If replication stops due to an issue with an event in a replicated transaction, you can resume replication by skipping the failed transaction on the replica. Before skipping a transaction, ensure that the replication I/O (receiver) thread is stopped as well as the SQL (applier) thread.
First you need to identify the replicated event that caused the
error. Details of the error and the last successfully applied
transaction are recorded in the Performance Schema table
replication_applier_status_by_worker
.
You can use mysqlbinlog to retrieve and
display the events that were logged around the time of the
error. For instructions to do this, see
Section 9.5, “Point-in-Time (Incremental) Recovery”. Alternatively, you can
issue SHOW RELAYLOG EVENTS
on the
replica or SHOW BINLOG EVENTS
on
the source.
Before skipping the transaction and restarting the replica, check these points:
Is the transaction that stopped replication from an unknown or untrusted source? If so, investigate the cause in case there are any security considerations that indicate the replica should not be restarted.
Does the transaction that stopped replication need to be applied on the replica? If so, either make the appropriate corrections and reapply the transaction, or manually reconcile the data on the replica.
Did the transaction that stopped replication need to be applied on the source? If not, undo the transaction manually on the server where it originally took place.
To skip the transaction, choose one of the following methods as appropriate:
When GTIDs are in use (
gtid_mode
isON
), see Section 19.1.7.3.1, “Skipping Transactions With GTIDs” .When GTIDs are not in use or are being phased in (
gtid_mode
isOFF
,OFF_PERMISSIVE
, orON_PERMISSIVE
), see Section 19.1.7.3.2, “Skipping Transactions Without GTIDs”.If you have enabled GTID assignment on a replication channel using the
ASSIGN_GTIDS_TO_ANONYMOUS_TRANSACTIONS
option of theCHANGE REPLICATION SOURCE TO
statement, see Section 19.1.7.3.2, “Skipping Transactions Without GTIDs”. UsingASSIGN_GTIDS_TO_ANONYMOUS_TRANSACTIONS
on a replication channel is not the same as introducing GTID-based replication for the channel, and you cannot use the transaction skipping method for GTID-based replication with those channels.
To restart replication after skipping the transaction, issue
START REPLICA
, with the
FOR CHANNEL
clause if the replica is a
multi-source replica.
When GTIDs are in use
(gtid_mode
is
ON
), the GTID for a committed transaction
is persisted on the replica even if the content of the
transaction is filtered out. This feature prevents a replica
from retrieving previously filtered transactions when it
reconnects to the source using GTID auto-positioning. It can
also be used to skip a transaction on the replica, by
committing an empty transaction in place of the failing
transaction.
This method of skipping transactions is not suitable when you
have enabled GTID assignment on a replication channel using
the ASSIGN_GTIDS_TO_ANONYMOUS_TRANSACTIONS
option of the CHANGE REPLICATION SOURCE
TO
statement.
If the failing transaction generated an error in a worker
thread, you can obtain its GTID directly from the
APPLYING_TRANSACTION
field in the
Performance Schema table
replication_applier_status_by_worker
.
To see what the transaction is, issue
SHOW RELAYLOG EVENTS
on the
replica or SHOW BINLOG
EVENTS
on the source, and search the output for a
transaction preceded by that GTID.
When you have assessed the failing transaction for any other appropriate actions as described previously (such as security considerations), to skip it, commit an empty transaction on the replica that has the same GTID as the failing transaction. For example:
SET GTID_NEXT='aaa-bbb-ccc-ddd:N';
BEGIN;
COMMIT;
SET GTID_NEXT='AUTOMATIC';
The presence of this empty transaction on the replica means
that when you issue a START
REPLICA
statement to restart replication, the
replica uses the auto-skip function to ignore the failing
transaction, because it sees a transaction with that GTID has
already been applied. If the replica is a multi-source
replica, you do not need to specify the channel name when you
commit the empty transaction, but you do need to specify the
channel name when you issue START
REPLICA
.
Note that if binary logging is in use on this replica, the empty transaction enters the replication stream if the replica becomes a source or primary in the future. If you need to avoid this possibility, consider flushing and purging the replica's binary logs, as in this example:
FLUSH LOGS;
PURGE BINARY LOGS TO 'binlog.000146';
The GTID of the empty transaction is persisted, but the transaction itself is removed by purging the binary log files.
To skip failing transactions when GTIDs are not in use or are
being phased in (gtid_mode
is
OFF
, OFF_PERMISSIVE
, or
ON_PERMISSIVE
), you can skip a specified
number of events by issuing SET GLOBAL
sql_replica_skip_counter
. Alternatively, you can
skip past an event or events by issuing a
CHANGE REPLICATION SOURCE TO
statement to move the source binary log position forward.
These methods are also suitable when you have enabled GTID
assignment on a replication channel using the
ASSIGN_GTIDS_TO_ANONYMOUS_TRANSACTIONS
option of the CHANGE REPLICATION SOURCE
TO
statement.
When you use these methods, it is important to understand that you are not necessarily skipping a complete transaction, as is always the case with the GTID-based method described previously. These non-GTID-based methods are not aware of transactions as such, but instead operate on events. The binary log is organized as a sequence of groups known as event groups, and each event group consists of a sequence of events.
For transactional tables, an event group corresponds to a transaction.
For nontransactional tables, an event group corresponds to a single SQL statement.
A single transaction can contain changes to both transactional and nontransactional tables.
When you use a SET GLOBAL
sql_replica_skip_counter
statement to skip events
and the resulting position is in the middle of an event group,
the replica continues to skip events until it reaches the end
of the group. Execution then starts with the next event group.
The CHANGE REPLICATION SOURCE
TO
statement does not have this function, so you
must be careful to identify the correct location to restart
replication at the beginning of an event group. However, using
CHANGE REPLICATION SOURCE TO
means you do not have to count the events that need to be
skipped, as you do with SET GLOBAL
sql_replica_skip_counter
, and instead you can just
specify the location to restart.
When you have assessed the failing transaction for any other
appropriate actions as described previously (such as
security considerations), count the number of events that
you need to skip. One event normally corresponds to one SQL
statement in the binary log, but note that statements that
use AUTO_INCREMENT
or
LAST_INSERT_ID()
count as two
events in the binary log. When binary log transaction
compression is in use, a compressed transaction payload
(Transaction_payload_event
) is counted as
a single counter value, so all the events inside it are
skipped as a unit.
If you want to skip the complete transaction, you can count
the events to the end of the transaction, or you can just
skip the relevant event group. Remember that with
SET
GLOBAL sql_replica_skip_counter
, the replica
continues to skip to the end of an event group. Make sure
you do not skip too far forward and go into the next event
group or transaction so that it is not also skipped.
Issue the SET
statement as follows, where
N
is the number of events from
the source to skip:
SET GLOBAL sql_replica_skip_counter = N
This statement cannot be issued if
gtid_mode=ON
is set, or if
the replication I/O (receiver) and SQL (applier) threads are
running.
The SET GLOBAL sql_replica_skip_counter
statement has no immediate effect. When you issue the
START REPLICA
statement for
the next time following this SET
statement, the new value for the system variable
sql_replica_skip_counter
is
applied, and the events are skipped. That
START REPLICA
statement also
automatically sets the value of the system variable back to
0. If the replica is a multi-source replica, when you issue
that START REPLICA
statement,
the FOR CHANNEL
clause is required. Make
sure that you name the correct channel, otherwise events are
skipped on the wrong channel.
When you have assessed the failing transaction for any other appropriate actions as described previously (such as security considerations), identify the coordinates (file and position) in the source's binary log that represent a suitable position to restart replication. This can be the start of the event group following the event that caused the issue, or the start of the next transaction. The replication I/O (receiver) thread begins reading from the source at these coordinates the next time the thread starts, skipping the failing event. Make sure that you have identified the position accurately, because this statement does not take event groups into account.
Issue the CHANGE REPLICATION SOURCE
TO
statement as follows, where
source_log_name
is the binary log
file that contains the restart position, and
source_log_pos
is the number
representing the restart position as stated in the binary
log file:
CHANGE REPLICATION SOURCE TO SOURCE_LOG_FILE='source_log_name', SOURCE_LOG_POS=source_log_pos;
If the replica is a multi-source replica, you must use the
FOR CHANNEL
clause to name the
appropriate channel on the CHANGE
REPLICATION SOURCE TO
statement.
This statement cannot be issued if
SOURCE_AUTO_POSITION
is
1
, or if the replication I/O (receiver)
and SQL (applier) threads are running. If you need to use
this method of skipping a transaction when
SOURCE_AUTO_POSITION=1
, you can change
the setting to SOURCE_AUTO_POSITION=0
while issuing the statement, then change it back again
afterwards. For example:
CHANGE REPLICATION SOURCE TO SOURCE_AUTO_POSITION=0, SOURCE_LOG_FILE='binlog.000145', SOURCE_LOG_POS=235;
CHANGE REPLICATION SOURCE TO SOURCE_AUTO_POSITION=1;