MySQL replication capabilities are implemented using three threads, one on the master server and two on the slave:
Binlog dump thread.
The master creates a thread to send the binary log contents
to a slave when the slave connects. This thread can be
identified in the output of SHOW
PROCESSLIST
on the master as the Binlog
Dump
thread.
The binlog dump thread acquires a lock on the master's binary log for reading each event that is to be sent to the slave. As soon as the event has been read, the lock is released, even before the event is sent to the slave.
Slave I/O thread.
When a START SLAVE
statement
is issued on a slave server, the slave creates an I/O
thread, which connects to the master and asks it to send the
updates recorded in its binary logs.
The slave I/O thread reads the updates that the master's
Binlog Dump
thread sends (see previous
item) and copies them to local files that comprise the slave's
relay log.
The state of this thread is shown as
Slave_IO_running
in the output of
SHOW SLAVE STATUS
or as
Slave_running
in the output
of SHOW STATUS
.
Slave SQL thread. The slave creates an SQL thread to read the relay log that is written by the slave I/O thread and execute the events contained therein.
MySQL Enterprise. For constant monitoring of the status of slaves, subscribe to the MySQL Enterprise Monitor. For more information, see http://www.mysql.com/products/enterprise/advisors.html.
In the preceding description, there are three threads per master/slave connection. A master that has multiple slaves creates one binlog dump thread for each currently connected slave, and each slave has its own I/O and SQL threads.
A slave uses two threads to separate reading updates from the master and executing them into independent tasks. Thus, the task of reading statements is not slowed down if statement execution is slow. For example, if the slave server has not been running for a while, its I/O thread can quickly fetch all the binary log contents from the master when the slave starts, even if the SQL thread lags far behind. If the slave stops before the SQL thread has executed all the fetched statements, the I/O thread has at least fetched everything so that a safe copy of the statements is stored locally in the slave's relay logs, ready for execution the next time that the slave starts. This enables the master server to purge its binary logs sooner because it no longer needs to wait for the slave to fetch their contents.
The SHOW PROCESSLIST
statement
provides information that tells you what is happening on the
master and on the slave regarding replication. For information on
master states, see Section 7.5.6.5, “Replication Master Thread States”. For
slave states, see Section 7.5.6.6, “Replication Slave I/O Thread States”, and
Section 7.5.6.7, “Replication Slave SQL Thread States”.
The following example illustrates how the three threads show up in
the output from SHOW PROCESSLIST
.
On the master server, the output from SHOW
PROCESSLIST
looks like this:
mysql> SHOW PROCESSLIST\G
*************************** 1. row ***************************
Id: 2
User: root
Host: localhost:32931
db: NULL
Command: Binlog Dump
Time: 94
State: Has sent all binlog to slave; waiting for binlog to
be updated
Info: NULL
Here, thread 2 is a Binlog Dump
replication
thread that services a connected slave. The
State
information indicates that all
outstanding updates have been sent to the slave and that the
master is waiting for more updates to occur. If you see no
Binlog Dump
threads on a master server, this
means that replication is not running; that is, no slaves are
currently connected.
On a slave server, the output from SHOW
PROCESSLIST
looks like this:
mysql> SHOW PROCESSLIST\G
*************************** 1. row ***************************
Id: 10
User: system user
Host:
db: NULL
Command: Connect
Time: 11
State: Waiting for master to send event
Info: NULL
*************************** 2. row ***************************
Id: 11
User: system user
Host:
db: NULL
Command: Connect
Time: 11
State: Has read all relay log; waiting for the slave I/O
thread to update it
Info: NULL
The State
information indicates that thread 10
is the I/O thread that is communicating with the master server,
and thread 11 is the SQL thread that is processing the updates
stored in the relay logs. At the time that
SHOW PROCESSLIST
was run, both
threads were idle, waiting for further updates.
The value in the Time
column can show how late
the slave is compared to the master. See
Section 16.4.4, “Replication FAQ”. If sufficient time elapses on
the master side without activity on the Binlog
Dump
thread, the master determines that the slave is no
longer connected. As for any other client connection, the timeouts
for this depend on the values of
net_write_timeout
and
net_retry_count
; for more information about
these, see Section 5.1.3, “Server System Variables”.
The SHOW SLAVE STATUS
statement provides
additional information about replication processing on a slave
server. See Section 16.1.3.1, “Checking Replication Status”.
The SHOW SLAVE STATUS
statement provides
additional information about replication processing on a slave
server. See Section 16.1.3.1, “Checking Replication Status”.
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