keepalive with a client (keepalivelimit) o replying to a client (replylimit) o receiving a request (requestlimit) o initialising (startlimit) o waiting for incoming connections (waitlimit) o gracefully closing down (gracefullimit) o performing cleanup procedures (cleanuplimit)
operator is one of “<", "=", ">“.
number is percentile numeric limit.
Each of these limits can be compared against a value relative to the total number of active Apache child processes.
You can combine all of these tests into one expression or you can choose to test a certain limit only. If you combine the limits you must connect them together using the OR keyword.
Example:
if failed port 80 protocol apache-status
loglimit > 10% or
dnslimit > 50% or
waitlimit < 20%
then alert
SIP
The SIP protocol is used by communication platform servers such as Asterisk and FreeSWITCH.
Syntax:
PROTOCOL SIP [TARGET valid@uri] [MAXFORWARD n]
TARGET you may specify an alternative recipient for the message, by adding a valid sip uri after this keyword.
MAXFORWARD Limit the number of proxies or gateways that can forward the request to the next server. It's value is an integer in the range 0-255, set by default to 70. If max-forward = 0, the next server may respond 200 OK (test succeeded) or send a 483 Too Many Hops (test failed)
For example:
check host openser_all with address 127.0.0.1
if failed
port 5060 type udp protocol sip
with target "localhost:5060" and maxforward 6
then alert
RADIUS
Syntax:
PROTOCOL RADIUS [SECRET string]
SECRET you may specify an alternative secret, default is “testing123”.
For example:
check process radiusd with pidfile /var/run/radiusd.pid
start program = "/etc/init.d/freeradius start"
stop program = "/etc/init.d/freeradius stop"
if failed
host 127.0.0.1 port 1812 type udp protocol radius
secret pingpong
then alert
WEBSOCKET
Syntax:
PROTOCOL WEBSOCKET
[REQUEST string]
[HOST string]
[ORIGIN string]
[VERSION number]
HOST you may specify an alternative Host header
REQUEST you may specify an alternative request, default is “/”
ORIGIN you may specify an alternative origin, default is “http://www.mmonit.com”
VERSION you may specify an alternative version, default is “0”
For example:
check host websocket.org with address “echo.websocket.org”
if failed
port 80 protocol websocket
host "echo.websocket.org"
request "/"
origin 'http://websocket.com'
version 13
then alert
CONFIGURATION EXAMPLES
The simplest form is just the check statement. In this example we check to see if the server is running and log a message if not:
check process nginx with pidfile /var/run/nginx.pid
Checking process without pidfile (based on pattern):
check process pager matching “/sbin/dynamic_pager -F /private/var/vm/swapfile”
To have Monit start the server if it's not running, add a start statement:
check process nginx with pidfile /var/run/nginx.pid
start program = "/etc/init.d/nginx start"
stop program = "/etc/init.d/nginx stop"
Here's a more advanced example for monitoring an apache web-server listening on the default port number for HTTP and HTTPS. In this example Monit will restart apache if it's not accepting connections at the port numbers. The method Monit use for a process restart is to first execute the stop-program, wait up to 30s for the process to stop and then execute the start-program and wait up to 30s for it to start. The length of start or stop timeout can be overridden using the 'timeout' option. If Monit was unable to stop or start the service a failed alert message will be sent if you have requested alert messages to be sent.
check process apache with pidfile /var/run/httpd.pid
start program = "/etc/init.d/httpd start" with timeout 60 seconds
stop program = "/etc/init.d/httpd stop"
if failed port 80 for 2 cycles then restart
if failed port 443 for 2 cycles with timeout 15 seconds then restart
This example demonstrate how you can run a program as a specified user (uid) and with a specified group (gid). Many daemon programs will do the uid and gid switch by them self, but for those programs that does not (e.g. Java programs), monit's ability to start a program as a certain user can be very useful. In this example we start the Tomcat Java Servlet Engine as the standard nobody user and group. Please note that Monit will only switch uid and gid for a program if the super-user is running monit, otherwise Monit will simply ignore the request to change uid and gid.
check process tomcat with pidfile /var/run/tomcat.pid
start program = "/etc/init.d/tomcat start"
as uid nobody and gid nobody
stop program = "/etc/init.d/tomcat stop"
# You can also use id numbers instead and write:
as uid 99 and with gid 99
if failed port 8080 then alert
In this example we use udp for connection testing to check if the name-server is running and also use timeout:
check process named with pidfile /var/run/named.pid
start program = "/etc/init.d/named start"
stop program = "/etc/init.d/named stop"
if failed port 53 use type udp protocol dns then restart
if 3 restarts within 5 cycles then timeout
The following example illustrates how to check if the service 'sophie' is answering connections on its Unix domain socket:
check process sophie with pidfile /var/run/sophie.pid
start program = "/etc/init.d/sophie start"
stop program = "/etc/init.d/sophie stop"
if failed unix /var/run/sophie then restart
In this example we check an apache web-server running on localhost that answers for several IP-based virtual hosts or vhosts, hence the host statement before port:
check process apache with pidfile /var/run/httpd.pid
start "/etc/init.d/httpd start"
stop "/etc/init.d/httpd stop"
if failed host www.sol.no port 80 then alert
if failed host shop.sol.no port 443 then alert
if failed host chat.sol.no port 80 then alert
To make sure that Monit is communicating with a http server a protocol test can be added:
check process apache with pidfile /var/run/httpd.pid
start "/etc/init.d/httpd start"
stop "/etc/init.d/httpd stop"
if failed
host www.sol.no port 80 protocol http
then alert
This example shows a different way to check a web-server using the send/expect mechanism:
check process apache with pidfile /var/run/httpd.pid
start "/etc/init.d/httpd start"
stop "/etc/init.d/httpd stop"
if failed
host www.sol.no port 80 and
send "GET / HTTP/1.1\r\nHost: www.sol.no\r\n\r\n"
expect "HTTP/[0-9\.]{3} 200.*"
then alert
Here we use an icmp ping test to check if a remote host is up and if not send an alert:
check host www.tildeslash.com with address www.tildeslash.com
if failed ping then alert
In the following example we ask Monit to compute and verify the checksum for the underlying apache binary used by the start and stop programs. If the the checksum test should fail, monitoring will be disabled to prevent possibly starting a compromised binary:
check process apache with pidfile /var/run/httpd.pid
start program = "/etc/init.d/httpd start"
stop program = "/etc/init.d/httpd stop"
if failed host www.tildeslash.com port 80 then restart
depends on apache_bin
check file apache_bin with path /usr/local/apache/bin/httpd
if failed checksum then unmonitor
In this example we ask Monit to test the checksum for a document on a remote server. If the checksum was changed we send an alert:
check host tildeslash with address www.tildeslash.com
if failed
port 80 protocol http and
request "/monit/dist/monit-5.7.tar.gz"
with checksum f9d26b8393736b5dfad837bb13780786
then alert
Here are a couple of tests for some popular communication servers, using the SIP protocol. First we test a FreeSWITCH server and then an Asterisk server
check process freeswitch
with pidfile /usr/local/freeswitch/log/freeswitch.pid
start program = “/usr/local/freeswitch/bin/freeswitch -nc -hp”
stop program = “/usr/local/freeswitch/bin/freeswitch -stop”
if total memory > 1000.0 MB for 5 cycles then alert
if total memory > 1500.0 MB for 5 cycles then alert
if total memory > 2000.0 MB for 5 cycles then restart
if cpu > 60% for 5 cycles then alert
if failed
port 5060 type udp protocol SIP
target [email protected] and maxforward 10
then restart
check process asterisk
with pidfile /var/run/asterisk/asterisk.pid
start program = “/usr/sbin/asterisk”
stop program = “/usr/sbin/asterisk -r -x 'shutdown now'”
if total memory > 1000.0 MB for 5 cycles then alert
if total memory > 1500.0 MB for 5 cycles then alert
if total memory > 2000.0 MB for 5 cycles then restart
if cpu > 60% for 5 cycles then alert
if failed
port 5060 type udp protocol SIP
and target [email protected] maxforward 10
then restart
Some servers are slow starters, like for example Java based Application Servers. So if we want to keep the poll-cycle low (i.e. < 60 seconds) but allow some services to take its time to start, the every statement is handy:
check process dynamo with pidfile /etc/dynamo.pid every 2 cycles
start program = "/etc/init.d/dynamo start"
stop program = "/etc/init.d/dynamo stop"
if failed port 8840 then alert
Here is an example where we group together two database entries so you can manage them together, e.g.; 'Monit -g database start all'. The mode statement is also illustrated in the first entry and have the effect that Monit will not try to (re)start this service if it is not running:
check process sybase with pidfile /var/run/sybase.pid
start = "/etc/init.d/sybase start"
stop = "/etc/init.d/sybase stop"
mode passive
group database
check process oracle with pidfile /var/run/oracle.pid
start program = "/etc/init.d/oracle start"
stop program = "/etc/init.d/oracle stop"
mode active # Not necessary really, since it's the default
if failed
port 9001 protocol tns
then restart
group database
Here is an example to show the usage of the resource checks. It will send an alert when the CPU usage of the http daemon and its child processes raises beyond 60% for over two cycles. Apache is restarted if the CPU usage is over 80% for five cycles or the memory usage over 100Mb for five cycles or if the machines load average is more than 10 for 8 cycles:
check process apache with pidfile /var/run/httpd.pid
start program = "/etc/init.d/httpd start"
stop program = "/etc/init.d/httpd stop"
if cpu > 40% for 2 cycles then alert
if total cpu > 60% for 2 cycles then alert
if total cpu > 80% for 5 cycles then restart
if mem > 100 MB for 5 cycles then stop
if loadavg(5min) greater than 10.0 for 8 cycles then stop
This examples demonstrate the timestamp statement with exec and how you may restart apache if its configuration file was changed.
check file httpd.conf with path /etc/httpd/httpd.conf
if changed timestamp
then exec "/etc/init.d/httpd graceful"
In this example we demonstrate usage of the extended alert statement and a file check dependency:
check process apache with pidfile /var/run/httpd.pid
start = "/etc/init.d/httpd start"
stop = "/etc/init.d/httpd stop"
alert admin@bar on {nonexist, timeout}
with mail-format {
from: bofh@$HOST
subject: apache $EVENT - $ACTION
message: This event occurred on $HOST at $DATE.
Your faithful employee,
monit
}
if failed host www.tildeslash.com port 80 then restart
if 3 restarts within 5 cycles then timeout
depend httpd_bin
group apache
check file httpd_bin with path /usr/local/apache/bin/httpd
alert security@bar on {checksum, timestamp,
permission, uid, gid}
with mail-format {subject: Alaaarrm! on $HOST}
if failed checksum
and expect 8f7f419955cefa0b33a2ba316cba3659
then unmonitor
if failed permission 755 then unmonitor
if failed uid root then unmonitor
if failed gid root then unmonitor
if changed timestamp then alert
group apache
In this example, we demonstrate usage of the depend statement. In this case, we want to start oracle and apache. However, we've set up apache to use oracle as a back end, and if oracle is restarted, apache must be restarted as well.
check process apache with pidfile /var/run/httpd.pid
start = "/etc/init.d/httpd start"
stop = "/etc/init.d/httpd stop"
depends on oracle
check process oracle with pidfile /var/run/oracle.pid
start = "/etc/init.d/oracle start"
stop = "/etc/init.d/oracle stop"
if failed port 9001 for 5 cycles then restart
Next, we have 2 services, oracle-import and oracle-export that need to be restarted if oracle is restarted, but are independent of each other.
check process oracle with pidfile /var/run/oracle.pid
start = "/etc/init.d/oracle start"
stop = "/etc/init.d/oracle stop"
if failed port 9001 for 3 cycles then restart
check process oracle-import
with pidfile /var/run/oracle-import.pid
start = "/etc/init.d/oracle-import start"
stop = "/etc/init.d/oracle-import stop"
depends on oracle
check process oracle-export
with pidfile /var/run/oracle-export.pid
start = "/etc/init.d/oracle-export start"
stop = "/etc/init.d/oracle-export stop"
depends on oracle
FILES
~/.monitrc Default run control file
/etc/monitrc If the control file is not found in the default location and /etc contains a monitrc file, this file will be used instead.
./monitrc If the control file is not found in either of the previous two locations, and the current working directory contains a monitrc file, this file is used instead.
~/.monit.pid Lock file to help prevent concurrent runs (non-root mode).
/run/monit.pid Lock file to help prevent concurrent runs (root mode, Linux systems, if /run directory is available).
/var/run/monit.pid Lock file to help prevent concurrent runs (root mode, Linux systems).
/etc/monit.pid Lock file to help prevent concurrent runs (root mode, systems without /var/run).
~/.monit.state Monit saves its state to this file and utilizes information found in this file to recover from a crash. This is a binary file and its content is only of interest to monit. You may set the location of this file in the Monit control file or by using the -s switch when Monit is started.
~/.monit.id Monit save its unique id to this file.
ENVIRONMENT
No environment variables are used by Monit. However, when Monit execute a script or a program Monit will set several environment variables which can be utilized by the executable. The following and only the following environment variables are available:
MONIT_EVENT
The event that occurred on the service
MONIT_DESCRIPTION
A description of the error condition
MONIT_SERVICE
The name of the service (from monitrc) on which the event occurred.
MONIT_DATE
The time and date (RFC 822 style) the event occurred
MONIT_HOST
The host the event occurred on
The following environment variables are only available for process service entries:
MONIT_PROCESS_PID
The process pid. This may be 0 if the process was (re)started,
MONIT_PROCESS_MEMORY
Process memory. This may be 0 if the process was (re)started,
MONIT_PROCESS_CHILDREN
Process children. This may be 0 if the process was (re)started,
MONIT_PROCESS_CPU_PERCENT
Process cpu%. This may be 0 if the process was (re)started,
SIGNALS
If a Monit daemon is running, SIGUSR1 wakes it up from its sleep phase and forces a poll of all services. SIGTERM and SIGINT will gracefully terminate a Monit daemon. The SIGTERM signal is sent to a Monit daemon if Monit is started with the quit action argument.
Sending a SIGHUP signal to a running Monit daemon will force the daemon to reinitialize itself, specifically it will reread configuration, close and reopen log files.
Running Monit in foreground while a background Monit daemon is running will wake up the daemon.
NOTES
This is a very silent program. Use the -v switch if you want to see what Monit is doing, and tail -f the logfile. Optionally for testing purposes; you can start Monit with the -Iv switch. Monit will then print debug information to the console, to stop monit in this mode, simply press CTRL^C (i.e. SIGINT) in the same console.
The syntax (and parser) of the control file was inspired by Eric S. Raymond et al. excellent fetchmail program. Some portions of this man page also receive inspiration from the same authors.
COPYRIGHT
Copyright © 2001-2015 by Tildeslash Ltd. All Rights Reserved. This product is distributed in the hope that it will be useful, but WITHOUT any warranty; without even the implied warranty of MERCHANTABILITY or FITNESS for a particular purpose.
SEE ALSO
GNU text utilities; md5sum(1); sha1sum(1); openssl(1); glob(7); regex(7)
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