This is a read-only copy of the MariaDB Knowledgebase generated on 2024-12-03. For the latest, interactive version please visit https://mariadb.com/kb/.

mariabackup SST Method

The mariabackup SST method uses the Mariabackup utility for performing SSTs. It is one of the methods that does not block the donor node. Mariabackup was originally forked from Percona XtraBackup, and similarly, the mariabackup SST method was originally forked from the xtrabackup-v2 SST method.

Note that if you use the mariabackup SST method, then you also need to have socat installed on the server. This is needed to stream the backup from the donor node to the joiner node. This is a limitation that was inherited from the xtrabackup-v2 SST method.

Choosing Mariabackup for SSTs

To use the mariabackup SST method, you must set the wsrep_sst_method=mariabackup on both the donor and joiner node. It can be changed dynamically with SET GLOBAL on the node that you intend to be a SST donor. For example:

SET GLOBAL wsrep_sst_method='mariabackup';

It can be set in a server option group in an option file prior to starting up a node:

[mariadb]
...
wsrep_sst_method = mariabackup

For an SST to work properly, the donor and joiner node must use the same SST method. Therefore, it is recommended to set wsrep_sst_method to the same value on all nodes, since any node will usually be a donor or joiner node at some point.

Major version upgrades

The InnoDB redo log format has been changed in MariaDB 10.5 and MariaDB 10.8 in a way that will not allow the crash recovery or the preparation of a backup from an older major version. Because of this, the mariabackup SST method cannot be used for some major version upgrades, unless you temporarily edit the wsrep_sst_mariabackup script so that the --prepare step on the newer-major-version joiner will be executed using the older-major-version mariabackup tool.

The default method wsrep_sst_method=rsync will work for major version upgrades; see MDEV-27437.

Authentication and Privileges

To use the mariabackup SST method, Mariabackup needs to be able to authenticate locally on the donor node, so that it can create a backup to stream to the joiner. You can tell the donor node what username and password to use by setting the wsrep_sst_auth system variable. It can be changed dynamically with SET GLOBAL on the node that you intend to be a SST donor. For example:

SET GLOBAL wsrep_sst_auth = 'mariabackup:mypassword';

It can also be set in a server option group in an option file prior to starting up a node:

[mariadb]
...
wsrep_sst_auth = mariabackup:mypassword

Some authentication plugins do not require a password. For example, the unix_socket and gssapi authentication plugins do not require a password. If you are using a user account that does not require a password in order to log in, then you can just leave the password component of wsrep_sst_auth empty. For example:

[mariadb]
...
wsrep_sst_auth = mariabackup:

The user account that performs the backup for the SST needs to have the same privileges as Mariabackup, which are the RELOAD , PROCESS, LOCK TABLES and BINLOG MONITOR (or REPLICATION CLIENT for MariaDB 10.4 or earlier), REPLICA MONITOR (not required for MariaDB 10.4 or earlier) global privileges. To be safe, you should ensure that these privileges are set on each node in your cluster. Mariabackup connects locally on the donor node to perform the backup, so the following user should be sufficient:

CREATE USER 'mariabackup'@'localhost' IDENTIFIED BY 'mypassword';
GRANT RELOAD, PROCESS, LOCK TABLES, BINLOG MONITOR ON *.* TO 'mariabackup'@'localhost';

Passwordless Authentication - Unix Socket

It is possible to use the unix_socket authentication plugin for the user account that performs SSTs. This would provide the benefit of not needing to configure a plain-text password in wsrep_sst_auth.

The user account would have to have the same name as the operating system user account that is running the mysqld process. On many systems, this is the user account configured as the user option, and it tends to default to mysql.

For example, if the unix_socket authentication plugin is already installed, then you could execute the following to create the user account:

CREATE USER 'mysql'@'localhost' IDENTIFIED VIA unix_socket;
GRANT RELOAD, PROCESS, LOCK TABLES, REPLICATION CLIENT ON *.* TO 'mysql'@'localhost';

And then to configure wsrep_sst_auth, you could set the following in a server option group in an option file prior to starting up a node:

[mariadb]
...
wsrep_sst_auth = mysql:

Passwordless Authentication - GSSAPI

It is possible to use the gssapi authentication plugin for the user account that performs SSTs. This would provide the benefit of not needing to configure a plain-text password in wsrep_sst_auth.

The following steps would need to be done beforehand:

For example, you could execute the following to create the user account in MariaDB:

CREATE USER 'mariabackup'@'localhost' IDENTIFIED VIA gssapi;
GRANT RELOAD, PROCESS, LOCK TABLES, BINLOG MONITOR ON *.* TO 'mariabackup'@'localhost';

And then to configure wsrep_sst_auth, you could set the following in a server option group in an option file prior to starting up a node:

[mariadb]
...
wsrep_sst_auth = mariabackup:

Choosing a Donor Node

When Mariabackup is used to create the backup for the SST on the donor node, Mariabackup briefly requires a system-wide lock at the end of the backup. In MariaDB 10.3 and before, this is done with FLUSH TABLES WITH READ LOCK. In MariaDB 10.4 and later, this is done with BACKUP STAGE BLOCK_COMMIT.

If a specific node in your cluster is acting as the primary node by receiving all of the application's write traffic, then this node should not usually be used as the donor node, because the system-wide lock could interfere with the application. In this case, you can define one or more preferred donor nodes by setting the wsrep_sst_donor system variable.

For example, let's say that we have a 5-node cluster with the nodes node1, node2, node3, node4, and node5, and let's say that node1 is acting as the primary node. The preferred donor nodes for node2 could be configured by setting the following in a server option group in an option file prior to starting up a node:

[mariadb]
...
wsrep_sst_donor=node3,node4,node5,

The trailing comma tells the server to allow any other node as donor when the preferred donors are not available. Therefore, if node1 is the only node left in the cluster, the trailing comma allows it to be used as the donor node.

Socat Dependency

During the SST process, the donor node uses socat to stream the backup to the joiner node. Then the joiner node prepares the backup before restoring it. The socat utility must be installed on both the donor node and the joiner node in order for this to work. Otherwise, the MariaDB error log will contain an error like:

WSREP_SST: [ERROR] socat not found in path: /usr/sbin:/sbin:/usr//bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin (20180122 14:55:32.993)

Installing Socat on RHEL/CentOS

On RHEL/CentOS, socat can be installed from the Extra Packages for Enterprise Linux (EPEL) repository.

TLS

This SST method supports two different TLS methods. The specific method can be selected by setting the encrypt option in the [sst] section of the MariaDB configuration file. The options are:

  • TLS using OpenSSL encryption built into socat (encrypt=2)
  • TLS using OpenSSL encryption with Galera-compatible certificates and keys (encrypt=3)

Note that encrypt=1 refers to a TLS encryption method that has been deprecated and removed. encrypt=4 refers to a TLS encryption method in xtrabackup-v2 that has not yet been ported to mariabackup. See MDEV-18050 about that.

TLS Using OpenSSL Encryption Built into Socat

To generate keys compatible with this encryption method, you can follow these directions.

For example:

  • First, generate the keys and certificates:
FILENAME=sst
openssl genrsa -out $FILENAME.key 1024
openssl req -new -key $FILENAME.key -x509 -days 3653 -out $FILENAME.crt
cat $FILENAME.key $FILENAME.crt >$FILENAME.pem
chmod 600 $FILENAME.key $FILENAME.pem
  • On some systems, you may also have to add dhparams to the certificate:
openssl dhparam -out dhparams.pem 2048
cat dhparams.pem >> sst.pem
  • Then, copy the certificate and keys to all nodes in the cluster.
  • Then, configure the following on all nodes in the cluster:
[sst]
encrypt=2
tca=/etc/my.cnf.d/certificates/sst.crt
tcert=/etc/my.cnf.d/certificates/sst.pem

But replace the paths with whatever is relevant on your system.

This should allow your SSTs to be encrypted.

TLS Using OpenSSL Encryption with Galera-compatible Certificates and Keys

To generate keys compatible with this encryption method, you can follow these directions.

For example:

  • First, generate the keys and certificates:
# CA
openssl genrsa 2048 > ca-key.pem
openssl req -new -x509 -nodes -days 365000 \
-key ca-key.pem -out ca-cert.pem
 
# server1
openssl req -newkey rsa:2048 -days 365000 \
-nodes -keyout server1-key.pem -out server1-req.pem
openssl rsa -in server1-key.pem -out server1-key.pem
openssl x509 -req -in server1-req.pem -days 365000 \
-CA ca-cert.pem -CAkey ca-key.pem -set_serial 01 \
-out server1-cert.pem
  • Then, copy the certificate and keys to all nodes in the cluster.
  • Then, configure the following on all nodes in the cluster:
[sst]
encrypt=3
tkey=/etc/my.cnf.d/certificates/server1-key.pem
tcert=/etc/my.cnf.d/certificates/server1-cert.pem

But replace the paths with whatever is relevant on your system.

This should allow your SSTs to be encrypted.

Logs

The mariabackup SST method has its own logging outside of the MariaDB Server logging.

Logging to SST Logs

MariaDB starting with 10.3.13

Starting with MariaDB 10.1.38, MariaDB 10.2.22, and MariaDB 10.3.13, logging for mariabackup SSTs works the following way.

By default, on the donor node, it logs to mariabackup.backup.log. This log file is located in the datadir.

By default, on the joiner node, it logs to mariabackup.prepare.log and mariabackup.move.log These log files are also located in the datadir.

By default, before a new SST is started, existing mariabackup SST log files are compressed and moved to /tmp/sst_log_archive. This behavior can be disabled by setting sst-log-archive=0 in the [sst] option group in an option file. Similarly, the archive directory can be changed by setting sst-log-archive-dir. For example:

[sst]
sst-log-archive=1
sst-log-archive-dir=/var/log/mysql/sst/

See MDEV-17973 for more information.

MariaDB until 10.3.13

Prior to MariaDB 10.1.38, MariaDB 10.2.22, and MariaDB 10.3.13, logging for mariabackup SSTs works the following way.

By default, on the donor node, it logs to innobackup.backup.log. This log file is located in the datadir.

By default, on the joiner node, it logs to innobackup.prepare.log and innobackup.move.log. These log files are located in the .sst directory, which is a hidden directory inside the datadir.

These log files are overwritten by each subsequent SST, so if an SST fails, it is best to copy them somewhere safe before starting another SST, so that the log files can be analyzed.

Logging to Syslog

You can redirect the SST logs to the syslog instead by setting the following in the [sst] option group in an option file:

[sst]
sst-syslog=1

You can also redirect the SST logs to the syslog by setting the following in the [mysqld_safe] option group in an option file:

[mysqld_safe]
syslog

Performing SSTs with IPv6 Addresses

If you are performing Mariabackup SSTs with IPv6 addresses, then the socat utility needs to be passed the pf=ip6 option. This can be done by setting the sockopt option in the [sst] option group in an option file. For example:

[sst]
sockopt=",pf=ip6"

See MDEV-18797 for more information.

Manual SST with Mariabackup

In some cases, if Galera Cluster's automatic SSTs repeatedly fail, then it can be helpful to perform a "manual SST". See the following page on how to do that:

See Also

Content reproduced on this site is the property of its respective owners, and this content is not reviewed in advance by MariaDB. The views, information and opinions expressed by this content do not necessarily represent those of MariaDB or any other party.