/merlin

Module for Effortless Redundancy and Loadbalancing In Naemon

Primary LanguageCOtherNOASSERTION

Welcome to Merlin

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The Merlin project, or Module for Effortless Redundancy and Loadbalancing In Nagios, was initially started to create an easy way to set up distributed Nagios installations, allowing Nagios processes to exchange information directly as an alternative to the standard nagios way using NSCA. Now, the nagios support is deprecated in favour of Naemon ( www.naemon.org ) which is a fork of the Nagios project. When starting the Ninja project we realised that we could continue the work on Merlin and adopt the project to function as backend for Ninja by adding support for storing the status information in a database, fault tolearance and some other cool things. This means that Merlin now are responsible for providing status data, acting as a backend, for the Ninja GUI.

Brief description of the Merlin project

Merlin consists of:

merlin-mod: Responsible for jacking into the NEBCALLBACK_* calls and send them to a socket. If the socket is not available the events are written to a backlog and sent when the socket is available again.

merlind: The Merlin deamon listens to the socket that merlin-mod writes to and sends all events received either to a database of your choice (using libdbi) or to another merlin daemon. If the daemon is unsuccessful in this it writes to a backlog and sends the data later.

merlin database: This is a database that includes Naemon object status and status changes. It also contains comments, scheduled downtime etc.

More information about the Merlin project and can be found at http://op5.org

Requirements

Merlin requires Naemon, including its development headers for building. Currently, it requires the very latest development version (> 1.0.3) for auto-detecting paths to Naemon.

Other general build requirements: gcc, autoconf, automake, glib-2-devel, check-devel, libdbi-devel, libtool, naemon-devel, gperf

For running Merlin with its default configuration, you'll need to have libdbi-dbd-mysql and all of its dependencies (generally libdbi-drivers, libdbi and mysql-libs) installed.

You will of course also need an sql database supported by libdbi (refer to the libdbi documentation for further information about supported databases), as well as a Naemon installation that the Merlin module can plug in to. The import script is currently limited to MySQL only, so that's currently the only database supported.

The install script requires sql administration privileges in order to create the database that merlin will populate for you.

GNU sed 4.0.9 or better is required for the install script to be able to modify your naemon configuration files.

Building and installation

Building is a standard autotools fair: released tarballs does what you need with

./configure
 make
 sudo make install

For git checkouts, do

 ./autogen.sh
 make
 sudo make install

The install will by default try to install merlin's database. The configure script provides a way to configure database name and users, as well as a way to prevent merlin from doing this automatically, in which case you need to run the install-merlin.sh script manually. Run ./configure --help for more information.

Merlin will drop a naemon configuration file into the directory naemon's configuration lies. You can include it in your main naemon config file with include_file=merlin.cfg or by putting the config file in an already included directory with the --with-naemon-config-dir argument to the configure script.

Configuration

Configuring merlin is pretty straight-forward. Merlin's default config - by default installed into /usr/local/etc/merlin/merlin.conf - contains most of the common examples available.

More information and examples can be found in the HOWTO document that resides in the same repo.

The syntax is fairly standard, being made up of a key without spaces and a value containing arbitrary characters (although no semi-colons). A configuration statement is terminated either by a newline or a semi-colon. A configuration statement starting with a hash-character (#) is considered a comment. Thus,

key = value; # comment

makes "key" the key, "value" the value, terminated by the semi-colon, and "# comment" all of the comment. Leading and trailing whitespace is ignored.

The thing it doesn't really cover very well is how to configure masters, peers and pollers, which is described more in-depth here.

In order to set up a load balanced system (ie, 2 or more peers), all you need to do is add a section similar to the following to your merlin configuration files on your merlin-empowered Naemon systems. Let's pretend we have "master1" and "master2" in the network and you wish for them to be set up in load balanced/redundancy mode. naemon1 has 192.168.1.1 as IP. naemon2 has 192.168.1.2. Both use port 15551 (the default).

On master1, add the following section to your merlin.conf file:

 peer master2 {
  address = 192.168.1.2;
  port = 15551; # optional, since 15551 is the default
 }

On master2, add the following section to your merlin.conf file:

peer master1 {
 address = 192.168.1.1;
 port = 15551; # optional, since 15551 is the default
}

Assuming master2 is a poller-node instead, rename it to poller 1 that is responsible for checkinghosts in germany, you need to create a hostgroup in Naemon containing all the hosts in germany that you want poller1 to check for you. Let's assume you call that hostgroup "germany-hosts". Then you need to add following sections to your merlin.conf files:

On master1 (the "master" server), add the following section:

poller poller1 {
 address = 192.168.1.2
 port = 15551;
 hostgroup = germany-hosts; # name of the hostgroup containing all
                            # the hosts you want this poller to check
}

On poller1 (the slave server), add the following section:

master master1 {
 address = 192.168.1.1;
 port = 15551;
}

Note that these configuration sections need to be in the base section of the configuration file. They must not be inside the daemon section. This is because the master server will disable checks for all its pollers once those pollers connect, and therefore it needs to read the list of available nodes at configuration time.

A merlin node can have up to 65534 neighbours (assuming your system lets a single program have that many file-descriptors open). A neighbour is, in merlin terminology, a node that merlin connects to directly, so you can build arbitrarily large networks by just specifying multiple tiers of pollers.

A single merlin node can have pollers, peers and master nodes in its own neighbourhood. As such, a single merlin node can, at the same time be a peer (to its peers), a master (to its pollers) and a poller (to its masters). One section has to be added to the merlin.conf file for each of the hosts in its neighbourhood. The section must contain the address of the neighbour, the port the neighbour is listening to (unless it's the default port 15551) and, if the neighbour is a poller, the section must contain a hostgroup statement declaring which hostgroup the poller is responsible for checking.