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Understanding dispatch_queues and synchronous/asynchronous dispatch


I'm an Android engineer trying to port some iOS code that uses 5 SERIAL dispatch queues. I want to make sure I'm thinking about things the right way.

Am I off in any of that, or did I figure it out correctly?


Solution

  • This feels like an overly complicated way of thinking of it and there are lots of little details of that description that aren't quite right. Specifically, "it happens immediately on the current thread" is not correct.

    First, let's step back: The distinction between dispatch_async and dispatch_sync is merely whether the current thread waits for it or not. But when you dispatch something to a serial queue, you should always imagine that it's running on a separate worker thread of GCD's own choosing. Yes, as an optimization, sometimes dispatch_sync will use the current thread, but you are in no way guaranteed of this fact.

    Second, when you discuss dispatch_sync, you say something about it running "immediately". But it's by no means assured to be immediate. If a thread does dispatch_sync to some serial queue, then that thread will block until (a) any block currently running on on that serial queue finish; (b) any other queued blocks for that serial queue run and complete; and (c) obviously, the block that thread A itself dispatched runs and completes.

    Now, when you use a serial queue for synchronization for, some thread-safe access to some object in memory, often that synchronization process is very quick, so the waiting thread will generally be blocked for a negligible amount of time as its dispatched block (and any prior dispatched blocks) to finish. But in general, it's misleading to say that it will run immediately. (If it always could run immediately, then you wouldn't need a queue to synchronize access).


    Now your question talks about a "critical region", to which I assume you're talking about some bit of code that, in order to ensure thread-safety or for some other reason like that, must be synchronized. So, when running this code to be synchronized, the only question re dispatch_sync vs dispatch_async is whether the current thread must wait. A common pattern, for example, is to say that one may dispatch_async writes to some model (because there's no need to wait for the model to update before proceeding), but dispatch_sync reads from some model (because you obviously don't want to proceed until the read value is returned).

    A further optimization of that sync/async pattern is the reader-writer pattern, where concurrent reads are permissible but concurrent writes are not. Thus, you'll use a concurrent queue, dispatch_barrier_async the writes (achieving serial-like behavior for the writes), but dispatch_sync the reads (enjoying concurrent performance with respect to other read operations).