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This is my issue. When my application enters background I want it to perform a function after certain period of time. This is what I do:

- (void)applicationDidEnterBackground:(UIApplication *)application
{
    isRunningInBackground = YES;

    taskIdentifier = [[UIApplication sharedApplication] beginBackgroundTaskWithExpirationHandler:nil];

    int64_t delayInSeconds = 30;
    dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, delayInSeconds * NSEC_PER_SEC);
    dispatch_after(popTime, dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^(void)
    {
        [self doSomething];
    });
}

- (void)doSomething
{
   NSLog(@"HELLO");
}

taskIdentifier variable is declared in myAppDelegate.h file like this:

UIBackgroundTaskIdentifier taskIdentifier;

Everything works as it supposed to, I see that console prints HELLO just right after 30 seconds are gone. But I don't want doSomething to be executed if the app enters foreground until 30 seconds are over. So I need to cancel it. This is how i do that:

- (void)applicationWillEnterForeground:(UIApplication *)application
{    
    isRunningInBackground = NO;
    [self stopBackgroundExecution];
}

- (void)stopBackgroundExecution
{
    [[UIApplication sharedApplication] endBackgroundTask:taskIdentifier];
    taskIdentifier = UIBackgroundTaskInvalid;
}

But unfortunately it doesn't cancel doSomething, it is still performed. What am I doing wrong? How do I cancel that function?

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6 Answers 6

up vote 7 down vote accepted

Why even use GCD? You could just use an NSTimer and invalidate it when your app returns to the foregound.

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You are right, that is the better solution! –  Martin R Sep 18 '12 at 11:42
    
Thanks a lot! So simple! I should have thought about that myself –  Andrey Chernukha Sep 18 '12 at 12:06

A bit different approach OK, so, with all answers collected, and possible solutions, seems like the best one for this case (preserving simplicity) is calling performSelector:withObject:afterDelay: and cancelling it with cancelPreviousPerformRequestsWithTarget: call when desired. In my case - just before scheduling next delayed call:

[NSObject cancelPreviousPerformRequestsWithTarget: self selector:@selector(myDelayedMethod) object: self];

[self performSelector:@selector(myDelayedMethod) withObject: self afterDelay: desiredDelay];
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This answer must be posted here: cancel dispatch_after() method?, but that is closed as a duplicate (it really isn't). Anyway, this is a place that google returns for "dispatch_after cancel", so...

This question is pretty fundamental and I'm sure there are people who want a truly generic solution without resorting to various platform-specifics like runloop timers, instance-contained booleans and/or heavy block magic. GCD may be used as a regular C library and there may be no such thing as a timer all in all.

Luckily, there is a way to cancel any dispatch block in any lifetime scheme.

  1. We have to attach a dynamic handle to each block we pass to dispatch_after (or dispatch_async, not really matters).
  2. This handle must exist until the block is actually fired.
  3. Memory management for this handle is not so obvious – if block frees the handle, then we may dereference dangling pointer later, but if we free it, block may do that later.
  4. So, we have to pass ownership on demand.
  5. There are 2 blocks – one is a control block that fires anyway and second is a payload that may be canceled.

struct async_handle {
    char didFire;       // control block did fire
    char shouldCall;    // control block should call payload
    char shouldFree;    // control block is owner of this handle
};

static struct async_handle *
dispatch_after_h(dispatch_time_t when,
                 dispatch_queue_t queue,
                 dispatch_block_t payload)
{
    struct async_handle *handle = malloc(sizeof(*handle));

    handle->didFire = 0;
    handle->shouldCall = 1; // initially, payload should be called
    handle->shouldFree = 0; // and handles belong to owner

    dispatch_after(when, queue, ^{
        // this is a control block

        printf("[%p] (control block) call=%d, free=%d\n",
            handle, handle->shouldCall, handle->shouldFree);

        handle->didFire = 1;
        if (handle->shouldCall) payload();
        if (handle->shouldFree) free(handle);
    });

    return handle; // to owner
}

void
dispatch_cancel_h(struct async_handle *handle)
{
    if (handle->didFire) {
        printf("[%p] (owner) too late, freeing myself\n", handle);
        free(handle);
    }
    else {
        printf("[%p] (owner) set call=0, free=1\n", handle);
        handle->shouldCall = 0;
        handle->shouldFree = 1; // control block is owner now
    }
}

That's it.

The main point is that "owner" should collect handles until it doesn't need them anymore. dispatch_cancel_h() works as a [potentially deferred] destructor for a handle.

C owner example:

size_t n = 100;
struct after_handle *handles[n];

for (size_t i = 0; i < n; i++)
    handles[i] = dispatch_after_h(when, queue, ^{
        printf("working\n");
        sleep(1);
    });

...

// cancel blocks when lifetime is over!

for (size_t i = 0; i < n; i++) {
    dispatch_cancel_h(handles[i]);
    handles[i] = NULL; // not our responsibility now
}

Objective-C ARC example:

- (id)init
{
    self = [super init];
    if (self) {
        queue = dispatch_queue_create("...", DISPATCH_QUEUE_SERIAL);
        handles = [[NSMutableArray alloc] init];
    }
    return self;
}

- (void)submitBlocks
{
    for (int i = 0; i < 100; i++) {
        dispatch_time_t when = dispatch_time(DISPATCH_TIME_NOW, (random() % 10) * NSEC_PER_SEC);

        __unsafe_unretained id this = self; // prevent retain cycles

        struct async_handle *handle = dispatch_after_h(when, queue, ^{
            printf("working (%d)\n", [this someIntValue]);
            sleep(1);
        });
        [handles addObject:[NSValue valueWithPointer:handle]];
    }
}

- (void)cancelAnyBlock
{
    NSUInteger i = random() % [handles count];
    dispatch_cancel_h([handles[i] pointerValue]);
    [handles removeObjectAtIndex:i];
}

- (void)dealloc
{
    for (NSValue *value in handles) {
        struct async_handle *handle = [value pointerValue];
        dispatch_cancel_h(handle);
    }
    // now control blocks will never call payload that
    // dereferences now-dangling self/this.
}

Notes:

  • dispatch_after() originally retains the queue, so it will exist until all control blocks are executed.
  • async_handles are freed if payload is cancelled (or owner's lifetime was over) AND control block was executed.
  • async_handle's dynamic memory overhead is absolutely minor compared to dispatch_after()'s and dispatch_queue_t's internal structures, which retain an actual array of blocks to be submitted and dequeue them when appropriate.
  • You may notice that shouldCall and shouldFree is really the same inverted flag. But your owner instance may pass the ownership and even -[dealloc] itself without actually canceling payload blocks, if these do not depend on "self" or other owner-related data. This could be implemented with additional shouldCallAnyway argument to dispatch_cancel_h().
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Note: code in the answer was written for ARC. In MRC or pure C, payload should be explicitly Block_retain'ed in dispatch_after_h() and Block_release'd in control block to fix premature deallocation. –  user3125367 May 29 at 21:58

endBackgroundTask does not cancel a background task. It tells the system that your background task has finished. So you should call this after "doing something". To prevent doSomething from being executed if your app is in the foreground again, you could use your isRunningInBackground flag:

dispatch_after(popTime, dispatch_get_global_queue(...), ^(void) {
    if (isRunningInBackground) {
        [self doSomething];
    }
    [[UIApplication sharedApplication] endBackgroundTask:taskIdentifier];
});
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I think you can't cancel it, but you can check the task state before executing the doSomething

dispatch_after(popTime, dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^(void)
  {

    if(taskIdentifier != UIBackgroundTaskInvalid) {
        [self doSomething];
    }

  });
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You can save an executing block and then cancel it when you need. You can look my realisation on Swift. https://github.com/katleta3000/CancelBlocks/

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