This Enterprise Class Check Plugin Collection made by Linuxfabrik offers a package of 200+ Python-based, Nagios-compatible check plugins for Icinga, Naemon, Nagios, OP5, Shinken, Sensu and other monitoring applications. Each plugin is a stand-alone command line tool that provides a specific type of check. Typically, your monitoring software will run these check plugins to determine the current status of hosts and services on your network.
The check plugins run on
All plugins are written in Python and licensed under the UNLICENSE, which is a license with no conditions whatsoever that dedicates works to the public domain.
The plugins are fast, reliable and use as few system resources as possible. They uniformly and consistently report the same metrics briefly and precisely on all platforms (for example, always "used" instead of a mixture of "used" and "free"). Automatic detection and Auto-Discovery mechanisms are built-in where possible. Using meaningful default settings, the plugins trigger WARNs and CRITs only where absolutely necessary. In addition they provide information for troubleshooting. We try to avoid dependencies on 3rd party system libraries where possible.
The source code is published here without support. If you need Enterprise Support, conclude a Service Contract.
If you simply like to support our work, please consider donating and become a sponsor:
Do you think more people should know about it? Sharing is caring, so feel free to spread the word. We would really appreciate if you share this on any social media, or link this site on any blog or forum. Or more specifically: It would be great if you could tell on GitHub discussions how you use the plugins.
For now, there are two ways:
See some of our check plugins at a glance on an Icinga server:
If you zoom in, for example on CPU Usage:
Some comments from the community about our monitoring plugins:
Thanks again @linuxfabrik for writing the csv-values check the way you did and not what I originally requested ;-)
-- Dominik Riva
... the Linuxfabrik-Monitoring-Plugins are great, thanks for your effort, we are using them very much.
... thanks for your awesome plugins.
... Thanks for your awesome work & have a good day.
-- \Barney
... the Linux fabrik plugins are excellent.
... I can recommend this family of plugins, they are the highest quality I have seen around. ...
Ich bin vor kurzem (via Video vom Icinga Camp) ΓΌber Eure Monitoringplugins gestolpert. Ganz herzlichen Dank dafΓΌr, groΓartige Arbeit!!
-- Christian Lox
... many thanks for your great collection of monitoring plugins! I've just found them - clean structure and output, cross-platform, Icinga Directory Basket configurations - loving it and currently migrating step by step most of my checks to use them where possible. π
-- Bernd Bestel
Nachdem ich beim Versuch, Nagios-Plugins auf VMwares Photon-OS zum laufen zu kriegen, graue Haare gekriegt habe, haben mir eure Plugins zum Ziel verholfen.
-- MajorTwip
A well engineered, regularly updated and maintained collection of plugins. Specially focused on Linux servers/VMs and used at large scale by the company developing it.
-- straessler
Hello, I stumbled across your collection and am thrilled! Especially the extensive documentary and the Director Baskets are a dream.
-- Stefan Beining
The "Linuxfabrik Monitoring Plugins" on a card of our popular Open Source Quartet from 2023 π. Sold out, but there's still more to discover in the Linuxfabrik Spreadshop.
Regarding the check plugin output, this is how we convert and append symbols to large numbers in a human-readable format (according to Wikipedia Names of large numbers, and other).
Since the primary hosting platform is Linux, which uses IEC, the plugins display byte sizes in powers of 2 (KiB, MiB, GiB etc.) - otherwise it would be very confusing to have the monitoring plugins said something different than the command line.
Value | Symbol | Origin | Type | Description |
---|---|---|---|---|
1000\^1 | K | Number | Thousand | |
1000\^2 | M | SI Symbol | Number | Million (1), Million (2) |
1000\^3 | G | SI Symbol | Number | Milliard (1), Billion (2) |
1000\^4 | T | SI Symbol | Number | Billion (1), Trillion (2) |
1000\^5 | P | SI Symbol | Number | Billiard (1), Quadrillion (2) |
1000\^6 | E | SI Symbol | Number | Trillion (1), Quintillion (2) |
1000\^7 | Z | SI Symbol | Number | Trilliard (1), Sextillion (2) |
1000\^8 | Y | SI Symbol | Number | Quadrillion (1), Septillion (2) |
1024\^0 | B | Bytes | Bytes | |
1024\^1 | KiB | IEC unit | Bytes | Kibibytes |
1024\^2 | MiB | IEC unit | Bytes | Mebibytes |
1024\^3 | GiB | IEC unit | Bytes | Gibibytes |
1024\^4 | TiB | IEC unit | Bytes | Tebibytes |
1024\^5 | PiB | IEC unit | Bytes | Pebibytes |
1024\^6 | EiB | IEC unit | Bytes | Exbibytes |
1024\^7 | ZiB | IEC unit | Bytes | Zebibytes |
1024\^8 | YiB | IEC unit | Bytes | Yobibytes |
1000\^1 | KB | Bytes | Kilobytes | |
1000\^2 | MB | Bytes | Megabytes | |
1000\^3 | GB | Bytes | Gigabytes | |
1000\^4 | TB | Bytes | Terrabytes | |
1000\^5 | PB | Bytes | Petabytes | |
1000\^6 | EB | Bytes | Exabytes | |
1000\^7 | ZB | Bytes | Zetabytes | |
1000\^8 | YB | Bytes | Yottabytes | |
1000\^1 | Kbps | Bits per Second | Kilobits | |
1000\^2 | Mbps | Bits per Second | Megabits | |
1000\^3 | Gbps | Bits per Second | Gigabits | |
1000\^4 | Tbps | Bits per Second | Terrabits | |
1000\^5 | Pbps | Bits per Second | Petabits | |
1000\^6 | Ebps | Bits per Second | Exabits | |
1000\^7 | Zbps | Bits per Second | Zetabits | |
1000\^8 | Ybps | Bits per Second | Yottabits | |
1e-12 | ps | Time | Picoseconds | |
1e-9 | ns | Time | Nanoseconds | |
1e-6 | us | Time | Microseconds | |
1e-3 | ms | Time | Milliseconds | |
1..59 | s | Time | Seconds | |
60 | m | Time | Minutes | |
60*60 | h | Time | Hours | |
60*60*24 | D | Time | Days | |
60*60*24*7 | W | Time | Weeks | |
60*60*24*30 | M | Time | Months | |
60*60*24*365 | Y | Time | Years |
If a check supports Nagios ranges, they can be used as follows:
start:end
.:
: Positive infinity.~
: Negative infinity.@
: Like a NOT for the whole expression. So if range starts with @
, then alert if inside this range (including endpoints).Examples:
-w, -c | OK if result is | WARN/CRIT if |
---|---|---|
10 | in (0..10) | not in (0..10) |
-10 | in (-10..0) | not in (-10..0) |
10: | in (10..inf) | not in (10..inf) |
: | in (0..inf) | not in (0..inf) |
~:10 | in (-inf..10) | not in (-inf..10) |
10:20 | in (10..20) | not in (10..20) |
@10:20 | not in (10..20) | in 10..20 |
@~:20 | not in (-inf..20) | in (-inf..20) |
@ | not in (0..inf) | in (0..inf) |
Shell commands like ./file-age --filename='/tmp/*'
have two basic parts:
./file-age
). May be followed by one or more options, which adjust the behavior of the command or what it will do.--filename
, value '/tmp/*'
). They adjust the behavior of the command. Parameters may be short (-w
) or long (--warning
). We prefer and often offer only the long version.Many shell commands may also be followed by one or more arguments, which often indicate a target that the command should operate upon (useradd linus
for example) . This does not apply to the check-plugins.
To avoid problems when passing parameter values that start with a -
, the command line call must look like this:
./file-age --warning=-60:3600
(use --param=value
instead of --param value
)../file-age -w-60:3600
(so simply not putting any space nor escaping it in any special way).βββ plugin-name
βββ assets Additional ressources, for example helper scripts like monitoring.php
βββ grafana Grafana dashboard definition
βββ icingaweb2-module-director Icinga Director basket definition
βββ icingaweb2-module-grafana Grafana panel definition for Icinga's Grafana module
βββ lib Link to the Linuxfabrik Python libraries
βββ unit-test File for unit tests
β βββ retc Files for simulating return codes
β βββ stdin Files for simulating output to STDOUT
β βββ stdout Files for simulating output to STDERR
β βββ run The unit test
βββ plugin-name The monitoring plugin
When running from source, almost all check plugins are happy with at least Python 3.6. All plugins define the #!/usr/bin/env python3
shebang.
You can download all check plugin icons from download.linuxfabrik.ch. For Icinga, put them in /usr/share/icingaweb2/public/img/icons/
.
See GRAFANA
See CONTRIBUTING
See BUILD
Q: After an update, I get Operational Error: no such column: ..., state UNKNOWN. On the next run, this disappears. What happened?
A: Some check plugins require SQLite database files to cache data or to calculate data over time. After an update it is possible that the check plugin uses a new schema, but the database file on disk hasn't been updated (we don't implement database migrations). So in case of an "OperationalError", which happens for example when the plugin tries to INSERT into an outdated table, the database library simply deletes the sqlite database file. It will then be recreated from scratch by the plugin on the next run, with the updated database structure.
Q: How can I remove the performance data after the |
from the check output?
A: In Bash, use /usr/lib64/nagios/plugins/check-command | cut -f1 -d'|'
Q: Do the plugins also handle proxy environment variables like HTTP_PROXY
?
A: Yes, HTTP_PROXY
, HTTPS_PROXY
, http_proxy
and http_proxy
are automatically used by the Linuxfabrik monitoring plugins if they are set.
Q: Icinga does not seem to pass the environment variable http_proxy
to the plugins. What am i doing wrong?
This has nothing to do with the Linuxfabrik monitoring plugins - the Icinga configuration needs to be adjusted here. You need to do some additional configuration to make custom environment variables generally available. According to this Icinga community post you need to set them in /etc/icinga2/icinga2.conf
:
template CheckCommand default {
env.http_proxy = "http://username:password@proxy.example.com:port"
env.https_proxy = "http://username:password@proxy.example.com:port"
}
If you are also using sudo
to call some plugins from within Icinga, you will also need to set this in your /etc/sudoers.d/whatever.sudoers
:
Defaults env_keep += "http_proxy https_proxy"
Pro tips:
/etc/environment
and /etc/icinga2/icinga2.conf
will be overwritten by /etc/icinga2/icinga2.conf
.Q: All pipe characters |
in the output of any plugin are replaced with !
. Why?
A: We have to. The output syntax of Nagios plugins is fixed and not very flexible:
Output lines | Performance data
So the |
character is reserved to separate plugin output from performance data. There is no way to escape it - so we have to replace it with !
.
Q: Negative values for plugin arguments cause problems in Icinga.
A: As of 2024-11, Icinga still passes parameter values to plugins without a leading =
. This causes plugins to assume that parameters starting with negative values are additional but unknown arguments. In Icinga this can be avoided by prefixing the first minus sign of a value with a backslash \
, which is later removed by the base.py library (v2024112001+). So just use \-60
or \-60:-3600
instead of -60
or -60:-3600
(see #789).