Inconsistencies in the sequence of transactions that have been executed from the relay log can occur depending on your replication configuration. This section explains how to avoid inconsistencies and solve any problems they cause.
The following types of inconsistencies can exist:
Half-applied transactions. A transaction which updates non-transactional tables has applied some but not all of its changes.
Gaps. A gap in the externalized transaction set appears when, given an ordered sequence of transactions, a transaction that is later in the sequence is applied before some other transaction that is prior in the sequence. Gaps can only appear when using a multithreaded replica.
To avoid gaps occurring on a multithreaded replica, set
replica_preserve_commit_order=ON
. This is the default, because all replicas are multithreaded by default.Binary logging and replica update logging are not required on the replica to set
replica_preserve_commit_order=ON
, and can be disabled if wanted.Setting
replica_preserve_commit_order=ON
requires thatreplica_parallel_type
is set toLOGICAL_CLOCK
. In MySQL 9.0, this is the default.In some specific situations, as listed in the description for
replica_preserve_commit_order
, settingreplica_preserve_commit_order=ON
cannot preserve commit order on the replica, so in these cases gaps might still appear in the sequence of transactions that have been executed from the replica's relay log.Setting
replica_preserve_commit_order=ON
does not prevent source binary log position lag.Source binary log position lag. Even in the absence of gaps, it is possible that transactions after
Exec_master_log_pos
have been applied. That is, all transactions up to pointN
have been applied, and no transactions afterN
have been applied, butExec_master_log_pos
has a value smaller thanN
. In this situation,Exec_master_log_pos
is a “low-water mark” of the transactions applied, and lags behind the position of the most recently applied transaction. This can only happen on multithreaded replicas. Enablingreplica_preserve_commit_order
does not prevent source binary log position lag.
The following scenarios are relevant to the existence of half-applied transactions, gaps, and source binary log position lag:
While replication threads are running, there may be gaps and half-applied transactions.
mysqld shuts down. Both clean and unclean shutdown abort ongoing transactions and may leave gaps and half-applied transactions.
KILL
of replication threads (the SQL thread when using a single-threaded replica, the coordinator thread when using a multithreaded replica). This aborts ongoing transactions and may leave gaps and half-applied transactions.Error in applier threads. This may leave gaps. If the error is in a mixed transaction, that transaction is half-applied. When using a multithreaded replica, workers which have not received an error complete their queues, so it may take time to stop all threads.
STOP REPLICA
when using a multithreaded replica. After issuingSTOP REPLICA
, the replica waits for any gaps to be filled and then updatesExec_master_log_pos
. This ensures it never leaves gaps or source binary log position lag, unless any of the cases above applies, in other words, beforeSTOP REPLICA
completes, either an error happens, or another thread issuesKILL
, or the server restarts. In these cases,STOP REPLICA
returns successfully.If the last transaction in the relay log is only half-received and the multithreaded replica's coordinator thread has started to schedule the transaction to a worker, then
STOP REPLICA
waits up to 60 seconds for the transaction to be received. After this timeout, the coordinator gives up and aborts the transaction. If the transaction is mixed, it may be left half-completed.STOP REPLICA
when the ongoing transaction updates transactional tables only, in which case it is rolled back andSTOP REPLICA
stops immediately. If the ongoing transaction is mixed,STOP REPLICA
waits up to 60 seconds for the transaction to complete. After this timeout, it aborts the transaction, so it may be left half-completed.
The global setting for the system variable
rpl_stop_replica_timeout
is
unrelated to the process of stopping the replication threads. It
only makes the client that issues STOP
REPLICA
return to the client, but the replication
threads continue to try to stop.
If a replication channel has gaps, it has the following consequences:
The replica database is in a state that may never have existed on the source.
The field
Exec_master_log_pos
inSHOW REPLICA STATUS
is only a “low-water mark”. In other words, transactions appearing before the position are guaranteed to have committed, but transactions after the position may have committed or not.CHANGE REPLICATION SOURCE TO
statements for that channel fail with an error, unless the applier threads are running and the statement only sets receiver options.If mysqld is started with
--relay-log-recovery
, no recovery is done for that channel, and a warning is printed.If mysqldump is used with
--dump-replica
, it does not record the existence of gaps; thus it printsCHANGE REPLICATION SOURCE TO
withRELAY_LOG_POS
set to the “low-water mark” position inExec_master_log_pos
.After applying the dump on another server, and starting the replication threads, transactions appearing after the position are replicated again. Note that this is harmless if GTIDs are enabled (however, in that case it is not recommended to use
--dump-replica
).
If a replication channel has source binary log position lag but no gaps, cases 2 to 5 above apply, but case 1 does not.
The source binary log position information is persisted in
binary format in the internal table
mysql.slave_worker_info
.
START REPLICA
[SQL_THREAD]
always consults this information so that
it applies only the correct transactions. This remains true even
if replica_parallel_workers
has
been changed to 0 before START
REPLICA
, and even if START REPLICA
is used with UNTIL
. START REPLICA
UNTIL SQL_AFTER_MTS_GAPS
applies only as many
transactions as needed in order to fill in the gaps. If
START REPLICA
is used with
UNTIL
clauses that tell it to stop before it
has consumed all the gaps, then it leaves remaining gaps.
RESET REPLICA
removes the relay
logs and resets the replication position. Thus issuing
RESET REPLICA
on a
multithreaded replica with gaps means the replica loses any
information about the gaps, without correcting the gaps. In
this situation, if binary log position based replication is in
use, the recovery process fails.
When GTID-based replication is in use
(GTID_MODE=ON
) and
SOURCE_AUTO_POSITION
is set for the
replication channel using the CHANGE
REPLICATION SOURCE TO
statement, the old relay logs
are not required for the recovery process. Instead, the replica
can use GTID auto-positioning to calculate what transactions it
is missing compared to the source. The process used for binary
log position based replication to resolve gaps on a
multithreaded replica is skipped entirely when GTID-based
replication is in use. When the process is skipped, a
START REPLICA
UNTIL SQL_AFTER_MTS_GAPS
statement behaves
differently, and does not attempt to check for gaps in the
sequence of transactions. You can also issue
CHANGE REPLICATION SOURCE TO
statements, which are not permitted on a non-GTID replica where
there are gaps.