This section discusses making backups and restoring from them using MySQL Cluster replication. We assume that the replication servers have already been configured as covered previously (see Section 17.6.5, “Preparing the MySQL Cluster for Replication”, and the sections immediately following). This having been done, the procedure for making a backup and then restoring from it is as follows:
There are two different methods by which the backup may be started.
Method A. This method requires that the cluster backup process was previously enabled on the master server, prior to starting the replication process. This can be done by including the following line in a
[mysql_cluster]section in the
my.cnf file, where
management_hostis the IP address or host name of the
NDBmanagement server for the master cluster, and
portis the management server's port number:
The port number needs to be specified only if the default port (1186) is not being used. See Section 17.2.2, “MySQL Cluster Multi-Computer Configuration”, for more information about ports and port allocation in MySQL Cluster.
ndb_mgm -e "START BACKUP"
Method B. If the
my.cnffile does not specify where to find the management host, you can start the backup process by passing this information to the
NDBmanagement client as part of the
START BACKUPcommand. This can be done as shown here, where
portare the host name and port number of the management server:
port-e "START BACKUP"
In our scenario as outlined earlier (see Section 17.6.5, “Preparing the MySQL Cluster for Replication”), this would be executed as follows:
ndb_mgm rep-master:1186 -e "START BACKUP"
Copy the cluster backup files to the slave that is being brought on line. Each system running an ndbd process for the master cluster will have cluster backup files located on it, and all of these files must be copied to the slave to ensure a successful restore. The backup files can be copied into any directory on the computer where the slave management host resides, so long as the MySQL and NDB binaries have read permissions in that directory. In this case, we will assume that these files have been copied into the directory
It is not necessary that the slave cluster have the same number of ndbd processes (data nodes) as the master; however, it is highly recommended this number be the same. It is necessary that the slave be started with the
--skip-slave-startoption, to prevent premature startup of the replication process.
Create any databases on the slave cluster that are present on the master cluster that are to be replicated to the slave.
Reset the slave cluster using this statement in the MySQL Monitor:
It is important to make sure that the slave's
apply_statustable does not contain any records prior to running the restore process. You can accomplish this by running this SQL statement on the slave:
DELETE FROM mysql.ndb_apply_status;
You can now start the cluster restoration process on the replication slave using the ndb_restore command for each backup file in turn. For the first of these, it is necessary to include the
-moption to restore the cluster metadata:
diris the path to the directory where the backup files have been placed on the replication slave. For the ndb_restore commands corresponding to the remaining backup files, the
-moption should not be used.
For restoring from a master cluster with four data nodes (as shown in the figure in Section 17.6, “MySQL Cluster Replication”) where the backup files have been copied to the directory
/var/BACKUPS/BACKUP-1, the proper sequence of commands to be executed on the slave might look like this:
ndb_restore -c rep-slave:1186 -n 2 -b 1 -m \
ndb_restore -c rep-slave:1186 -n 3 -b 1 \
ndb_restore -c rep-slave:1186 -n 4 -b 1 \
ndb_restore -c rep-slave:1186 -n 5 -b 1 -e \
--restore-epoch) option in the final invocation of ndb_restore in this example is required in order that the epoch is written to the slave
mysql.ndb_apply_status. Without this information, the slave will not be able to synchronize properly with the master. (See Section 17.4.17, “ndb_restore — Restore a MySQL Cluster Backup”.)
Now you need to obtain the most recent epoch from the
ndb_apply_statustable on the slave (as discussed in Section 17.6.8, “Implementing Failover with MySQL Cluster Replication”):
@latestas the epoch value obtained in the previous step, you can obtain the correct starting position
@posin the correct binary log file
@filefrom the master's
mysql.ndb_binlog_indextable using the query shown here:
@file:=SUBSTRING_INDEX(File, '/', -1),->
WHERE epoch > @latest->
ORDER BY epoch ASC LIMIT 1;
In the event that there is currently no replication traffic, you can get this information by running
SHOW MASTER STATUSon the master and using the value in the
Positioncolumn for the file whose name has the suffix with the greatest value for all files shown in the
Filecolumn. However, in this case, you must determine this and supply it in the next step manually or by parsing the output with a script.
CHANGE MASTER TO->
Now that the slave “knows” from what point in which
binlogfile to start reading data from the master, you can cause the slave to begin replicating with this standard MySQL statement:
To perform a backup and restore on a second replication channel, it is necessary only to repeat these steps, substituting the host names and IDs of the secondary master and slave for those of the primary master and slave replication servers where appropriate, and running the preceding statements on them.
For additional information on performing Cluster backups and restoring Cluster from backups, see Section 17.5.3, “Online Backup of MySQL Cluster”.