I'm a bit confused with transactions vs locking tables to ensure database integrity and make sure a SELECT and UPDATE remain in sync and no other connection interferes with it. I need to:


if (condition passes) {
   // Update row I got from the select 
   UPDATE table SET column = "value" WHERE (...)

   ... other logic (including INSERT some data) ...

I need to ensure that no other queries will interfere and perform the same SELECT (reading the 'old value' before that connection finishes updating the row.

I know I can default to LOCK TABLES table to just make sure that only 1 connection is doing this at a time, and unlock it when I'm done, but that seems like overkill. Would wrapping that in a transaction do the same thing (ensuring no other connection attempts the same process while another is still processing)? Or would a SELECT ... FOR UPDATE or SELECT ... LOCK IN SHARE MODE be better?


Locking tables prevents other DB users from affecting the rows/tables you've locked. But locks, in and of themselves, will NOT ensure that your logic comes out in a consistent state.

Think of a banking system. When you pay a bill online, there's at least two accounts affected by the transaction: Your account, from which the money is taken. And the receiver's account, into which the money is transferred. And the bank's account, into which they'll happily deposit all the service fees charged on the transaction. Given (as everyone knows these days) that banks are extraordinarily stupid, let's say their system works like this:

$balance = "GET BALANCE FROM your ACCOUNT";
if ($balance < $amount_being_paid) {
$balance = $balance - $amount_being paid;

$balance = "GET BALANCE FROM receiver ACCOUNT"
$balance = $balance + $amount_being_paid
UPDATE receiver ACCOUNT SET BALANCE = $balance

Now, with no locks and no transactions, this system is vulnerable to various race conditions, the biggest of which is multiple payments being performed on your account, or the receiver's account in parallel. While your code has your balance retrieved and is doing the huge_overdraft_fees() and whatnot, it's entirely possible that some other payment will be running the same type of code in parallel. They'll be retrieve your balance (say, $100), do their transactions (take out the $20 you're paying, and the $30 they're screwing you over with), and now both code paths have two different balances: $80 and $70. Depending on which ones finishes last, you'll end up with either of those two balances in your account, instead of the $50 you should have ended up with ($100 - $20 - $30). In this case, "bank error in your favor".

Now, let's say you use locks. Your bill payment ($20) hits the pipe first, so it wins and locks your account record. Now you've got exclusive use, and can deduct the $20 from the balance, and write the new balance back in peace... and your account ends up with $80 as is expected. But... uhoh... You try to go update the receiver's account, and it's locked, and locked longer than the code allows, timing out your transaction... We're dealing with stupid banks, so instead of having proper error handling, the code just pulls an exit(), and your $20 vanishes into a puff of electrons. Now you're out $20, and you still owe $20 to the receiver, and your telephone gets repossessed.

So... enter transactions. You start a transaction, you debit your account $20, you try to credit the receiver with $20... and something blows up again. But this time, instead of exit(), the code can just do rollback, and poof, your $20 is magically added back to your account.

In the end, it boils down to this:

Locks keep anyone else from interfering with any database records you're dealing with. Transactions keep any "later" errors from interfering with "earlier" things you've done. Neither alone can guarantee that things work out ok in the end. But together, they do.

in tomorrow's lesson: The Joy of Deadlocks.

  • 3
    I'm also/still confused. Say the receiver account had $100 in it to start and we are adding the $20 bill payment from our account. My understanding of transactions is that when they start, any in-transaction operation sees the database in the state it was at the beginning of the transaction. ie: until we change it, the receiver account has $100. So... when we add $20 we actually set a balance of $120. But what happens if, during our transaction, someone drained the receiver account to $0? Is this prevented somehow? Do they magically get $120 again? Is this why locks are needed as well? – Russ Dec 13 '10 at 15:51
  • Yes, that's where locks come into play. A proper system would write-lock the record so that no one else could update the record while the transaction is progressing. A paranoid system would put an unconditional lock on the record so that no one could read the "stale" balance either. – Marc B Dec 13 '10 at 18:24
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    Basically look at transactions as securing things inside your code path. Locks secure things across "parallel" code paths. Until deadlocks hit... – Marc B Dec 13 '10 at 18:25
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    @MarcB, So why do we have to do locking explicitly if using transactions alone already guarantee that the locks are in place? Will there even be a case whereby we must do explicit locking because transactions alone are insufficient? – Pacerier Dec 17 '14 at 10:49
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    This answer is not correct and may lead to wrong conclusions. This statement: "Locks keep anyone else from interfering with any database records you're dealing with. Transactions keep any "later" errors from interfering with "earlier" things you've done. Neither alone can guarantee that things work out ok in the end. But together, they do." - would get you fired, it is extremely wrong and stupid See articles: en.wikipedia.org/wiki/ACID, en.wikipedia.org/wiki/Isolation_(database_systems) and dev.mysql.com/doc/refman/5.1/en/… – Nikola Svitlica Sep 6 '15 at 21:52

You want a SELECT ... FOR UPDATE or SELECT ... LOCK IN SHARE MODE inside a transaction, as you said, since normally SELECTs, no matter whether they are in a transaction or not, will not lock a table. Which one you choose would depend on whether you want other transactions to be able to read that row while your transaction is in progress.


START TRANSACTION WITH CONSISTENT SNAPSHOT will not do the trick for you, as other transactions can still come along and modify that row. This is mentioned right at the top of the link below.

If other sessions simultaneously update the same table [...] you may see the table in a state that never existed in the database.



I had a similar problem when attempting a IF NOT EXISTS ... and then performing an INSERT which caused a race condition when multiple threads were updating the same table.

I found the solution to the problem here: How to write INSERT IF NOT EXISTS queries in standard SQL

I realise this does not directly answer your question but the same principle of performing an check and insert as a single statement is very useful; you should be able to modify it to perform your update.


Transaction concepts and locks are different. However, transaction used locks to help it to follow the ACID principles. If you want to the table to prevent others to read/write at the same time point while you are read/write, you need a lock to do this. If you want to make sure the data integrity and consistence, you had better use transactions. I think mixed concepts of isolation levels in transactions with locks. Please search isolation levels of transactions, SERIALIZE should be the level you want.


You are confused with lock & transaction. They are two different things in RMDB. Lock prevents concurrent operations while transaction focuses on data isolation. Check out this great article for the clarification and some graceful solution.

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    Locks prevent others from interfering with records you are working with describes what it does succinctly, and transactions prevent later errors (those of others making changes in parallel) from interfering with earlier things you've done (by allows rollback in the event someone did something in parallel) pretty much sums up transactions...what is confused about his comprehension of these topics? – steviesama Apr 22 '17 at 20:39

I'd use a


to begin with, and a


to end with.

Anything you do in between is isolated from the others users of your database if your storage engine supports transactions (which is InnoDB).

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    Except the table he's selecting from won't be locked to other sessions unless he specifically locks it (or until his UPDATE happens), which means other sessions could come along and modify it between the SELECT and the UPDATE. – Alison R. Nov 19 '10 at 16:29
  • After reading up on START TRANSACTION WITH CONSISTENT SNAPSHOT in the MySQL documentation, I don't see where it actually locks out another connection from updating the same row. My understanding is that it would see however the table started at the beginning of the transaction. So if another transaction is in progress, has already gotten a row and is about to update it, the 2nd transaction would still see the row before it has been updated. It could therefor potentially try to update the same row the other transaction is about to. Is that correct or am I missing something in the progress? – Ryan Nov 19 '10 at 16:33
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    @Ryan It doesn't do any locking; you are correct. Locking (or not) is determined by the type of operations you do (SELECT/UPDATE/DELETE). – Alison R. Nov 19 '10 at 16:46
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    I see. It does give your own transaction read consistency, but doesn't block other users from modifying a row just before you did. – Martin Schapendonk Nov 19 '10 at 18:38

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