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I'm trying to use a NSRunLoop to watch for FSEvents in an Agent application (that is, without any GUI). I think I understand how a RunLoop works, but I clearly don't, because the behaviour I'm seeing is incomprehensible. What am I missing? (I'm comfortable with thread programming in a few languages, but Objective-C is a bit of a novelty for me).

Copied below is a (near as I can get it) minimal implementation of an EventHandler class. This is called from a main function by allocating and initialising an instance, then sending that a startWatching message with "/tmp/fussybot-test", then finally tidyUp.

The implementation code below creates, schedules and starts an event stream attached to the default RunLoop, then loops, waiting with runMode:beforeDate on any FSEvents, or on the expiry of the RunLoop's timer.

#import "EventHandler.h"

void mycallback(ConstFSEventStreamRef streamRef,
                void *userData,
                size_t numEvents,
                void *eventPaths,
                const FSEventStreamEventFlags eventFlags[],
                const FSEventStreamEventId eventIds[])
{
    EventHandler *eh = (__bridge EventHandler*)userData;

    size_t i;
    char **paths = eventPaths;
    NSLog(@"callback: %zd events to process...", numEvents);
    for (i=0; i<numEvents; i++) {
        NSLog(@"Event %llu in %s (%x)", eventIds[i], paths[i], eventFlags[i]);
        [eh changedPath:paths[i]];
    }
}

@implementation EventHandler

-(void) startWatching: (NSString*) path
{
    NSRunLoop *theRL = [NSRunLoop currentRunLoop];
    [self createStream:path runLoop:theRL];

    BOOL recentFSActivity_p = YES;
    while (recentFSActivity_p) {

        NSDate* waitEnd = [NSDate dateWithTimeIntervalSinceNow:5.0];
        //NSLog(@"waiting until %@", waitEnd); // XXX
        if (! [theRL runMode:NSDefaultRunLoopMode
                  beforeDate:waitEnd]) {
            NSLog(@"the run loop could not be started");
        }

        int ps = [self pathsSeen];
        NSLog(@"Main loop: pathsSeen=%i", ps);
        if (ps == 0) {
            recentFSActivity_p = NO;
        }
    }
}

- (void) tidyUp
{
    FSEventStreamStop(event_stream);
    FSEventStreamInvalidate(event_stream);
    return;
}


- (FSEventStreamRef) createStream: (NSString*) path
                          runLoop: (NSRunLoop*) theRL
{
    pathsToWatch = [NSArray arrayWithObject:path];
    FSEventStreamContext context = {0, (__bridge void*)self, NULL, NULL, NULL};
    CFAbsoluteTime latency = 3.0; /* Latency in seconds */

    /* Create the stream, passing in a callback */
    event_stream = FSEventStreamCreate(NULL,
                                       &mycallback,
                                       &context,
                                       (__bridge CFArrayRef) pathsToWatch,
                                       kFSEventStreamEventIdSinceNow,
                                       latency,
                                       kFSEventStreamCreateFlagNone);

    FSEventStreamScheduleWithRunLoop(event_stream,
                                     [theRL getCFRunLoop],
                                     kCFRunLoopDefaultMode);
    FSEventStreamStart(event_stream);

    return event_stream;
}

-(void)changedPath:(char *)path
{
    NSLog(@"Path %s changed", path); // log that we got here
    nchangedPaths += 1;              // ...and count the number of calls
}

-(int)pathsSeen
{
    int n = nchangedPaths;      // return instance variable
    nchangedPaths = 0;          // ...and reset it
    return n;
}
@end

OK, so we build that, start it going, and then touch a file in the watched directory:

% make && ./fussybot & date '+NOW: %T'; sleep 2; echo hello >/tmp/fussybot-test/hello.txt
cc -c -x objective-c -fobjc-arc -o EventHandler.o EventHandler.m
cc -o fussybot main.o EventHandler.o -framework Cocoa
[1] 57431
NOW: 22:56:54
% 2013-04-22 22:56:57.692 fussybot[57431:707] callback: 1 events to process...
2013-04-22 22:56:57.694 fussybot[57431:707] Event 645428112 in /private/tmp/fussybot-test/ (11400)
2013-04-22 22:56:57.694 fussybot[57431:707] Path /private/tmp/fussybot-test/ changed
2013-04-22 22:56:57.695 fussybot[57431:707] Main loop: pathsSeen=1
2013-04-22 22:56:57.695 fussybot[57431:707] Main loop: pathsSeen=0
Exiting...

[1]  + done       ./fussybot
% 

Then we uncomment the line NSLog(@"waiting until %@", waitEnd); (marked with XXX above), and we try again:

% make && ./fussybot & date '+NOW: %T'; sleep 2; echo hello >/tmp/fussybot-test/hello.txt
cc -c -x objective-c -fobjc-arc -o EventHandler.o EventHandler.m
cc -o fussybot main.o EventHandler.o -framework Cocoa
[1] 57474
NOW: 22:59:01
2013-04-22 22:59:01.190 fussybot[57474:707] waiting until 2013-04-22 21:59:06 +0000
2013-04-22 22:59:01.190 fussybot[57474:707] Main loop: pathsSeen=0
Exiting...
[1]  + done       ./fussybot
% 

There are now two extremely odd things here.

  • First, adding an NSLog call changes the behaviour of the program. Eh?!
  • Secondly in both examples, the RunLoop appears to exit immediately, without waiting for an FSEvent.

Regarding the first, the fact that NSLog has an effect like that is surely telling me something very important, but I can't for the life of me work out what.

Regarding the second, in each of the pathsSeen=0 cases, the runMode:beforeDate message on the RunLoop object does not block, but returns YES, even though the documentation for this message says that it returns YES only “if the run loop ran and processed an input source or if the specified timeout value was reached”, neither of which is true in the pathsSeen=0 cases above. In each of those cases I'd expect to see a 5s delay before the pathsSeen=0 line appears, as the RunLoop, not seeing any FSEvents, blocks to the end of the waitEnd interval.

Both of these peculiarities suggest I'm misunderstanding something pretty fundamental, presumably about object lifetimes. I think I can state each of the following:

  • I am indeed expected to call NSRunLoop runMode:beforeDate on the main thread of the program (the program doesn't have anything else to do whilst waiting, so being blocked is exactly the right thing). This is compatible with the explanation of RunLoops in the Threading Programming Guide.
  • There's only one RunLoop per thread, so I am scheduling the event_stream on the RunLoop I'm waiting for.
  • I own event_stream, by the Create Rule, so that's not being reclaimed behind my back.
  • waitEnd will be different each time round the loop – ie, it's not preserved from pass to pass.
  • Having createStream:runLoop initialise an instance variable pathsToWatch means I don't have to worry about this disappearing after FSEventStreamCreate has created the stream with this argument. The ARC management would reclaim this at the end of the method if this were a local variable, but doesn't, because it's an instance variable.
  • There are no other events which would cause the RunLoop to unblock. Even if the OS did schedule something on this RunLoop (the documentation appears to carefully not rule that out), I'd see such an event in the callback.
  • The FSEventStreamEventFlags on the event in the first case are expected ones – there's nothing to suggest that any events have been dropped for some reason.

That is, I appear to have proved that this cannot not work. It manifestly doesn't work, so ... what is it I'm catastrophically failing to get? (and when I do get it, with a bang, is it going to hurt?).

Does the FSEvent API represent a ‘port-based input source’, in the terms of “The Run Loop Sequence of Events” within the Threading Programming Guide? If so, surely the FSEvent should be received in step 7 of that sequence.

The code above is closely based on the example code in the File System Events API documentation. I think my understanding is compatible with the explanations in this thoughtful answer, but I haven't been able to find many other relevant RunLoop questions. The questions the SO system suggests are mostly to do with specifically adding NSTimers rather than using the RunLoop call's build-in timer. This question on FSEvent and Dropbox looks likely, but (a) is unanswered, and (b) might be an interaction with Dropbox.

This is

% cc --version 
Apple clang version 4.0 (tags/Apple/clang-421.0.60) (based on LLVM 3.1svn)

on OS X 10.8.3.

(This is a long question: sorry. Usually by the time you ask a question this long, you've worked out the answer for yourself, but – nope – I'm as puzzled now as I was before.)

1 Answer 1

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The run loop is a shared resource. The frameworks can and do schedule their own run loop sources on the run loop, especially on the default mode. If -runMode:beforeDate: is returning YES and it didn't process one of your sources, then it presumably processed one scheduled by the frameworks.

If you want to run a run loop in a manner such that only your sources and timers will fire, then you need to schedule your sources and timers in a custom mode and run the run loop in that mode. A mode is effectively just a string, so use something like @"com.yourcompany.yourproduct.yourmodename" or something similarly guaranteed to be unique and you'll be fine.

Or you could simply write your code to cope with the fact that not all sources firing on the run loop will be yours. If you want to detect expiration of a timeout, schedule a timer to set a flag and stop the run loop. Keep looping until the flag is set. I think you can use CFRunLoopStop() from your timer method to force -runMode:beforeDate: to return but, if not, you can use one of the -performSelector... methods that either take a thread or a delay to do it.

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  • Thanks, Ken. I thought I'd ruled out activity from other frameworks on the grounds that, if such activity happened, then my callback would hear about it. But is the real situation that that callback is invoked by the FSEvents event stream, which then (separately) delivers an event to the RunLoop which does nothing other than allow the RunLoop to exit? However the FSEvents docs seem to say that the callback is received “from their runloop”. It probably doesn't matter, but... Apr 23, 2013 at 13:09
  • And again... I've amended my code so that it creates and schedules a timer in the default mode. I'm still uncertain, though, just who/where/what is firing my callback, but I'll let that go for the moment. That the run loop is shared, in the way you describe, is a pretty key bit of information that I would not have picked up from the NSRunLoop docs for a long time (I'm inclined to report a doc bug to the Apple bugparade). It's also amusing that the key features of a NSRunLoop are that it isn't a loop (it's called in a loop), and it doesn't run (it blocks). Thanks for the pointer. Apr 23, 2013 at 20:41
  • Added as issue 13719849 in the Apple bugparade (not that anyone outside Cupertino can see that...) Apr 23, 2013 at 21:00
  • 1
    Each run loop source has a separate callback. Your callback only gets called when the FSEvents source has activity. The other sources (if any) call their own callbacks, which you obviously wouldn't see. For what it's worth, I expect that your callback is being called from the run loop, with a level of indirection. That is, your callback is not of the form required for a custom run loop source's perform callback, so clearly the FSEvents source has an internal callback informing it of activity and that calls your callback with appropriate arguments. Apr 23, 2013 at 23:11

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