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I have a program task to perform the consistent updates of table. For simplicity I'll talk about the dummy tables just to show the idea. So I have two tables: user and note.

The note has an id (primary key auto increment) and user_id (foreign key), number and next_number.
The number is a number of user's note. The next_number can be equal to 0 if this is a latest user's note or can be equal to number of next user's note (like a pointer to next node in C++ linked list).
So each user has notes numbered from 1 to n.

Now some two processes (Proc1 and Proc2) have a need to insert the row to table note for same user.

So each of that processes is starting a transaction, retrieving the number of latest user's note, then performing some other actions and inserting new row with number incremented to 1.

Is it possible that both processes (Proc1 and Proc2) will retrieve same number inside their transactions (say first process will perform SELECT statement before second process will perform its INSERT and UPDATE statements)?

For example:

  1. Proc1: SELECT number FROM note WHERE user_id = 1 AND next_number = 0 - retrieved number 5
  2. Proc2: SELECT number FROM note WHERE user_id = 1 AND next_number = 0 - retrieved number 5
  3. Proc1: INSERT INTO note SET number = 6, next_number = 0, user_id = 1, text = 'Proc1 note'
  4. Proc2: INSERT INTO note SET number = 6, next_number = 0, user_id = 1, text = 'Proc2 note'
  5. Proc1: UPDATE note SET next_number = 6 WHERE number = 5
  6. Proc2: UPDATE note SET next_number = 6 WHERE number = 5
  7. Proc1: commiting the transaction of Proc1
  8. Proc2: commiting the transaction of Proc2

If it's possible, how to avoid this? Will the SELECT ... FOR UPDATE solve the issue?

UPDATE - simplifying my question

So the general question is if the process started a transaction how to disallow other MySQL sessions to interact with the rows which the current transaction is working with?

share|improve this question
It is good idea to make the 'note' column also auto increment. Then use update not set next_number=(select last_insert_id()) where next_number = 0; Of course, need to do the whole thing in a transaction. – Aapo Kyrola Aug 25 '12 at 15:32
The auto increment ensures the uniqueness of generated values, but not a correct sequence. There is no any guarantee that it will generate a 1,2,3 sequence and not a 1,3,4. Also in my case the note table contains the notes of different users. So the auto increment is not a way here anyway. – Eugene Naydenov Aug 25 '12 at 15:37

You should test this to make sure it's doing the right thing, but the second SELECT ... LOCK IN SHARE MODE statement should block until the first is done. You should also look at the SERIALIZABLE transaction isolation level which sets this implicitly.

share|improve this answer
Thanks for your answer, Joshua. Can you explain your answer better, especially taking into account the question in my UPDATE? Also I have to say that the testing you've mentioned could be a bit difficult in my application, so it's better to know which exact approach is correct in this case. – Eugene Naydenov Sep 2 '12 at 9:51
Whichever transaction first executes ...LOCK IN SHARE MODE should hold those rows until the transaction is finished. To test this, I would open two connections to the server. Start the first transaction, then try to run the second transaction. It should block until the first one is completed. – Joshua Martell Sep 2 '12 at 18:55
I see. Thanks. Seems I need to write some multithreading Java application which will run transactions in parallel not synchronized threads with SELECT...LOCK IN SHARE MODE. I'll notify you about the results and will accept the answer if it's working well. – Eugene Naydenov Sep 3 '12 at 15:41

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