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I am having a race condition with a NSManagedObjectContext. I was trying out various ways to prevent this using lock on NSManagedObjectContext. Using dispatch_sync seems to be a better approach as suggested by apple. But I am unable to figure out whether an object(being used under a block which is executed using dispatch_sync) can be saved from being accessed by two different threads.

Here is a more clear picture of what I am trying to ask:

    [[*Some Singleton class* instance].managedObjectContext executeFetchRequest:request error:&err];

    // After fetching results do something in DB

Let's say the above code is passed in a block executed using dispatch_sync like this:

    dispatch_sync(someConcurrentQueue, ^{
    [[*Some Singleton class* instance].managedObjectContext executeFetchRequest:request error:&err];
    // After fetching results do something in DB

Can any other thread access [Some Singleton class instance].managedObjectContext before this block is completely executed.

AFAIK it can be accessed. If this is true then, is applying lock on NSManagedObjectContext the only way to prevent this race condition?

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you should have one NSManagedObjectContext per thread –  Bryan Chen Jun 14 '13 at 3:54
But the problem is even if I have separate NSManagedObjectContext per thread how will that prevent the race condition. –  Evol Gate Jun 14 '13 at 3:59
@EvolGate Race conditions in threading are inevitable. You're trying to mitigate serious exceptions and undefined behavior more than anything –  CodaFi Jun 14 '13 at 4:01

1 Answer 1

up vote 0 down vote accepted

As always: It depends

dispatch_sync (and it's even safer cousin dispatch_barrier_sync) cause the queue it's called from to synchronously execute the block. In doing so, they block the thread. This makes one case potentially safe: access from the same thread. What you have to worry about in this scenario is that any reads you do may take place before the block is executed on the queue. Plan accordingly.

But this is ignoring a huge flaw in your code. Managed object contexts should never be shared across threads, or even dispatched off to a different thread from the one they were created on. You can fix your concurrent access problems by simply spawning child contexts.

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Yes exactly it is a design flaw, but I will say only one thing that my client gave me this code written by someone else. And the problem is the code is big enough to change the design now. :(...Poor me –  Evol Gate Jun 14 '13 at 4:04
Hmmm.. I cannot prevent any reads to take place before the block is executed. Reason being there is a dispatch_timer running in background that may try to access the object at anytime. I can't prevent that. Please suggest. –  Evol Gate Jun 14 '13 at 4:08
You can fix this easily enough. Get rid of the singleton (the guy before you should be fired for that alone), and have something more central manage the database and contexts. You can even provide some convenience that spawns child contexts for you. –  CodaFi Jun 14 '13 at 4:08
Okay so even if I try to remove the singleton, I am unable to figure out how separate managedObjectContext can save the race condition here. Let's say thread1 accesses the DB and finds one column that needs to be deleted. So before first thread deletes it, other thread accesses this column and it also tries to delete it. How to prevent this –  Evol Gate Jun 14 '13 at 4:13
@EvolGate The way I handled it was forcing everything through a serial dispatch queue. That way your order of operations is guaranteed and no two threads are accessing at once. –  borrrden Jun 14 '13 at 4:17

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