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Deploying PostgreSQL for high availability with Patroni on RHEL or CentOS

This guide provides instructions on how to set up a highly available PostgreSQL cluster with Patroni on Red Hat Enterprise Linux or CentOS.

Considerations

  1. This is an example deployment where etcd runs on the same host machines as the Patroni and PostgreSQL and there is a single dedicated HAProxy host. Alternatively etcd can run on different set of nodes.

    If etcd is deployed on the same host machine as Patroni and PostgreSQL, separate disk system for etcd and PostgreSQL is recommended due to performance reasons.

  2. For this setup, we use the nodes running on Red Hat Enterprise Linux 8 as the base operating system:

    Node name Application IP address
    node1 Patroni, PostgreSQL, etcd 10.104.0.1
    node2 Patroni, PostgreSQL, etcd 10.104.0.2
    node3 Patroni, PostgreSQL, etcd 10.104.0.3
    HAProxy-demo HAProxy 10.104.0.6

Note

We recommend not to expose the hosts/nodes where Patroni / etcd / PostgreSQL are running to public networks due to security risks. Use Firewalls, Virtual networks, subnets or the like to protect the database hosts from any kind of attack.

Initial setup

Set up hostnames in the /etc/hosts file

It’s not necessary to have name resolution, but it makes the whole setup more readable and less error prone. Here, instead of configuring a DNS, we use a local name resolution by updating the file /etc/hosts. By resolving their hostnames to their IP addresses, we make the nodes aware of each other’s names and allow their seamless communication.

  1. Run the following command on each node. Change the node name to node1, node2 and node3 respectively:

    $ sudo hostnamectl set-hostname node-1
    
  2. Modify the /etc/hosts file of each PostgreSQL node to include the hostnames and IP addresses of the remaining nodes. Add the following at the end of the /etc/hosts file on all nodes:

    # Cluster IP and names 
    10.104.0.1 node1 
    10.104.0.2 node2 
    10.104.0.3 node3
    
    # Cluster IP and names 
    10.104.0.1 node1 
    10.104.0.2 node2 
    10.104.0.3 node3
    
    # Cluster IP and names 
    10.104.0.1 node1 
    10.104.0.2 node2 
    10.104.0.3 node3
    

    The HAProxy instance should have the name resolution for all the three nodes in its /etc/hosts file. Add the following lines at the end of the file:

    # Cluster IP and names
    10.104.0.6 HAProxy-demo
    10.104.0.1 node1
    10.104.0.2 node2
    10.104.0.3 node3
    

Install the software

  1. Install Percona Distribution for PostgreSQL on node1, node2 and node3 from Percona repository:

    Important

    Don’t initialize the cluster and start the postgresql service. The cluster initialization and setup are handled by Patroni during the bootsrapping stage.

  2. Install some Python and auxiliary packages to help with Patroni and etcd

    $ sudo yum install python3-pip python3-devel binutils
    
  3. Install etcd, Patroni, pgBackRest packages. Check platform specific notes for Patroni:

    $ sudo yum install percona-patroni \
    etcd python3-python-etcd\
    percona-pgbackrest
    
  4. Stop and disable all installed services:

    $ sudo systemctl stop {etcd,patroni,postgresql}
    $ systemctl disable {etcd,patroni,postgresql}
    

Configure etcd distributed store

The distributed configuration store provides a reliable way to store data that needs to be accessed by large scale distributed systems. The most popular implementation of the distributed configuration store is etcd. etcd is deployed as a cluster for fault-tolerance and requires an odd number of members (n/2+1) to agree on updates to the cluster state. An etcd cluster helps establish a consensus among nodes during a failover and manages the configuration for the three PostgreSQL instances.

This document provides configuration for etcd version 3.5.x. For how to configure etcd cluster with earlier versions of etcd, read the blog post by Fernando Laudares Camargos and Jobin Augustine PostgreSQL HA with Patroni: Your Turn to Test Failure Scenarios.

If you installed the software from tarballs, check how you enable etcd.

The etcd cluster is first started in one node and then the subsequent nodes are added to the first node using the addcommand.

Note

Users with deeper understanding of how etcd works can configure and start all etcd nodes at a time and bootstrap the cluster using one of the following methods:

  • Static in the case when the IP addresses of the cluster nodes are known
  • Discovery service - for cases when the IP addresses of the cluster are not known ahead of time.

See the How to configure etcd nodes simultaneously section for details.

Configure node1

  1. Create the configuration file. You can edit the sample configuration file /etc/etcd/etcd.conf.yaml or create your own one. Replace the node name and IP address with the actual name and IP address of your node.

    /etc/etcd/etcd.conf.yaml
    name: 'node1'
    initial-cluster-token: PostgreSQL_HA_Cluster_1
    initial-cluster-state: new
    initial-cluster: node1=http://10.104.0.1:2380
    data-dir: /var/lib/etcd
    initial-advertise-peer-urls: http://10.104.0.1:2380 
    listen-peer-urls: http://10.104.0.1:2380
    advertise-client-urls: http://10.104.0.1:2379
    listen-client-urls: http://10.104.0.1:2379
    
  2. Enable and start the etcd service to apply the changes on node1.

    $ sudo systemctl enable --now etcd
    $ sudo systemctl status etcd
    
  3. Check the etcd cluster members on node1:

    $ sudo etcdctl member list
    

    Sample output:

    21d50d7f768f153a: name=default peerURLs=http://10.104.0.1:2380 clientURLs=http://10.104.0.1:2379 isLeader=true
    
  4. Add the node2 to the cluster. Run the following command on node1:

    $ sudo etcdctl member add node2 http://10.104.0.2:2380
    
    Sample output
    Added member named node2 with ID 10042578c504d052 to cluster
    
    etcd_NAME="node2"
    etcd_INITIAL_CLUSTER="node2=http://10.104.0.2:2380,node1=http://10.104.0.1:2380"
    etcd_INITIAL_CLUSTER_STATE="existing"
    

Configure node2

  1. Create the configuration file. You can edit the sample configuration file /etc/etcd/etcd.conf.yaml or create your own one. Replace the node names and IP addresses with the actual names and IP addresses of your nodes.

    /etc/etcd/etcd.conf.yaml
    name: 'node2'
    initial-cluster-token: PostgreSQL_HA_Cluster_1
    initial-cluster-state: existing
    initial-cluster: node1=http://10.104.0.1:2380,node2=http://10.104.0.2:2380
    data-dir: /var/lib/etcd
    initial-advertise-peer-urls: http://10.104.0.2:2380 
    listen-peer-urls: http://10.104.0.2:2380
    advertise-client-urls: http://10.104.0.2:2379
    listen-client-urls: http://10.104.0.2:2379
    
  2. Enable and start the etcd service to apply the changes on node2:

    $ sudo systemctl enable --now etcd
    $ sudo systemctl status etcd
    

Configure node3

  1. Add node3 to the cluster. Run the following command on node1

    $ sudo etcdctl member add node3 http://10.104.0.3:2380
    
  2. On node3, create the configuration file. You can edit the sample configuration file /etc/etcd/etcd.conf.yaml or create your own one. Replace the node names and IP addresses with the actual names and IP addresses of your nodes.

     ```yaml title="/etc/etcd/etcd.conf.yaml"
     name: 'node1'
     initial-cluster-token: PostgreSQL_HA_Cluster_1
     initial-cluster-state: existing
     initial-cluster: node1=http://10.104.0.1:2380,node2=http://10.104.0.2:2380,node3=http://10.104.0.3:2380
     data-dir: /var/lib/etcd
     initial-advertise-peer-urls: http://10.104.0.3:2380 
     listen-peer-urls: http://10.104.0.3:2380
     advertise-client-urls: http://10.104.0.3:2379
     listen-client-urls: http://10.104.0.3:2379
     ```
    
  3. Enable and start the etcd service to apply the changes.

    $ sudo systemctl enable --now etcd
    $ sudo systemctl status etcd
    
  4. Check the etcd cluster members.

    $ sudo etcdctl member list
    
    Sample output
    2d346bd3ae7f07c4: name=node2 peerURLs=http://10.104.0.2:2380 clientURLs=http://10.104.0.2:2379     isLeader=false
    8bacb519ebdee8db: name=node3 peerURLs=http://10.104.0.3:2380 clientURLs=http://10.104.0.3:2379     isLeader=false
    c5f52ea2ade25e1b: name=node1 peerURLs=http://10.104.0.1:2380 clientURLs=http://10.104.0.1:2379     isLeader=true
    

Configure Patroni

Run the following commands on all nodes. You can do this in parallel:

  1. Export and create environment variables to simplify the config file creation:

    • Node name:
    $ export NODE_NAME=`hostname -f`
    
    • Node IP:
    $ export NODE_IP=`hostname -i | awk '{print $1}'`
    
    • Create variables to store the PATH:
    DATA_DIR="/var/lib/pgsql/data/"
    PG_BIN_DIR="/usr/pgsql-17/bin"
    

    NOTE: Check the path to the data and bin folders on your operating system and change it for the variables accordingly.

    • Patroni information:
    NAMESPACE="percona_lab"
    SCOPE="cluster_1
    
  2. Create the directories required by Patroni

    • Create the directory to store the configuration file and make it owned by the postgres user.
    $ sudo mkdir -p /etc/patroni/
    $ sudo chown -R  postgres:postgres /etc/patroni/
    
    • Create the data directory to store PostgreSQL data. Change its ownership to the postgres user and restrict the access to it
    $ sudo mkdir /data/pgsql -p
    $ sudo chown -R postgres:postgres /data/pgsql
    $ sudo chmod 700 /data/pgsql
    
  3. Create the /etc/patroni/patroni.yml configuration file. Add the following configuration:

    echo "
    namespace: ${NAMESPACE}
    scope: ${SCOPE}
    name: ${NODE_NAME}
    
    restapi:
        listen: 0.0.0.0:8008
        connect_address: ${NODE_IP}:8008
    
    etcd3:
        host: ${NODE_IP}:2379
    
    bootstrap:
      # this section will be written into Etcd:/<namespace>/<scope>/config after initializing new cluster
      dcs:
          ttl: 30
          loop_wait: 10
          retry_timeout: 10
          maximum_lag_on_failover: 1048576
    
          postgresql:
              use_pg_rewind: true
              use_slots: true
              parameters:
                  wal_level: replica
                  hot_standby: "on"
                  wal_keep_segments: 10
                  max_wal_senders: 5
                  max_replication_slots: 10
                  wal_log_hints: "on"
                  logging_collector: 'on'
                  max_wal_size: '10GB'
                  archive_mode: "on"
                  archive_timeout: 600s
                  archive_command: "cp -f %p /home/postgres/archived/%f"
    
      # some desired options for 'initdb'
      initdb: # Note: It needs to be a list (some options need values, others are switches)
          - encoding: UTF8
          - data-checksums
    
      pg_hba: # Add following lines to pg_hba.conf after running 'initdb'
          - host replication replicator 127.0.0.1/32 trust
          - host replication replicator 0.0.0.0/0 md5
          - host all all 0.0.0.0/0 md5
          - host all all ::0/0 md5
    
      # Some additional users which needs to be created after initializing new cluster
      users:
          admin:
              password: qaz123
              options:
                  - createrole
                  - createdb
          percona:
              password: qaz123
              options:
                  - createrole
                  - createdb 
    
    postgresql:
        cluster_name: cluster_1
        listen: 0.0.0.0:5432
        connect_address: ${NODE_IP}:5432
        data_dir: ${DATA_DIR}
        bin_dir: ${PG_BIN_DIR}
        pgpass: /tmp/pgpass0
        authentication:
            replication:
                username: replicator
                password: replPasswd
            superuser:
                username: postgres
                password: qaz123
        parameters:
            unix_socket_directories: "/var/run/postgresql/"
        create_replica_methods:
            - basebackup
        basebackup:
            checkpoint: 'fast'
    
    tags:
        nofailover: false
        noloadbalance: false
        clonefrom: false
        nosync: false
    " | sudo tee -a /etc/patroni/patroni.yml
    
  4. Check that the systemd unit file patroni.service is created in /etc/systemd/system. If it is created, skip this step.

    If it’s not created, create it manually and specify the following contents within:

    /etc/systemd/system/patroni.service
    [Unit]
    Description=Runners to orchestrate a high-availability PostgreSQL
    After=syslog.target network.target 
    
    [Service]
    Type=simple 
    
    User=postgres
    Group=postgres 
    
    # Start the patroni process
    ExecStart=/bin/patroni /etc/patroni/patroni.yml 
    
    # Send HUP to reload from patroni.yml
    ExecReload=/bin/kill -s HUP $MAINPID 
    
    # only kill the patroni process, not its children, so it will gracefully stop postgres
    KillMode=process 
    
    # Give a reasonable amount of time for the server to start up/shut down
    TimeoutSec=30 
    
    # Do not restart the service if it crashes, we want to manually inspect database on failure
    Restart=no 
    
    [Install]
    WantedBy=multi-user.target
    
  5. Make systemd aware of the new service:

    $ sudo systemctl daemon-reload
    
  6. Now it’s time to start Patroni. You need the following commands on all nodes but not in parallel. Start with the node1 first, wait for the service to come to live, and then proceed with the other nodes one-by-one, always waiting for them to sync with the primary node:

    $ sudo systemctl enable --now patroni
    $ sudo systemctl restart patroni
    

When Patroni starts, it initializes PostgreSQL (because the service is not currently running and the data directory is empty) following the directives in the bootstrap section of the configuration file.

  1. Check the service to see if there are errors:

    $ sudo journalctl -fu patroni
    

    A common error is Patroni complaining about the lack of proper entries in the pg_hba.conf file. If you see such errors, you must manually add or fix the entries in that file and then restart the service.

    Changing the patroni.yml file and restarting the service will not have any effect here because the bootstrap section specifies the configuration to apply when PostgreSQL is first started in the node. It will not repeat the process even if the Patroni configuration file is modified and the service is restarted.

    If Patroni has started properly, you should be able to locally connect to a PostgreSQL node using the following command:

    $ sudo psql -U postgres
    
    psql (17.0)
    Type "help" for help.
    
    postgres=#
    
  2. When all nodes are up and running, you can check the cluster status using the following command:

    $ sudo patronictl -c /etc/patroni/patroni.yml list
    

    The output on node1 resembles the following:

    + Cluster: cluster_1 --+---------+---------+----+-----------+
    | Member | Host        | Role    | State   | TL | Lag in MB |
    +--------+-------------+---------+---------+----+-----------+
    | node-1 | 10.0.100.1  | Leader  | running |  1 |           |
    +--------+-------------+---------+---------+----+-----------+
    

    On the remaining nodes:

    + Cluster: cluster_1 --+---------+---------+----+-----------+
    | Member | Host        | Role    | State   | TL | Lag in MB |
    +--------+-------------+---------+---------+----+-----------+
    | node-1 | 10.0.100.1  | Leader  | running |  1 |           |
    | node-2 | 10.0.100.2  | Replica | running |  1 |         0 |
    +--------+-------------+---------+---------+----+-----------+
    

Configure HAProxy

HAproxy is the load balancer and the single point of entry to your PostgreSQL cluster for client applications. A client application accesses the HAPpoxy URL and sends its read/write requests there. Behind-the-scene, HAProxy routes write requests to the primary node and read requests - to the secondaries in a round-robin fashion so that no secondary instance is unnecessarily loaded. To make this happen, provide different ports in the HAProxy configuration file. In this deployment, writes are routed to port 5000 and reads - to port 5001

This way, a client application doesn’t know what node in the underlying cluster is the current primary. HAProxy sends connections to a healthy node (as long as there is at least one healthy node available) and ensures that client application requests are never rejected.

  1. Install HAProxy on the HAProxy-demo node:

    $ sudo yum install percona-haproxy
    
  2. The HAProxy configuration file path is: /etc/haproxy/haproxy.cfg. Specify the following configuration in this file.

    global
        maxconn 100
    
    defaults
        log global
        mode tcp
        retries 2
        timeout client 30m
        timeout connect 4s
        timeout server 30m
        timeout check 5s
    
    listen stats
        mode http
        bind *:7000
        stats enable
        stats uri /
    
    listen primary
        bind *:5000
        option httpchk /primary 
        http-check expect status 200
        default-server inter 3s fall 3 rise 2 on-marked-down shutdown-sessions
        server node1 node1:5432 maxconn 100 check port 8008
        server node2 node2:5432 maxconn 100 check port 8008
        server node3 node3:5432 maxconn 100 check port 8008
    
    listen standbys
        balance roundrobin
        bind *:5001
        option httpchk /replica 
        http-check expect status 200
        default-server inter 3s fall 3 rise 2 on-marked-down shutdown-sessions
        server node1 node1:5432 maxconn 100 check port 8008
        server node2 node2:5432 maxconn 100 check port 8008
        server node3 node3:5432 maxconn 100 check port 8008
    

    HAProxy will use the REST APIs hosted by Patroni to check the health status of each PostgreSQL node and route the requests appropriately.

  3. Enable a SELinux boolean to allow HAProxy to bind to non standard ports:

    $ sudo setsebool -P haproxy_connect_any on
    
  4. Restart HAProxy:

    $ sudo systemctl restart haproxy
    
  5. Check the HAProxy logs to see if there are any errors:

    $ sudo journalctl -u haproxy.service -n 100 -f
    

Next steps

Configure pgBackRest

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