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I'm using MySQL's AUTO_INCREMENT field and InnoDB to support transactions. I noticed when I rollback the transaction, the AUTO_INCREMENT field is not rollbacked? I found out that it was designed this way but are there any workarounds to this?

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Just a note: But the auto_increment values will reset to the max+1 of the column after a server reset. –  J.D. Fitz.Gerald Mar 24 '09 at 10:15
It's not mysql-specific, Postgres behaves the same way. The explanations make sense. –  Nils May 7 '12 at 5:34

9 Answers 9

up vote 31 down vote accepted

Let me point out something very important:

You should never depend on the numeric features of autogenerated keys.

That is, other than comparing them for equality (=) or unequality (<>), you should not do anything else. No relational operators (<, >), no sorting by indexes, etc. If you need to sort by "date added", have a "date added" column.

Treat them as apples and oranges: Does it make sense to ask if an apple is the same as an orange? Yes. Does it make sense to ask if an apple is larger than an orange? No. (Actually, it does, but you get my point.)

If you stick to this rule, gaps in the continuity of autogenerated indexes will not cause problems.

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Can you qualify this a bit? I mean, why add a whole other column, along with all the overhead that that entails (index management, disk use, more IO, etc., etc.), when there's already a perfectly good value to use in the autoinc column? By definition, it offers a unique value that never repeats and always increases as records are added. The only thing it's not is continuous, but as long as you assume gaps in the sequence, I see no problems using it to do things like sorting a set of records by their insert order. In fact, I'd say it's the best way, in terms of performance and clarity. –  mr. w Aug 20 '12 at 21:35
This is an advice, not an answer –  Joaquín L. Robles Mar 24 '14 at 12:25

It can't work that way. Consider:

  • program one, you open a transaction and insert into a table FOO which has an autoinc primary key (arbitrarily, we say it gets 557 for its key value).
  • Program two starts, it opens a transaction and inserts into table FOO getting 558.
  • Program two inserts into table BAR which has a column which is a foreign key to FOO. So now the 558 is located in both FOO and BAR.
  • Program two now commits.
  • Program three starts and generates a report from table FOO. The 558 record is printed.
  • After that, program one rolls back.

How does the database reclaim the 557 value? Does it go into FOO and decrement all the other primary keys greater than 557? How does it fix BAR? How does it erase the 558 printed on the report program three output?

Oracle's sequence numbers are also independent of transactions for the same reason.

If you can solve this problem in constant time, I'm sure you can make a lot of money in the database field.

Now, if you have a requirement that your auto increment field never have gaps (for auditing purposes, say). Then you cannot rollback your transactions. Instead you need to have a status flag on your records. On first insert, the record's status is "Incomplete" then you start the transaction, do your work and update the status to "compete" (or whatever you need). Then when you commit, the record is live. If the transaction rollsback, the incomplete record is still there for auditing. This will cause you many other headaches but is one way to deal with audit trails.

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Why do you care if it is rolled back? AUTO_INCREMENT key fields are not supposed to have any meaning so you really shouldn't care what value is used.

If you have information you're trying to preserve, perhaps another non-key column is needed.

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I had a client needed the ID to rollback on a table of invoices, where the order must be consecutive

My solution in MySQL was to remove the AUTO-INCREMENT and pull the latest Id from the table, add one (+1) and then insert it manually.

If the table is named "TableA" and the Auto-increment column is "Id"

INSERT INTO TableA (Id, Col2, Col3, Col4, ...)
Col2_Val, Col3_Val, Col4_Val, ...)
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Why a downvote ? Upvote, this answer looks correct to me. –  Siddharth Nov 20 '12 at 2:52
May be this would be better (SELECT MAX(id) AS maxval FROM table_name;)+1 –  vinsa Dec 25 '14 at 19:22
This won't be an atomic operation, there would definitely be small window when more than one query gets same maxID. –  P.Prasad Aug 22 at 7:40
@P.Prasad - Couldn't you use LOCK TABLES to prevent that? –  Michael Corrigan Aug 24 at 7:20
That should be put in the answer. –  P.Prasad Aug 24 at 10:22

I do not know of any way to do that. According to the MySQL Documentation, this is expected behavior and will happen with all *innodb_autoinc_lock_mode* lock modes. The specific text is:

In all lock modes (0, 1, and 2), if a transaction that generated auto-increment values rolls back, those auto-increment values are “lost.” Once a value is generated for an auto-increment column, it cannot be rolled back, whether or not the “INSERT-like” statement is completed, and whether or not the containing transaction is rolled back. Such lost values are not reused. Thus, there may be gaps in the values stored in an AUTO_INCREMENT column of a table.

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INSERT INTO prueba(id) VALUES ( (SELECT IFNULL( MAX( id ) , 0 )+1 FROM prueba target))

If table dont contains values or zero rows

add target for error mysql type update FROM on SELECT

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If you set auto_increment to 1 after a rollback or deletion, on the next insert, MySQL will see that 1 is already used and will instead get the MAX() value and add 1 to it.

This will ensure that if the row with the last value is deleted (or the insert is rolled back), it will be reused.

To set the auto_increment to 1, do something like this:

ALTER TABLE tbl auto_increment = 1

This is not as efficient as simply continuing on with the next number because MAX() can be expensive, but if you delete/rollback infrequently and are obsessed with reusing the highest value, then this is a realistic approach.

Be aware that this does not prevent gaps from records deleted in the middle or if another insert should occur prior to you setting auto_increment back to 1.

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If you need to have the ids assigned in numerical order with no gaps, then you can't use an autoincrement column. You'll need to define a standard integer column and use a stored procedure that calculates the next number in the insert sequence and inserts the record within a transaction. If the insert fails, then the next time the procedure is called it will recalculate the next id.

Having said that, it is a bad idea to rely on ids being in some particular order with no gaps. If you need to preserve ordering, you should probably timestamp the row on insert (and potentially on update).

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This means two transactions hitting the same table at once can never successfully both commit. That can be a huge bottleneck. And if you have a lot of foreign keys, you could easily end up with deadlocks when they have many to many relationships. My answer for gap handling only hurts a little. :-) –  jmucchiello Jan 16 '09 at 3:15

Concrete answer to this specific dilemma (which I also had) is the following:

1) Create a table that holds different counters for different documents (invoices, receipts, RMA's, etc..); Insert a record for each of your documents and add the initial counter to 0.

2) Before creating a new document, do the following (for invoices, for example):

UPDATE document_counters SET counter = LAST_INSERT_ID(counter + 1) where type = 'invoice'

3) Get the last value that you just updated to, like so:


or just use your PHP (or whatever) mysql_insert_id() function to get the same thing

4) Insert your new record along with the primary ID that you just got back from the DB. This will override the current auto increment index, and make sure you have no ID gaps between you records.

This whole thing needs to be wrapped inside a transaction, of course. The beauty of this method is that, when you rollback a transaction, your UPDATE statement from Step 2 will be rolled back, and the counter will not change anymore. Other concurrent transactions will block until the first transaction is either committed or rolled back so they will not have access to either the old counter OR a new one, until all other transactions are finished first.

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