54 KiB
Getting Started
This tutorial is a step-by-step introduction to installing Icinga 2 and available Icinga web interfaces. It assumes that you are familiar with the system you're installing Icinga 2 on.
Details on troubleshooting problems can be found here.
Setting up Icinga 2
First off you will have to install Icinga 2. The preferred way of doing this is to use the official package repositories depending on which operating system and distribution you are running.
Distribution | Repository |
---|---|
Debian | Upstream, DebMon, Icinga Repository |
Ubuntu | Upstream, Icinga PPA, Icinga Repository |
RHEL/CentOS | Icinga Repository |
OpenSUSE | Icinga Repository, Server Monitoring Repository |
SLES | Icinga Repository |
Gentoo | Upstream |
FreeBSD | Upstream |
ArchLinux | Upstream |
Packages for distributions other than the ones listed above may also be available. Please contact your distribution packagers.
Installing Requirements for Icinga 2
You need to add the Icinga repository to your package management configuration. Below is a list with examples for the various distributions.
Debian (debmon):
# wget -O - http://debmon.org/debmon/repo.key 2>/dev/null | apt-key add -
# cat >/etc/apt/sources.list.d/debmon.list<<EOF
deb http://debmon.org/debmon debmon-wheezy main
EOF
# apt-get update
Ubuntu (PPA):
# add-apt-repository ppa:formorer/icinga
# apt-get update
RHEL/CentOS:
# rpm --import http://packages.icinga.org/icinga.key
# wget http://packages.icinga.org/epel/ICINGA-release.repo -O /etc/yum.repos.d/ICINGA-release.repo
# yum makecache
Fedora:
# wget http://packages.icinga.org/fedora/ICINGA-release.repo -O /etc/yum.repos.d/ICINGA-release.repo
# yum makecache
SLES:
# zypper ar http://packages.icinga.org/SUSE/ICINGA-release.repo
# zypper ref
OpenSUSE:
# zypper ar http://packages.icinga.org/openSUSE/ICINGA-release.repo
# zypper ref
The packages for RHEL/CentOS depend on other packages which are distributed as part of the EPEL repository. Please make sure to enable this repository by following these instructions.
Installing Icinga 2
You can install Icinga 2 by using your distribution's package manager
to install the icinga2
package.
Debian/Ubuntu:
# apt-get install icinga2
RHEL/CentOS/Fedora:
# yum install icinga2
SLES/OpenSUSE:
# zypper install icinga2
On RHEL/CentOS and SLES you will need to use chkconfig
to enable the
icinga2
service. You can manually start Icinga 2 using service icinga2 start
.
# chkconfig icinga2 on
# service icinga2 start
RHEL/CentOS 7 use Systemd with systemctl {enable,start} icinga2
.
# systemctl enable icinga2
# systemctl start icinga2
Some parts of Icinga 2's functionality are available as separate packages:
Name | Description |
---|---|
icinga2-ido-mysql | DB IDO provider module for MySQL |
icinga2-ido-pgsql | DB IDO provider module for PostgreSQL |
If you're running a distribution for which Icinga 2 packages are
not yet available you will need to use the release tarball which you
can download from the Icinga website. The
release tarballs contain an INSTALL
file with further instructions.
Enabled Features during Installation
The default installation will enable three features required for a basic Icinga 2 installation:
checker
for executing checksnotification
for sending notificationsmainlog
for writing theicinga2.log
file
Verify that by calling icinga2 feature enable
without any additional parameters
and enable the missing features, if any.
# icinga2 feature enable
Syntax: icinga2 feature enable <features separated with whitespaces>
Example: icinga2 feature enable checker notification mainlog
Enables the specified feature(s).
Available features: api checker command compatlog debuglog graphite icingastatus ido-mysql ido-pgsql livestatus mainlog notification perfdata statusdata syslog
Enabled features: checker mainlog notification
Installation Paths
By default Icinga 2 uses the following files and directories:
Path | Description |
---|---|
/etc/icinga2 | Contains Icinga 2 configuration files. |
/etc/init.d/icinga2 | The Icinga 2 init script. |
/usr/bin/icinga2-* | Migration and certificate build scripts. |
/usr/sbin/icinga2* | The Icinga 2 binary and feature enable/disable scripts. |
/usr/share/doc/icinga2 | Documentation files that come with Icinga 2. |
/usr/share/icinga2/include | The Icinga Template Library and plugin command configuration. |
/var/run/icinga2 | PID file. |
/var/run/icinga2/cmd | Command pipe and Livestatus socket. |
/var/cache/icinga2 | status.dat/objects.cache. |
/var/spool/icinga2 | Used for performance data spool files. |
/var/lib/icinga2 | Icinga 2 state file, cluster feature replay log and configuration files. |
/var/log/icinga2 | Log file location and compat/ directory for the CompatLogger feature. |
Setting up Check Plugins
Without plugins Icinga 2 does not know how to check external services. The Monitoring Plugins Project provides an extensive set of plugins which can be used with Icinga 2 to check whether services are working properly.
The recommended way of installing these standard plugins is to use your distribution's package manager.
Note
The
Nagios Plugins
project was renamed toMonitoring Plugins
in January 2014. At the time of this writing some packages are still using the old name while some distributions have adopted the new package namemonitoring-plugins
already.
Note
EPEL for RHEL/CentOS 7 is still in beta mode at the time of writing and does not provide a
monitoring-plugins
package. You are required to manually install them.
For your convenience here is a list of package names for some of the more popular operating systems/distributions:
OS/Distribution | Package Name | Installation Path |
---|---|---|
RHEL/CentOS (EPEL) | nagios-plugins-all | /usr/lib/nagios/plugins or /usr/lib64/nagios/plugins |
Debian | nagios-plugins | /usr/lib/nagios/plugins |
FreeBSD | nagios-plugins | /usr/local/libexec/nagios |
OS X (MacPorts) | nagios-plugins | /opt/local/libexec |
Depending on which directory your plugins are installed into you may need to
update the global PluginDir
constant in your Icinga 2 configuration. This macro is used
by the service templates contained in the Icinga Template Library to determine
where to find the plugin binaries.
Integrate Additional Plugins
For some services you may need additional 'check plugins' which are not provided by the official Monitoring Plugins project.
All existing Nagios or Icinga 1.x plugins work with Icinga 2. Here's a list of popular community sites which host check plugins:
The recommended way of setting up these plugins is to copy them to a common directory
and create an extra global constant, e.g. CustomPluginDir
in your constants.conf
configuration file:
# cp check_snmp_int.pl /opt/plugins
# chmod +x /opt/plugins/check_snmp_int.pl
# cat /etc/icinga2/constants.conf
/**
* This file defines global constants which can be used in
* the other configuration files. At a minimum the
* PluginDir constant should be defined.
*/
const PluginDir = "/usr/lib/nagios/plugins"
const CustomPluginDir = "/opt/monitoring"
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:
# su - icinga -s /bin/bash
$ /opt/plugins/check_snmp_int.pl --help
Additional libraries may be required for some plugins. Please consult the plugin documentation and/or plugin provided README for installation instructions.
Each plugin requires a CheckCommand object in your
configuration which can be used in the Service or
Host object definition. Examples for CheckCommand
objects can be found in the Plugin Check Commands shipped
with Icinga 2.
For further information on your monitoring configuration read the
monitoring basics.
Configuring Icinga 2: First Steps
icinga2.conf
An example configuration file is installed for you in /etc/icinga2/icinga2.conf
.
Here's a brief description of the example configuration:
/**
* Icinga 2 configuration file
* - 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.
*/
Icinga 2 supports C/C++-style comments.
/**
* The constants.conf defines global constants.
*/
include "constants.conf"
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.
*/
include "zones.conf"
/**
* The Icinga Template Library (ITL) provides a number of useful templates
* and command definitions.
* Common monitoring plugin command definitions are included separately.
*/
include <itl>
include <plugins>
/**
* The features-available directory contains a number of configuration
* files for features which can be enabled and disabled using the
* icinga2 feature enable / icinga2 feature disable CLI commands.
* These commands work by creating and removing symbolic links in
* the features-enabled directory.
*/
include "features-enabled/*.conf"
This include
directive takes care of including the configuration files for all
the features which have been enabled with icinga2 feature enable
. See
Enabling/Disabling 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
* directory. Each of these files must have the file extension ".conf".
*/
include_recursive "conf.d"
You can put your own configuration files in the conf.d
directory. This
directive makes sure that all of your own configuration files are included.
constants.conf
The constants.conf
configuration file can be used to define global constants:
/**
* This file defines global constants which can be used in
* the other configuration files.
*/
/* The directory which contains the plugins from the Monitoring Plugins project. */
const PluginDir = "/usr/lib/nagios/plugins"
/* Our local instance name. This should be the common name from the API certificate */
const NodeName = "localhost"
/* Our local zone name. */
const ZoneName = NodeName
zones.conf
The zones.conf
configuration file can be used to configure Endpoint
and Zone
objects
required for a distributed zone setup. By default
a local dummy zone is defined based on the NodeName
constant defined in
constants.conf.
Note
Not required for single instance installations.
localhost.conf
The conf.d/hosts/localhost.conf
file contains our first host definition:
/**
* A host definition. You can create your own configuration files
* in the conf.d directory (e.g. one per host). By default all *.conf
* files in this directory are included.
*/
object Host "localhost" {
import "generic-host"
address = "127.0.0.1"
address6 = "::1"
vars.os = "Linux"
vars.sla = "24x7"
}
This defines the host localhost
. The import
keyword is used to import
the generic-host
template which takes care of setting up the host check
command to hostalive
. If you require a different check command, you can
override it in the object definition.
The vars
attribute can be used to define custom attributes which are available
for check and notification commands. Most of the templates in the Icinga
Template Library require an address
attribute.
The custom attribute os
is evaluated by the linux-servers
group in
groups.conf
making the host localhost
a member.
object HostGroup "linux-servers" {
display_name = "Linux Servers"
assign where host.vars.os == "Linux"
}
A host notification apply rule in notifications.conf
checks for the custom
attribute sla
being set to 24x7
automatically applying a host notification.
/**
* The example notification apply rules.
*
* Only applied if host/service objects have
* the custom attribute `sla` set to `24x7`.
*/
apply Notification "mail-icingaadmin" to Host {
import "mail-host-notification"
user_groups = [ "icingaadmins" ]
assign where host.vars.sla == "24x7"
}
Now it's time to define services for the host object. Because these checks
are only available for the localhost
host, they are organized below
hosts/localhost/
.
Tip
The directory tree and file organisation is just an example. You are free to define your own strategy. Just keep in mind to include the main directories in the icinga2.conf file.
object Service "disk" {
import "generic-service"
host_name = "localhost"
check_command = "disk"
vars.sla = "24x7"
}
object Service "http" {
import "generic-service"
host_name = "localhost"
check_command = "http"
vars.sla = "24x7"
}
object Service "load" {
import "generic-service"
host_name = "localhost"
check_command = "load"
vars.sla = "24x7"
}
object Service "procs" {
import "generic-service"
host_name = "localhost"
check_command = "procs"
vars.sla = "24x7"
}
object Service "ssh" {
import "generic-service"
host_name = "localhost"
check_command = "ssh"
vars.sla = "24x7"
}
object Service "swap" {
import "generic-service"
host_name = "localhost"
check_command = "swap"
vars.sla = "24x7"
}
object Service "users" {
import "generic-service"
host_name = "localhost"
check_command = "users"
vars.sla = "24x7"
}
object Service "icinga" {
import "generic-service"
host_name = "localhost"
check_command = "icinga"
vars.sla = "24x7"
}
The command object icinga
for the embedded health check is provided by the
Icinga Template Library (ITL) while http_ip
, ssh
, load
, processes
,
users
and disk
are all provided by the plugin check commands which we enabled
earlier by including the itl
and plugins
configuration file.
The Debian packages also ship an additional apt
service check.
Best Practice
Instead of defining each service object and assigning it to a host object using the
host_name
attribute rather use the apply rules simplifying your configuration.
There are two generic services applied to all hosts in the host group linux-servers
and windows-servers
by default: ping4
and ping6
. Host objects without
a valid address
resp. address6
attribute will be excluded.
apply Service "ping4" {
import "generic-service"
check_command = "ping4"
vars.sla = "24x7"
assign where "linux-servers" in host.groups
assign where "windows-servers" in host.groups
ignore where host.address == ""
}
apply Service "ping6" {
import "generic-service"
check_command = "ping6"
vars.sla = "24x7"
assign where "linux-servers" in host.groups
assign where "windows-servers" in host.groups
ignore where host.address6 == ""
}
Each of these services has the custom attribute sla
set to 24x7
. The
notification apply rule in notifications.conf
will automatically apply
a service notification matchting this attribute pattern.
apply Notification "mail-icingaadmin" to Service {
import "mail-service-notification"
user_groups = [ "icingaadmins" ]
assign where service.vars.sla == "24x7"
}
Don't forget to install the check plugins required by the services and their check commands.
Further details on the monitoring configuration can be found in the monitoring basics chapter.
Configuring DB IDO
The DB IDO (Database Icinga Data Output) modules for Icinga 2 take care of exporting all configuration and status information into a database. The IDO database is used by a number of projects including Icinga Web 1.x, Reporting or Icinga Web 2.
There is a separate module for each database back-end. At present support for both MySQL and PostgreSQL is implemented.
Icinga 2 uses the Icinga 1.x IDOUtils database schema. Icinga 2 requires additional features not yet released with older Icinga 1.x versions.
Note
Please check the what's new section for the required schema version.
Tip
Only install the IDO feature if your web interface or reporting tool requires you to do so (for example, Icinga Web or Icinga Web 2). Icinga Classic UI does not use IDO as backend.
Installing the Database Server
In order to use DB IDO you need to setup either MySQL or PostgreSQL as supported database server.
Note
It's up to you whether you choose to install it on the same server where Icinga 2 is running on, or on a dedicated database host (or cluster).
Installing MySQL database server
Debian/Ubuntu:
# apt-get install mysql-server mysql-client
RHEL/CentOS 5/6:
# yum install mysql-server mysql
# chkconfig mysqld on
# service mysqld start
RHEL/CentOS 7 and Fedora 20 prefer MariaDB over MySQL:
# yum install mariadb-server mariadb
# systemctl enable mariadb.service
# systemctl start mariadb.service
SUSE:
# zypper install mysql mysql-client
# chkconfig mysqld on
# service mysqld start
RHEL based distributions do not automatically set a secure root password. Do that now:
# /usr/bin/mysql_secure_installation
Installing PostgreSQL database server
Debian/Ubuntu:
# apt-get install postgresql
RHEL/CentOS 5/6:
# yum install postgresql-server postgresql
# chkconfig postgresql on
# service postgresql start
RHEL/CentOS 7 and Fedora 20 use systemd:
# yum install postgresql-server postgresql
# systemctl enable postgresql.service
# systemctl start postgresql.service
SUSE:
# zypper install postgresql postgresql-server
# chkconfig postgresql on
# service postgresql start
Configuring DB IDO MySQL
First of all you have to install the icinga2-ido-mysql
package using your
distribution's package manager.
Debian/Ubuntu:
# apt-get install icinga2-ido-mysql
RHEL/CentOS:
# yum install icinga2-ido-mysql
SUSE:
# zypper install icinga2-ido-mysql
Note
Upstream Debian packages provide a database configuration wizard by default. You can skip the automated setup and install/upgrade the database manually if you prefer that.
Setting up the MySQL database
Set up a MySQL database for Icinga 2:
# mysql -u root -p
mysql> CREATE DATABASE icinga;
GRANT SELECT, INSERT, UPDATE, DELETE, DROP, CREATE VIEW, INDEX, EXECUTE ON icinga.* TO 'icinga'@'localhost' IDENTIFIED BY 'icinga';
quit
After creating the database you can import the Icinga 2 IDO schema using the following command:
# mysql -u root -p icinga < /usr/share/icinga2-ido-mysql/schema/mysql.sql
Upgrading the MySQL database
Check the /usr/share/icinga2-ido-mysql/schema/upgrade
directory for an
incremental schema upgrade file.
Note
If there isn't an upgrade file for your current version available there's nothing to do.
Apply all database schema upgrade files incrementially.
# mysql -u root -p icinga < /usr/share/icinga2-ido-mysql/schema/upgrade/<version>.sql
The Icinga 2 DB IDO module will check for the required database schema version on startup and generate an error message if not satisfied.
Example: You are upgrading Icinga 2 from version 2.0.2
to 2.1.0
. Look into
the upgrade directory:
$ ls /usr/share/icinga2-ido-mysql/schema/upgrade/
2.0.2.sql 2.1.0.sql
There is a new upgrade file called 2.1.0.sql
which must be applied to your IDO database.
Installing the IDO MySQL module
The package provides a new configuration file that is installed in
/etc/icinga2/features-available/ido-mysql.conf
. You will need to update the
database credentials in this file.
You can enable the ido-mysql
feature configuration file using icinga2 feature enable
:
# icinga2 feature enable ido-mysql
Module 'ido-mysql' was enabled.
Make sure to restart Icinga 2 for these changes to take effect.
After enabling the ido-mysql feature you have to restart Icinga 2:
Debian/Ubuntu, RHEL/CentOS 6 and SUSE:
# service icinga2 restart
RHEL/CentOS 7 and Fedora 20:
# systemctl restart icinga2.service
Configuring DB IDO PostgreSQL
First of all you have to install the icinga2-ido-pgsql
package using your
distribution's package manager.
Debian/Ubuntu:
# apt-get install icinga2-ido-pgsql
RHEL/CentOS:
# yum install icinga2-ido-pgsql
SUSE:
# zypper install icinga2-ido-pgsql
Note
Upstream Debian packages provide a database configuration wizard by default. You can skip the automated setup and install/upgrade the database manually if you prefer that.
Setting up the PostgreSQL database
Set up a PostgreSQL database for Icinga 2:
# cd /tmp
# sudo -u postgres psql -c "CREATE ROLE icinga WITH LOGIN PASSWORD 'icinga'";
# sudo -u postgres createdb -O icinga -E UTF8 icinga
# sudo -u postgres createlang plpgsql icinga
Note
Using PostgreSQL 9.x you can omit the
createlang
command.
Locate your pg_hba.conf (Debian: /etc/postgresql/*/main/pg_hba.conf
,
RHEL/SUSE: /var/lib/pgsql/data/pg_hba.conf
), add the icinga user with md5
authentication method and restart the postgresql server.
# vim /var/lib/pgsql/data/pg_hba.conf
# icinga
local icinga icinga md5
host icinga icinga 127.0.0.1/32 md5
host icinga icinga ::1/128 md5
# "local" is for Unix domain socket connections only
local all all ident
# IPv4 local connections:
host all all 127.0.0.1/32 ident
# IPv6 local connections:
host all all ::1/128 ident
# /etc/init.d/postgresql restart
After creating the database and permissions you can import the Icinga 2 IDO schema using the following command:
# export PGPASSWORD=icinga
# psql -U icinga -d icinga < /usr/share/icinga2-ido-pgsql/schema/pgsql.sql
Upgrading the PostgreSQL database
Check the /usr/share/icinga2-ido-pgsql/schema/upgrade
directory for an
incremental schema upgrade file.
Note
If there isn't an upgrade file for your current version available there's nothing to do.
Apply all database schema upgrade files incrementially.
# export PGPASSWORD=icinga
# psql -U icinga -d icinga < /usr/share/icinga2-ido-pgsql/schema/upgrade/<version>.sql
The Icinga 2 DB IDO module will check for the required database schema version on startup and generate an error message if not satisfied.
Example: You are upgrading Icinga 2 from version 2.0.2
to 2.1.0
. Look into
the upgrade directory:
$ ls /usr/share/icinga2-ido-pgsql/schema/upgrade/
2.0.2.sql 2.1.0.sql
There is a new upgrade file called 2.1.0.sql
which must be applied to your IDO database.
Installing the IDO PostgreSQL module
The package provides a new configuration file that is installed in
/etc/icinga2/features-available/ido-pgsql.conf
. You will need to update the
database credentials in this file.
You can enable the ido-pgsql
feature configuration file using icinga2 feature enable
:
# icinga2 feature enable ido-pgsql
Module 'ido-pgsql' was enabled.
Make sure to restart Icinga 2 for these changes to take effect.
After enabling the ido-pgsql feature you have to restart Icinga 2:
Debian/Ubuntu, RHEL/CentOS 6 and SUSE:
# service icinga2 restart
RHEL/CentOS 7 and Fedora 20:
# systemctl restart icinga2.service
Setting Up External Command Pipe
Web interfaces and other Icinga addons are able to send commands to Icinga 2 through the external command pipe.
You can enable the External Command Pipe using icinga2 feature enable:
# icinga2 feature enable command
After that you will have to restart Icinga 2:
Debian/Ubuntu, RHEL/CentOS 6 and SUSE:
# service icinga2 restart
RHEL/CentOS 7 and Fedora 20:
# systemctl restart icinga2.service
By default the command pipe file is owned by the group icingacmd
with read/write
permissions. Add your webserver's user to the group icingacmd
to
enable sending commands to Icinga 2 through your web interface:
# usermod -G -a icingacmd www-data
Debian packages use nagios
as the default user and group name. Therefore change icingacmd
to
nagios
. The webserver's user is different between distributions as well.
Change "www-data" to the user you're using to run queries.
Note
Packages will do that automatically. Verify that by running
id <your-webserver-user>
and skip this step.
Setting up Livestatus
The MK Livestatus project implements a query protocol that lets users query their Icinga instance for status information. It can also be used to send commands.
Tip
Only install the Livestatus feature if your web interface or addon requires you to do so (for example, Icinga Web 2). Icinga Classic UI and Icinga Web do not use Livestatus as backend.
The Livestatus component that is distributed as part of Icinga 2 is a re-implementation of the Livestatus protocol which is compatible with MK Livestatus.
Details on the available tables and attributes with Icinga 2 can be found in the Livestatus Schema section.
You can enable Livestatus using icinga2 feature enable:
# icinga2 feature enable livestatus
After that you will have to restart Icinga 2:
Debian/Ubuntu, RHEL/CentOS 6 and SUSE:
# service icinga2 restart
RHEL/CentOS 7 and Fedora 20:
# systemctl restart icinga2.service
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
(e.g. your web server) to the icingacmd
group:
# usermod -a -G icingacmd www-data
The Debian packages use nagios
as the user and group name. Make sure to change icingacmd
to
nagios
if you're using Debian.
Change "www-data" to the user you're using to run queries.
In order to use the historical tables provided by the livestatus feature (for example, the
log
table) you need to have the CompatLogger
feature enabled. By default these logs
are expected to be in /var/log/icinga2/compat
. A different path can be set using the
compat_log_path
configuration attribute.
# icinga2 feature enable compatlog
Setting up Icinga 2 User Interfaces
Icinga 2 is compatible with Icinga 1.x user interfaces by providing additional features required as backends.
Furthermore these interfaces can be used for the newly created Icinga Web 2
user interface.
Some interface features will only work in a limited manner due to compatibility reasons, other features like the statusmap parents are available by dumping the host dependencies as parents. Special restrictions are noted specifically in the sections below.
Tip
Choose your preferred interface. There's no need to install Classic UI if you prefer Icinga Web or Icinga Web 2 for example.
Requirements
- Web server (Apache2/Httpd, Nginx, Lighttp, etc)
- User credentials
- Firewall ports (tcp/80)
The Debian, RHEL and SUSE packages for Icinga Classic UI, Web and Icingaweb 2 depend on Apache2 as web server.
Webserver
Debian/Ubuntu packages will automatically fetch and install the required packages.
RHEL/CentOS/Fedora:
# yum install httpd
# chkconfig httpd on && service httpd start
## RHEL7
# systemctl enable httpd && systemctl start httpd
SUSE:
# zypper install apache2
# chkconfig on && service apache2 start
Firewall Rules
Example:
# iptables -A INPUT -p tcp -m tcp --dport 80 -j ACCEPT
# service iptables save
RHEL/CentOS 7 specific:
# firewall-cmd --add-service=http
# firewall-cmd --permanent --add-service=http
Setting up Icinga Classic UI
Icinga 2 can write status.dat
and objects.cache
files in the format that
is supported by the Icinga 1.x Classic UI. External commands
(a.k.a. the "command pipe") are also supported. It also supports writing Icinga 1.x
log files which are required for the reporting functionality in the Classic UI.
Installing Icinga Classic UI
The Icinga package repository has both Debian and RPM packages. You can install the Classic UI using the following packages:
Distribution | Packages |
---|---|
Debian | icinga2-classicui |
RHEL/SUSE | icinga2-classicui-config icinga-gui |
The Debian packages require additional packages which are provided by the
Debian Monitoring Project (DebMon
) repository.
libjs-jquery-ui
requires at least version 1.10.*
which is not available
in Debian Wheezy and Ubuntu 12.04 LTS (Precise). Add the following repositories
to satisfy this dependency:
Distribution | Package Repositories |
---|---|
Debian Wheezy | wheezy-backports or DebMon |
Ubuntu 12.04 LTS (Precise) | Icinga PPA |
On all distributions other than Debian you may have to restart both your web server as well as Icinga 2 after installing the Classic UI package.
Icinga Classic UI requires the StatusDataWriter, CompatLogger and ExternalCommandListener features. Enable these features and restart Icinga 2.
# icinga2 feature enable statusdata compatlog command
In order for commands to work you will need to setup the external command pipe.
Setting Up Icinga Classic UI Summary
Verify that your Icinga 1.x Classic UI works by browsing to your Classic UI installation URL:
Distribution | URL | Default Login |
---|---|---|
Debian | http://localhost/icinga2-classicui | asked during installation |
all others | http://localhost/icinga | icingaadmin/icingaadmin |
For further information on configuration, troubleshooting and interface documentation please check the official Icinga 1.x user interface documentation.
Setting up Icinga Web
Icinga 2 can write to the same schema supplied by Icinga IDOUtils 1.x
which
is an explicit requirement to run Icinga Web
next to the external command pipe.
Therefore you need to setup the DB IDO feature remarked in the previous sections.
Installing Icinga Web
The Icinga package repository has both Debian and RPM packages. You can install Icinga Web using the following packages (RPMs ship an additional configuration package):
Distribution | Packages |
---|---|
RHEL/SUSE | icinga-web icinga-web-{mysql,pgsql} |
Debian | icinga-web icinga-web-config-icinga2-ido-{mysql,pgsql} |
Icinga Web on RPM based systems
Additionally you need to setup the icinga_web
database and import the database schema.
Details can be found in the package README
files, for example README.RHEL
The Icinga Web RPM packages install the schema files into
/usr/share/doc/icinga-web-*/schema
(*
means package version).
The Icinga Web dist tarball ships the schema files in etc/schema
.
On SuSE-based distributions the schema files are installed in
/usr/share/doc/packages/icinga-web/schema
.
Example for RHEL and MySQL:
# mysql -u root -p
mysql> CREATE DATABASE icinga_web;
GRANT SELECT, INSERT, UPDATE, DELETE, DROP, CREATE VIEW, INDEX, EXECUTE ON icinga_web.* TO 'icinga_web'@'localhost' IDENTIFIED BY 'icinga_web';
quit
# mysql -u root -p icinga_web < /usr/share/doc/icinga-web-<version>/schema/mysql.sql
Icinga Web requires the IDO feature as database backend using MySQL or PostgreSQL. Enable that feature, e.g. for MySQL.
# icinga2 feature enable ido-mysql
If you've changed your default credentials you may either create a read-only user
or use the credentials defined in the IDO feature for Icinga Web backend configuration.
Edit databases.xml
accordingly and clear the cache afterwards. Further details can be
found in the Icinga Web documentation.
# vim /etc/icinga-web/conf.d/databases.xml
# icinga-web-clearcache
Additionally you need to enable the command
feature for sending external commands:
# icinga2 feature enable command
In order for commands to work you will need to setup the external command pipe.
Then edit the Icinga Web configuration for sending commands in /etc/icinga-web/conf.d/access.xml
(RHEL) or /etc/icinga-web/access.xml
(SUSE) setting the command pipe path
to the default used in Icinga 2. Make sure to clear the cache afterwards.
# vim /etc/icinga-web/conf.d/access.xml
<write>
<files>
<resource name="icinga_pipe">/var/run/icinga2/cmd/icinga2.cmd</resource>
</files>
</write>
# icinga-web-clearcache
Note
The path to the Icinga Web
clearcache
script may differ. Please check the Icinga Web documentation for details.
Icinga Web on Debian systems
Since Icinga Web 1.11.1-2
the IDO auto-configuration has been moved into
additional packages on Debian and Ubuntu.
The package icinga-web
no longer configures the IDO connection. You must now
use one of the config packages:
icinga-web-config-icinga2-ido-mysql
icinga-web-config-icinga2-ido-pgsql
These packages take care of setting up the DB IDO configuration, enabling the external command pipe for Icinga Web and depend on the corresponding packages of Icinga 2.
Please read the README.Debian
files for details and advanced configuration:
/usr/share/doc/icinga-web/README.Debian
/usr/share/doc/icinga-web-config-icinga2-ido-mysql/README.Debian
/usr/share/doc/icinga-web-config-icinga2-ido-pgsql/README.Debian
When changing Icinga Web configuration files make sure to clear the config cache:
# /usr/lib/icinga-web/bin/clearcache.sh
Note
If you are using an older version of Icinga Web, install it like this and adapt the configuration manually as shown in the RPM notes:
apt-get install --no-install-recommends icinga-web
Setting Up Icinga Web Summary
Verify that your Icinga 1.x Web works by browsing to your Web installation URL:
Distribution | URL | Default Login |
---|---|---|
Debian | http://localhost/icinga-web | asked during installation |
all others | http://localhost/icinga-web | root/password |
For further information on configuration, troubleshooting and interface documentation please check the official Icinga 1.x user interface documentation.
Setting up Icinga Web 2
Icinga Web 2 will support status.dat
, DB IDO
, or Livestatus
as backends.
Using DB IDO as backend, you need to install and configure the DB IDO backend. Once finished, you can enable the feature for DB IDO MySQL:
# icinga2 feature enable ido-mysql
Furthermore external commands are supported through the external command pipe.
# icinga2 feature enable command
In order for commands to work you will need to setup the external command pipe.
Please consult the INSTALL documentation shipped with Icinga Web 2
for
further instructions on how to install Icinga Web 2 and to configure
backends, resources and instances.
Note
Icinga Web 2 is still under heavy development. Rather than installing it yourself you should consider testing it using the available Vagrant demo VM in the git repository.
Check the Icinga website for release schedules, blog updates and more.
Additional visualization
There are many visualization addons which can be used with Icinga 2.
Some of the more popular ones are PNP, inGraph graphing performance data), Graphite, and NagVis (network maps).
Configuration Tools
If you require your favourite configuration tool to export Icinga 2 configuration, please get in touch with their developers. The Icinga project does not provide a configuration web interface or similar.
Tip
Get to know the new configuration format and the advanced apply rules and use syntax highlighting in vim/nano.
If you're looking for puppet manifests, chef cookbooks, ansible recipes, etc - we're happy to integrate them upstream, so please get in touch at https://support.icinga.org.
These tools are in development and require feedback and tests:
Configuration Syntax Highlighting
Icinga 2 ships configuration examples for syntax highlighting using the vim
and nano
editors.
The RHEL, SUSE and Debian package icinga2-common
install these files into
/usr/share/*/icinga2-common/syntax
. Sources provide these files in tools/syntax
.
Configuration Syntax Highlighting using Vim
Create a new local vim configuration storage, if not already existing.
Edit vim/ftdetect/icinga2.vim
if your paths to the Icinga 2 configuration
differ.
$ PREFIX=~/.vim
$ mkdir -p $PREFIX/{syntax,ftdetect}
$ cp vim/syntax/icinga2.vim $PREFIX/syntax/
$ cp vim/ftdetect/icinga2.vim $PREFIX/ftdetect/
Test it:
$ vim /etc/icinga2/conf.d/templates.conf
Configuration Syntax Highlighting using Nano
Copy the /etc/nanorc
sample file to your home directory. Create the /etc/nano
directory
and copy the provided icinga2.nanorc
into it.
$ cp /etc/nanorc ~/.nanorc
# mkdir -p /etc/nano
# cp icinga2.nanorc /etc/nano/
Then include the icinga2.nanorc file in your ~/.nanorc by adding the following line:
$ vim ~/.nanorc
## Icinga 2
include "/etc/nano/icinga2.nanorc"
Test it:
$ nano /etc/icinga2/conf.d/templates.conf
Running Icinga 2
Init Script
Icinga 2's init script is installed in /etc/init.d/icinga2
by default:
# /etc/init.d/icinga2
Usage: /etc/init.d/icinga2 {start|stop|restart|reload|checkconfig|status}
Command | Description |
---|---|
start | The start action starts the Icinga 2 daemon. |
stop | The stop action stops the Icinga 2 daemon. |
restart | The restart action is a shortcut for running the stop action followed by start . |
reload | The reload action sends the HUP signal to Icinga 2 which causes it to restart. Unlike the restart action reload does not wait until Icinga 2 has restarted. |
checkconfig | The checkconfig action checks if the /etc/icinga2/icinga2.conf configuration file contains any errors. |
status | The status action checks if Icinga 2 is running. |
By default the Icinga 2 daemon is running as icinga
user and group
using the init script. Using Debian packages the user and group are set to nagios
for historical reasons.
Systemd Service
Modern distributions (Fedora, OpenSUSE, etc.) already use Systemd
natively. Enterprise-grade
distributions such as RHEL7 changed to Systemd
recently. Icinga 2 Packages will install the
service automatically.
The Icinga 2 Systemd
service can be (re)started, reloaded, stopped and also queried for its current status.
# systemctl status icinga2
icinga2.service - Icinga host/service/network monitoring system
Loaded: loaded (/usr/lib/systemd/system/icinga2.service; disabled)
Active: active (running) since Mi 2014-07-23 13:39:38 CEST; 15s ago
Process: 21692 ExecStart=/usr/sbin/icinga2 -c ${ICINGA2_CONFIG_FILE} -d -e ${ICINGA2_ERROR_LOG} -u ${ICINGA2_USER} -g ${ICINGA2_GROUP} (code=exited, status=0/SUCCESS)
Process: 21674 ExecStartPre=/usr/sbin/icinga2-prepare-dirs /etc/sysconfig/icinga2 (code=exited, status=0/SUCCESS)
Main PID: 21727 (icinga2)
CGroup: /system.slice/icinga2.service
└─21727 /usr/sbin/icinga2 -c /etc/icinga2/icinga2.conf -d -e /var/log/icinga2/error.log -u icinga -g icinga --no-stack-rlimit
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 309 Service(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 1 User(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 15 Notification(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 4 ScheduledDowntime(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 1 UserGroup(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 1 IcingaApplication(s).
Jul 23 13:39:38 nbmif icinga2[21692]: [2014-07-23 13:39:38 +0200] information/ConfigItem: Checked 8 Dependency(s).
Jul 23 13:39:38 nbmif systemd[1]: Started Icinga host/service/network monitoring system.
Systemd
supports the following command actions:
Command | Description |
---|---|
start | The start action starts the Icinga 2 daemon. |
stop | The stop action stops the Icinga 2 daemon. |
restart | The restart action is a shortcut for running the stop action followed by start . |
reload | The reload action sends the HUP signal to Icinga 2 which causes it to restart. Unlike the restart action reload does not wait until Icinga 2 has restarted. |
status | The status action checks if Icinga 2 is running. |
enable | The enable action enables the service being started at system boot time (similar to chkconfig ) |
If you're stuck with configuration errors, you can manually invoke the configuration validation.
# systemctl enable icinga2
# systemctl restart icinga2
Job for icinga2.service failed. See 'systemctl status icinga2.service' and 'journalctl -xn' for details.
Command-line Options
$ icinga2 --help
icinga2 - The Icinga 2 network monitoring daemon.
Supported options:
--help show this help message
-V [ --version ] show version information
-l [ --library ] arg load a library
-I [ --include ] arg add include search directory
-D [ --define] args define a constant
-c [ --config ] arg parse a configuration file
-C [ --validate ] exit after validating the configuration
-x [ --debug ] arg enable debugging with severity level specified
-d [ --daemonize ] detach from the controlling terminal
-e [ --errorlog ] arg log fatal errors to the specified log file (only works
in combination with --daemonize)
-u [ --user ] arg user to run Icinga as
-g [ --group ] arg group to run Icinga as
Report bugs at <https://dev.icinga.org/>
Icinga home page: <http://www.icinga.org/>
Libraries
Instead of loading libraries using the library
config directive
you can also use the --library
command-line option.
Constants
Global constants can be set using the --define
command-line option.
Config Include Path
When including files you can specify that the include search path should be checked. You can do this by putting your configuration file name in angle brackets like this:
include <test.conf>
This would cause Icinga 2 to search its include path for the configuration file
test.conf
. By default the installation path for the Icinga Template Library
is the only search directory.
Using the --include
command-line option additional search directories can be
added.
Config Files
Using the --config
option you can specify one or more configuration files.
Config files are processed in the order they're specified on the command-line.
When no configuration file is specified and the --no-config
is not used
Icinga 2 automatically falls back to using the configuration file
SysconfDir + "/icinga2/icinga2.conf"
(where SysconfDir is usually /etc
).
Config Validation
The --validate
option can be used to check if your configuration files
contain errors. If any errors are found the exit status is 1, otherwise 0
is returned.
Enabling/Disabling Features
Icinga 2 provides configuration files for some commonly used features. These
are installed in the /etc/icinga2/features-available
directory and can be
enabled and disabled using the icinga2 feature enable
and icinga2 feature disable
tools,
respectively.
The icinga2 feature enable
tool creates symlinks in the /etc/icinga2/features-enabled
directory which is included by default in the example configuration file.
You can view a list of available feature configuration files:
# icinga2 feature enable
Syntax: icinga2 feature enable <feature>
Enables the specified feature.
Available features: statusdata
Using the icinga2 feature enable
command you can enable features:
# icinga2 feature enable statusdata
Module 'statusdata' was enabled.
Make sure to restart Icinga 2 for these changes to take effect.
You can disable features using the icinga2 feature disable
command:
# icinga2 feature disable statusdata
Module 'statusdata' was disabled.
Make sure to restart Icinga 2 for these changes to take effect.
The icinga2 feature enable
and icinga2 feature disable
commands do not
restart Icinga 2. You will need to restart Icinga 2 using the init script
after enabling or disabling features.
Configuration Validation
Once you've edited the configuration files make sure to tell Icinga 2 to validate the configuration changes. Icinga 2 will log any configuration error including a hint on the file, the line number and the affected configuration line itself.
The following example creates an apply rule without any assign
condition.
apply Service "5872-ping4" {
import "test-generic-service"
check_command = "ping4"
//assign where match("5872-*", host.name)
}
Validate the configuration with the init script option checkconfig
# /etc/init.d/icinga2 checkconfig
or manually passing the -C
argument:
# /usr/sbin/icinga2 daemon -c /etc/icinga2/icinga2.conf -C
[2014-05-22 17:07:25 +0200] critical/ConfigItem: Location:
/etc/icinga2/conf.d/tests/5872.conf(5): }
/etc/icinga2/conf.d/tests/5872.conf(6):
/etc/icinga2/conf.d/tests/5872.conf(7): apply Service "5872-ping4" {
^^^^^^^^^^^^^
/etc/icinga2/conf.d/tests/5872.conf(8): import "test-generic-service"
/etc/icinga2/conf.d/tests/5872.conf(9): check_command = "ping4"
Config error: 'apply' is missing 'assign'
[2014-05-22 17:07:25 +0200] critical/ConfigItem: 1 errors, 0 warnings.
Icinga 2 detected configuration errors.
Reload on Configuration Changes
Everytime you have changed your configuration you should first tell Icinga 2 to validate. If there are no validation errors you can safely reload the Icinga 2 daemon.
# /etc/init.d/icinga2 reload
Note
The
reload
action will send theSIGHUP
signal to the Icinga 2 daemon which will validate the configuration in a separate process and not stop the other events like check execution, notifications, etc.Details can be found here.
Vagrant Demo VM
The Icinga Vagrant Git repository contains support for Vagrant
with VirtualBox. Please note that Vagrant version 1.0.x
is not supported. At least
version 1.2.x
is required.
In order to build the Vagrant VM first you will have to check out the Git repository:
$ git clone git://git.icinga.org/icinga-vagrant.git
For Icinga 2 there are currently two scenarios available:
icinga2x
bringing up a standalone box with Icinga 2icinga2x-cluster
setting up two virtual machines in a master/slave cluster
Note
Please consult the
README.md
file for each project for further installation details at [https://github.com/Icinga/icinga-vagrant]
Once you have checked out the Git repository navigate to your required vagrant box and build the VM using the following command:
$ vagrant up
The Vagrant VMs are based on CentOS 6.x and are using the official
Icinga 2 RPM snapshot packages from packages.icinga.org
. The check
plugins are installed from EPEL providing RPMs with sources from the
Monitoring Plugins project.