High-Availibility for Postgres, based on industry references Pacemaker and Corosync.
Pacemaker is nowadays the industry reference for High Availability. In the same fashion than for Systemd, all Linux distributions moved (or are moving) to this unique Pacemaker+Corosync stack, removing all other existing high availability stacks (CMAN, RGManager, OpenAIS, ...). It is able to detect failure on various services and automatically decide to failover the failing resource to another node when possible.
To be able to manage a specific service resource, Pacemaker interact with it through a so-called "Resource Agent". Resource agents must comply to the OCF specification which define what they must implement (start, stop, promote, etc), how they should behave and inform Pacemaker of their results.
PostgreSQL Automatic Failover is a new OCF resource Agent dedicated to PostgreSQL. Its original wish is to keep a clear limit between the Pacemaker administration and the PostgreSQL one, to keep things simple, documented and yet powerful.
Once your PostgreSQL cluster built using internal streaming replication, PAF is able to expose to Pacemaker what is the current status of the PostgreSQL instance on each node: master, slave, stopped, catching up, etc. Should a failure occurs on the master, Pacemaker will try to recover it by default. Should the failure be non-recoverable, PAF allows the slaves to be able to elect the best of them (the closest one to the old master) and promote it as the new master. All of this thanks to the robust, feature-full and most importantly experienced project: Pacemaker.
For information about how to install this agent, see INSTALL.md.
PAF supports PostgreSQL 9.3 and higher. It has been extensively tested under CentOS 6 and 7 in various scenario.
PAF has been written to give to the administrator the maximum control over their PostgreSQL configuration and architecture. Thus, you are 100% responsible for the master/slave creations and their setup. The agent will NOT edit your setup. It only requires you to follow these pre-requisites:
- slave must be in hot_standby (accept read-only connections)
- you must provide a template file on each node which will be copied as
the local
recovery.confwhen needed by the agent - the recovery template file must contain
standby_mode = on - the recovery template file must contain
recovery_target_timeline = 'latest' - the
primary_conninfoparameter in the recovery template file must set theapplication_nameto the node name as seen in Pacemaker (usually, the hostname)
When setting up the resource in Pacemaker, here are the available parameters you can set:
bindir: location of the PostgreSQL binaries (default:/usr/bin)pgdata: location of the PGDATA of your instance (default:/var/lib/pgsql/data)datadir: path to the directory set indata_directoryfrom your postgresql.conf file. This parameter has same default than PostgreSQL itself: thepgdataparameter value. Unless you have a special PostgreSQL setup and you understand this parameter, ignore itpghost: the socket directory or IP address to use to connect to the local instance (default:/tmp)pgport: the port to connect to the local instance (default:5432)recovery_template: the local template that will be copied as thePGDATA/recovery.conffile. This template file must exists on all node (default:$PGDATA/recovery.conf.pcmk)start_opts: Additional arguments given to the postgres process on startup. See "postgres --help" for available options. Useful when the postgresql.conf file is not in the data directory (PGDATA), eg.:-c config_file=/etc/postgresql/9.3/main/postgresql.confsystem_user: the system owner of your instance's process (default:postgres)maxlag: maximum lag allowed on a standby before we set a negative master score on it. The calculation is based on the difference between the current xlog location on the master and the write location on the standby. (default: 0, which disables this feature)
For a demonstration about how to setup a cluster, see http://clusterlabs.github.io/PAF/documentation.html.