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Unify documentation code formatting

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This unifies the documentation code formatting to use only backticks.
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Michael Insel 2019-03-07 19:56:49 +01:00 committed by Michael Friedrich
parent f4e9028543
commit 081d88436f
17 changed files with 4570 additions and 3431 deletions
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481
doc/04-configuring-icinga-2.md
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@ -77,12 +77,14 @@ If you prefer to organize your own local object tree, you can also remove
Create a new configuration directory, e.g. `objects.d` and include it Create a new configuration directory, e.g. `objects.d` and include it
in your icinga2.conf file. in your icinga2.conf file.
[root@icinga2-master1.localdomain /]# mkdir -p /etc/icinga2/objects.d ```
[root@icinga2-master1.localdomain /]# mkdir -p /etc/icinga2/objects.d
[root@icinga2-master1.localdomain /]# vim /etc/icinga2/icinga2.conf [root@icinga2-master1.localdomain /]# vim /etc/icinga2/icinga2.conf
/* Local object configuration on our master instance. */ /* Local object configuration on our master instance. */
include_recursive "objects.d" include_recursive "objects.d"
```
This approach is used by the [Icinga 2 Puppet module](https://github.com/Icinga/puppet-icinga2). This approach is used by the [Icinga 2 Puppet module](https://github.com/Icinga/puppet-icinga2).
@ -97,74 +99,82 @@ An example configuration file is installed for you in `/etc/icinga2/icinga2.conf
Here's a brief description of the example configuration: Here's a brief description of the example configuration:
/** ```
* Icinga 2 configuration file /**
* -- this is where you define settings for the Icinga application including * Icinga 2 configuration file
* which hosts/services to check. * -- this is where you define settings for the Icinga application including
* * which hosts/services to check.
* For an overview of all available configuration options please refer *
* to the documentation that is distributed as part of Icinga 2. * For an overview of all available configuration options please refer
*/ * to the documentation that is distributed as part of Icinga 2.
*/
```
Icinga 2 supports [C/C++-style comments](17-language-reference.md#comments). Icinga 2 supports [C/C++-style comments](17-language-reference.md#comments).
/** /**
* The constants.conf defines global constants. * The constants.conf defines global constants.
*/ */
include "constants.conf" include "constants.conf"
The `include` directive can be used to include other files. The `include` directive can be used to include other files.
/** ```
* The zones.conf defines zones for a cluster setup. /**
* Not required for single instance setups. * The zones.conf defines zones for a cluster setup.
*/ * Not required for single instance setups.
include "zones.conf" */
include "zones.conf"
```
The [Icinga Template Library](10-icinga-template-library.md#icinga-template-library) provides a set of common templates The [Icinga Template Library](10-icinga-template-library.md#icinga-template-library) provides a set of common templates
and [CheckCommand](03-monitoring-basics.md#check-commands) definitions. and [CheckCommand](03-monitoring-basics.md#check-commands) definitions.
/** ```
* The Icinga Template Library (ITL) provides a number of useful templates /**
* and command definitions. * The Icinga Template Library (ITL) provides a number of useful templates
* Common monitoring plugin command definitions are included separately. * and command definitions.
*/ * Common monitoring plugin command definitions are included separately.
include <itl> */
include <plugins> include <itl>
include <plugins-contrib> include <plugins>
include <manubulon> include <plugins-contrib>
include <manubulon>
/** /**
* This includes the Icinga 2 Windows plugins. These command definitions * This includes the Icinga 2 Windows plugins. These command definitions
* are required on a master node when a client is used as command endpoint. * are required on a master node when a client is used as command endpoint.
*/ */
include <windows-plugins> include <windows-plugins>
/** /**
* This includes the NSClient++ check commands. These command definitions * This includes the NSClient++ check commands. These command definitions
* are required on a master node when a client is used as command endpoint. * are required on a master node when a client is used as command endpoint.
*/ */
include <nscp> include <nscp>
/** /**
* The features-available directory contains a number of configuration * The features-available directory contains a number of configuration
* files for features which can be enabled and disabled using the * files for features which can be enabled and disabled using the
* icinga2 feature enable / icinga2 feature disable CLI commands. * icinga2 feature enable / icinga2 feature disable CLI commands.
* These commands work by creating and removing symbolic links in * These commands work by creating and removing symbolic links in
* the features-enabled directory. * the features-enabled directory.
*/ */
include "features-enabled/*.conf" include "features-enabled/*.conf"
```
This `include` directive takes care of including the configuration files for all This `include` directive takes care of including the configuration files for all
the features which have been enabled with `icinga2 feature enable`. See the features which have been enabled with `icinga2 feature enable`. See
[Enabling/Disabling Features](11-cli-commands.md#enable-features) for more details. [Enabling/Disabling Features](11-cli-commands.md#enable-features) for more details.
/** ```
* Although in theory you could define all your objects in this file /**
* the preferred way is to create separate directories and files in the conf.d * Although in theory you could define all your objects in this file
* directory. Each of these files must have the file extension ".conf". * the preferred way is to create separate directories and files in the conf.d
*/ * directory. Each of these files must have the file extension ".conf".
include_recursive "conf.d" */
include_recursive "conf.d"
```
You can put your own configuration files in the [conf.d](04-configuring-icinga-2.md#conf-d) directory. This You can put your own configuration files in the [conf.d](04-configuring-icinga-2.md#conf-d) directory. This
directive makes sure that all of your own configuration files are included. directive makes sure that all of your own configuration files are included.
@ -184,24 +194,26 @@ cluster setup.
Example: Example:
/* The directory which contains the plugins from the Monitoring Plugins project. */ ```
const PluginDir = "/usr/lib64/nagios/plugins" /* The directory which contains the plugins from the Monitoring Plugins project. */
const PluginDir = "/usr/lib64/nagios/plugins"
/* The directory which contains the Manubulon plugins. /* The directory which contains the Manubulon plugins.
* Check the documentation, chapter "SNMP Manubulon Plugin Check Commands", for details. * Check the documentation, chapter "SNMP Manubulon Plugin Check Commands", for details.
*/ */
const ManubulonPluginDir = "/usr/lib64/nagios/plugins" const ManubulonPluginDir = "/usr/lib64/nagios/plugins"
/* Our local instance name. By default this is the server's hostname as returned by `hostname --fqdn`. /* Our local instance name. By default this is the server's hostname as returned by `hostname --fqdn`.
* This should be the common name from the API certificate. * This should be the common name from the API certificate.
*/ */
//const NodeName = "localhost" //const NodeName = "localhost"
/* Our local zone name. */ /* Our local zone name. */
const ZoneName = NodeName const ZoneName = NodeName
/* Secret key for remote node tickets */ /* Secret key for remote node tickets */
const TicketSalt = "" const TicketSalt = ""
```
The `ZoneName` and `TicketSalt` constants are required for remote client The `ZoneName` and `TicketSalt` constants are required for remote client
and distributed setups only. and distributed setups only.
@ -286,57 +298,59 @@ rules in [services.conf](04-configuring-icinga-2.md#services-conf) will automati
generate a new service checking the `/icingaweb2` URI using the `http` generate a new service checking the `/icingaweb2` URI using the `http`
check. check.
/* ```
* Host definitions with object attributes /*
* used for apply rules for Service, Notification, * Host definitions with object attributes
* Dependency and ScheduledDowntime objects. * used for apply rules for Service, Notification,
* * Dependency and ScheduledDowntime objects.
* Tip: Use `icinga2 object list --type Host` to *
* list all host objects after running * Tip: Use `icinga2 object list --type Host` to
* configuration validation (`icinga2 daemon -C`). * list all host objects after running
*/ * configuration validation (`icinga2 daemon -C`).
*/
/* /*
* This is an example host based on your * This is an example host based on your
* local host's FQDN. Specify the NodeName * local host's FQDN. Specify the NodeName
* constant in `constants.conf` or use your * constant in `constants.conf` or use your
* own description, e.g. "db-host-1". * own description, e.g. "db-host-1".
*/ */
object Host NodeName { object Host NodeName {
/* Import the default host template defined in `templates.conf`. */ /* Import the default host template defined in `templates.conf`. */
import "generic-host" import "generic-host"
/* Specify the address attributes for checks e.g. `ssh` or `http`. */ /* Specify the address attributes for checks e.g. `ssh` or `http`. */
address = "127.0.0.1" address = "127.0.0.1"
address6 = "::1" address6 = "::1"
/* Set custom attribute `os` for hostgroup assignment in `groups.conf`. */ /* Set custom attribute `os` for hostgroup assignment in `groups.conf`. */
vars.os = "Linux" vars.os = "Linux"
/* Define http vhost attributes for service apply rules in `services.conf`. */ /* Define http vhost attributes for service apply rules in `services.conf`. */
vars.http_vhosts["http"] = { vars.http_vhosts["http"] = {
http_uri = "/" http_uri = "/"
} }
/* Uncomment if you've sucessfully installed Icinga Web 2. */ /* Uncomment if you've sucessfully installed Icinga Web 2. */
//vars.http_vhosts["Icinga Web 2"] = { //vars.http_vhosts["Icinga Web 2"] = {
// http_uri = "/icingaweb2" // http_uri = "/icingaweb2"
//} //}
/* Define disks and attributes for service apply rules in `services.conf`. */ /* Define disks and attributes for service apply rules in `services.conf`. */
vars.disks["disk"] = { vars.disks["disk"] = {
/* No parameters. */ /* No parameters. */
} }
vars.disks["disk /"] = { vars.disks["disk /"] = {
disk_partitions = "/" disk_partitions = "/"
} }
/* Define notification mail attributes for notification apply rules in `notifications.conf`. */ /* Define notification mail attributes for notification apply rules in `notifications.conf`. */
vars.notification["mail"] = { vars.notification["mail"] = {
/* The UserGroup `icingaadmins` is defined in `users.conf`. */ /* The UserGroup `icingaadmins` is defined in `users.conf`. */
groups = [ "icingaadmins" ] groups = [ "icingaadmins" ]
} }
} }
```
This is only the host object definition. Now we'll need to make sure that this This is only the host object definition. Now we'll need to make sure that this
host and your additional hosts are getting [services](04-configuring-icinga-2.md#services-conf) applied. host and your additional hosts are getting [services](04-configuring-icinga-2.md#services-conf) applied.
@ -376,16 +390,18 @@ which we enabled earlier by including the `itl` and `plugins` configuration file
Example `load` service apply rule: Example `load` service apply rule:
apply Service "load" { ```
import "generic-service" apply Service "load" {
import "generic-service"
check_command = "load" check_command = "load"
/* Used by the ScheduledDowntime apply rule in `downtimes.conf`. */ /* Used by the ScheduledDowntime apply rule in `downtimes.conf`. */
vars.backup_downtime = "02:00-03:00" vars.backup_downtime = "02:00-03:00"
assign where host.name == NodeName assign where host.name == NodeName
} }
```
The `apply` keyword can be used to create new objects which are associated with The `apply` keyword can be used to create new objects which are associated with
another group of objects. You can `import` existing templates, define (custom) another group of objects. You can `import` existing templates, define (custom)
@ -403,13 +419,15 @@ may be used in `assign where` conditions.
Multiple `assign where` condition can be combined with `AND` using the `&&` operator Multiple `assign where` condition can be combined with `AND` using the `&&` operator
as shown in the `ssh` example: as shown in the `ssh` example:
apply Service "ssh" { ```
import "generic-service" apply Service "ssh" {
import "generic-service"
check_command = "ssh" check_command = "ssh"
assign where host.address && host.vars.os == "Linux" assign where host.address && host.vars.os == "Linux"
} }
```
In this example, the service `ssh` is applied to all hosts having the `address` In this example, the service `ssh` is applied to all hosts having the `address`
attribute defined `AND` having the custom attribute `os` set to the string attribute defined `AND` having the custom attribute `os` set to the string
@ -429,16 +447,17 @@ The idea is simple: Your host in [hosts.conf](04-configuring-icinga-2.md#hosts-c
Remember the example from [hosts.conf](04-configuring-icinga-2.md#hosts-conf): Remember the example from [hosts.conf](04-configuring-icinga-2.md#hosts-conf):
... ```
/* Define disks and attributes for service apply rules in `services.conf`. */ ...
vars.disks["disk"] = { /* Define disks and attributes for service apply rules in `services.conf`. */
/* No parameters. */ vars.disks["disk"] = {
} /* No parameters. */
vars.disks["disk /"] = { }
disk_partition = "/" vars.disks["disk /"] = {
} disk_partition = "/"
... }
...
```
This dictionary contains multiple service names we want to monitor. `disk` This dictionary contains multiple service names we want to monitor. `disk`
should just check all available disks, while `disk /` will pass an additional should just check all available disks, while `disk /` will pass an additional
@ -466,13 +485,15 @@ generated service
Configuration example: Configuration example:
apply Service for (disk => config in host.vars.disks) { ```
import "generic-service" apply Service for (disk => config in host.vars.disks) {
import "generic-service"
check_command = "disk" check_command = "disk"
vars += config vars += config
} }
```
A similar example is used for the `http` services. That way you can make your A similar example is used for the `http` services. That way you can make your
host the information provider for all apply rules. Define them once, and only host the information provider for all apply rules. Define them once, and only
@ -494,19 +515,20 @@ Defines the `icingaadmin` User and the `icingaadmins` UserGroup. The latter is u
[hosts.conf](04-configuring-icinga-2.md#hosts-conf) for defining a custom host attribute later used in [hosts.conf](04-configuring-icinga-2.md#hosts-conf) for defining a custom host attribute later used in
[notifications.conf](04-configuring-icinga-2.md#notifications-conf) for notification apply rules. [notifications.conf](04-configuring-icinga-2.md#notifications-conf) for notification apply rules.
object User "icingaadmin" { ```
import "generic-user" object User "icingaadmin" {
import "generic-user"
display_name = "Icinga 2 Admin" display_name = "Icinga 2 Admin"
groups = [ "icingaadmins" ] groups = [ "icingaadmins" ]
email = "icinga@localhost" email = "icinga@localhost"
} }
object UserGroup "icingaadmins" {
display_name = "Icinga 2 Admin Group"
}
object UserGroup "icingaadmins" {
display_name = "Icinga 2 Admin Group"
}
```
#### notifications.conf <a id="notifications-conf"></a> #### notifications.conf <a id="notifications-conf"></a>
@ -527,23 +549,25 @@ By setting the `user_groups` to the value provided by the
respective [host.vars.notification.mail](04-configuring-icinga-2.md#hosts-conf) attribute we'll respective [host.vars.notification.mail](04-configuring-icinga-2.md#hosts-conf) attribute we'll
implicitely use the `icingaadmins` UserGroup defined in [users.conf](04-configuring-icinga-2.md#users-conf). implicitely use the `icingaadmins` UserGroup defined in [users.conf](04-configuring-icinga-2.md#users-conf).
apply Notification "mail-icingaadmin" to Host { ```
import "mail-host-notification" apply Notification "mail-icingaadmin" to Host {
import "mail-host-notification"
user_groups = host.vars.notification.mail.groups user_groups = host.vars.notification.mail.groups
users = host.vars.notification.mail.users users = host.vars.notification.mail.users
assign where host.vars.notification.mail assign where host.vars.notification.mail
} }
apply Notification "mail-icingaadmin" to Service { apply Notification "mail-icingaadmin" to Service {
import "mail-service-notification" import "mail-service-notification"
user_groups = host.vars.notification.mail.groups user_groups = host.vars.notification.mail.groups
users = host.vars.notification.mail.users users = host.vars.notification.mail.users
assign where host.vars.notification.mail assign where host.vars.notification.mail
} }
```
More details on defining notifications and their additional attributes such as More details on defining notifications and their additional attributes such as
filters can be read in [this chapter](03-monitoring-basics.md#alert-notifications). filters can be read in [this chapter](03-monitoring-basics.md#alert-notifications).
@ -565,85 +589,91 @@ a member of the host group `linux-servers`.
This is done by using the [group assign](17-language-reference.md#group-assign) expressions similar This is done by using the [group assign](17-language-reference.md#group-assign) expressions similar
to previously seen [apply rules](03-monitoring-basics.md#using-apply). to previously seen [apply rules](03-monitoring-basics.md#using-apply).
object HostGroup "linux-servers" { ```
display_name = "Linux Servers" object HostGroup "linux-servers" {
display_name = "Linux Servers"
assign where host.vars.os == "Linux" assign where host.vars.os == "Linux"
} }
object HostGroup "windows-servers" { object HostGroup "windows-servers" {
display_name = "Windows Servers" display_name = "Windows Servers"
assign where host.vars.os == "Windows" assign where host.vars.os == "Windows"
} }
```
Service groups can be grouped together by similar pattern matches. Service groups can be grouped together by similar pattern matches.
The [match function](18-library-reference.md#global-functions-match) expects a wildcard match string The [match function](18-library-reference.md#global-functions-match) expects a wildcard match string
and the attribute string to match with. and the attribute string to match with.
object ServiceGroup "ping" { ```
display_name = "Ping Checks" object ServiceGroup "ping" {
display_name = "Ping Checks"
assign where match("ping*", service.name) assign where match("ping*", service.name)
} }
object ServiceGroup "http" { object ServiceGroup "http" {
display_name = "HTTP Checks" display_name = "HTTP Checks"
assign where match("http*", service.check_command) assign where match("http*", service.check_command)
} }
object ServiceGroup "disk" { object ServiceGroup "disk" {
display_name = "Disk Checks" display_name = "Disk Checks"
assign where match("disk*", service.check_command)
}
assign where match("disk*", service.check_command)
}
```
#### templates.conf <a id="templates-conf"></a> #### templates.conf <a id="templates-conf"></a>
Most of the example configuration objects use generic global templates by Most of the example configuration objects use generic global templates by
default: default:
template Host "generic-host" { ```
max_check_attempts = 5 template Host "generic-host" {
check_interval = 1m max_check_attempts = 5
retry_interval = 30s check_interval = 1m
retry_interval = 30s
check_command = "hostalive" check_command = "hostalive"
} }
template Service "generic-service" { template Service "generic-service" {
max_check_attempts = 3 max_check_attempts = 3
check_interval = 1m check_interval = 1m
retry_interval = 30s retry_interval = 30s
} }
```
The `hostalive` check command is part of the The `hostalive` check command is part of the
[Plugin Check Commands](10-icinga-template-library.md#icinga-template-library). [Plugin Check Commands](10-icinga-template-library.md#icinga-template-library).
```
template Notification "mail-host-notification" {
command = "mail-host-notification"
template Notification "mail-host-notification" { states = [ Up, Down ]
command = "mail-host-notification" types = [ Problem, Acknowledgement, Recovery, Custom,
FlappingStart, FlappingEnd,
DowntimeStart, DowntimeEnd, DowntimeRemoved ]
states = [ Up, Down ] period = "24x7"
types = [ Problem, Acknowledgement, Recovery, Custom, }
FlappingStart, FlappingEnd,
DowntimeStart, DowntimeEnd, DowntimeRemoved ]
period = "24x7" template Notification "mail-service-notification" {
} command = "mail-service-notification"
template Notification "mail-service-notification" { states = [ OK, Warning, Critical, Unknown ]
command = "mail-service-notification" types = [ Problem, Acknowledgement, Recovery, Custom,
FlappingStart, FlappingEnd,
DowntimeStart, DowntimeEnd, DowntimeRemoved ]
states = [ OK, Warning, Critical, Unknown ] period = "24x7"
types = [ Problem, Acknowledgement, Recovery, Custom, }
FlappingStart, FlappingEnd, ```
DowntimeStart, DowntimeEnd, DowntimeRemoved ]
period = "24x7"
}
More details on `Notification` object attributes can be found [here](09-object-types.md#objecttype-notification). More details on `Notification` object attributes can be found [here](09-object-types.md#objecttype-notification).
@ -658,23 +688,24 @@ for the time ranges required for recurring downtime slots.
Learn more about downtimes in [this chapter](08-advanced-topics.md#downtimes). Learn more about downtimes in [this chapter](08-advanced-topics.md#downtimes).
apply ScheduledDowntime "backup-downtime" to Service { ```
author = "icingaadmin" apply ScheduledDowntime "backup-downtime" to Service {
comment = "Scheduled downtime for backup" author = "icingaadmin"
comment = "Scheduled downtime for backup"
ranges = { ranges = {
monday = service.vars.backup_downtime monday = service.vars.backup_downtime
tuesday = service.vars.backup_downtime tuesday = service.vars.backup_downtime
wednesday = service.vars.backup_downtime wednesday = service.vars.backup_downtime
thursday = service.vars.backup_downtime thursday = service.vars.backup_downtime
friday = service.vars.backup_downtime friday = service.vars.backup_downtime
saturday = service.vars.backup_downtime saturday = service.vars.backup_downtime
sunday = service.vars.backup_downtime sunday = service.vars.backup_downtime
} }
assign where service.vars.backup_downtime != ""
}
assign where service.vars.backup_downtime != ""
}
```
#### timeperiods.conf <a id="timeperiods-conf"></a> #### timeperiods.conf <a id="timeperiods-conf"></a>

109
doc/05-service-monitoring.md
View File

@ -15,24 +15,28 @@ The recommended way of setting up these plugins is to copy them to a common dire
and create a new global constant, e.g. `CustomPluginDir` in your [constants.conf](04-configuring-icinga-2.md#constants-conf) and create a new global constant, e.g. `CustomPluginDir` in your [constants.conf](04-configuring-icinga-2.md#constants-conf)
configuration file: configuration file:
# cp check_snmp_int.pl /opt/monitoring/plugins ```
# chmod +x /opt/monitoring/plugins/check_snmp_int.pl # cp check_snmp_int.pl /opt/monitoring/plugins
# chmod +x /opt/monitoring/plugins/check_snmp_int.pl
# cat /etc/icinga2/constants.conf # cat /etc/icinga2/constants.conf
/** /**
* This file defines global constants which can be used in * This file defines global constants which can be used in
* the other configuration files. At a minimum the * the other configuration files. At a minimum the
* PluginDir constant should be defined. * PluginDir constant should be defined.
*/ */
const PluginDir = "/usr/lib/nagios/plugins" const PluginDir = "/usr/lib/nagios/plugins"
const CustomPluginDir = "/opt/monitoring/plugins" const CustomPluginDir = "/opt/monitoring/plugins"
```
Prior to using the check plugin with Icinga 2 you should ensure that it is working properly Prior to using the check plugin with Icinga 2 you should ensure that it is working properly
by trying to run it on the console using whichever user Icinga 2 is running as: by trying to run it on the console using whichever user Icinga 2 is running as:
# su - icinga -s /bin/bash ```
$ /opt/monitoring/plugins/check_snmp_int.pl --help # su - icinga -s /bin/bash
$ /opt/monitoring/plugins/check_snmp_int.pl --help
```
Additional libraries may be required for some plugins. Please consult the plugin Additional libraries may be required for some plugins. Please consult the plugin
documentation and/or the included README file for installation instructions. documentation and/or the included README file for installation instructions.
@ -64,30 +68,31 @@ set them on host/service level and you'll always know which command they control
This is an example for a custom `my-snmp-int` check command: This is an example for a custom `my-snmp-int` check command:
object CheckCommand "my-snmp-int" { ```
command = [ CustomPluginDir + "/check_snmp_int.pl" ] object CheckCommand "my-snmp-int" {
command = [ CustomPluginDir + "/check_snmp_int.pl" ]
arguments = { arguments = {
"-H" = "$snmp_address$" "-H" = "$snmp_address$"
"-C" = "$snmp_community$" "-C" = "$snmp_community$"
"-p" = "$snmp_port$" "-p" = "$snmp_port$"
"-2" = { "-2" = {
set_if = "$snmp_v2$" set_if = "$snmp_v2$"
}
"-n" = "$snmp_interface$"
"-f" = {
set_if = "$snmp_perf$"
}
"-w" = "$snmp_warn$"
"-c" = "$snmp_crit$"
}
vars.snmp_v2 = true
vars.snmp_perf = true
vars.snmp_warn = "300,400"
vars.snmp_crit = "0,600"
} }
"-n" = "$snmp_interface$"
"-f" = {
set_if = "$snmp_perf$"
}
"-w" = "$snmp_warn$"
"-c" = "$snmp_crit$"
}
vars.snmp_v2 = true
vars.snmp_perf = true
vars.snmp_warn = "300,400"
vars.snmp_crit = "0,600"
}
```
For further information on your monitoring configuration read the For further information on your monitoring configuration read the
[Monitoring Basics](03-monitoring-basics.md#monitoring-basics) chapter. [Monitoring Basics](03-monitoring-basics.md#monitoring-basics) chapter.
@ -127,28 +132,30 @@ Common best practices when creating a new plugin are for example:
Example skeleton: Example skeleton:
# 1. include optional libraries ```
# 2. global variables # 1. include optional libraries
# 3. helper functions and/or classes # 2. global variables
# 4. define timeout condition # 3. helper functions and/or classes
# 4. define timeout condition
if (<timeout_reached>) then if (<timeout_reached>) then
print "UNKNOWN - Timeout (...) reached | 'time'=30.0 print "UNKNOWN - Timeout (...) reached | 'time'=30.0
endif endif
# 5. main method # 5. main method
<execute and fetch data> <execute and fetch data>
if (<threshold_critical_condition>) then if (<threshold_critical_condition>) then
print "CRITICAL - ... | 'time'=0.1 'myperfdatavalue'=5.0 print "CRITICAL - ... | 'time'=0.1 'myperfdatavalue'=5.0
exit(2) exit(2)
else if (<threshold_warning_condition>) then else if (<threshold_warning_condition>) then
print "WARNING - ... | 'time'=0.1 'myperfdatavalue'=3.0 print "WARNING - ... | 'time'=0.1 'myperfdatavalue'=3.0
exit(1) exit(1)
else else
print "OK - ... | 'time'=0.2 'myperfdatavalue'=1.0 print "OK - ... | 'time'=0.2 'myperfdatavalue'=1.0
endif endif
```
There are various plugin libraries available which will help There are various plugin libraries available which will help
with plugin execution and output formatting too, for example with plugin execution and output formatting too, for example

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@ -15,15 +15,17 @@ The following example uses the [SNMP ITL](10-icinga-template-library.md#plugin-c
overrides the `snmp_oid` custom attribute. A service is created for all hosts which overrides the `snmp_oid` custom attribute. A service is created for all hosts which
have the `snmp-community` custom attribute. have the `snmp-community` custom attribute.
apply Service "uptime" { ```
import "generic-service" apply Service "uptime" {
import "generic-service"
check_command = "snmp" check_command = "snmp"
vars.snmp_oid = "1.3.6.1.2.1.1.3.0" vars.snmp_oid = "1.3.6.1.2.1.1.3.0"
vars.snmp_miblist = "DISMAN-EVENT-MIB" vars.snmp_miblist = "DISMAN-EVENT-MIB"
assign where host.vars.snmp_community != "" assign where host.vars.snmp_community != ""
} }
```
Additional SNMP plugins are available using the [Manubulon SNMP Plugins](10-icinga-template-library.md#snmp-manubulon-plugin-check-commands). Additional SNMP plugins are available using the [Manubulon SNMP Plugins](10-icinga-template-library.md#snmp-manubulon-plugin-check-commands).
@ -37,23 +39,25 @@ Calling a plugin using the SSH protocol to execute a plugin on the remote server
its return code and output. The `by_ssh` command object is part of the built-in templates and its return code and output. The `by_ssh` command object is part of the built-in templates and
requires the `check_by_ssh` check plugin which is available in the [Monitoring Plugins package](02-getting-started.md#setting-up-check-plugins). requires the `check_by_ssh` check plugin which is available in the [Monitoring Plugins package](02-getting-started.md#setting-up-check-plugins).
object CheckCommand "by_ssh_swap" { ```
import "by_ssh" object CheckCommand "by_ssh_swap" {
import "by_ssh"
vars.by_ssh_command = "/usr/lib/nagios/plugins/check_swap -w $by_ssh_swap_warn$ -c $by_ssh_swap_crit$" vars.by_ssh_command = "/usr/lib/nagios/plugins/check_swap -w $by_ssh_swap_warn$ -c $by_ssh_swap_crit$"
vars.by_ssh_swap_warn = "75%" vars.by_ssh_swap_warn = "75%"
vars.by_ssh_swap_crit = "50%" vars.by_ssh_swap_crit = "50%"
} }
object Service "swap" { object Service "swap" {
import "generic-service" import "generic-service"
host_name = "remote-ssh-host" host_name = "remote-ssh-host"
check_command = "by_ssh_swap" check_command = "by_ssh_swap"
vars.by_ssh_logname = "icinga" vars.by_ssh_logname = "icinga"
} }
```
## NSClient++ <a id="agent-based-checks-nsclient"></a> ## NSClient++ <a id="agent-based-checks-nsclient"></a>
@ -67,18 +71,20 @@ Icinga 2 provides the [nscp check command](10-icinga-template-library.md#plugin-
Example: Example:
object Service "disk" { ```
import "generic-service" object Service "disk" {
import "generic-service"
host_name = "remote-windows-host" host_name = "remote-windows-host"
check_command = "nscp" check_command = "nscp"
vars.nscp_variable = "USEDDISKSPACE" vars.nscp_variable = "USEDDISKSPACE"
vars.nscp_params = "c" vars.nscp_params = "c"
vars.nscp_warn = 70 vars.nscp_warn = 70
vars.nscp_crit = 80 vars.nscp_crit = 80
} }
```
For details on the `NSClient++` configuration please refer to the [official documentation](https://docs.nsclient.org/). For details on the `NSClient++` configuration please refer to the [official documentation](https://docs.nsclient.org/).
@ -116,18 +122,22 @@ Icinga 2 provides the [nrpe check command](10-icinga-template-library.md#plugin-
Example: Example:
object Service "users" { ```
import "generic-service" object Service "users" {
import "generic-service"
host_name = "remote-nrpe-host" host_name = "remote-nrpe-host"
check_command = "nrpe" check_command = "nrpe"
vars.nrpe_command = "check_users" vars.nrpe_command = "check_users"
} }
```
nrpe.cfg: nrpe.cfg:
command[check_users]=/usr/local/icinga/libexec/check_users -w 5 -c 10 ```
command[check_users]=/usr/local/icinga/libexec/check_users -w 5 -c 10
```
If you are planning to pass arguments to NRPE using the `-a` If you are planning to pass arguments to NRPE using the `-a`
command line parameter, make sure that your NRPE daemon has them command line parameter, make sure that your NRPE daemon has them
@ -144,19 +154,23 @@ attribute which expects either a single value or an array of values.
Example: Example:
object Service "nrpe-disk-/" { ```
import "generic-service" object Service "nrpe-disk-/" {
import "generic-service"
host_name = "remote-nrpe-host" host_name = "remote-nrpe-host"
check_command = "nrpe" check_command = "nrpe"
vars.nrpe_command = "check_disk" vars.nrpe_command = "check_disk"
vars.nrpe_arguments = [ "20%", "10%", "/" ] vars.nrpe_arguments = [ "20%", "10%", "/" ]
} }
```
Icinga 2 will execute the nrpe plugin like this: Icinga 2 will execute the nrpe plugin like this:
/usr/lib/nagios/plugins/check_nrpe -H <remote-nrpe-host> -c 'check_disk' -a '20%' '10%' '/' ```
/usr/lib/nagios/plugins/check_nrpe -H <remote-nrpe-host> -c 'check_disk' -a '20%' '10%' '/'
```
NRPE expects all additional arguments in an ordered fashion NRPE expects all additional arguments in an ordered fashion
and interprets the first value as `$ARG1$` macro, the second and interprets the first value as `$ARG1$` macro, the second
@ -164,12 +178,16 @@ value as `$ARG2$`, and so on.
nrpe.cfg: nrpe.cfg:
command[check_disk]=/usr/local/icinga/libexec/check_disk -w $ARG1$ -c $ARG2$ -p $ARG3$ ```
command[check_disk]=/usr/local/icinga/libexec/check_disk -w $ARG1$ -c $ARG2$ -p $ARG3$
```
Using the above example with `nrpe_arguments` the command Using the above example with `nrpe_arguments` the command
executed by the NRPE daemon looks similar to that: executed by the NRPE daemon looks similar to that:
/usr/local/icinga/libexec/check_disk -w 20% -c 10% -p / ```
/usr/local/icinga/libexec/check_disk -w 20% -c 10% -p /
```
You can pass arguments in a similar manner to [NSClient++](07-agent-based-monitoring.md#agent-based-checks-nsclient) You can pass arguments in a similar manner to [NSClient++](07-agent-based-monitoring.md#agent-based-checks-nsclient)
when using its NRPE supported check method. when using its NRPE supported check method.
@ -193,14 +211,16 @@ state or from a missed reset event.
Add a directive in `snmptt.conf` Add a directive in `snmptt.conf`
EVENT coldStart .1.3.6.1.6.3.1.1.5.1 "Status Events" Normal ```
FORMAT Device reinitialized (coldStart) EVENT coldStart .1.3.6.1.6.3.1.1.5.1 "Status Events" Normal
EXEC echo "[$@] PROCESS_SERVICE_CHECK_RESULT;$A;Coldstart;2;The snmp agent has reinitialized." >> /var/run/icinga2/cmd/icinga2.cmd FORMAT Device reinitialized (coldStart)
SDESC EXEC echo "[$@] PROCESS_SERVICE_CHECK_RESULT;$A;Coldstart;2;The snmp agent has reinitialized." >> /var/run/icinga2/cmd/icinga2.cmd
A coldStart trap signifies that the SNMPv2 entity, acting SDESC
in an agent role, is reinitializing itself and that its A coldStart trap signifies that the SNMPv2 entity, acting
configuration may have been altered. in an agent role, is reinitializing itself and that its
EDESC configuration may have been altered.
EDESC
```
1. Define the `EVENT` as per your need. 1. Define the `EVENT` as per your need.
2. Construct the `EXEC` statement with the service name matching your template 2. Construct the `EXEC` statement with the service name matching your template
@ -210,105 +230,111 @@ match your Icinga convention.
Add an `EventCommand` configuration object for the passive service auto reset event. Add an `EventCommand` configuration object for the passive service auto reset event.
object EventCommand "coldstart-reset-event" { ```
command = [ ConfigDir + "/conf.d/custom/scripts/coldstart_reset_event.sh" ] object EventCommand "coldstart-reset-event" {
command = [ ConfigDir + "/conf.d/custom/scripts/coldstart_reset_event.sh" ]
arguments = { arguments = {
"-i" = "$service.state_id$" "-i" = "$service.state_id$"
"-n" = "$host.name$" "-n" = "$host.name$"
"-s" = "$service.name$" "-s" = "$service.name$"
} }
} }
```
Create the `coldstart_reset_event.sh` shell script to pass the expanded variable Create the `coldstart_reset_event.sh` shell script to pass the expanded variable
data in. The `$service.state_id$` is important in order to prevent an endless loop data in. The `$service.state_id$` is important in order to prevent an endless loop
of event firing after the service has been reset. of event firing after the service has been reset.
#!/bin/bash ```
#!/bin/bash
SERVICE_STATE_ID="" SERVICE_STATE_ID=""
HOST_NAME="" HOST_NAME=""
SERVICE_NAME="" SERVICE_NAME=""
show_help() show_help()
{ {
cat <<-EOF cat <<-EOF
Usage: ${0##*/} [-h] -n HOST_NAME -s SERVICE_NAME Usage: ${0##*/} [-h] -n HOST_NAME -s SERVICE_NAME
Writes a coldstart reset event to the Icinga command pipe. Writes a coldstart reset event to the Icinga command pipe.
-h Display this help and exit. -h Display this help and exit.
-i SERVICE_STATE_ID The associated service state id. -i SERVICE_STATE_ID The associated service state id.
-n HOST_NAME The associated host name. -n HOST_NAME The associated host name.
-s SERVICE_NAME The associated service name. -s SERVICE_NAME The associated service name.
EOF EOF
} }
while getopts "hi:n:s:" opt; do while getopts "hi:n:s:" opt; do
case "$opt" in case "$opt" in
h) h)
show_help show_help
exit 0 exit 0
;; ;;
i) i)
SERVICE_STATE_ID=$OPTARG SERVICE_STATE_ID=$OPTARG
;; ;;
n) n)
HOST_NAME=$OPTARG HOST_NAME=$OPTARG
;; ;;
s) s)
SERVICE_NAME=$OPTARG SERVICE_NAME=$OPTARG
;; ;;
'?') '?')
show_help show_help
exit 0 exit 0
;; ;;
esac esac
done done
if [ -z "$SERVICE_STATE_ID" ]; then if [ -z "$SERVICE_STATE_ID" ]; then
show_help show_help
printf "\n Error: -i required.\n" printf "\n Error: -i required.\n"
exit 1 exit 1
fi fi
if [ -z "$HOST_NAME" ]; then if [ -z "$HOST_NAME" ]; then
show_help show_help
printf "\n Error: -n required.\n" printf "\n Error: -n required.\n"
exit 1 exit 1
fi fi
if [ -z "$SERVICE_NAME" ]; then if [ -z "$SERVICE_NAME" ]; then
show_help show_help
printf "\n Error: -s required.\n" printf "\n Error: -s required.\n"
exit 1 exit 1
fi fi
if [ "$SERVICE_STATE_ID" -gt 0 ]; then if [ "$SERVICE_STATE_ID" -gt 0 ]; then
echo "[`date +%s`] PROCESS_SERVICE_CHECK_RESULT;$HOST_NAME;$SERVICE_NAME;0;Auto-reset (`date +"%m-%d-%Y %T"`)." >> /var/run/icinga2/cmd/icinga2.cmd echo "[`date +%s`] PROCESS_SERVICE_CHECK_RESULT;$HOST_NAME;$SERVICE_NAME;0;Auto-reset (`date +"%m-%d-%Y %T"`)." >> /var/run/icinga2/cmd/icinga2.cmd
fi fi
```
Finally create the `Service` and assign it: Finally create the `Service` and assign it:
apply Service "Coldstart" { ```
import "generic-service-custom" apply Service "Coldstart" {
import "generic-service-custom"
check_command = "dummy" check_command = "dummy"
event_command = "coldstart-reset-event" event_command = "coldstart-reset-event"
enable_notifications = 1 enable_notifications = 1
enable_active_checks = 0 enable_active_checks = 0
enable_passive_checks = 1 enable_passive_checks = 1
enable_flapping = 0 enable_flapping = 0
volatile = 1 volatile = 1
enable_perfdata = 0 enable_perfdata = 0
vars.dummy_state = 0 vars.dummy_state = 0
vars.dummy_text = "Manual reset." vars.dummy_text = "Manual reset."
vars.sla = "24x7" vars.sla = "24x7"
assign where (host.vars.os == "Linux" || host.vars.os == "Windows") assign where (host.vars.os == "Linux" || host.vars.os == "Windows")
} }
```
### Complex SNMP Traps <a id="complex-traps"></a> ### Complex SNMP Traps <a id="complex-traps"></a>
@ -321,13 +347,15 @@ As long as the most recent passive update has occurred, the active check is bypa
Add a directive in `snmptt.conf` Add a directive in `snmptt.conf`
EVENT enterpriseSpecific <YOUR OID> "Status Events" Normal ```
FORMAT Enterprise specific trap EVENT enterpriseSpecific <YOUR OID> "Status Events" Normal
EXEC echo "[$@] PROCESS_SERVICE_CHECK_RESULT;$A;$1;$2;$3" >> /var/run/icinga2/cmd/icinga2.cmd FORMAT Enterprise specific trap
SDESC EXEC echo "[$@] PROCESS_SERVICE_CHECK_RESULT;$A;$1;$2;$3" >> /var/run/icinga2/cmd/icinga2.cmd
An enterprise specific trap. SDESC
The varbinds in order denote the Icinga service name, state and text. An enterprise specific trap.
EDESC The varbinds in order denote the Icinga service name, state and text.
EDESC
```
1. Define the `EVENT` as per your need using your actual oid. 1. Define the `EVENT` as per your need using your actual oid.
2. The service name, state and text are extracted from the first three varbinds. 2. The service name, state and text are extracted from the first three varbinds.
@ -337,22 +365,24 @@ Create a `Service` for the specific use case associated to the host. If the host
matches and the first varbind value is `Backup`, SNMPTT will submit the corresponding matches and the first varbind value is `Backup`, SNMPTT will submit the corresponding
passive update with the state and text from the second and third varbind: passive update with the state and text from the second and third varbind:
object Service "Backup" { ```
import "generic-service-custom" object Service "Backup" {
import "generic-service-custom"
host_name = "host.domain.com" host_name = "host.domain.com"
check_command = "dummy" check_command = "dummy"
enable_notifications = 1 enable_notifications = 1
enable_active_checks = 1 enable_active_checks = 1
enable_passive_checks = 1 enable_passive_checks = 1
enable_flapping = 0 enable_flapping = 0
volatile = 1 volatile = 1
max_check_attempts = 1 max_check_attempts = 1
check_interval = 87000 check_interval = 87000
enable_perfdata = 0 enable_perfdata = 0
vars.sla = "24x7" vars.sla = "24x7"
vars.dummy_state = 2 vars.dummy_state = 2
vars.dummy_text = "No passive check result received." vars.dummy_text = "No passive check result received."
} }
```

404
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@ -387,12 +387,16 @@ In Icinga 2 active check freshness is enabled by default. It is determined by th
The threshold is calculated based on the last check execution time for actively executed checks: The threshold is calculated based on the last check execution time for actively executed checks:
(last check execution time + check interval) > current time ```
(last check execution time + check interval) > current time
```
If this host/service receives check results from an [external source](08-advanced-topics.md#external-check-results), If this host/service receives check results from an [external source](08-advanced-topics.md#external-check-results),
the threshold is based on the last time a check result was received: the threshold is based on the last time a check result was received:
(last check result time + check interval) > current time ```
(last check result time + check interval) > current time
```
> **Tip** > **Tip**
> >
@ -579,65 +583,69 @@ In addition to that you can optionally define the `ssl` attribute which enables
Host definition: Host definition:
object Host "webserver01" { ```
import "generic-host" object Host "webserver01" {
address = "192.168.56.200" import "generic-host"
vars.os = "Linux" address = "192.168.56.200"
vars.os = "Linux"
vars.webserver = { vars.webserver = {
instance["status"] = { instance["status"] = {
address = "192.168.56.201" address = "192.168.56.201"
port = "80" port = "80"
url = "/status" url = "/status"
}
instance["tomcat"] = {
address = "192.168.56.202"
port = "8080"
}
instance["icingaweb2"] = {
address = "192.168.56.210"
port = "443"
url = "/icingaweb2"
ssl = true
}
}
} }
instance["tomcat"] = {
address = "192.168.56.202"
port = "8080"
}
instance["icingaweb2"] = {
address = "192.168.56.210"
port = "443"
url = "/icingaweb2"
ssl = true
}
}
}
```
Service apply for definitions: Service apply for definitions:
apply Service "webserver_ping" for (instance => config in host.vars.webserver.instance) { ```
display_name = "webserver_" + instance apply Service "webserver_ping" for (instance => config in host.vars.webserver.instance) {
check_command = "ping4" display_name = "webserver_" + instance
check_command = "ping4"
vars.ping_address = config.address vars.ping_address = config.address
assign where host.vars.webserver.instance assign where host.vars.webserver.instance
} }
apply Service "webserver_port" for (instance => config in host.vars.webserver.instance) { apply Service "webserver_port" for (instance => config in host.vars.webserver.instance) {
display_name = "webserver_" + instance + "_" + config.port display_name = "webserver_" + instance + "_" + config.port
check_command = "tcp" check_command = "tcp"
vars.tcp_address = config.address vars.tcp_address = config.address
vars.tcp_port = config.port vars.tcp_port = config.port
assign where host.vars.webserver.instance assign where host.vars.webserver.instance
} }
apply Service "webserver_url" for (instance => config in host.vars.webserver.instance) { apply Service "webserver_url" for (instance => config in host.vars.webserver.instance) {
display_name = "webserver_" + instance + "_" + config.url display_name = "webserver_" + instance + "_" + config.url
check_command = "http" check_command = "http"
vars.http_address = config.address vars.http_address = config.address
vars.http_port = config.port vars.http_port = config.port
vars.http_uri = config.url vars.http_uri = config.url
if (config.ssl) { if (config.ssl) {
vars.http_ssl = config.ssl vars.http_ssl = config.ssl
} }
assign where config.url != "" assign where config.url != ""
} }
```
The variables defined in the host dictionary are not using the typical custom attribute The variables defined in the host dictionary are not using the typical custom attribute
prefix recommended for CheckCommand parameters. Instead they are re-used for multiple prefix recommended for CheckCommand parameters. Instead they are re-used for multiple
@ -756,25 +764,27 @@ slightly unexpected way. The following example shows how to assign values
depending on group membership. All hosts in the `slow-lan` host group use 300 depending on group membership. All hosts in the `slow-lan` host group use 300
as value for `ping_wrta`, all other hosts use 100. as value for `ping_wrta`, all other hosts use 100.
globals.group_specific_value = function(group, group_value, non_group_value) { ```
return function() use (group, group_value, non_group_value) { globals.group_specific_value = function(group, group_value, non_group_value) {
if (group in host.groups) { return function() use (group, group_value, non_group_value) {
return group_value if (group in host.groups) {
} else { return group_value
return non_group_value } else {
} return non_group_value
} }
} }
}
apply Service "ping4" { apply Service "ping4" {
import "generic-service" import "generic-service"
check_command = "ping4" check_command = "ping4"
vars.ping_wrta = group_specific_value("slow-lan", 300, 100) vars.ping_wrta = group_specific_value("slow-lan", 300, 100)
vars.ping_crta = group_specific_value("slow-lan", 500, 200) vars.ping_crta = group_specific_value("slow-lan", 500, 200)
assign where true assign where true
} }
```
#### Use Functions in Assign Where Expressions <a id="use-functions-assign-where"></a> #### Use Functions in Assign Where Expressions <a id="use-functions-assign-where"></a>
@ -790,36 +800,37 @@ The following example requires the host `myprinter` being added
to the host group `printers-lexmark` but only if the host uses to the host group `printers-lexmark` but only if the host uses
a template matching the name `lexmark*`. a template matching the name `lexmark*`.
template Host "lexmark-printer-host" { ```
vars.printer_type = "Lexmark" template Host "lexmark-printer-host" {
vars.printer_type = "Lexmark"
}
object Host "myprinter" {
import "generic-host"
import "lexmark-printer-host"
address = "192.168.1.1"
}
/* register a global function for the assign where call */
globals.check_host_templates = function(host, search) {
/* iterate over all host templates and check if the search matches */
for (tmpl in host.templates) {
if (match(search, tmpl)) {
return true
} }
}
object Host "myprinter" { /* nothing matched */
import "generic-host" return false
import "lexmark-printer-host" }
address = "192.168.1.1"
}
/* register a global function for the assign where call */
globals.check_host_templates = function(host, search) {
/* iterate over all host templates and check if the search matches */
for (tmpl in host.templates) {
if (match(search, tmpl)) {
return true
}
}
/* nothing matched */
return false
}
object HostGroup "printers-lexmark" {
display_name = "Lexmark Printers"
/* call the global function and pass the arguments */
assign where check_host_templates(host, "lexmark*")
}
object HostGroup "printers-lexmark" {
display_name = "Lexmark Printers"
/* call the global function and pass the arguments */
assign where check_host_templates(host, "lexmark*")
}
```
Take a different more complex example: All hosts with the Take a different more complex example: All hosts with the
custom attribute `vars_app` as nested dictionary should be custom attribute `vars_app` as nested dictionary should be
@ -828,43 +839,46 @@ added to the host group `ABAP-app-server`. But only if the
It could read as wildcard match for nested dictionaries: It could read as wildcard match for nested dictionaries:
```
where host.vars.vars_app["*"].app_type == "ABAP" where host.vars.vars_app["*"].app_type == "ABAP"
```
The solution for this problem is to register a global The solution for this problem is to register a global
function which checks the `app_type` for all hosts function which checks the `app_type` for all hosts
with the `vars_app` dictionary. with the `vars_app` dictionary.
object Host "appserver01" { ```
check_command = "dummy" object Host "appserver01" {
vars.vars_app["ABC"] = { app_type = "ABAP" } check_command = "dummy"
} vars.vars_app["ABC"] = { app_type = "ABAP" }
object Host "appserver02" { }
check_command = "dummy" object Host "appserver02" {
vars.vars_app["DEF"] = { app_type = "ABAP" } check_command = "dummy"
vars.vars_app["DEF"] = { app_type = "ABAP" }
}
globals.check_app_type = function(host, type) {
/* ensure that other hosts without the custom attribute do not match */
if (typeof(host.vars.vars_app) != Dictionary) {
return false
}
/* iterate over the vars_app dictionary */
for (key => val in host.vars.vars_app) {
/* if the value is a dictionary and if contains the app_type being the requested type */
if (typeof(val) == Dictionary && val.app_type == type) {
return true
} }
}
globals.check_app_type = function(host, type) { /* nothing matched */
/* ensure that other hosts without the custom attribute do not match */ return false
if (typeof(host.vars.vars_app) != Dictionary) { }
return false
}
/* iterate over the vars_app dictionary */
for (key => val in host.vars.vars_app) {
/* if the value is a dictionary and if contains the app_type being the requested type */
if (typeof(val) == Dictionary && val.app_type == type) {
return true
}
}
/* nothing matched */
return false
}
object HostGroup "ABAP-app-server" {
assign where check_app_type(host, "ABAP")
}
object HostGroup "ABAP-app-server" {
assign where check_app_type(host, "ABAP")
}
```
#### Use Functions in Command Arguments set_if <a id="use-functions-command-arguments-setif"></a> #### Use Functions in Command Arguments set_if <a id="use-functions-command-arguments-setif"></a>
@ -879,13 +893,15 @@ multiple conditions and attributes.
The following example was found on the community support channels. The user had defined a host The following example was found on the community support channels. The user had defined a host
dictionary named `compellent` with the key `disks`. This was then used inside service apply for rules. dictionary named `compellent` with the key `disks`. This was then used inside service apply for rules.
object Host "dict-host" { ```
check_command = "check_compellent" object Host "dict-host" {
vars.compellent["disks"] = { check_command = "check_compellent"
file = "/var/lib/check_compellent/san_disks.0.json", vars.compellent["disks"] = {
checks = ["disks"] file = "/var/lib/check_compellent/san_disks.0.json",
} checks = ["disks"]
} }
}
```
The more significant problem was to only add the command parameter `--disk` to the plugin call The more significant problem was to only add the command parameter `--disk` to the plugin call
when the dictionary `compellent` contains the key `disks`, and omit it if not found. when the dictionary `compellent` contains the key `disks`, and omit it if not found.
@ -894,20 +910,22 @@ By defining `set_if` as [abbreviated lambda function](17-language-reference.md#n
and evaluating the host custom attribute `compellent` containing the `disks` this problem was and evaluating the host custom attribute `compellent` containing the `disks` this problem was
solved like this: solved like this:
object CheckCommand "check_compellent" { ```
command = [ "/usr/bin/check_compellent" ] object CheckCommand "check_compellent" {
arguments = { command = [ "/usr/bin/check_compellent" ]
"--disks" = { arguments = {
set_if = {{ "--disks" = {
var host_vars = host.vars set_if = {{
log(host_vars) var host_vars = host.vars
var compel = host_vars.compellent log(host_vars)
log(compel) var compel = host_vars.compellent
compel.contains("disks") log(compel)
}} compel.contains("disks")
} }}
}
} }
}
}
```
This implementation uses the dictionary type method [contains](18-library-reference.md#dictionary-contains) This implementation uses the dictionary type method [contains](18-library-reference.md#dictionary-contains)
and will fail if `host.vars.compellent` is not of the type `Dictionary`. and will fail if `host.vars.compellent` is not of the type `Dictionary`.
@ -915,35 +933,38 @@ Therefore you can extend the checks using the [typeof](17-language-reference.md#
You can test the types using the `icinga2 console`: You can test the types using the `icinga2 console`:
# icinga2 console ```
Icinga (version: v2.3.0-193-g3eb55ad) # icinga2 console
<1> => srv_vars.compellent["check_a"] = { file="outfile_a.json", checks = [ "disks", "fans" ] } Icinga (version: v2.3.0-193-g3eb55ad)
null <1> => srv_vars.compellent["check_a"] = { file="outfile_a.json", checks = [ "disks", "fans" ] }
<2> => srv_vars.compellent["check_b"] = { file="outfile_b.json", checks = [ "power", "voltages" ] } null
null <2> => srv_vars.compellent["check_b"] = { file="outfile_b.json", checks = [ "power", "voltages" ] }
<3> => typeof(srv_vars.compellent) null
type 'Dictionary' <3> => typeof(srv_vars.compellent)
<4> => type 'Dictionary'
<4> =>
```
The more programmatic approach for `set_if` could look like this: The more programmatic approach for `set_if` could look like this:
"--disks" = { ```
set_if = {{ "--disks" = {
var srv_vars = service.vars set_if = {{
if(len(srv_vars) > 0) { var srv_vars = service.vars
if (typeof(srv_vars.compellent) == Dictionary) { if(len(srv_vars) > 0) {
return srv_vars.compellent.contains("disks") if (typeof(srv_vars.compellent) == Dictionary) {
} else { return srv_vars.compellent.contains("disks")
log(LogInformationen, "checkcommand set_if", "custom attribute compellent_checks is not a dictionary, ignoring it.") } else {
return false log(LogInformationen, "checkcommand set_if", "custom attribute compellent_checks is not a dictionary, ignoring it.")
} return false
} else { }
log(LogWarning, "checkcommand set_if", "empty custom attributes") } else {
return false log(LogWarning, "checkcommand set_if", "empty custom attributes")
} return false
}}
} }
}}
}
```
#### Use Functions as Command Attribute <a id="use-functions-command-attribute"></a> #### Use Functions as Command Attribute <a id="use-functions-command-attribute"></a>
@ -955,20 +976,22 @@ The following example was taken from the community support channels. The require
specify a custom attribute inside the notification apply rule and decide which notification specify a custom attribute inside the notification apply rule and decide which notification
script to call based on that. script to call based on that.
object User "short-dummy" { ```
} object User "short-dummy" {
}
object UserGroup "short-dummy-group" { object UserGroup "short-dummy-group" {
assign where user.name == "short-dummy" assign where user.name == "short-dummy"
} }
apply Notification "mail-admins-short" to Host { apply Notification "mail-admins-short" to Host {
import "mail-host-notification" import "mail-host-notification"
command = "mail-host-notification-test" command = "mail-host-notification-test"
user_groups = [ "short-dummy-group" ] user_groups = [ "short-dummy-group" ]
vars.short = true vars.short = true
assign where host.vars.notification.mail assign where host.vars.notification.mail
} }
```
The solution is fairly simple: The `command` attribute is implemented as function returning The solution is fairly simple: The `command` attribute is implemented as function returning
an array required by the caller Icinga 2. an array required by the caller Icinga 2.
@ -980,25 +1003,26 @@ returned.
You can omit the `log()` calls, they only help debugging. You can omit the `log()` calls, they only help debugging.
object NotificationCommand "mail-host-notification-test" { ```
command = {{ object NotificationCommand "mail-host-notification-test" {
log("command as function") command = {{
var mailscript = "mail-host-notification-long.sh" log("command as function")
if (notification.vars.short) { var mailscript = "mail-host-notification-long.sh"
mailscript = "mail-host-notification-short.sh" if (notification.vars.short) {
} mailscript = "mail-host-notification-short.sh"
log("Running command")
log(mailscript)
var cmd = [ ConfigDir + "/scripts/" + mailscript ]
log(LogCritical, "me", cmd)
return cmd
}}
env = {
}
} }
log("Running command")
log(mailscript)
var cmd = [ ConfigDir + "/scripts/" + mailscript ]
log(LogCritical, "me", cmd)
return cmd
}}
env = {
}
}
```
### Access Object Attributes at Runtime <a id="access-object-attributes-at-runtime"></a> ### Access Object Attributes at Runtime <a id="access-object-attributes-at-runtime"></a>

84
doc/09-object-types.md
View File

@ -396,12 +396,14 @@ Configuration Attributes:
Available state filters: Available state filters:
OK ```
Warning OK
Critical Warning
Unknown Critical
Up Unknown
Down Up
Down
```
When using [apply rules](03-monitoring-basics.md#using-apply) for dependencies, you can leave out certain attributes which will be When using [apply rules](03-monitoring-basics.md#using-apply) for dependencies, you can leave out certain attributes which will be
automatically determined by Icinga 2. automatically determined by Icinga 2.
@ -1154,27 +1156,33 @@ Configuration Attributes:
Available notification state filters for Service: Available notification state filters for Service:
OK ```
Warning OK
Critical Warning
Unknown Critical
Unknown
```
Available notification state filters for Host: Available notification state filters for Host:
Up ```
Down Up
Down
```
Available notification type filters: Available notification type filters:
DowntimeStart ```
DowntimeEnd DowntimeStart
DowntimeRemoved DowntimeEnd
Custom DowntimeRemoved
Acknowledgement Custom
Problem Acknowledgement
Recovery Problem
FlappingStart Recovery
FlappingEnd FlappingStart
FlappingEnd
```
Runtime Attributes: Runtime Attributes:
@ -1687,24 +1695,28 @@ object User "icingaadmin" {
Available notification state filters: Available notification state filters:
OK ```
Warning OK
Critical Warning
Unknown Critical
Up Unknown
Down Up
Down
```
Available notification type filters: Available notification type filters:
DowntimeStart ```
DowntimeEnd DowntimeStart
DowntimeRemoved DowntimeEnd
Custom DowntimeRemoved
Acknowledgement Custom
Problem Acknowledgement
Recovery Problem
FlappingStart Recovery
FlappingEnd FlappingStart
FlappingEnd
```
Configuration Attributes: Configuration Attributes:

4
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@ -25,7 +25,9 @@ You are advised to create your own CheckCommand definitions in
By default the generic templates are included in the [icinga2.conf](04-configuring-icinga-2.md#icinga2-conf) configuration file: By default the generic templates are included in the [icinga2.conf](04-configuring-icinga-2.md#icinga2-conf) configuration file:
include <itl> ```
include <itl>
```
These templates are imported by the provided example configuration. These templates are imported by the provided example configuration.

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66
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@ -19,7 +19,9 @@ You need to install Graphite first, then proceed with configuring it in Icinga 2
Use the [GraphiteWriter](14-features.md#graphite-carbon-cache-writer) feature Use the [GraphiteWriter](14-features.md#graphite-carbon-cache-writer) feature
for sending real-time metrics from Icinga 2 to Graphite. for sending real-time metrics from Icinga 2 to Graphite.
# icinga2 feature enable graphite ```
# icinga2 feature enable graphite
```
A popular alternative frontend for Graphite is for example [Grafana](https://grafana.org). A popular alternative frontend for Graphite is for example [Grafana](https://grafana.org).
@ -36,7 +38,9 @@ Its written in Go and has no external dependencies.
Use the [InfluxdbWriter](14-features.md#influxdb-writer) feature Use the [InfluxdbWriter](14-features.md#influxdb-writer) feature
for sending real-time metrics from Icinga 2 to InfluxDB. for sending real-time metrics from Icinga 2 to InfluxDB.
# icinga2 feature enable influxdb ```
# icinga2 feature enable influxdb
```
A popular frontend for InfluxDB is for example [Grafana](https://grafana.org). A popular frontend for InfluxDB is for example [Grafana](https://grafana.org).
@ -61,11 +65,15 @@ data files which Icinga 2 generates.
Enable performance data writer in icinga 2 Enable performance data writer in icinga 2
# icinga2 feature enable perfdata ```
# icinga2 feature enable perfdata
```
Configure npcd to use the performance data created by Icinga 2: Configure npcd to use the performance data created by Icinga 2:
vim /etc/pnp4nagios/npcd.cfg ```
vim /etc/pnp4nagios/npcd.cfg
```
Set `perfdata_spool_dir = /var/spool/icinga2/perfdata` and restart the `npcd` daemon. Set `perfdata_spool_dir = /var/spool/icinga2/perfdata` and restart the `npcd` daemon.
@ -120,9 +128,11 @@ based on your monitoring configuration and status data using [NagVis](https://ww
The configuration in nagvis.ini.php should look like this for Livestatus for example: The configuration in nagvis.ini.php should look like this for Livestatus for example:
[backend_live_1] ```
backendtype="mklivestatus" [backend_live_1]
socket="unix:/var/run/icinga2/cmd/livestatus" backendtype="mklivestatus"
socket="unix:/var/run/icinga2/cmd/livestatus"
```
If you are planning an integration into Icinga Web 2, look at [this module](https://github.com/Icinga/icingaweb2-module-nagvis). If you are planning an integration into Icinga Web 2, look at [this module](https://github.com/Icinga/icingaweb2-module-nagvis).
@ -190,13 +200,15 @@ These tools are currently in development and require feedback and tests:
They work in a similar fashion for Icinga 2 and are used for 1.x web interfaces (Icinga Web 2 doesn't require They work in a similar fashion for Icinga 2 and are used for 1.x web interfaces (Icinga Web 2 doesn't require
the action url attribute in its own module). the action url attribute in its own module).
template Host "pnp-hst" { ```
action_url = "/pnp4nagios/graph?host=$HOSTNAME$" template Host "pnp-hst" {
} action_url = "/pnp4nagios/graph?host=$HOSTNAME$"
}
template Service "pnp-svc" { template Service "pnp-svc" {
action_url = "/pnp4nagios/graph?host=$HOSTNAME$&srv=$SERVICEDESC$" action_url = "/pnp4nagios/graph?host=$HOSTNAME$&srv=$SERVICEDESC$"
} }
```
### PNP Custom Templates with Icinga 2 <a id="addons-graphing-pnp-custom-templates"></a> ### PNP Custom Templates with Icinga 2 <a id="addons-graphing-pnp-custom-templates"></a>
@ -213,24 +225,26 @@ and use that inside the formatting templates as `SERVICECHECKCOMMAND` for instan
Example for services: Example for services:
# vim /etc/icinga2/features-enabled/perfdata.conf ```
# vim /etc/icinga2/features-enabled/perfdata.conf
service_format_template = "DATATYPE::SERVICEPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tSERVICEDESC::$service.name$\tSERVICEPERFDATA::$service.perfdata$\tSERVICECHECKCOMMAND::$service.check_command$$pnp_check_arg1$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$\tSERVICESTATE::$service.state$\tSERVICESTATETYPE::$service.state_type$" service_format_template = "DATATYPE::SERVICEPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tSERVICEDESC::$service.name$\tSERVICEPERFDATA::$service.perfdata$\tSERVICECHECKCOMMAND::$service.check_command$$pnp_check_arg1$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$\tSERVICESTATE::$service.state$\tSERVICESTATETYPE::$service.state_type$"
# vim /etc/icinga2/conf.d/services.conf # vim /etc/icinga2/conf.d/services.conf
template Service "pnp-svc" { template Service "pnp-svc" {
action_url = "/pnp4nagios/graph?host=$HOSTNAME$&srv=$SERVICEDESC$" action_url = "/pnp4nagios/graph?host=$HOSTNAME$&srv=$SERVICEDESC$"
vars.pnp_check_arg1 = "" vars.pnp_check_arg1 = ""
} }
apply Service "nrpe-check" { apply Service "nrpe-check" {
import "pnp-svc" import "pnp-svc"
check_command = nrpe check_command = nrpe
vars.nrpe_command = "check_disk" vars.nrpe_command = "check_disk"
vars.pnp_check_arg1 = "!$nrpe_command$" vars.pnp_check_arg1 = "!$nrpe_command$"
} }
```
If there are warnings about unresolved macros, make sure to specify a default value for `vars.pnp_check_arg1` inside the If there are warnings about unresolved macros, make sure to specify a default value for `vars.pnp_check_arg1` inside the

212
doc/14-features.md
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@ -172,7 +172,9 @@ through the web interface).
In order to enable the `ExternalCommandListener` configuration use the In order to enable the `ExternalCommandListener` configuration use the
following command and restart Icinga 2 afterwards: following command and restart Icinga 2 afterwards:
# icinga2 feature enable command ```
# icinga2 feature enable command
```
Icinga 2 creates the command pipe file as `/var/run/icinga2/cmd/icinga2.cmd` Icinga 2 creates the command pipe file as `/var/run/icinga2/cmd/icinga2.cmd`
using the default configuration. using the default configuration.
@ -181,12 +183,14 @@ Web interfaces and other Icinga addons are able to send commands to
Icinga 2 through the external command pipe, for example for rescheduling Icinga 2 through the external command pipe, for example for rescheduling
a forced service check: a forced service check:
# /bin/echo "[`date +%s`] SCHEDULE_FORCED_SVC_CHECK;localhost;ping4;`date +%s`" >> /var/run/icinga2/cmd/icinga2.cmd ```
# /bin/echo "[`date +%s`] SCHEDULE_FORCED_SVC_CHECK;localhost;ping4;`date +%s`" >> /var/run/icinga2/cmd/icinga2.cmd
# tail -f /var/log/messages # tail -f /var/log/messages
Oct 17 15:01:25 icinga-server icinga2: Executing external command: [1382014885] SCHEDULE_FORCED_SVC_CHECK;localhost;ping4;1382014885 Oct 17 15:01:25 icinga-server icinga2: Executing external command: [1382014885] SCHEDULE_FORCED_SVC_CHECK;localhost;ping4;1382014885
Oct 17 15:01:25 icinga-server icinga2: Rescheduling next check for service 'ping4' Oct 17 15:01:25 icinga-server icinga2: Rescheduling next check for service 'ping4'
```
A list of currently supported external commands can be found [here](24-appendix.md#external-commands-list-detail). A list of currently supported external commands can be found [here](24-appendix.md#external-commands-list-detail).
@ -216,13 +220,17 @@ Therefore the Icinga 2 [PerfdataWriter](09-object-types.md#objecttype-perfdatawr
feature allows you to define the output template format for host and services helped feature allows you to define the output template format for host and services helped
with Icinga 2 runtime vars. with Icinga 2 runtime vars.
host_format_template = "DATATYPE::HOSTPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tHOSTPERFDATA::$host.perfdata$\tHOSTCHECKCOMMAND::$host.check_command$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$" ```
service_format_template = "DATATYPE::SERVICEPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tSERVICEDESC::$service.name$\tSERVICEPERFDATA::$service.perfdata$\tSERVICECHECKCOMMAND::$service.check_command$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$\tSERVICESTATE::$service.state$\tSERVICESTATETYPE::$service.state_type$" host_format_template = "DATATYPE::HOSTPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tHOSTPERFDATA::$host.perfdata$\tHOSTCHECKCOMMAND::$host.check_command$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$"
service_format_template = "DATATYPE::SERVICEPERFDATA\tTIMET::$icinga.timet$\tHOSTNAME::$host.name$\tSERVICEDESC::$service.name$\tSERVICEPERFDATA::$service.perfdata$\tSERVICECHECKCOMMAND::$service.check_command$\tHOSTSTATE::$host.state$\tHOSTSTATETYPE::$host.state_type$\tSERVICESTATE::$service.state$\tSERVICESTATETYPE::$service.state_type$"
```
The default templates are already provided with the Icinga 2 feature configuration The default templates are already provided with the Icinga 2 feature configuration
which can be enabled using which can be enabled using
# icinga2 feature enable perfdata ```
# icinga2 feature enable perfdata
```
By default all performance data files are rotated in a 15 seconds interval into By default all performance data files are rotated in a 15 seconds interval into
the `/var/spool/icinga2/perfdata/` directory as `host-perfdata.<timestamp>` and the `/var/spool/icinga2/perfdata/` directory as `host-perfdata.<timestamp>` and
@ -240,7 +248,9 @@ write them to the defined Graphite Carbon daemon tcp socket.
You can enable the feature using You can enable the feature using
# icinga2 feature enable graphite ```
# icinga2 feature enable graphite
```
By default the [GraphiteWriter](09-object-types.md#objecttype-graphitewriter) feature By default the [GraphiteWriter](09-object-types.md#objecttype-graphitewriter) feature
expects the Graphite Carbon Cache to listen at `127.0.0.1` on TCP port `2003`. expects the Graphite Carbon Cache to listen at `127.0.0.1` on TCP port `2003`.
@ -253,8 +263,10 @@ depends on this schema.
The default prefix for hosts and services is configured using The default prefix for hosts and services is configured using
[runtime macros](03-monitoring-basics.md#runtime-macros)like this: [runtime macros](03-monitoring-basics.md#runtime-macros)like this:
icinga2.$host.name$.host.$host.check_command$ ```
icinga2.$host.name$.services.$service.name$.$service.check_command$ icinga2.$host.name$.host.$host.check_command$
icinga2.$host.name$.services.$service.name$.$service.check_command$
```
You can customize the prefix name by using the `host_name_template` and You can customize the prefix name by using the `host_name_template` and
`service_name_template` configuration attributes. `service_name_template` configuration attributes.
@ -274,7 +286,9 @@ The following characters are escaped in prefix labels:
Metric values are stored like this: Metric values are stored like this:
<prefix>.perfdata.<perfdata-label>.value ```
<prefix>.perfdata.<perfdata-label>.value
```
The following characters are escaped in perfdata labels: The following characters are escaped in perfdata labels:
@ -292,22 +306,26 @@ and is therefore replaced by `.`.
By enabling `enable_send_thresholds` Icinga 2 automatically adds the following threshold metrics: By enabling `enable_send_thresholds` Icinga 2 automatically adds the following threshold metrics:
<prefix>.perfdata.<perfdata-label>.min ```
<prefix>.perfdata.<perfdata-label>.max <prefix>.perfdata.<perfdata-label>.min
<prefix>.perfdata.<perfdata-label>.warn <prefix>.perfdata.<perfdata-label>.max
<prefix>.perfdata.<perfdata-label>.crit <prefix>.perfdata.<perfdata-label>.warn
<prefix>.perfdata.<perfdata-label>.crit
```
By enabling `enable_send_metadata` Icinga 2 automatically adds the following metadata metrics: By enabling `enable_send_metadata` Icinga 2 automatically adds the following metadata metrics:
<prefix>.metadata.current_attempt ```
<prefix>.metadata.downtime_depth <prefix>.metadata.current_attempt
<prefix>.metadata.acknowledgement <prefix>.metadata.downtime_depth
<prefix>.metadata.execution_time <prefix>.metadata.acknowledgement
<prefix>.metadata.latency <prefix>.metadata.execution_time
<prefix>.metadata.max_check_attempts <prefix>.metadata.latency
<prefix>.metadata.reachable <prefix>.metadata.max_check_attempts
<prefix>.metadata.state <prefix>.metadata.reachable
<prefix>.metadata.state_type <prefix>.metadata.state
<prefix>.metadata.state_type
```
Metadata metric overview: Metadata metric overview:
@ -326,10 +344,12 @@ Metadata metric overview:
The following example illustrates how to configure the storage schemas for Graphite Carbon The following example illustrates how to configure the storage schemas for Graphite Carbon
Cache. Cache.
[icinga2_default] ```
# intervals like PNP4Nagios uses them per default [icinga2_default]
pattern = ^icinga2\. # intervals like PNP4Nagios uses them per default
retentions = 1m:2d,5m:10d,30m:90d,360m:4y pattern = ^icinga2\.
retentions = 1m:2d,5m:10d,30m:90d,360m:4y
```
### InfluxDB Writer <a id="influxdb-writer"></a> ### InfluxDB Writer <a id="influxdb-writer"></a>
@ -339,7 +359,9 @@ defined InfluxDB HTTP API.
You can enable the feature using You can enable the feature using
# icinga2 feature enable influxdb ```
# icinga2 feature enable influxdb
```
By default the [InfluxdbWriter](09-object-types.md#objecttype-influxdbwriter) feature By default the [InfluxdbWriter](09-object-types.md#objecttype-influxdbwriter) feature
expects the InfluxDB daemon to listen at `127.0.0.1` on port `8086`. expects the InfluxDB daemon to listen at `127.0.0.1` on port `8086`.
@ -456,7 +478,9 @@ attribute.
Metric values are stored like this: Metric values are stored like this:
check_result.perfdata.<perfdata-label>.value ```
check_result.perfdata.<perfdata-label>.value
```
The following characters are escaped in perfdata labels: The following characters are escaped in perfdata labels:
@ -475,10 +499,12 @@ and is therefore replaced by `.`.
Icinga 2 automatically adds the following threshold metrics Icinga 2 automatically adds the following threshold metrics
if existing: if existing:
check_result.perfdata.<perfdata-label>.min ```
check_result.perfdata.<perfdata-label>.max check_result.perfdata.<perfdata-label>.min
check_result.perfdata.<perfdata-label>.warn check_result.perfdata.<perfdata-label>.max
check_result.perfdata.<perfdata-label>.crit check_result.perfdata.<perfdata-label>.warn
check_result.perfdata.<perfdata-label>.crit
```
### Graylog Integration <a id="graylog-integration"></a> ### Graylog Integration <a id="graylog-integration"></a>
@ -494,7 +520,9 @@ While it has been specified by the [Graylog](https://www.graylog.org) project as
You can enable the feature using You can enable the feature using
# icinga2 feature enable gelf ```
# icinga2 feature enable gelf
```
By default the `GelfWriter` object expects the GELF receiver to listen at `127.0.0.1` on TCP port `12201`. By default the `GelfWriter` object expects the GELF receiver to listen at `127.0.0.1` on TCP port `12201`.
The default `source` attribute is set to `icinga2`. You can customize that for your needs if required. The default `source` attribute is set to `icinga2`. You can customize that for your needs if required.
@ -514,27 +542,35 @@ write them to the defined TSDB TCP socket.
You can enable the feature using You can enable the feature using
# icinga2 feature enable opentsdb ```
# icinga2 feature enable opentsdb
```
By default the `OpenTsdbWriter` object expects the TSD to listen at By default the `OpenTsdbWriter` object expects the TSD to listen at
`127.0.0.1` on port `4242`. `127.0.0.1` on port `4242`.
The current naming schema is The current naming schema is
icinga.host.<metricname> ```
icinga.service.<servicename>.<metricname> icinga.host.<metricname>
icinga.service.<servicename>.<metricname>
```
for host and service checks. The tag host is always applied. for host and service checks. The tag host is always applied.
To make sure Icinga 2 writes a valid metric into OpenTSDB some characters are replaced To make sure Icinga 2 writes a valid metric into OpenTSDB some characters are replaced
with `_` in the target name: with `_` in the target name:
\ (and space) ```
\ (and space)
```
The resulting name in OpenTSDB might look like: The resulting name in OpenTSDB might look like:
www-01 / http-cert / response time ```
icinga.http_cert.response_time www-01 / http-cert / response time
icinga.http_cert.response_time
```
In addition to the performance data retrieved from the check plugin, Icinga 2 sends In addition to the performance data retrieved from the check plugin, Icinga 2 sends
internal check statistic data to OpenTSDB: internal check statistic data to OpenTSDB:
@ -554,7 +590,9 @@ internal check statistic data to OpenTSDB:
While reachable, state and state_type are metrics for the host or service the While reachable, state and state_type are metrics for the host or service the
other metrics follow the current naming schema other metrics follow the current naming schema
icinga.check.<metricname> ```
icinga.check.<metricname>
```
with the following tags with the following tags
@ -592,18 +630,24 @@ in the [Livestatus Schema](24-appendix.md#schema-livestatus) section.
You can enable Livestatus using icinga2 feature enable: You can enable Livestatus using icinga2 feature enable:
# icinga2 feature enable livestatus ```
# icinga2 feature enable livestatus
```
After that you will have to restart Icinga 2: After that you will have to restart Icinga 2:
# systemctl restart icinga2 ```
# systemctl restart icinga2
```
By default the Livestatus socket is available in `/var/run/icinga2/cmd/livestatus`. By default the Livestatus socket is available in `/var/run/icinga2/cmd/livestatus`.
In order for queries and commands to work you will need to add your query user In order for queries and commands to work you will need to add your query user
(e.g. your web server) to the `icingacmd` group: (e.g. your web server) to the `icingacmd` group:
# usermod -a -G icingacmd www-data ```
# usermod -a -G icingacmd www-data
```
The Debian packages use `nagios` as the user and group name. Make sure to change `icingacmd` to The Debian packages use `nagios` as the user and group name. Make sure to change `icingacmd` to
`nagios` if you're using Debian. `nagios` if you're using Debian.
@ -615,8 +659,9 @@ In order to use the historical tables provided by the livestatus feature (for ex
are expected to be in `/var/log/icinga2/compat`. A different path can be set using the are expected to be in `/var/log/icinga2/compat`. A different path can be set using the
`compat_log_path` configuration attribute. `compat_log_path` configuration attribute.
# icinga2 feature enable compatlog ```
# icinga2 feature enable compatlog
```
### Livestatus Sockets <a id="livestatus-sockets"></a> ### Livestatus Sockets <a id="livestatus-sockets"></a>
@ -642,26 +687,28 @@ programmatically: [Monitoring::Livestatus](http://search.cpan.org/~nierlein/Moni
Example using the unix socket: Example using the unix socket:
# echo -e "GET services\n" | /usr/bin/nc -U /var/run/icinga2/cmd/livestatus ```
# echo -e "GET services\n" | /usr/bin/nc -U /var/run/icinga2/cmd/livestatus
Example using the tcp socket listening on port `6558`: Example using the tcp socket listening on port `6558`:
# echo -e 'GET services\n' | netcat 127.0.0.1 6558 # echo -e 'GET services\n' | netcat 127.0.0.1 6558
# cat servicegroups <<EOF # cat servicegroups <<EOF
GET servicegroups GET servicegroups
EOF EOF
(cat servicegroups; sleep 1) | netcat 127.0.0.1 6558
(cat servicegroups; sleep 1) | netcat 127.0.0.1 6558
```
### Livestatus COMMAND Queries <a id="livestatus-command-queries"></a> ### Livestatus COMMAND Queries <a id="livestatus-command-queries"></a>
A list of available external commands and their parameters can be found [here](24-appendix.md#external-commands-list-detail) A list of available external commands and their parameters can be found [here](24-appendix.md#external-commands-list-detail)
$ echo -e 'COMMAND <externalcommandstring>' | netcat 127.0.0.1 6558 ```
$ echo -e 'COMMAND <externalcommandstring>' | netcat 127.0.0.1 6558
```
### Livestatus Filters <a id="livestatus-filters"></a> ### Livestatus Filters <a id="livestatus-filters"></a>
@ -696,20 +743,22 @@ Schema: "Stats: aggregatefunction aggregateattribute"
Example: Example:
GET hosts ```
Filter: has_been_checked = 1 GET hosts
Filter: check_type = 0 Filter: has_been_checked = 1
Stats: sum execution_time Filter: check_type = 0
Stats: sum latency Stats: sum execution_time
Stats: sum percent_state_change Stats: sum latency
Stats: min execution_time Stats: sum percent_state_change
Stats: min latency Stats: min execution_time
Stats: min percent_state_change Stats: min latency
Stats: max execution_time Stats: min percent_state_change
Stats: max latency Stats: max execution_time
Stats: max percent_state_change Stats: max latency
OutputFormat: json Stats: max percent_state_change
ResponseHeader: fixed16 OutputFormat: json
ResponseHeader: fixed16
```
### Livestatus Output <a id="livestatus-output"></a> ### Livestatus Output <a id="livestatus-output"></a>
@ -721,7 +770,9 @@ is a pipe (2nd level).
Separators can be set using ASCII codes like: Separators can be set using ASCII codes like:
Separators: 10 59 44 124 ```
Separators: 10 59 44 124
```
* JSON * JSON
@ -773,7 +824,9 @@ interval to its `objects.cache` and `status.dat` files. Icinga 2 provides
the `StatusDataWriter` object which dumps all configuration objects and the `StatusDataWriter` object which dumps all configuration objects and
status updates in a regular interval. status updates in a regular interval.
# icinga2 feature enable statusdata ```
# icinga2 feature enable statusdata
```
If you are not using any web interface or addon which uses these files, If you are not using any web interface or addon which uses these files,
you can safely disable this feature. you can safely disable this feature.
@ -795,7 +848,9 @@ for answering queries to historical tables.
The `CompatLogger` object can be enabled with The `CompatLogger` object can be enabled with
# icinga2 feature enable compatlog ```
# icinga2 feature enable compatlog
```
By default, the Icinga 1.x log file called `icinga.log` is located By default, the Icinga 1.x log file called `icinga.log` is located
in `/var/log/icinga2/compat`. Rotated log files are moved into in `/var/log/icinga2/compat`. Rotated log files are moved into
@ -820,7 +875,8 @@ environments, Icinga 2 supports the `CheckResultReader` object.
There is no feature configuration available, but it must be defined There is no feature configuration available, but it must be defined
on-demand in your Icinga 2 objects configuration. on-demand in your Icinga 2 objects configuration.
object CheckResultReader "reader" { ```
spool_dir = "/data/check-results" object CheckResultReader "reader" {
} spool_dir = "/data/check-results"
}
```

16
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@ -547,15 +547,19 @@ settings of the Icinga 2 systemd service by creating
`/etc/systemd/system/icinga2.service.d/override.conf` with the following `/etc/systemd/system/icinga2.service.d/override.conf` with the following
content: content:
[Service] ```
Restart=always [Service]
RestartSec=1 Restart=always
StartLimitInterval=10 RestartSec=1
StartLimitBurst=3 StartLimitInterval=10
StartLimitBurst=3
```
Using the watchdog can also help with monitoring Icinga 2, to activate and use it add the following to the override: Using the watchdog can also help with monitoring Icinga 2, to activate and use it add the following to the override:
WatchdogSec=30s ```
WatchdogSec=30s
```
This way systemd will kill Icinga 2 if does not notify for over 30 seconds, a timout of less than 10 seconds is not This way systemd will kill Icinga 2 if does not notify for over 30 seconds, a timout of less than 10 seconds is not
recommended. When the watchdog is activated, `Restart=` can be set to `watchdog` to restart Icinga 2 in the case of a recommended. When the watchdog is activated, `Restart=` can be set to `watchdog` to restart Icinga 2 in the case of a

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@ -3,7 +3,9 @@
You can run the Icinga 2 daemon with the `-X` (`--script-debugger`) You can run the Icinga 2 daemon with the `-X` (`--script-debugger`)
parameter to enable the script debugger: parameter to enable the script debugger:
# icinga2 daemon -X ```
# icinga2 daemon -X
```
When an exception occurs or the [debugger](17-language-reference.md#breakpoints) When an exception occurs or the [debugger](17-language-reference.md#breakpoints)
keyword is encountered in a user script, Icinga 2 launches a console that keyword is encountered in a user script, Icinga 2 launches a console that
@ -11,7 +13,9 @@ allows the user to debug the script.
You can also attach the script debugger to the [configuration validation](11-cli-commands.md#config-validation): You can also attach the script debugger to the [configuration validation](11-cli-commands.md#config-validation):
# icinga2 daemon -C -X ```
# icinga2 daemon -C -X
```
Here is a list of common errors which can be diagnosed with the script debugger: Here is a list of common errors which can be diagnosed with the script debugger:
@ -24,48 +28,54 @@ The following example illustrates the problem of a service [apply rule](03-monit
which expects a dictionary value for `config`, but the host custom attribute only which expects a dictionary value for `config`, but the host custom attribute only
provides a string value: provides a string value:
object Host "script-debugger-host" { ```
check_command = "icinga" object Host "script-debugger-host" {
check_command = "icinga"
vars.http_vhosts["example.org"] = "192.168.1.100" // a string value vars.http_vhosts["example.org"] = "192.168.1.100" // a string value
} }
apply Service for (http_vhost => config in host.vars.http_vhosts) { apply Service for (http_vhost => config in host.vars.http_vhosts) {
import "generic-service" import "generic-service"
vars += config // expects a dictionary vars += config // expects a dictionary
check_command = "http" check_command = "http"
} }
```
The error message on config validation will warn about the wrong value type, The error message on config validation will warn about the wrong value type,
but does not provide any context which objects are affected. but does not provide any context which objects are affected.
Enable the script debugger and run the config validation: Enable the script debugger and run the config validation:
# icinga2 daemon -C -X ```
# icinga2 daemon -C -X
Breakpoint encountered in /etc/icinga2/conf.d/services.conf: 59:67-65:1 Breakpoint encountered in /etc/icinga2/conf.d/services.conf: 59:67-65:1
Exception: Error: Error while evaluating expression: Cannot convert value of type 'String' to an object. Exception: Error: Error while evaluating expression: Cannot convert value of type 'String' to an object.
Location: Location:
/etc/icinga2/conf.d/services.conf(62): check_command = "http" /etc/icinga2/conf.d/services.conf(62): check_command = "http"
/etc/icinga2/conf.d/services.conf(63): /etc/icinga2/conf.d/services.conf(63):
/etc/icinga2/conf.d/services.conf(64): vars += config /etc/icinga2/conf.d/services.conf(64): vars += config
^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^
/etc/icinga2/conf.d/services.conf(65): } /etc/icinga2/conf.d/services.conf(65): }
/etc/icinga2/conf.d/services.conf(66): /etc/icinga2/conf.d/services.conf(66):
You can inspect expressions (such as variables) by entering them at the prompt. You can inspect expressions (such as variables) by entering them at the prompt.
To leave the debugger and continue the program use "$continue". To leave the debugger and continue the program use "$continue".
<1> => <1> =>
```
You can print the variables `vars` and `config` to get an idea about You can print the variables `vars` and `config` to get an idea about
their values: their values:
<1> => vars ```
null <1> => vars
<2> => config null
"192.168.1.100" <2> => config
<3> => "192.168.1.100"
<3> =>
```
The `vars` attribute has to be a dictionary. Trying to set this attribute to a string caused The `vars` attribute has to be a dictionary. Trying to set this attribute to a string caused
the error in our configuration example. the error in our configuration example.
@ -73,10 +83,12 @@ the error in our configuration example.
In order to determine the name of the host where the value of the `config` variable came from In order to determine the name of the host where the value of the `config` variable came from
you can inspect attributes of the service object: you can inspect attributes of the service object:
<3> => host_name ```
"script-debugger-host-01" <3> => host_name
<4> => name "script-debugger-host-01"
"http" <4> => name
"http"
```
Additionally you can view the service object attributes by printing the value of `this`. Additionally you can view the service object attributes by printing the value of `this`.
@ -84,28 +96,31 @@ Additionally you can view the service object attributes by printing the value of
In order to halt execution in a script you can use the `debugger` keyword: In order to halt execution in a script you can use the `debugger` keyword:
object Host "script-debugger-host-02" { ```
check_command = "dummy" object Host "script-debugger-host-02" {
check_interval = 5s check_command = "dummy"
check_interval = 5s
vars.dummy_text = {{ vars.dummy_text = {{
var text = "Hello from " + macro("$name$") var text = "Hello from " + macro("$name$")
debugger debugger
return text return text
}} }}
} }
```
Icinga 2 will spawn a debugger console every time the function is executed: Icinga 2 will spawn a debugger console every time the function is executed:
# icinga2 daemon -X ```
... # icinga2 daemon -X
Breakpoint encountered in /etc/icinga2/tests/script-debugger.conf: 7:5-7:12 ...
You can inspect expressions (such as variables) by entering them at the prompt. Breakpoint encountered in /etc/icinga2/tests/script-debugger.conf: 7:5-7:12
To leave the debugger and continue the program use "$continue". You can inspect expressions (such as variables) by entering them at the prompt.
<1> => text To leave the debugger and continue the program use "$continue".
"Hello from script-debugger-host-02" <1> => text
<2> => $continue "Hello from script-debugger-host-02"
<2> => $continue
```
## Debugging API Filters <a id="script-debugger-api-filters"></a> ## Debugging API Filters <a id="script-debugger-api-filters"></a>

140
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@ -213,32 +213,34 @@ If you want to delete all breakpoints, use `d` and select `yes`.
Breakpoint Example: Breakpoint Example:
(gdb) b __cxa_throw ```
(gdb) r (gdb) b __cxa_throw
(gdb) up (gdb) r
.... (gdb) up
(gdb) up ....
#11 0x00007ffff7cbf9ff in icinga::Utility::GlobRecursive(icinga::String const&, icinga::String const&, boost::function<void (icinga::String const&)> const&, int) (path=..., pattern=..., callback=..., type=1) (gdb) up
at /home/michi/coding/icinga/icinga2/lib/base/utility.cpp:609 #11 0x00007ffff7cbf9ff in icinga::Utility::GlobRecursive(icinga::String const&, icinga::String const&, boost::function<void (icinga::String const&)> const&, int) (path=..., pattern=..., callback=..., type=1)
609 callback(cpath); at /home/michi/coding/icinga/icinga2/lib/base/utility.cpp:609
(gdb) l 609 callback(cpath);
604 (gdb) l
605 #endif /* _WIN32 */ 604
606 605 #endif /* _WIN32 */
607 std::sort(files.begin(), files.end()); 606
608 BOOST_FOREACH(const String& cpath, files) { 607 std::sort(files.begin(), files.end());
609 callback(cpath); 608 BOOST_FOREACH(const String& cpath, files) {
610 } 609 callback(cpath);
611 610 }
612 std::sort(dirs.begin(), dirs.end()); 611
613 BOOST_FOREACH(const String& cpath, dirs) { 612 std::sort(dirs.begin(), dirs.end());
(gdb) p files 613 BOOST_FOREACH(const String& cpath, dirs) {
$3 = std::vector of length 11, capacity 16 = {{static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/agent.conf"}, {static NPos = 18446744073709551615, (gdb) p files
m_Data = "/etc/icinga2/conf.d/commands.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/downtimes.conf"}, {static NPos = 18446744073709551615, $3 = std::vector of length 11, capacity 16 = {{static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/agent.conf"}, {static NPos = 18446744073709551615,
m_Data = "/etc/icinga2/conf.d/groups.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/notifications.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/commands.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/downtimes.conf"}, {static NPos = 18446744073709551615,
m_Data = "/etc/icinga2/conf.d/satellite.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/services.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/groups.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/notifications.conf"}, {static NPos = 18446744073709551615,
m_Data = "/etc/icinga2/conf.d/templates.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/test.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/satellite.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/services.conf"}, {static NPos = 18446744073709551615,
m_Data = "/etc/icinga2/conf.d/timeperiods.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/users.conf"}} m_Data = "/etc/icinga2/conf.d/templates.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/test.conf"}, {static NPos = 18446744073709551615,
m_Data = "/etc/icinga2/conf.d/timeperiods.conf"}, {static NPos = 18446744073709551615, m_Data = "/etc/icinga2/conf.d/users.conf"}}
```
### Core Dump <a id="development-debug-core-dump"></a> ### Core Dump <a id="development-debug-core-dump"></a>
@ -1580,66 +1582,76 @@ Please check `appveyor.yml` for instructions.
Install the `boost`, `python` and `icinga2` pretty printers. Absolute paths are required, Install the `boost`, `python` and `icinga2` pretty printers. Absolute paths are required,
so please make sure to update the installation paths accordingly (`pwd`). so please make sure to update the installation paths accordingly (`pwd`).
$ mkdir -p ~/.gdb_printers && cd ~/.gdb_printers ```
$ mkdir -p ~/.gdb_printers && cd ~/.gdb_printers
```
Boost Pretty Printers compatible with Python 3: Boost Pretty Printers compatible with Python 3:
$ git clone https://github.com/mateidavid/Boost-Pretty-Printer.git && cd Boost-Pretty-Printer ```
$ git checkout python-3 $ git clone https://github.com/mateidavid/Boost-Pretty-Printer.git && cd Boost-Pretty-Printer
$ pwd $ git checkout python-3
/home/michi/.gdb_printers/Boost-Pretty-Printer $ pwd
/home/michi/.gdb_printers/Boost-Pretty-Printer
```
Python Pretty Printers: Python Pretty Printers:
$ cd ~/.gdb_printers ```
$ svn co svn://gcc.gnu.org/svn/gcc/trunk/libstdc++-v3/python $ cd ~/.gdb_printers
$ svn co svn://gcc.gnu.org/svn/gcc/trunk/libstdc++-v3/python
```
Icinga 2 Pretty Printers: Icinga 2 Pretty Printers:
$ mkdir -p ~/.gdb_printers/icinga2 && cd ~/.gdb_printers/icinga2 ```
$ wget https://raw.githubusercontent.com/Icinga/icinga2/master/tools/debug/gdb/icingadbg.py $ mkdir -p ~/.gdb_printers/icinga2 && cd ~/.gdb_printers/icinga2
$ wget https://raw.githubusercontent.com/Icinga/icinga2/master/tools/debug/gdb/icingadbg.py
```
Now you'll need to modify/setup your `~/.gdbinit` configuration file. Now you'll need to modify/setup your `~/.gdbinit` configuration file.
You can download the one from Icinga 2 and modify all paths. You can download the one from Icinga 2 and modify all paths.
Example on Fedora 22: Example on Fedora 22:
$ wget https://raw.githubusercontent.com/Icinga/icinga2/master/tools/debug/gdb/gdbinit -O ~/.gdbinit ```
$ vim ~/.gdbinit $ wget https://raw.githubusercontent.com/Icinga/icinga2/master/tools/debug/gdb/gdbinit -O ~/.gdbinit
$ vim ~/.gdbinit
set print pretty on set print pretty on
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/icinga2')
from icingadbg import register_icinga_printers
register_icinga_printers()
end
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/python')
from libstdcxx.v6.printers import register_libstdcxx_printers
try:
register_libstdcxx_printers(None)
except:
pass
end
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/Boost-Pretty-Printer')
import boost_print
boost_print.register_printers()
end
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/icinga2')
from icingadbg import register_icinga_printers
register_icinga_printers()
end
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/python')
from libstdcxx.v6.printers import register_libstdcxx_printers
try:
register_libstdcxx_printers(None)
except:
pass
end
python
import sys
sys.path.insert(0, '/home/michi/.gdb_printers/Boost-Pretty-Printer')
import boost_print
boost_print.register_printers()
end
```
If you are getting the following error when running gdb, the `libstdcxx` If you are getting the following error when running gdb, the `libstdcxx`
printers are already preloaded in your environment and you can remove printers are already preloaded in your environment and you can remove
the duplicate import in your `~/.gdbinit` file. the duplicate import in your `~/.gdbinit` file.
RuntimeError: pretty-printer already registered: libstdc++-v6 ```
RuntimeError: pretty-printer already registered: libstdc++-v6
```
## Development Tests <a id="development-tests"></a> ## Development Tests <a id="development-tests"></a>

184
doc/22-selinux.md
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@ -18,16 +18,18 @@ There are two ways of installing the SELinux Policy for Icinga 2 on Enterprise L
If the system runs in enforcing mode and you encounter problems you can set Icinga 2's domain to permissive mode. If the system runs in enforcing mode and you encounter problems you can set Icinga 2's domain to permissive mode.
# sestatus ```
SELinux status: enabled # sestatus
SELinuxfs mount: /sys/fs/selinux SELinux status: enabled
SELinux root directory: /etc/selinux SELinuxfs mount: /sys/fs/selinux
Loaded policy name: targeted SELinux root directory: /etc/selinux
Current mode: enforcing Loaded policy name: targeted
Mode from config file: enforcing Current mode: enforcing
Policy MLS status: enabled Mode from config file: enforcing
Policy deny_unknown status: allowed Policy MLS status: enabled
Max kernel policy version: 28 Policy deny_unknown status: allowed
Max kernel policy version: 28
```
You can change the configured mode by editing `/etc/selinux/config` and the current mode by executing `setenforce 0`. You can change the configured mode by editing `/etc/selinux/config` and the current mode by executing `setenforce 0`.
@ -35,13 +37,17 @@ You can change the configured mode by editing `/etc/selinux/config` and the curr
Simply add the `icinga2-selinux` package to your installation. Simply add the `icinga2-selinux` package to your installation.
# yum install icinga2-selinux ```
# yum install icinga2-selinux
```
Ensure that the `icinga2` process is running in its own `icinga2_t` domain after installing the policy package: Ensure that the `icinga2` process is running in its own `icinga2_t` domain after installing the policy package:
# systemctl restart icinga2.service ```
# ps -eZ | grep icinga2 # systemctl restart icinga2.service
system_u:system_r:icinga2_t:s0 2825 ? 00:00:00 icinga2 # ps -eZ | grep icinga2
system_u:system_r:icinga2_t:s0 2825 ? 00:00:00 icinga2
```
#### Manual installation <a id="selinux-policy-installation-manual"></a> #### Manual installation <a id="selinux-policy-installation-manual"></a>
@ -49,24 +55,32 @@ This section describes the installation to support development and testing. It a
As a prerequisite install the `git`, `selinux-policy-devel` and `audit` packages. Enable and start the audit daemon afterwards: As a prerequisite install the `git`, `selinux-policy-devel` and `audit` packages. Enable and start the audit daemon afterwards:
# yum install git selinux-policy-devel audit ```
# systemctl enable auditd.service # yum install git selinux-policy-devel audit
# systemctl start auditd.service # systemctl enable auditd.service
# systemctl start auditd.service
```
After that clone the icinga2 git repository: After that clone the icinga2 git repository:
# git clone https://github.com/icinga/icinga2 ```
# git clone https://github.com/icinga/icinga2
```
To create and install the policy package run the installation script which also labels the resources. (The script assumes Icinga 2 was started once after system startup, the labeling of the port will only happen once and fail later on.) To create and install the policy package run the installation script which also labels the resources. (The script assumes Icinga 2 was started once after system startup, the labeling of the port will only happen once and fail later on.)
# cd tools/selinux/ ```
# ./icinga.sh # cd tools/selinux/
# ./icinga.sh
```
After that restart Icinga 2 and verify it running in its own domain `icinga2_t`. After that restart Icinga 2 and verify it running in its own domain `icinga2_t`.
# systemctl restart icinga2.service ```
# ps -eZ | grep icinga2 # systemctl restart icinga2.service
system_u:system_r:icinga2_t:s0 2825 ? 00:00:00 icinga2 # ps -eZ | grep icinga2
system_u:system_r:icinga2_t:s0 2825 ? 00:00:00 icinga2
```
### General <a id="selinux-policy-general"></a> ### General <a id="selinux-policy-general"></a>
@ -126,23 +140,29 @@ Make sure to report the bugs in the policy afterwards.
Download and install a plugin, for example check_mysql_health. Download and install a plugin, for example check_mysql_health.
# wget https://labs.consol.de/download/shinken-nagios-plugins/check_mysql_health-2.1.9.2.tar.gz ```
# tar xvzf check_mysql_health-2.1.9.2.tar.gz # wget https://labs.consol.de/download/shinken-nagios-plugins/check_mysql_health-2.1.9.2.tar.gz
# cd check_mysql_health-2.1.9.2/ # tar xvzf check_mysql_health-2.1.9.2.tar.gz
# ./configure --libexecdir /usr/lib64/nagios/plugins # cd check_mysql_health-2.1.9.2/
# make # ./configure --libexecdir /usr/lib64/nagios/plugins
# make install # make
# make install
```
It is labeled `nagios_unconfined_plugins_exec_t` by default, so it runs without restrictions. It is labeled `nagios_unconfined_plugins_exec_t` by default, so it runs without restrictions.
# ls -lZ /usr/lib64/nagios/plugins/check_mysql_health ```
-rwxr-xr-x. root root system_u:object_r:nagios_unconfined_plugin_exec_t:s0 /usr/lib64/nagios/plugins/check_mysql_health # ls -lZ /usr/lib64/nagios/plugins/check_mysql_health
-rwxr-xr-x. root root system_u:object_r:nagios_unconfined_plugin_exec_t:s0 /usr/lib64/nagios/plugins/check_mysql_health
```
In this case the plugin is monitoring a service, so it should be labeled `nagios_services_plugin_exec_t` to restrict its permissions. In this case the plugin is monitoring a service, so it should be labeled `nagios_services_plugin_exec_t` to restrict its permissions.
# chcon -t nagios_services_plugin_exec_t /usr/lib64/nagios/plugins/check_mysql_health ```
# ls -lZ /usr/lib64/nagios/plugins/check_mysql_health # chcon -t nagios_services_plugin_exec_t /usr/lib64/nagios/plugins/check_mysql_health
-rwxr-xr-x. root root system_u:object_r:nagios_services_plugin_exec_t:s0 /usr/lib64/nagios/plugins/check_mysql_health # ls -lZ /usr/lib64/nagios/plugins/check_mysql_health
-rwxr-xr-x. root root system_u:object_r:nagios_services_plugin_exec_t:s0 /usr/lib64/nagios/plugins/check_mysql_health
```
The plugin still runs fine but if someone changes the script to do weird stuff it will fail to do so. The plugin still runs fine but if someone changes the script to do weird stuff it will fail to do so.
@ -152,25 +172,29 @@ You are running graphite on a different port than `2003` and want `icinga2` to c
Change the port value for the graphite feature according to your graphite installation before enabling it. Change the port value for the graphite feature according to your graphite installation before enabling it.
# cat /etc/icinga2/features-enabled/graphite.conf ```
/** # cat /etc/icinga2/features-enabled/graphite.conf
* The GraphiteWriter type writes check result metrics and /**
* performance data to a graphite tcp socket. * The GraphiteWriter type writes check result metrics and
*/ * performance data to a graphite tcp socket.
*/
library "perfdata" library "perfdata"
object GraphiteWriter "graphite" { object GraphiteWriter "graphite" {
//host = "127.0.0.1" //host = "127.0.0.1"
//port = 2003 //port = 2003
port = 2004 port = 2004
} }
# icinga2 feature enable graphite # icinga2 feature enable graphite
```
Before you restart the icinga2 service allow it to connect to all ports by enabling the boolean ´icinga2_can_connect_all` (now and permanent). Before you restart the icinga2 service allow it to connect to all ports by enabling the boolean ´icinga2_can_connect_all` (now and permanent).
# setsebool icinga2_can_connect_all true ```
# setsebool -P icinga2_can_connect_all true # setsebool icinga2_can_connect_all true
# setsebool -P icinga2_can_connect_all true
```
If you restart the daemon now it will successfully connect to graphite. If you restart the daemon now it will successfully connect to graphite.
@ -181,49 +205,63 @@ this user. This is completly optional!
Start by adding the Icinga 2 administrator role `icinga2adm_r` to the administrative SELinux user `staff_u`. Start by adding the Icinga 2 administrator role `icinga2adm_r` to the administrative SELinux user `staff_u`.
# semanage user -m -R "staff_r sysadm_r system_r unconfined_r icinga2adm_r" staff_u ```
# semanage user -m -R "staff_r sysadm_r system_r unconfined_r icinga2adm_r" staff_u
```
Confine your user login and create a sudo rule. Confine your user login and create a sudo rule.
# semanage login -a dirk -s staff_u ```
# echo "dirk ALL=(ALL) NOPASSWD: ALL" > /etc/sudoers.d/dirk # semanage login -a dirk -s staff_u
# echo "dirk ALL=(ALL) NOPASSWD: ALL" > /etc/sudoers.d/dirk
```
Login to the system using ssh and verify your id. Login to the system using ssh and verify your id.
$ id -Z ```
staff_u:staff_r:staff_t:s0-s0:c0.c1023 $ id -Z
staff_u:staff_r:staff_t:s0-s0:c0.c1023
```
Try to execute some commands as root using sudo. Try to execute some commands as root using sudo.
$ sudo id -Z ```
staff_u:staff_r:staff_t:s0-s0:c0.c1023 $ sudo id -Z
$ sudo vi /etc/icinga2/icinga2.conf staff_u:staff_r:staff_t:s0-s0:c0.c1023
"/etc/icinga2/icinga2.conf" [Permission Denied] $ sudo vi /etc/icinga2/icinga2.conf
$ sudo cat /var/log/icinga2/icinga2.log "/etc/icinga2/icinga2.conf" [Permission Denied]
cat: /var/log/icinga2/icinga2.log: Keine Berechtigung $ sudo cat /var/log/icinga2/icinga2.log
$ sudo systemctl reload icinga2.service cat: /var/log/icinga2/icinga2.log: Keine Berechtigung
Failed to get D-Bus connection: No connection to service manager. $ sudo systemctl reload icinga2.service
Failed to get D-Bus connection: No connection to service manager.
```
Those commands fail because you only switch to root but do not change your SELinux role. Try again but tell sudo also to switch the SELinux role and type. Those commands fail because you only switch to root but do not change your SELinux role. Try again but tell sudo also to switch the SELinux role and type.
$ sudo -r icinga2adm_r -t icinga2adm_t id -Z ```
staff_u:icinga2adm_r:icinga2adm_t:s0-s0:c0.c1023 $ sudo -r icinga2adm_r -t icinga2adm_t id -Z
$ sudo -r icinga2adm_r -t icinga2adm_t vi /etc/icinga2/icinga2.conf staff_u:icinga2adm_r:icinga2adm_t:s0-s0:c0.c1023
"/etc/icinga2/icinga2.conf" $ sudo -r icinga2adm_r -t icinga2adm_t vi /etc/icinga2/icinga2.conf
$ sudo -r icinga2adm_r -t icinga2adm_t cat /var/log/icinga2/icinga2.log "/etc/icinga2/icinga2.conf"
[2015-03-26 20:48:14 +0000] information/DynamicObject: Dumping program state to file '/var/lib/icinga2/icinga2.state' $ sudo -r icinga2adm_r -t icinga2adm_t cat /var/log/icinga2/icinga2.log
$ sudo -r icinga2adm_r -t icinga2adm_t systemctl reload icinga2.service [2015-03-26 20:48:14 +0000] information/DynamicObject: Dumping program state to file '/var/lib/icinga2/icinga2.state'
$ sudo -r icinga2adm_r -t icinga2adm_t systemctl reload icinga2.service
```
Now the commands will work, but you have always to remember to add the arguments, so change the sudo rule to set it by default. Now the commands will work, but you have always to remember to add the arguments, so change the sudo rule to set it by default.
# echo "dirk ALL=(ALL) ROLE=icinga2adm_r TYPE=icinga2adm_t NOPASSWD: ALL" > /etc/sudoers.d/dirk ```
# echo "dirk ALL=(ALL) ROLE=icinga2adm_r TYPE=icinga2adm_t NOPASSWD: ALL" > /etc/sudoers.d/dirk
```
Now try the commands again without providing the role and type and they will work, but if you try to read apache logs or restart apache for example it will still fail. Now try the commands again without providing the role and type and they will work, but if you try to read apache logs or restart apache for example it will still fail.
$ sudo cat /var/log/httpd/error_log ```
/bin/cat: /var/log/httpd/error_log: Keine Berechtigung $ sudo cat /var/log/httpd/error_log
$ sudo systemctl reload httpd.service /bin/cat: /var/log/httpd/error_log: Keine Berechtigung
Failed to issue method call: Access denied $ sudo systemctl reload httpd.service
Failed to issue method call: Access denied
```
## Bugreports <a id="selinux-bugreports"></a> ## Bugreports <a id="selinux-bugreports"></a>

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