How to Set up MariaDB Galera Clusters on Ubuntu 22.04

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Although MariaDB is a very reliable application, high-availability websites should consider database redundancy. Redundancy protects the database data from node failures and network problems. The Galera Cluster extension for MariaDB adds multi-master replication and redundancy, appearing as a unified database to the user. This guide provides some background on Galera Cluster and explains how to install and configure it on Ubuntu.

What Is Galera Cluster?

Galera Cluster was developed by Codership as an open source extension for various database applications, including MariaDB and MySQL. It supports most common Linux distributions, including Ubuntu. Galera Cluster enables redundancy by synchronously replicating changes from one database instance to all other databases within the cluster. It is an excellent choice for high-availability applications with stringent uptime environments. If one server in the cluster goes down, database reads and writes can continue using the remaining servers. Galera Cluster also supports disaster and crash recovery.

Galera Cluster implements a multi-master architecture. This allows changes to be made on any server within the cluster. Any changes are immediately broadcast to the other servers. Galera Cluster uses virtually synchronous replication. This technique deploys certificates to speed up transactions while guaranteeing data integrity.

Changes are often made on one designated primary server. However, database read requests are typically distributed amongst all servers in the cluster. This allows for better throughput and lower latency. To maintain data consistency and allow for crash recovery, a cluster should contain an odd number of servers. For more information about Galera Cluster replication, see the Galera Replication Fact Sheet .

Galera Cluster uses the InnoDB storage engines. In addition to standard MariaDB port 3306, Galera Cluster replication also uses ports 4567, 4568, and 4444. Both TCP and UDP can be used.

Some of the main advantages of Galera Cluster are:

  • It is straightforward to install, configure, and use. The entire cluster acts as a single database.
  • Replication is synchronous and very fast without noticeable replication lag or transaction latency.
  • Nodes can reside in different data centers and across the globe.
  • Reads and writes can be performed on any node in the cluster.
  • It guarantees transaction integrity with no data loss. The same transaction order is enforced on each node.
  • Data consistency is enforced between all nodes. Conflicts are automatically detected, provided the cluster has at least three nodes.
  • Database reads are highly scalable.
  • Failed or inaccessible nodes are automatically dropped from the cluster.
  • New nodes can automatically join the cluster, provided they have the proper configuration.
  • Galera Cluster maintains membership control. Nodes can be added to, or removed from, the cluster.
  • Parallel replication happens on the row level.
  • There is thorough integration with the underlying database application, including the same look and feel.

Galera Cluster also has a few limitations. Each table should ideally have a primary key. If a table does not have a primary key, errors might occur during delete operations. Additionally, large transactions, such as LOAD DATA queries, can cause performance issues. Certain operations, including LOCK TABLES and FLUSH TABLES WITH READ LOCK, are unsupported. For more information, see the List of Known Limitations .

Note
Cluster performance is constrained by the slowest node in the cluster. To avoid possible interoperability issues, use the same release of Ubuntu and MariaDB on each node in the cluster.

Before You Begin

  1. If you have not already done so, create a Linode account and Compute Instance. See our Getting Started with Linode and Creating a Compute Instance guides. This guide requires at least two, preferably three, Ubuntu 22.04 LTS instances.

  2. Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.

  3. Optional: If all servers are located inside the same data center, consider using private IP addresses in the Galera Cluster configuration files to enhance data security. Be sure to reboot all Linode instances after adding a private IP address.

Note
This guide is written for a non-root user. Commands that require elevated privileges are prefixed with sudo. If you are not familiar with the sudo command, see the Users and Groups guide.

The commands, file contents, and other instructions provided throughout this guide may include placeholders. These are typically domain names, IP addresses, usernames, passwords, and other values that are unique to you. The table below identifies these placeholder values and explains what to replace them with:

Placeholders:Replace With:
LINODE1_IP_ADDRESSThe public (or private) IP address of your first Linode.
LINODE2_IP_ADDRESSThe public (or private) IP address of your second Linode.
LINODE3_IP_ADDRESSThe public (or private) IP address of your third Linode.

How to Install MariaDB with Galera Cluster

In earlier releases of MariaDB, Galera Cluster was installed as a separate package. However, since release 10.1, Galera Cluster is included in the MariaDB installation. To install MariaDB and Galera Cluster, follow these steps. These instructions are geared toward Ubuntu 22.04 LTS users, but are generally applicable for earlier versions and other Linux distributions. These steps must be implemented on all nodes in the cluster.

  1. Ensure the system is up to date and reboot if necessary:

    sudo apt update -y && sudo apt upgrade -y
  2. Use apt to install the MariaDB server and client, including Galera Cluster:

    sudo apt install mariadb-server mariadb-client -y
    Note

    Depending on the specific release of MariaDB being used, it might be necessary to install the galera-4 package. This includes the Galera write-set replication provider library. On many systems, this package is already installed.

    sudo apt install galera-4
  3. MariaDB is activated upon installation. Use the systemctl status command to confirm if MariaDB is active (running):

    sudo systemctl status mariadb
    ● mariadb.service - MariaDB 10.6.12 database server
         Loaded: loaded (/lib/systemd/system/mariadb.service; enabled; vendor preset: enabled)
         Active: active (running) since Thu 2023-09-07 17:04:13 EDT; 1min 29s ago

    Press the Q key to exit the systemctl output and return to the terminal prompt.

  4. Use mysql_secure_installation to improve database security:

    sudo mysql_secure_installation

    The root password can be left unchanged. Unix socket authentication is also not required. However, you should answer Y to the following questions:

    • Remove anonymous users?
    • Disallow root login remotely?
    • Remove test database and access to it?
    • Reload privilege tables now?
  5. Repeat the steps in this section for every node in the cluster.

How to Configure Galera Cluster

MariaDB and Galera manage intra-cluster communications using the settings in the galera.cnf file. This file must be configured on each node. With a few exceptions, most of the settings are the same on each node. Galera Cluster only supports the InnoDB storage engine for MariaDB. When configuring the file, pay close attention to the following settings:

  • The wsrep_node_address and wsrep_node_name settings must reflect the IP address and name of the local database server.
  • Choose a memorable name for the wsrep_cluster_name identifier. The cluster name must be the same on each node.
  • The wsrep_cluster_address setting must contain a list of all the IP addresses in the cluster. For a two-node setup, it must be set to gcomm://node1-ip-address,node2-ip-address. If there are three nodes, it would be gcomm://node1-ip-address,node2-ip-address,node3-ip-address, and so forth.
Note
For increased security, private IP addresses can be used for wsrep_cluster_address and wsrep_node_address. Private IP addresses can only be used if all the Linodes in the cluster are part of the same data center. Do not mix public and private addresses together within the same cluster. Hosting the database servers in different data centers increases reliability, while private IP addresses increase security. Each administrator must consider the trade-offs between these two approaches.

To configure each node within the Galera Cluster, follow these steps.

  1. On the first node in the cluster, create a galera.cnf file in the /etc/mysql/conf.d directory.

    Node #1
    sudo nano /etc/mysql/conf.d/galera.cnf
  2. Add the following contents to the file:

    File: /etc/mysql/conf.d/galera.cnf
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    [mysqld]
    binlog_format=ROW
    default-storage-engine=innodb
    innodb_autoinc_lock_mode=2
    bind-address=0.0.0.0
    
    # Galera Provider Configuration
    wsrep_on=ON
    wsrep_provider=/usr/lib/galera/libgalera_smm.so
    
    # Cluster Configuration
    wsrep_cluster_name="galera_cluster"
    wsrep_cluster_address="gcomm://LINODE1_IP_ADDRESS,LINODE2_IP_ADDRESS,LINODE3_IP_ADDRESS"
    
    # Galera Synchronization Configuration
    wsrep_sst_method=rsync
    
    # Node Configuration
    wsrep_node_address="LINODE1_IP_ADDRESS"
    wsrep_node_name="primary"

    Make the following adjustments before saving:

    • For the wsrep_cluster_address setting, change LINODE1_IP_ADDRESS to the IP address of the current Linode. Change LINODE2_IP_ADDRESS and LINODE3_IP_ADDRESS to the IP addresses of the other Linodes in the cluster, as applicable.
    • Change the value of wsrep_node_address to the IP address of the first Linode. This must be the same address as LINODE1_IP_ADDRESS.
    • Choose a unique cluster name for wsrep_cluster_name. This value must be the same for all servers in the cluster.
    • Enter the name of the node for wsrep_node_name. This name must be unique within the cluster.
    • Most of the other settings in the file must be set to the values shown in the sample file. See the MariaDB Galera Cluster Documentation for more information on the various configuration options.

    When done, press CTRL+X, followed by Y then Enter to save the file and exit nano.

  3. Repeat these steps on the next node on the cluster. Create galera.cnf on the second server in the cluster:

    Node #2
    sudo nano /etc/mysql/conf.d/galera.cnf
  4. Give the galera.cnf file on the next server the following contents:

    File: /etc/mysql/conf.d/galera.cnf
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    [mysqld]
    binlog_format=ROW
    default-storage-engine=innodb
    innodb_autoinc_lock_mode=2
    bind-address=0.0.0.0
    
    # Galera Provider Configuration
    wsrep_on=ON
    wsrep_provider=/usr/lib/galera/libgalera_smm.so
    
    # Cluster Configuration
    wsrep_cluster_name="galera_cluster"
    wsrep_cluster_address="gcomm://LINODE1_IP_ADDRESS,LINODE2_IP_ADDRESS,LINODE3_IP_ADDRESS"
    
    # Galera Synchronization Configuration
    wsrep_sst_method=rsync
    
    # Node Configuration
    wsrep_node_address="LINODE2_IP_ADDRESS"
    wsrep_node_name="secondary"

    This should closely resemble the galera.cnf file on the first server. However, wsrep_node_address must contain the IP address of the second node, and choose a different node name for wsrep_node_name.

    When done, press CTRL+X, followed by Y then Enter to save the file and exit nano.

  5. Repeat this section for any remaining nodes in the cluster. Ensure the value of wsrep_node_name is unique within the cluster and set wsrep_node_address to the IP address of the node. The rest of the file should remain the same.

How to Enable MariaDB Replication Using Galera Cluster

When a galera.cnf file has been added to each node, cluster replication can be enabled. Replication does not begin automatically. It must be manually enabled. To begin replication, shut down the mariadb process on each node. Then use one of the nodes to initialize the cluster. Finally, restart the mariadb process on the remaining nodes. To enable MariaDB replication using Galera Cluster, follow these steps.

  1. Use systemctl stop to stop the MariaDB process on each node. Run the following command on every node in the cluster:

    sudo systemctl stop mariadb
  2. On the node listed first within the wsrep_cluster_address variable, run the galera_new_cluster command:

    Node #1
    sudo galera_new_cluster

    This directive initializes the cluster based on the parameters in the local galera.cnf file. No output should be seen unless there is an error. If the command results in an error, ensure the galera.cnf file is configured correctly. This command also restarts the mariadb process, so systemctl start is not required.

  3. To confirm the cluster is correctly initialized, execute a SQL query to retrieve the value of wsrep_cluster_size:

    Node #1
    sudo mysql -u root -p -e "SHOW STATUS LIKE 'wsrep_cluster_size'"

    The value should currently be set to 1:

    +--------------------+-------+
    | Variable_name      | Value |
    +--------------------+-------+
    | wsrep_cluster_size | 1     |
    +--------------------+-------+
  4. Restart the mariadb process on the second node using systemctl:

    Node #2
    sudo systemctl start mariadb
  5. Execute a SQL query to retrieve wsrep_cluster_size on either the first or second node:

    Node #1 or Node #2
    sudo mysql -u root -p -e "SHOW STATUS LIKE 'wsrep_cluster_size'"

    The value should have increased to 2:

    +--------------------+-------+
    | Variable_name      | Value |
    +--------------------+-------+
    | wsrep_cluster_size | 2     |
    +--------------------+-------+
  6. Activate the mariadb process on any remaining nodes in the cluster. After activation, run the sudo mysql -u root -p -e "SHOW STATUS LIKE 'wsrep_cluster_size'" query again:

    sudo systemctl start mariadb
    sudo mysql -u root -p -e "SHOW STATUS LIKE 'wsrep_cluster_size'"

    The value should increment each time a new cluster member is activated. After MariaDB has been restarted on all nodes, the cluster is fully operational.

  7. To confirm all databases are synched together, access the MariaDB application and run the following SQL query:

    sudo mysql -u root -p -e "SHOW STATUS LIKE 'wsrep_local_state_comment'"

    The output should display Synced:

    +---------------------------+--------+
    | Variable_name             | Value  |
    +---------------------------+--------+
    | wsrep_local_state_comment | Synced |
    +---------------------------+--------+

How to Validate the Galera Cluster Configuration

It is relatively easy to ensure the cluster is working correctly. Configure a database entity (e.g. a new database or table) on one node, then confirm if it is replicated to the other nodes. To confirm the cluster is operational, follow these steps.

  1. Connect to MariaDB on one of the nodes in the cluster:

    sudo mysql -u root -p
  2. Create a new database inside MariaDB:

    CREATE database test1;
  3. Switch to the new database and create a simple table that contains a primary key:

    use test1;
    CREATE TABLE States ( Name varchar(25), Capital varchar(25), PRIMARY KEY (Name) );
  4. Use the DESC keyword to examine the structure of the table:

    DESC States;
    +---------+-------------+------+-----+---------+-------+
    | Field   | Type        | Null | Key | Default | Extra |
    +---------+-------------+------+-----+---------+-------+
    | Name    | varchar(25) | NO   | PRI | NULL    |       |
    | Capital | varchar(25) | YES  |     | NULL    |       |
    +---------+-------------+------+-----+---------+-------+
    2 rows in set (0.001 sec)
  5. Now access MariaDB on a different node in the cluster:

    sudo mysql -u root -p
  6. List the databases:

    SHOW databases;

    The test1 database should be included even though it was created on a different node:

    +--------------------+
    | Database           |
    +--------------------+
    | information_schema |
    | mysql              |
    | performance_schema |
    | sys                |
    | test1              |
    +--------------------+
  7. Switch to the test1 database and display the description of the States table:

    USE test1;
    DESC States;

    If it is equivalent to the table on the first server, replication is working as expected:

    +---------+-------------+------+-----+---------+-------+
    | Field   | Type        | Null | Key | Default | Extra |
    +---------+-------------+------+-----+---------+-------+
    | Name    | varchar(25) | NO   | PRI | NULL    |       |
    | Capital | varchar(25) | YES  |     | NULL    |       |
    +---------+-------------+------+-----+---------+-------+
  8. Repeat the previous three steps on each node in the cluster and ensure the table definition is present on all nodes. When done, type exit and press Enter to exit the MariaDB shell and return to the standard terminal prompt.

A database, table, or row is replicated to all servers in the cluster no matter which node was used to create it. To further test the cluster, create a database or table on a second node and ensure it is still replicated properly to the other nodes.

Configuring Firewall Settings for Galera Cluster

Although private IP addresses are more secure, a firewall is still recommended. To configure the ufw firewall to permit MariaDB replication, follow these steps.

  1. Configure the firewall to allow OpenSSH connections on both nodes:

    sudo ufw allow OpenSSH
  2. On the first node, allow TCP and UDP connections on four designated ports from the second node in the cluster. Use the format sudo ufw allow from REMOTE_IP_ADDRESS to any port 3306,4567,4568,4444 proto tcp and sudo ufw allow from REMOTE_IP_ADDRESS to any port 3306,4567,4568,4444 proto udp. Specify the IP address of the second node in place of REMOTE_IP_ADDRESS. For instance, the following commands allow MariaDB Galera Cluster access from 192.168.132.33:

    sudo ufw allow from 192.168.132.33 to any port 3306,4567,4568,4444 proto tcp
    sudo ufw allow from 192.168.132.33 to any port 3306,4567,4568,4444 proto udp
  3. Add similar entries to the first node for any other nodes in the cluster. For instance, if the third node in the cluster is 192.168.132.34, add the following entries:

    sudo ufw allow from 192.168.132.34 to any port 3306,4567,4568,4444 proto tcp
    sudo ufw allow from 192.168.132.34 to any port 3306,4567,4568,4444 proto udp
  4. Repeat these steps on the remaining nodes in the cluster. Ensure you add entries allowing TCP and UDP connections to these ports from each of the other nodes in the cluster.

  5. After all nodes are configured, enable ufw:

    sudo ufw enable
  6. Verify the status of ufw on all nodes:

    sudo ufw status
  7. To ensure the firewall is working properly, make a database change on the first node and ensure it is replicated to the other nodes in the cluster.

Conclusion

Galera Cluster enables data replication for MariaDB databases. It is designed as a multi-master replication system, so reads and writes can be performed on any server in the cluster. Galera Cluster is integrated into recent releases of MariaDB, so installing the MariaDB application also installs Galera Cluster. To configure Galera Cluster, add the cluster details to the galera.cnf file. For more information about Galera Cluster on MariaDB, consult the official documentation .

More Information

You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

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