Obtain the time of the most recent global checkpoint (GCP). That is, you need to determine the most recent epoch from the ndb_apply_status table on the replica cluster, which can be found using the following query:

mysqlR'> SELECT @latest:=MAX(epoch)
      ->        FROM mysql.ndb_apply_status;

In a circular replication topology, with a source and a replica running on each host, when you are using ndb_log_apply_status=1, NDB Cluster epochs are written in the replicas' binary logs. This means that the ndb_apply_status table contains information for the replica on this host as well as for any other host which acts as a replica of the replication source server running on this host.

In this case, you need to determine the latest epoch on this replica to the exclusion of any epochs from any other replicas in this replica's binary log that were not listed in the IGNORE_SERVER_IDS options of the CHANGE REPLICATION SOURCE TO statement used to set up this replica. The reason for excluding such epochs is that rows in the mysql.ndb_apply_status table whose server IDs have a match in the IGNORE_SERVER_IDS list from the CHANGE REPLICATION SOURCE TO statement used to prepare this replicas's source are also considered to be from local servers, in addition to those having the replica's own server ID. You can retrieve this list as Replicate_Ignore_Server_Ids from the output of SHOW REPLICA STATUS. We assume that you have obtained this list and are substituting it for ignore_server_ids in the query shown here, which like the previous version of the query, selects the greatest epoch into a variable named @latest:

mysqlR'> SELECT @latest:=MAX(epoch)
      ->        FROM mysql.ndb_apply_status
      ->        WHERE server_id NOT IN (ignore_server_ids);

In some cases, it may be simpler or more efficient (or both) to use a list of the server IDs to be included and server_id IN server_id_list in the WHERE condition of the preceding query.

Using the information obtained from the query shown in Step 1, obtain the corresponding records from the ndb_binlog_index table on the source cluster.

You can use the following query to obtain the needed records from the ndb_binlog_index table on the source:

mysqlS'> SELECT
    ->     @file:=SUBSTRING_INDEX(next_file, '/', -1),
    ->     @pos:=next_position
    -> FROM mysql.ndb_binlog_index
    -> WHERE epoch = @latest;

These are the records saved on the source since the failure of the primary replication channel. We have employed a user variable @latest here to represent the value obtained in Step 1. Of course, it is not possible for one mysqld instance to access user variables set on another server instance directly. These values must be “plugged in” to the second query manually or by an application.

Now it is possible to synchronize the secondary channel by running the following query on the secondary replica server:

mysqlR'> CHANGE REPLICATION SOURCE TO
      ->     SOURCE_LOG_FILE='@file',
      ->     SOURCE_LOG_POS=@pos;

Again we have employed user variables (in this case @file and @pos) to represent the values obtained in Step 2 and applied in Step 3; in practice these values must be inserted manually or using an application that can access both of the servers involved.

You can now initiate replication on the secondary channel by issuing the appropriate command on the secondary replica mysqld:

mysqlR'> START REPLICA;