FLUSH [NO_WRITE_TO_BINLOG | LOCAL] {
flush_option [, flush_option] ...
| tables_option
}
flush_option: {
BINARY LOGS
| ENGINE LOGS
| ERROR LOGS
| GENERAL LOGS
| LOGS
| PRIVILEGES
| OPTIMIZER_COSTS
| RELAY LOGS [FOR CHANNEL channel]
| SLOW LOGS
| STATUS
| USER_RESOURCES
}
tables_option: {
table_synonym
| table_synonym tbl_name [, tbl_name] ...
| table_synonym WITH READ LOCK
| table_synonym tbl_name [, tbl_name] ... WITH READ LOCK
| table_synonym tbl_name [, tbl_name] ... FOR EXPORT
}
table_synonym: {
TABLE
| TABLES
}
The FLUSH
statement has several
variant forms that clear or reload various internal caches,
flush tables, or acquire locks. Each
FLUSH
operation requires the
privileges indicated in its description.
It is not possible to issue
FLUSH
statements within stored
functions or triggers. However, you may use
FLUSH
in stored procedures, so
long as these are not called from stored functions or
triggers. See Section 27.8, “Restrictions on Stored Programs”.
By default, the server writes
FLUSH
statements to the binary
log so that they replicate to replicas. To suppress logging,
specify the optional NO_WRITE_TO_BINLOG
keyword or its alias LOCAL
.
FLUSH LOGS
,
FLUSH BINARY LOGS
,
FLUSH TABLES WITH READ LOCK
(with or without a table list), and
FLUSH
TABLES
are not written to the binary log in any case
because they would cause problems if replicated to a replica.
tbl_name
... FOR
EXPORT
The FLUSH
statement causes an
implicit commit. See Section 15.3.3, “Statements That Cause an Implicit Commit”.
The mysqladmin utility provides a
command-line interface to some flush operations, using commands
such as flush-logs
,
flush-privileges
,
flush-status
, and
flush-tables
. See
Section 6.5.2, “mysqladmin — A MySQL Server Administration Program”.
Sending a SIGHUP
or
SIGUSR1
signal to the server causes several
flush operations to occur that are similar to various forms of
the FLUSH
statement. Signals can
be sent by the root
system account or the
system account that owns the server process. This enables the
flush operations to be performed without having to connect to
the server, which requires a MySQL account that has privileges
sufficient for those operations. See
Section 6.10, “Unix Signal Handling in MySQL”.
The RESET
statement is similar to
FLUSH
. See
Section 15.7.8.6, “RESET Statement”, for information about using
RESET
with replication.
The following list describes the permitted
FLUSH
statement
flush_option
values. For descriptions
of the permitted tables_option
values, see FLUSH TABLES Syntax.
Closes and reopens any binary log file to which the server is writing. If binary logging is enabled, the sequence number of the binary log file is incremented by one relative to the previous file.
This operation requires the
RELOAD
privilege.Closes and reopens any flushable logs for installed storage engines. This causes
InnoDB
to flush its logs to disk.This operation requires the
RELOAD
privilege.Closes and reopens any error log file to which the server is writing.
This operation requires the
RELOAD
privilege.Closes and reopens any general query log file to which the server is writing.
This operation requires the
RELOAD
privilege.This operation has no effect on tables used for the general query log (see Section 7.4.1, “Selecting General Query Log and Slow Query Log Output Destinations”).
Closes and reopens any log file to which the server is writing.
This operation requires the
RELOAD
privilege.The effect of this operation is equivalent to the combined effects of these operations:
FLUSH BINARY LOGS FLUSH ENGINE LOGS FLUSH ERROR LOGS FLUSH GENERAL LOGS FLUSH RELAY LOGS FLUSH SLOW LOGS
Re-reads the cost model tables so that the optimizer starts using the current cost estimates stored in them.
This operation requires the
FLUSH_OPTIMIZER_COSTS
orRELOAD
privilege.The server writes a warning to the error log for any unrecognized cost model table entries. For information about these tables, see Section 10.9.5, “The Optimizer Cost Model”. This operation affects only sessions that begin subsequent to the flush. Existing sessions continue to use the cost estimates that were current when they began.
Re-reads the privileges from the grant tables in the
mysql
system schema. As part of this operation, the server reads theglobal_grants
table containing dynamic privilege assignments and registers any unregistered privileges found there.Reloading the grant tables is necessary to enable updates to MySQL privileges and users only if you make such changes directly to the grant tables; it is not needed for account management statements such as
GRANT
orREVOKE
, which take effect immediately. See Section 8.2.13, “When Privilege Changes Take Effect”, for more information.This operation requires the
RELOAD
orFLUSH_PRIVILEGES
privilege.If the
--skip-grant-tables
option was specified at server startup to disable the MySQL privilege system,FLUSH PRIVILEGES
provides a way to enable the privilege system at runtime.Resets failed-login tracking (or enables it if the server was started with
--skip-grant-tables
) and unlocks any temporarily locked accounts. See Section 8.2.15, “Password Management”.Frees memory cached by the server as a result of
GRANT
,CREATE USER
,CREATE SERVER
, andINSTALL PLUGIN
statements. This memory is not released by the correspondingREVOKE
,DROP USER
,DROP SERVER
, andUNINSTALL PLUGIN
statements, so for a server that executes many instances of the statements that cause caching, there is an increase in cached memory use unless it is freed withFLUSH PRIVILEGES
.Clears the in-memory cache used by the
caching_sha2_password
authentication plugin. See Cache Operation for SHA-2 Pluggable Authentication.FLUSH RELAY LOGS [FOR CHANNEL
channel
]Closes and reopens any relay log file to which the server is writing. If relay logging is enabled, the sequence number of the relay log file is incremented by one relative to the previous file.
This operation requires the
RELOAD
privilege.The
FOR CHANNEL
clause enables you to name which replication channel the operation applies to. Executechannel
FLUSH RELAY LOGS FOR CHANNEL
to flush the relay log for a specific replication channel. If no channel is named and no extra replication channels exist, the operation applies to the default channel. If no channel is named and multiple replication channels exist, the operation applies to all replication channels. For more information, see Section 19.2.2, “Replication Channels”.channel
Closes and reopens any slow query log file to which the server is writing.
This operation requires the
RELOAD
privilege.This operation has no effect on tables used for the slow query log (see Section 7.4.1, “Selecting General Query Log and Slow Query Log Output Destinations”).
Flushes status indicators.
This operation adds the current thread's session status variable values to the global values and resets the session values to zero. Some global variables may be reset to zero as well. It also resets the counters for key caches (default and named) to zero and sets
Max_used_connections
to the current number of open connections. This information may be of use when debugging a query. See Section 1.6, “How to Report Bugs or Problems”.FLUSH STATUS
is unaffected byread_only
orsuper_read_only
, and is always written to the binary log.This operation requires the
FLUSH_STATUS
orRELOAD
privilege.Resets all per-hour user resource indicators to zero.
This operation requires the
FLUSH_USER_RESOURCES
orRELOAD
privilege.Resetting resource indicators enables clients that have reached their hourly connection, query, or update limits to resume activity immediately.
FLUSH USER_RESOURCES
does not apply to the limit on maximum simultaneous connections that is controlled by themax_user_connections
system variable. See Section 8.2.21, “Setting Account Resource Limits”.
FLUSH TABLES Syntax
FLUSH TABLES
flushes tables, and,
depending on the variant used, acquires locks. Any
TABLES
variant used in a
FLUSH
statement must be the only
option used. FLUSH
TABLE
is a synonym for FLUSH
TABLES
.
The descriptions here that indicate tables are flushed by
closing them apply differently for InnoDB
,
which flushes table contents to disk but leaves them open.
This still permits table files to be copied while the tables
are open, as long as other activity does not modify them.
Closes all open tables, forces all tables in use to be closed, and flushes the prepared statement cache.
This operation requires the
FLUSH_TABLES
orRELOAD
privilege.For information about prepared statement caching, see Section 10.10.3, “Caching of Prepared Statements and Stored Programs”.
FLUSH TABLES
is not permitted when there is an activeLOCK TABLES ... READ
. To flush and lock tables, useFLUSH TABLES
instead.tbl_name
... WITH READ LOCKFLUSH TABLES
tbl_name
[,tbl_name
] ...With a list of one or more comma-separated table names, this operation is like
FLUSH TABLES
with no names except that the server flushes only the named tables. If a named table does not exist, no error occurs.This operation requires the
FLUSH_TABLES
orRELOAD
privilege.Closes all open tables and locks all tables for all databases with a global read lock.
This operation requires the
FLUSH_TABLES
orRELOAD
privilege.This operation is a very convenient way to get backups if you have a file system such as Veritas or ZFS that can take snapshots in time. Use
UNLOCK TABLES
to release the lock.FLUSH TABLES WITH READ LOCK
acquires a global read lock rather than table locks, so it is not subject to the same behavior asLOCK TABLES
andUNLOCK TABLES
with respect to table locking and implicit commits:UNLOCK TABLES
implicitly commits any active transaction only if any tables currently have been locked withLOCK TABLES
. The commit does not occur forUNLOCK TABLES
followingFLUSH TABLES WITH READ LOCK
because the latter statement does not acquire table locks.Beginning a transaction causes table locks acquired with
LOCK TABLES
to be released, as though you had executedUNLOCK TABLES
. Beginning a transaction does not release a global read lock acquired withFLUSH TABLES WITH READ LOCK
.
FLUSH TABLES WITH READ LOCK
does not prevent the server from inserting rows into the log tables (see Section 7.4.1, “Selecting General Query Log and Slow Query Log Output Destinations”).FLUSH TABLES
tbl_name
[,tbl_name
] ... WITH READ LOCKFlushes and acquires read locks for the named tables.
This operation requires the
FLUSH_TABLES
orRELOAD
privilege. Because it acquires table locks, it also requires theLOCK TABLES
privilege for each table.The operation first acquires exclusive metadata locks for the tables, so it waits for transactions that have those tables open to complete. Then the operation flushes the tables from the table cache, reopens the tables, acquires table locks (like
LOCK TABLES ... READ
), and downgrades the metadata locks from exclusive to shared. After the operation acquires locks and downgrades the metadata locks, other sessions can read but not modify the tables.This operation applies only to existing base (non-
TEMPORARY)
tables. If a name refers to a base table, that table is used. If it refers to aTEMPORARY
table, it is ignored. If a name applies to a view, anER_WRONG_OBJECT
error occurs. Otherwise, anER_NO_SUCH_TABLE
error occurs.Use
UNLOCK TABLES
to release the locks,LOCK TABLES
to release the locks and acquire other locks, orSTART TRANSACTION
to release the locks and begin a new transaction.This
FLUSH TABLES
variant enables tables to be flushed and locked in a single operation. It provides a workaround for the restriction thatFLUSH TABLES
is not permitted when there is an activeLOCK TABLES ... READ
.This operation does not perform an implicit
UNLOCK TABLES
, so an error results if you perform the operation while there is any activeLOCK TABLES
or use it a second time without first releasing the locks acquired.If a flushed table was opened with
HANDLER
, the handler is implicitly flushed and loses its position.FLUSH TABLES
tbl_name
[,tbl_name
] ... FOR EXPORTThis
FLUSH TABLES
variant applies toInnoDB
tables. It ensures that changes to the named tables have been flushed to disk so that binary table copies can be made while the server is running.This operation requires the
FLUSH_TABLES
orRELOAD
privilege. Because it acquires locks on tables in preparation for exporting them, it also requires theLOCK TABLES
andSELECT
privileges for each table.The operation works like this:
It acquires shared metadata locks for the named tables. The operation blocks as long as other sessions have active transactions that have modified those tables or hold table locks for them. When the locks have been acquired, the operation blocks transactions that attempt to update the tables, while permitting read-only operations to continue.
It checks whether all storage engines for the tables support
FOR EXPORT
. If any do not, anER_ILLEGAL_HA
error occurs and the operation fails.The operation notifies the storage engine for each table to make the table ready for export. The storage engine must ensure that any pending changes are written to disk.
The operation puts the session in lock-tables mode so that the metadata locks acquired earlier are not released when the
FOR EXPORT
operation completes.
This operation applies only to existing base (non-
TEMPORARY
) tables. If a name refers to a base table, that table is used. If it refers to aTEMPORARY
table, it is ignored. If a name applies to a view, anER_WRONG_OBJECT
error occurs. Otherwise, anER_NO_SUCH_TABLE
error occurs.InnoDB
supportsFOR EXPORT
for tables that have their own.ibd
file file (that is, tables created with theinnodb_file_per_table
setting enabled).InnoDB
ensures when notified by theFOR EXPORT
operation that any changes have been flushed to disk. This permits a binary copy of table contents to be made while theFOR EXPORT
operation is in effect because the.ibd
file is transaction consistent and can be copied while the server is running.FOR EXPORT
does not apply toInnoDB
system tablespace files, or toInnoDB
tables that haveFULLTEXT
indexes.FLUSH TABLES ...FOR EXPORT
is supported for partitionedInnoDB
tables.When notified by
FOR EXPORT
,InnoDB
writes to disk certain kinds of data that is normally held in memory or in separate disk buffers outside the tablespace files. For each table,InnoDB
also produces a file named
in the same database directory as the table. Thetable_name
.cfg.cfg
file contains metadata needed to reimport the tablespace files later, into the same or different server.When the
FOR EXPORT
operation completes,InnoDB
has flushed all dirty pages to the table data files. Any change buffer entries are merged prior to flushing. At this point, the tables are locked and quiescent: The tables are in a transactionally consistent state on disk and you can copy the.ibd
tablespace files along with the corresponding.cfg
files to get a consistent snapshot of those tables.For the procedure to reimport the copied table data into a MySQL instance, see Section 17.6.1.3, “Importing InnoDB Tables”.
After you are done with the tables, use
UNLOCK TABLES
to release the locks,LOCK TABLES
to release the locks and acquire other locks, orSTART TRANSACTION
to release the locks and begin a new transaction.While any of these statements is in effect within the session, attempts to use
FLUSH TABLES ... FOR EXPORT
produce an error:FLUSH TABLES ... WITH READ LOCK FLUSH TABLES ... FOR EXPORT LOCK TABLES ... READ LOCK TABLES ... WRITE
While
FLUSH TABLES ... FOR EXPORT
is in effect within the session, attempts to use any of these statements produce an error:FLUSH TABLES WITH READ LOCK FLUSH TABLES ... WITH READ LOCK FLUSH TABLES ... FOR EXPORT