Your intuition here is correct. If issuing many requests, having an
maxConcurrentOperationCount of 4 or 5 can be very useful. In the absence of that, if you issue many requests (say, 50 large images), you can suffer timeout problems when working on a slow network connection (e.g. some cellular connections). Operation queues have other advantages, too (e.g. dependencies, assigning priorities, etc.), but controlling the degree of concurrency is the key benefit, IMHO.
If you are using
completionHandler based requests, implementing operation-based solution is pretty trivial (it's the typical concurrent
NSOperation subclass implementation; see the Configuring Operations for Concurrent Execution section of the Operation Queues chapter of the Concurrency Programming Guide for more information).
If you are using the
delegate based implementation, things start to get pretty hairy pretty quickly, though. This is because of an understandable (but incredibly annoying) feature of
NSURLSession whereby the task-level delegates are implemented at the session-level. (Think about that: Two different requests that require different handling are calling the same delegate method on the shared session object. Egad!)
Wrapping a delegate-based
NSURLSessionTask in an operation can be done (I, and others I'm sure, have done it), but it involves an unwieldy process of having the session object maintain a dictionary cross referencing task identifiers with task operation objects, have it pass these task delegate methods passed to the task object, and then have the task objects conform to the various
NSURLSessionTask delegate protocols. It's a pretty significant amount of work required because
NSURLSession doesn't provide a
maxConcurrentOperationCount-style feature on the session (to say nothing of other
NSOperationQueue goodness, like dependencies, completion blocks, etc.).
And it's worth pointing out that operation-based implementation is a bit of a non-starter with background sessions, though. Your upload/download tasks will continue to operate well after the app has been terminated (which is a good thing, that's fairly essential behavior in a background request), but when your app is restarted, the operation queue and all of its operations are gone. So you have to use a pure delegate-based
NSURLSession implementation for background sessions.