Support for triggers is included beginning with MySQL 5.0.2. A
trigger is a named database object that is associated with a table
and that is activated when a particular event occurs for the table.
For example, the following statements create a table and an
INSERT
trigger. The trigger sums the values
inserted into one of the table's columns:
mysql>CREATE TABLE account (acct_num INT, amount DECIMAL(10,2));
Query OK, 0 rows affected (0.03 sec) mysql>CREATE TRIGGER ins_sum BEFORE INSERT ON account
->FOR EACH ROW SET @sum = @sum + NEW.amount;
Query OK, 0 rows affected (0.06 sec)
MySQL triggers are activated by SQL statements
only. They are not activated by changes in
tables made by APIs that do not transmit SQL statements to the
MySQL Server; in particular, they are not activated by updates
made using the NDB
API.
This chapter describes the syntax for creating and dropping triggers, and shows some examples of how to use them. Discussion of restrictions on use of triggers is given in Section F.1, “Restrictions on Stored Routines and Triggers”. Remarks regarding binary logging as it applies to triggers are given in Section 18.4, “Binary Logging of Stored Routines and Triggers”.
For answers to some common questions about triggers in MySQL 5.0, see Section A.5, “MySQL 5.0 FAQ — Triggers”.
CREATE [DEFINER = {user
| CURRENT_USER }] TRIGGERtrigger_name
trigger_time
trigger_event
ONtbl_name
FOR EACH ROWtrigger_stmt
This statement creates a new trigger. A trigger is a named
database object that is associated with a table, and that
activates when a particular event occurs for the table.
CREATE TRIGGER
was added in MySQL 5.0.2.
Currently, its use requires the SUPER
privilege.
MySQL Enterprise For expert advice on creating triggers subscribe to the MySQL Enterprise Monitor. For more information see, http://www.mysql.com/products/enterprise/advisors.html.
The trigger becomes associated with the table named
tbl_name
, which must refer to a
permanent table. You cannot associate a trigger with a
TEMPORARY
table or a view.
When the trigger is activated, the DEFINER
clause determines the privileges that apply, as described later in
this section.
trigger_time
is the trigger action
time. It can be BEFORE
or
AFTER
to indicate that the trigger activates
before or after the statement that activated it.
trigger_event
indicates the kind of
statement that activates the trigger. The
trigger_event
can be one of the
following:
INSERT
: The trigger is activated whenever a
new row is inserted into the table; for example, through
INSERT
, LOAD DATA
, and
REPLACE
statements.
UPDATE
: The trigger is activated whenever a
row is modified; for example, through
UPDATE
statements.
DELETE
: The trigger is activated whenever a
row is deleted from the table; for example, through
DELETE
and REPLACE
statements. However, DROP TABLE
and
TRUNCATE
statements on the table do
not activate this trigger, because they
do not use DELETE
. See
Section 12.2.9, “TRUNCATE
Syntax”.
It is important to understand that the
trigger_event
does not represent a
literal type of SQL statement that activates the trigger so much
as it represents a type of table operation. For example, an
INSERT
trigger is activated by not only
INSERT
statements but also LOAD
DATA
statements because both statements insert rows into
a table.
A potentially confusing example of this is the INSERT
INTO ... ON DUPLICATE KEY UPDATE ...
syntax: a
BEFORE INSERT
trigger will activate for every
row, followed by either an AFTER INSERT
trigger
or both the BEFORE UPDATE
and AFTER
UPDATE
triggers, depending on whether there was a
duplicate key for the row.
There cannot be two triggers for a given table that have the same
trigger action time and event. For example, you cannot have two
BEFORE UPDATE
triggers for a table. But you can
have a BEFORE UPDATE
and a BEFORE
INSERT
trigger, or a BEFORE UPDATE
and an AFTER UPDATE
trigger.
trigger_stmt
is the statement to
execute when the trigger activates. If you want to execute
multiple statements, use the BEGIN ... END
compound statement construct. This also enables you to use the
same statements that are allowable within stored routines. See
Section 18.2.5, “BEGIN ... END
Compound Statement Syntax”. Some statements are not allowed in
triggers; see Section F.1, “Restrictions on Stored Routines and Triggers”.
MySQL stores the sql_mode
system variable
setting that is in effect at the time a trigger is created, and
always executes the trigger with this setting in force,
regardless of the current server SQL mode.
Currently, triggers are not activated by cascaded foreign key actions. This limitation will be lifted as soon as possible.
Before MySQL 5.0.10, triggers cannot contain direct references
to tables by name. Beginning with MySQL 5.0.10, you can write
triggers such as the one named testref
shown
in this example:
CREATE TABLE test1(a1 INT); CREATE TABLE test2(a2 INT); CREATE TABLE test3(a3 INT NOT NULL AUTO_INCREMENT PRIMARY KEY); CREATE TABLE test4( a4 INT NOT NULL AUTO_INCREMENT PRIMARY KEY, b4 INT DEFAULT 0 ); DELIMITER | CREATE TRIGGER testref BEFORE INSERT ON test1 FOR EACH ROW BEGIN INSERT INTO test2 SET a2 = NEW.a1; DELETE FROM test3 WHERE a3 = NEW.a1; UPDATE test4 SET b4 = b4 + 1 WHERE a4 = NEW.a1; END; | DELIMITER ; INSERT INTO test3 (a3) VALUES (NULL), (NULL), (NULL), (NULL), (NULL), (NULL), (NULL), (NULL), (NULL), (NULL); INSERT INTO test4 (a4) VALUES (0), (0), (0), (0), (0), (0), (0), (0), (0), (0);
Suppose that you insert the following values into table
test1
as shown here:
mysql>INSERT INTO test1 VALUES
->(1), (3), (1), (7), (1), (8), (4), (4);
Query OK, 8 rows affected (0.01 sec) Records: 8 Duplicates: 0 Warnings: 0
As a result, the data in the four tables will be as follows:
mysql>SELECT * FROM test1;
+------+ | a1 | +------+ | 1 | | 3 | | 1 | | 7 | | 1 | | 8 | | 4 | | 4 | +------+ 8 rows in set (0.00 sec) mysql>SELECT * FROM test2;
+------+ | a2 | +------+ | 1 | | 3 | | 1 | | 7 | | 1 | | 8 | | 4 | | 4 | +------+ 8 rows in set (0.00 sec) mysql>SELECT * FROM test3;
+----+ | a3 | +----+ | 2 | | 5 | | 6 | | 9 | | 10 | +----+ 5 rows in set (0.00 sec) mysql>SELECT * FROM test4;
+----+------+ | a4 | b4 | +----+------+ | 1 | 3 | | 2 | 0 | | 3 | 1 | | 4 | 2 | | 5 | 0 | | 6 | 0 | | 7 | 1 | | 8 | 1 | | 9 | 0 | | 10 | 0 | +----+------+ 10 rows in set (0.00 sec)
You can refer to columns in the subject table (the table
associated with the trigger) by using the aliases
OLD
and NEW
.
OLD.
refers
to a column of an existing row before it is updated or deleted.
col_name
NEW.
refers
to the column of a new row to be inserted or an existing row after
it is updated.
col_name
The DEFINER
clause specifies the MySQL account
to be used when checking access privileges at trigger activation
time. It was added in MySQL 5.0.17. If a
user
value is given, it should be a
MySQL account in
'
format (the same format used in the user_name
'@'host_name
'GRANT
statement). The user_name
and
host_name
values both are required.
CURRENT_USER
also can be given as
CURRENT_USER()
. The default
DEFINER
value is the user who executes the
CREATE TRIGGER
statement. (This is the same as
DEFINER = CURRENT_USER
.)
If you specify the DEFINER
clause, you cannot
set the value to any account but your own unless you have the
SUPER
privilege. These rules determine the
legal DEFINER
user values:
If you do not have the SUPER
privilege, the
only legal user
value is your own
account, either specified literally or by using
CURRENT_USER
. You cannot set the definer to
some other account.
If you have the SUPER
privilege, you can
specify any syntactically legal account name. If the account
does not actually exist, a warning is generated.
Although it is possible to create triggers with a non-existent
DEFINER
value, it is not a good idea for
such triggers to be activated until the definer actually does
exist. Otherwise, the behavior with respect to privilege
checking is undefined.
Note: Because MySQL currently requires the
SUPER
privilege for the use of CREATE
TRIGGER
, only the second of the preceding rules applies.
(MySQL 5.1.6 implements the TRIGGER
privilege
and requires that privilege for trigger creation, so at that point
both rules come into play and SUPER is required only for
specifying a DEFINER value other than your own account.)
From MySQL 5.0.17 on, MySQL checks trigger privileges like this:
At CREATE TRIGGER
time, the user that
issues the statement must have the SUPER
privilege.
At trigger activation time, privileges are checked against the
DEFINER
user. This user must have these
privileges:
The SUPER
privilege.
The SELECT
privilege for the subject
table if references to table columns occur via
OLD.
or
col_name
NEW.
in the trigger definition.
col_name
The UPDATE
privilege for the subject
table if table columns are targets of SET
NEW.
assignments in
the trigger definition.
col_name
=
value
Whatever other privileges normally are required for the statements executed by the trigger.
Before MySQL 5.0.17, MySQL checks trigger privileges like this:
At CREATE TRIGGER
time, the user that
issues the statement must have the SUPER
privilege.
At trigger activation time, privileges are checked against the user whose actions cause the trigger to be activated. This user must have whatever privileges normally are required for the statements executed by the trigger.
Note that the introduction of the DEFINER
clause changes the meaning of CURRENT_USER()
within trigger definitions: The CURRENT_USER()
function evaluates to the trigger DEFINER
value
as of MySQL 5.0.17 and to the user whose actions caused the
trigger to be activated before 5.0.17.
DROP TRIGGER [IF EXISTS] [schema_name
.]trigger_name
This statement drops a trigger. The schema (database) name is
optional. If the schema is omitted, the trigger is dropped from
the default schema. DROP TRIGGER
was added in
MySQL 5.0.2. Its use requires the SUPER
privilege.
Use IF EXISTS
to prevent an error from
occurring for a trigger that does not exist. A
NOTE
is generated for a non-existent trigger
when using IF EXISTS
. See
Section 12.5.4.28, “SHOW WARNINGS
Syntax”. The IF EXISTS
clause was added in MySQL 5.0.32.
Prior to MySQL 5.0.10, the table name was required instead of
the schema name
(
).
When upgrading from a previous version of MySQL 5.0 to MySQL
5.0.10 or newer, you must drop all triggers before
upgrading and re-create them afterwards, or else
table_name
.trigger_name
DROP TRIGGER
does not work after the upgrade.
See Section 2.4.17.2, “Upgrading from MySQL 4.1 to 5.0”, for a suggested
upgrade procedure.
In addition, triggers created in MySQL 5.0.16 or later cannot be dropped following a downgrade to MySQL 5.0.15 or earlier. If you wish to perform such a downgrade, you must also in this case drop all triggers prior to the downgrade, and then re-create them afterwards.
(For more information about these two issues, see Bug#15921 and Bug#18588.)
Support for triggers is included beginning with MySQL 5.0.2. This section discusses how to use triggers and some limitations regarding their use. Additional information about trigger limitations is given in Section F.1, “Restrictions on Stored Routines and Triggers”.
A trigger is a named database object that is associated with a table, and that activates when a particular event occurs for the table. Some uses for triggers are to perform checks of values to be inserted into a table or to perform calculations on values involved in an update.
A trigger is associated with a table and is defined to activate
when an INSERT
, DELETE
, or
UPDATE
statement for the table executes. A
trigger can be set to activate either before or after the
triggering statement. For example, you can have a trigger activate
before each row that is deleted from a table or after each row
that is updated.
MySQL triggers are activated by SQL statements
only. They are not activated by changes in
tables made by APIs that do not transmit SQL statements to the
MySQL Server; in particular, they are not activated by updates
made using the NDB
API.
To create a trigger or drop a trigger, use the CREATE
TRIGGER
or DROP TRIGGER
statement.
The syntax for these statements is described in
Section 19.1, “CREATE TRIGGER
Syntax”, and
Section 19.2, “DROP TRIGGER
Syntax”.
Here is a simple example that associates a trigger with a table
for INSERT
statements. It acts as an
accumulator to sum the values inserted into one of the columns of
the table.
The following statements create a table and a trigger for it:
mysql>CREATE TABLE account (acct_num INT, amount DECIMAL(10,2));
mysql>CREATE TRIGGER ins_sum BEFORE INSERT ON account
->FOR EACH ROW SET @sum = @sum + NEW.amount;
The CREATE TRIGGER
statement creates a trigger
named ins_sum
that is associated with the
account
table. It also includes clauses that
specify the trigger activation time, the triggering event, and
what to do with the trigger activates:
The keyword BEFORE
indicates the trigger
action time. In this case, the trigger should activate before
each row inserted into the table. The other allowable keyword
here is AFTER
.
The keyword INSERT
indicates the event that
activates the trigger. In the example,
INSERT
statements cause trigger activation.
You can also create triggers for DELETE
and
UPDATE
statements.
The statement following FOR EACH ROW
defines the statement to execute each time the trigger
activates, which occurs once for each row affected by the
triggering statement In the example, the triggered statement
is a simple SET
that accumulates the values
inserted into the amount
column. The
statement refers to the column as
NEW.amount
which means “the value of
the amount
column to be inserted into the
new row.”
To use the trigger, set the accumulator variable to zero, execute
an INSERT
statement, and then see what value
the variable has afterward:
mysql>SET @sum = 0;
mysql>INSERT INTO account VALUES(137,14.98),(141,1937.50),(97,-100.00);
mysql>SELECT @sum AS 'Total amount inserted';
+-----------------------+ | Total amount inserted | +-----------------------+ | 1852.48 | +-----------------------+
In this case, the value of @sum
after the
INSERT
statement has executed is 14.98
+ 1937.50 - 100
, or 1852.48
.
To destroy the trigger, use a DROP TRIGGER
statement. You must specify the schema name if the trigger is not
in the default schema:
mysql> DROP TRIGGER test.ins_sum;
Trigger names exist in the schema namespace, meaning that all triggers must have unique names within a schema. Triggers in different schemas can have the same name.
In addition to the requirement that trigger names be unique for a
schema, there are other limitations on the types of triggers you
can create. In particular, you cannot have two triggers for a
table that have the same activation time and activation event. For
example, you cannot define two BEFORE INSERT
triggers or two AFTER UPDATE
triggers for a
table. This should rarely be a significant limitation, because it
is possible to define a trigger that executes multiple statements
by using the BEGIN ... END
compound statement
construct after FOR EACH ROW
. (An example
appears later in this section.)
The OLD
and NEW
keywords
enable you to access columns in the rows affected by a trigger.
(OLD
and NEW
are not case
sensitive.) In an INSERT
trigger, only
NEW.
can be
used; there is no old row. In a col_name
DELETE
trigger,
only OLD.
can be used; there is no new row. In an col_name
UPDATE
trigger, you can use
OLD.
to
refer to the columns of a row before it is updated and
col_name
NEW.
to
refer to the columns of the row after it is updated.
col_name
A column named with OLD
is read-only. You can
refer to it (if you have the SELECT
privilege),
but not modify it. A column named with NEW
can
be referred to if you have the SELECT
privilege
for it. In a BEFORE
trigger, you can also
change its value with SET
NEW.
if you have the
col_name
=
value
UPDATE
privilege for it. This means you can use
a trigger to modify the values to be inserted into a new row or
that are used to update a row.
In a BEFORE
trigger, the NEW
value for an AUTO_INCREMENT
column is 0, not
the automatically generated sequence number that will be generated
when the new record actually is inserted.
OLD
and NEW
are MySQL
extensions to triggers.
By using the BEGIN ... END
construct, you can
define a trigger that executes multiple statements. Within the
BEGIN
block, you also can use other syntax that
is allowed within stored routines such as conditionals and loops.
However, just as for stored routines, if you use the
mysql program to define a trigger that executes
multiple statements, it is necessary to redefine the
mysql statement delimiter so that you can use
the ;
statement delimiter within the trigger
definition. The following example illustrates these points. It
defines an UPDATE
trigger that checks the new
value to be used for updating each row, and modifies the value to
be within the range from 0 to 100. This must be a
BEFORE
trigger because the value needs to be
checked before it is used to update the row:
mysql>delimiter //
mysql>CREATE TRIGGER upd_check BEFORE UPDATE ON account
->FOR EACH ROW
->BEGIN
->IF NEW.amount < 0 THEN
->SET NEW.amount = 0;
->ELSEIF NEW.amount > 100 THEN
->SET NEW.amount = 100;
->END IF;
->END;//
mysql>delimiter ;
It can be easier to define a stored procedure separately and then
invoke it from the trigger using a simple CALL
statement. This is also advantageous if you want to invoke the
same routine from within several triggers.
There are some limitations on what can appear in statements that a trigger executes when activated:
The trigger cannot use the CALL
statement
to invoke stored procedures that return data to the client or
that use dynamic SQL. (Stored procedures are allowed to return
data to the trigger through OUT
or
INOUT
parameters.)
The trigger cannot use statements that explicitly or
implicitly begin or end a transaction such as START
TRANSACTION
, COMMIT
, or
ROLLBACK
.
Prior to MySQL 5.0.10, triggers cannot contain direct references to tables by name.
MySQL handles errors during trigger execution as follows:
If a BEFORE
trigger fails, the operation on
the corresponding row is not performed.
A BEFORE
trigger is activated by the
attempt to insert or modify the row,
regardless of whether the attempt subsequently succeeds.
An AFTER
trigger is executed only if the
BEFORE
trigger (if any) and the row
operation both execute successfully.
An error during either a BEFORE
or
AFTER
trigger results in failure of the
entire statement that caused trigger invocation.
For transactional tables, failure of a statement should cause rollback of all changes performed by the statement. Failure of a trigger causes the statement to fail, so trigger failure also causes rollback. For non-transactional tables, such rollback cannot be done, so although the statement fails, any changes performed prior to the point of the error remain in effect.