Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I've read the online php manual but I'm still not sure of the way these two functions work: mysqli::commit & mysqli::rollback.

The first thing I have to do is to:


Then I make some queries:


Then I commit the transaction consisting of these 3 queries by doing:


BUT in the unfortunate case in which one of these queries does not work, do all 3 queries get cancelled or do I have to call a rollback myself? I want all 3 queries to be atomic and be considered as only one query. If one query fails then all 3 should fail and have no effect.

I'm asking this because in the comments I've seen on the manual page: http://php.net/manual/en/mysqli.commit.php the user Lorenzo calls a rollback if one of the queries failed.

What's a rollback good for if the 3 queries are atomic? I don't understand.

EDIT: This is the code example I am doubtful about:

$all_query_ok=true; // our control variable 
//we make 4 inserts, the last one generates an error 
//if at least one query returns an error we change our control variable 
$mysqli->query("INSERT INTO myCity (id) VALUES (100)") ? null : $all_query_ok=false; 
$mysqli->query("INSERT INTO myCity (id) VALUES (200)") ? null : $all_query_ok=false; 
$mysqli->query("INSERT INTO myCity (id) VALUES (300)") ? null : $all_query_ok=false; 
$mysqli->query("INSERT INTO myCity (id) VALUES (100)") ? null : $all_query_ok=false; //duplicated PRIMARY KEY VALUE 

//now let's test our control variable 
$all_query_ok ? $mysqli->commit() : $mysqli->rollback(); 


I think this code is wrong because if any of the queries failed and $all_query_ok==false then you don't need to do a rollback because the transaction was not processed. Am I right?

share|improve this question
Where's the begin work block? Do you know what autocommit is? – N.B. Jul 15 '13 at 8:38
This works if your wrap your sql statements in side a BEGIN TRANSACTION END block. SO if any of your statements fails inside a transaction block it rollbacks the transaction. – DevZer0 Jul 15 '13 at 8:43
@N.B. I think I know what autocommit is: if it's turned on then every single query I call will be imediately processed by the database, if it's turned off then the queries will be sent to the database only when $mysqli->commit(); is called. – Ariel Jul 15 '13 at 8:43
@Ariel - autocommit is InnoDB's mode of work sort to say. A commit is, among other things, asking the OS to verify that the permanent storage device (hard drive in this case) wrote the information down and that it's not in any of memory buffers. That's an expensive information/action which uses up 1 input output operation. When the autocommit is ON, then every query sent to DB will use 1 I/O throw an exception / raise an error if it fails. Turning autocommit off is basically meaningless for transactions. You need a begin work block, not turning autocommit off. – N.B. Jul 15 '13 at 8:56
@N.B.: BEGIN WORK (and its recommended, standardised alternative START TRANSACTION) merely turn autocommit off implicitly for one transaction. Explicitly turning autocommit off keeps it off even after the transaction ends. For the purpose of this question, there's little difference. – eggyal Jul 15 '13 at 9:00
up vote 3 down vote accepted

I think this code is wrong because if any of the queries failed and $all_query_ok==false then you don't need to do a rollback because the transaction was not processed. Am I right?

No, the transaction does not keep track if a single SQL-Statement fails.

If a single SQL-Statement fails the statement is rolled back (like it is described in @eggyal's Answer) - but the transaction is still open. If you call commit now, there is no rollback of the successful statements and you just inserted "corrupted" data into your database. You can reproduce this easily:

 CONSTRAINT UNIQUE KEY `uq_transtest_name` (name)) ENGINE=InnoDB;
Query OK, 0 rows affected (0.07 sec)

Query OK, 0 rows affected (0.00 sec)

m> INSERT INTO transtest (name) VALUE ('foo');
Query OK, 1 row affected (0.00 sec)

m> INSERT INTO transtest (name) VALUE ('foo');
ERROR 1062 (23000): Duplicate entry 'foo' for key 'uq_transtest_name'

m> INSERT INTO transtest (name) VALUE ('bar');
Query OK, 1 row affected (0.00 sec)

Query OK, 0 rows affected (0.02 sec)

m> SELECT * FROM transtest;
| id | name |
|  3 | bar  |
|  1 | foo  |
2 rows in set (0.00 sec)

You see that the insertion of 'foo' and 'bar' were successful although the second SQL-statement failed - you can even see that the AUTO_INCREMENT-value has been increased by the faulty query.

So you have to check the results of each query-call and if one fails, call rollback to undo the otherwise successful queries. So Lorenzo's code in the PHP-manual makes sense.

The only error which forces MySQL to roll back the transaction is a "transaction deadlock" (and this is specific to InnoDB, other storage engines may handle those errors differently).

share|improve this answer
Perfect! Thank you! Just what I wanted to know. So I guess I have to verify every single statement and do a rollback if any of the queries goes wrong. – Ariel Jul 16 '13 at 10:18

As documented under InnoDB Error Handling:

Error handling in InnoDB is not always the same as specified in the SQL standard. According to the standard, any error during an SQL statement should cause rollback of that statement. InnoDB sometimes rolls back only part of the statement, or the whole transaction. The following items describe how InnoDB performs error handling:

  • If you run out of file space in a tablespace, a MySQL Table is full error occurs and InnoDB rolls back the SQL statement.

  • A transaction deadlock causes InnoDB to roll back the entire transaction. Retry the whole transaction when this happens.

    A lock wait timeout causes InnoDB to roll back only the single statement that was waiting for the lock and encountered the timeout. (To have the entire transaction roll back, start the server with the --innodb_rollback_on_timeout option.) Retry the statement if using the current behavior, or the entire transaction if using --innodb_rollback_on_timeout.

    Both deadlocks and lock wait timeouts are normal on busy servers and it is necessary for applications to be aware that they may happen and handle them by retrying. You can make them less likely by doing as little work as possible between the first change to data during a transaction and the commit, so the locks are held for the shortest possible time and for the smallest possible number of rows. Sometimes splitting work between different transactions may be practical and helpful.

    When a transaction rollback occurs due to a deadlock or lock wait timeout, it cancels the effect of the statements within the transaction. But if the start-transaction statement was START TRANSACTION or BEGIN statement, rollback does not cancel that statement. Further SQL statements become part of the transaction until the occurrence of COMMIT, ROLLBACK, or some SQL statement that causes an implicit commit.

  • A duplicate-key error rolls back the SQL statement, if you have not specified the IGNORE option in your statement.

  • A row too long error rolls back the SQL statement.

  • Other errors are mostly detected by the MySQL layer of code (above the InnoDB storage engine level), and they roll back the corresponding SQL statement. Locks are not released in a rollback of a single SQL statement.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.