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Since two days I'm trying to get Core Data to work with multiple threads. I tried standard thread confinement method with NSOperations, merging notifications, using objectWithId, dictionaries of contexts per thread and still I get strange deadlocks, inconsistency exceptions and a bunch of other nasty stuff. It's driving me crazy... moreover I can't find a single example or explanation on how to manage context in two threads when both threads may make changes to the shared persistent store...

I tried to use new iOS 5 method, that supposed to be easier, but still I get errors. The first problem is the deadlock when saving context. I removed all the unnecessary code and stil get deadlocks when executing this code fast enough (by quickly tapping a button):

    NSManagedObjectContext *context = [StoreDataRetriever sharedRetriever].managedObjectContext;

    for (int i = 0; i < 5; i++) {            
        NSError *error = nil;
        NSLog(@"Main thread: %@, is main? %d", [NSThread currentThread], [NSThread isMainThread]);
        BOOL saveOK = [context save:&error];

        if (!saveOK) {
            NSLog(@"ERROR!!! SAVING CONTEXT IN MAIN");

        [context performBlock:^{

            NSLog(@"Block thread: %@", [NSThread currentThread]);

            NSError *error = nil;
            BOOL savedOK = NO;

            savedOK = [context save:&error]; 

            if (!savedOK) {
                NSLog(@"ERROR!!! SAVING CONTEXT IN BLOCK");

There are no other changes to the database, nothing, only saving context. What is wrong with this code? How should it look like?

Note: [StoreDataRetriever sharedRetriever].managedObjectContext is created in appDelegate using initWithConcurrencyType:NSPrivateQueueConcurrencyType.

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1 Answer 1

up vote 1 down vote accepted

What's going on with that code? You are saving the context on a thread synchronously, then you schedule a save on the context private queue. 5 times. So basically, you may well have two save operations, one synchronous and one asynchronous, colliding with each other.

This is clearly an issue. You aren't supposed to save a context with a private queue outside of that queue. It will work with the current context implementation provided there is no scheduled block on the context queue. But this is wrong nevertheless.

for (int i = 0; i < 5; i++) {            
    NSLog(@"Main thread: %@, is main? %d", [NSThread currentThread], [NSThread isMainThread]);
    __block NSError *error = nil;
    __block BOOL saveOK = YES;
[context performBlockAndWait: ^{
    saveOK = [context save: &error];

    if (!saveOK) {

With that code, you execute the save operation synchronously and most certainly on the same thread - thanks GCD - sparing context switches and synchronization stuff, and without any risk of having two operations running on that context at the same time.

The same rule applies when using NSMainQueueConcurrencyType, with an exception. That queue is bound to the main thread and the main thread only. You can schedule blocks on a context using the main queue from any thread with performBlock and performBlockAndWait like NSPrivateQueueConcurrencyType, and (the exception:) you can use the context directly on the main thread.

NSConfinementConcurrencyType binds the context to a specific thread and you cannot use GCD or blocks to deal with such a context, only the bound thread. There is very little reasons to use that concurrency model as of today. If you have to, use it, but if you do not absolutely have to, don't.


Here is a very nice article about multi-contextes setups: http://www.cocoanetics.com/2012/07/multi-context-coredata/

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So it does not help that much in my real world problem: I have to do time consuming calculations on NSManagedbjects in background while keeping UI responsive and doing some operations (creating new managed objects, changing quantities, etc in response to user tap) on main thread. I still have to use confinement or maybe create child contexts? Eh... –  Łukasz Sromek Jul 23 '12 at 7:57
Child contextes are cheap. If your calculations are heavy, the cost of a child context is pretty much nothing. So yes, this is a good approach, schedule your calculation on the specific child context you created for that purpose with performBlock and save the changes either at the end or when it makes sense. Here is an article about that very topic: cocoanetics.com/2012/07/multi-context-coredata –  fabrice truillot de chambrier Jul 23 '12 at 8:38
Unfortunately the existing code i'm modifying is written using StoreDataRetriever singleton object pattern with calls to this object buried deeply in code. It would be quite hard to change it at this stage so I think I'll go with old confinement method. I just have to find out what is wrong with my code... –  Łukasz Sromek Jul 23 '12 at 10:27
Did you ever figure this out? I'm having pretty much the same issue using thread confinement. AFAIK, I'm doing everything by-the-book, yet still get deadlocks (or concurrent READS, even). –  elsurudo Oct 17 '12 at 18:02

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