START TRANSACTION
[transaction_characteristic [, transaction_characteristic] ...]
transaction_characteristic: {
WITH CONSISTENT SNAPSHOT
| READ WRITE
| READ ONLY
}
BEGIN [WORK]
COMMIT [WORK] [AND [NO] CHAIN] [[NO] RELEASE]
ROLLBACK [WORK] [AND [NO] CHAIN] [[NO] RELEASE]
SET autocommit = {0 | 1}
These statements provide control over use of transactions:
START TRANSACTION
orBEGIN
start a new transaction.COMMIT
commits the current transaction, making its changes permanent.ROLLBACK
rolls back the current transaction, canceling its changes.SET autocommit
disables or enables the default autocommit mode for the current session.
By default, MySQL runs with
autocommit mode enabled.
This means that, when not otherwise inside a transaction, each
statement is atomic, as if it were surrounded by START
TRANSACTION
and COMMIT
. You cannot
use ROLLBACK
to undo the effect; however, if an
error occurs during statement execution, the statement is rolled
back.
To disable autocommit mode implicitly for a single series of
statements, use the START TRANSACTION
statement:
START TRANSACTION;
SELECT @A:=SUM(salary) FROM table1 WHERE type=1;
UPDATE table2 SET summary=@A WHERE type=1;
COMMIT;
With START TRANSACTION
, autocommit remains
disabled until you end the transaction with
COMMIT
or ROLLBACK
. The
autocommit mode then reverts to its previous state.
START TRANSACTION
permits several modifiers
that control transaction characteristics. To specify multiple
modifiers, separate them by commas.
The
WITH CONSISTENT SNAPSHOT
modifier starts a consistent read for storage engines that are capable of it. This applies only toInnoDB
. The effect is the same as issuing aSTART TRANSACTION
followed by aSELECT
from anyInnoDB
table. See Section 17.7.2.3, “Consistent Nonlocking Reads”. TheWITH CONSISTENT SNAPSHOT
modifier does not change the current transaction isolation level, so it provides a consistent snapshot only if the current isolation level is one that permits a consistent read. The only isolation level that permits a consistent read isREPEATABLE READ
. For all other isolation levels, theWITH CONSISTENT SNAPSHOT
clause is ignored. A warning is generated when theWITH CONSISTENT SNAPSHOT
clause is ignored.The
READ WRITE
andREAD ONLY
modifiers set the transaction access mode. They permit or prohibit changes to tables used in the transaction. TheREAD ONLY
restriction prevents the transaction from modifying or locking both transactional and nontransactional tables that are visible to other transactions; the transaction can still modify or lock temporary tables.MySQL enables extra optimizations for queries on
InnoDB
tables when the transaction is known to be read-only. SpecifyingREAD ONLY
ensures these optimizations are applied in cases where the read-only status cannot be determined automatically. See Section 10.5.3, “Optimizing InnoDB Read-Only Transactions” for more information.If no access mode is specified, the default mode applies. Unless the default has been changed, it is read/write. It is not permitted to specify both
READ WRITE
andREAD ONLY
in the same statement.In read-only mode, it remains possible to change tables created with the
TEMPORARY
keyword using DML statements. Changes made with DDL statements are not permitted, just as with permanent tables.For additional information about transaction access mode, including ways to change the default mode, see Section 15.3.7, “SET TRANSACTION Statement”.
If the
read_only
system variable is enabled, explicitly starting a transaction withSTART TRANSACTION READ WRITE
requires theCONNECTION_ADMIN
privilege (or the deprecatedSUPER
privilege).
Many APIs used for writing MySQL client applications (such as
JDBC) provide their own methods for starting transactions that
can (and sometimes should) be used instead of sending a
START TRANSACTION
statement from the client.
See Chapter 31, Connectors and APIs, or the documentation for
your API, for more information.
To disable autocommit mode explicitly, use the following statement:
SET autocommit=0;
After disabling autocommit mode by setting the
autocommit
variable to zero,
changes to transaction-safe tables (such as those for
InnoDB
or
NDB
) are not made permanent
immediately. You must use COMMIT
to
store your changes to disk or ROLLBACK
to
ignore the changes.
autocommit
is a session variable
and must be set for each session. To disable autocommit mode for
each new connection, see the description of the
autocommit
system variable at
Section 7.1.8, “Server System Variables”.
BEGIN
and BEGIN WORK
are
supported as aliases of START TRANSACTION
for
initiating a transaction. START TRANSACTION
is
standard SQL syntax, is the recommended way to start an ad-hoc
transaction, and permits modifiers that BEGIN
does not.
The BEGIN
statement differs from the use of the
BEGIN
keyword that starts a
BEGIN ... END
compound statement. The latter does not begin a transaction. See
Section 15.6.1, “BEGIN ... END Compound Statement”.
Within all stored programs (stored procedures and functions,
triggers, and events), the parser treats BEGIN
[WORK]
as the beginning of a
BEGIN ...
END
block. Begin a transaction in this context with
START
TRANSACTION
instead.
The optional WORK
keyword is supported for
COMMIT
and ROLLBACK
, as are
the CHAIN
and RELEASE
clauses. CHAIN
and RELEASE
can be used for additional control over transaction completion.
The value of the completion_type
system variable determines the default completion behavior. See
Section 7.1.8, “Server System Variables”.
The AND CHAIN
clause causes a new transaction
to begin as soon as the current one ends, and the new transaction
has the same isolation level as the just-terminated transaction.
The new transaction also uses the same access mode (READ
WRITE
or READ ONLY
) as the
just-terminated transaction. The RELEASE
clause
causes the server to disconnect the current client session after
terminating the current transaction. Including the
NO
keyword suppresses CHAIN
or RELEASE
completion, which can be useful if
the completion_type
system
variable is set to cause chaining or release completion by
default.
Beginning a transaction causes any pending transaction to be committed. See Section 15.3.3, “Statements That Cause an Implicit Commit”, for more information.
Beginning a transaction also causes table locks acquired with
LOCK TABLES
to be released, as
though you had executed
UNLOCK
TABLES
. Beginning a transaction does not release a
global read lock acquired with FLUSH TABLES
WITH READ LOCK
.
For best results, transactions should be performed using only tables managed by a single transaction-safe storage engine. Otherwise, the following problems can occur:
If you use tables from more than one transaction-safe storage engine (such as
InnoDB
), and the transaction isolation level is notSERIALIZABLE
, it is possible that when one transaction commits, another ongoing transaction that uses the same tables sees only some of the changes made by the first transaction. That is, the atomicity of transactions is not guaranteed with mixed engines and inconsistencies can result. (If mixed-engine transactions are infrequent, you can useSET TRANSACTION ISOLATION LEVEL
to set the isolation level toSERIALIZABLE
on a per-transaction basis as necessary.)If you use tables that are not transaction-safe within a transaction, changes to those tables are stored at once, regardless of the status of autocommit mode.
If you issue a
ROLLBACK
statement after updating a nontransactional table within a transaction, anER_WARNING_NOT_COMPLETE_ROLLBACK
warning occurs. Changes to transaction-safe tables are rolled back, but not changes to nontransaction-safe tables.
Each transaction is stored in the binary log in one chunk, upon
COMMIT
. Transactions that are
rolled back are not logged.
(Exception: Modifications to
nontransactional tables cannot be rolled back. If a transaction
that is rolled back includes modifications to nontransactional
tables, the entire transaction is logged with a
ROLLBACK
statement at the end to ensure that modifications to the
nontransactional tables are replicated.) See
Section 7.4.4, “The Binary Log”.
You can change the isolation level or access mode for transactions
with the SET TRANSACTION
statement.
See Section 15.3.7, “SET TRANSACTION Statement”.
Rolling back can be a slow operation that may occur implicitly
without the user having explicitly asked for it (for example, when
an error occurs). Because of this, SHOW
PROCESSLIST
displays Rolling back
in
the State
column for the session, not only for
explicit rollbacks performed with the
ROLLBACK
statement but also for implicit rollbacks.
In MySQL 9.1, BEGIN
,
COMMIT
, and ROLLBACK
are
not affected by --replicate-do-db
or --replicate-ignore-db
rules.
When InnoDB
performs a complete rollback of a
transaction, all locks set by the transaction are released. If a
single SQL statement within a transaction rolls back as a result
of an error, such as a duplicate key error, locks set by the
statement are preserved while the transaction remains active. This
happens because InnoDB
stores row locks in a
format such that it cannot know afterward which lock was set by
which statement.
If a SELECT
statement within a
transaction calls a stored function, and a statement within the
stored function fails, that statement rolls back. If
ROLLBACK
is
executed for the transaction subsequently, the entire transaction
rolls back.