Icinga has the ability to distinguish between "normal" services and "volatile" services. The is_volatile option in each service definition allows you to specify whether a specific service is volatile or not. For most people, the majority of all monitored services will be non-volatile (i.e. "normal"). However, volatile services can be very useful when used properly...
Volatile services are useful for monitoring...
Things that automatically reset themselves to an "OK" state each time they are checked
Events such as security alerts which require attention every time there is a problem (and not just the first time)
Volatile services differ from "normal" services in three important ways. Each time they are checked when they are in a hard non-OK state, and the check returns a non-OK state (i.e. no state change has occurred)...
These events normally only occur for services when they are in a non-OK state and a hard state change has just occurred. In other words, they only happen the first time that a service goes into a non-OK state. If future checks of the service result in the same non-OK state, no hard state change occurs and none of the events mentioned take place again.
If you are only interested in logging, consider using stalking options instead.
If you combine the features of volatile services and passive service checks, you can do some very useful things. Examples of this include handling SNMP traps, security alerts, etc.
How about an example... Let's say you're running PortSentry to detect port scans on your machine and automatically firewall potential intruders. If you want to let Icinga know about port scans, you could do the following...
Create a service definition called Port Scans and associate it with the host that PortSentry is running on.
Set the max_check_attempts directive in the service definition to 1. This will tell Icinga to immediate force the service into a hard state when a non-OK state is reported.
Set the active_checks_enabled directive in the service definition to 0. This prevents Icinga from actively checking the service.
Set the passive_checks_enabled directive in the service definition to 1. This enables passive checks for the service.
Set this is_volatile directive in the service definition to 1.
Edit your PortSentry configuration file (portsentry.conf) and define a command for the KILL_RUN_CMD directive as follows:
KILL_RUN_CMD="/usr/local/Icinga/libexec/eventhandlers/submit_check_result host_name 'Port Scans' 2 'Port scan from host $TARGET$ on port $PORT$. Host has been firewalled.'"
Make sure to replace host_name with the short name of the host that the service is associated with.
Create a shell script in the /usr/local/icinga/libexec/eventhandlers directory named submit_check_result. The contents of the shell script should be something similiar to the following...
#!/bin/sh # Write a command to the Icinga command file to cause # it to process a service check result echocmd="/bin/echo" CommandFile="/usr/local/icinga/var/rw/nagios.cmd" # get the current date/time in seconds since UNIX epoch datetime=`date +%s` # create the command line to add to the command file cmdline="[$datetime] PROCESS_SERVICE_CHECK_RESULT;$1;$2;$3;$4" # append the command to the end of the command file `$echocmd $cmdline >> $CommandFile`
What will happen when PortSentry detects a port scan on the machine in the future?
PortSentry will firewall the host (this is a function of the PortSentry software)
PortSentry will execute the submit_check_result shell script and send a passive check result to Icinga
Icinga will read the external command file and see the passive service check submitted by PortSentry
Icinga will put the Port Scans service in a hard CRITICAL state and send notifications to contacts
Pretty neat, huh?
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