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Foobar.find(1).votes_count returns 0.

In rails console, I am doing:

10.times { Resque.enqueue(AddCountToFoobar, 1) }

My resque worker:

class AddCountToFoobar
  @queue = :low

  def self.perform(id)
    foobar = Foobar.find(id)
    foobar.update_attributes(:count => foobar.votes_count +1)

I would expect Foobar.find(1).votes_count to be 10, but instead it returns 4. If I run 10.times { Resque.enqueue(AddCountToFoobar, 1) } again, it returns the same behaviour. It only increments votes_count by 4 and sometimes 5.

Can anyone explain this?

share|improve this question
up vote 3 down vote accepted

This is a classic race condition scenario. Imagine that only 2 workers exist and that they each run one of your vote incrementing jobs. Imagine the following sequence.

  1. Worker1: load foobar(vote count == 1)
  2. Worker2: load foobar(vote count == 1, in a separate ruby object)
  3. Worker 1: increment vote count (now == 2) and save
  4. Worker 2: increment it's copy of foobar (vote count now == 2) and save, overwriting what worker 1 did

Although 2 workers ran 1 update job each, the count only increased by 1 because they were both operating on their own copy of foobar that wasn't aware of the change the other worker was doing

To solve this, you could either do an inplace style update, ie

UPDATE foos SET count = count + 1

or use one of the 2 forms of locking active record supports (pessimistic locking & optimistic locking)

The former works because the database ensures that you don't have concurrent updates on the same row at the same time.

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Thanks for the explanation Frederick. On your first suggestion. Just wondering why using raw sql would work? Could you explain a bit more about this approach – Christian Fazzini Apr 22 '12 at 0:56
If you do update foos set blah = blah + 1 then the database acquires an exclusive lock for the duration of the statement – Frederick Cheung Apr 22 '12 at 7:20
I see, and if there are any other similar statements executed at the same time. Then they will be queued on the db level? The statements wont be lost or not executed since the record is being locked? – Christian Fazzini Apr 22 '12 at 20:19
Yes, the database takes care of that. One possibility with long lived locks (locks last as long as a transaction) is a deadlock (connection 1 has a lock on x and is waiting for one on y, connection 2 has a lock on y and is waiting for one of x) but that shouldn't happen here – Frederick Cheung Apr 22 '12 at 23:27
Thanks this works! Just to take this a bit further. Will pessimistic locking in AR, render the same solution? Can't really see how transactions could work here – Christian Fazzini Apr 22 '12 at 23:51

Looks like ActiveRecord is not thread-safe in Resque (or rather redis, I guess). Here's a nice explanation.

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If he uses multiple workers, it's no wonder. I'd use raw SQL UPDATE here. – Sergio Tulentsev Apr 20 '12 at 22:49

As Frederick says, you're observing a race condition. You need to serialize access to the critical section from the time you read the value and update it.

I'd try to use pessimistic locking:

foobar = Foobar.find(id)
foobar.with_lock do
  foobar.update_attributes(:count => foobar.votes_count +1)
share|improve this answer
The downvote wasn't from me, but your proposal won't solve the problem. You lock the table for the update but still fill it with data gathered from outside the critical section. – Holger Just Apr 21 '12 at 8:23

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