Comparison of a local, in-process, base class Service✱ to an
✱ (This answer does not address exported services, or any service that runs in a process different from that of the client, since the expected use cases differ substantially from those of an
AsyncTask. Also, in the interest of brevity, the nature of certain specialized
Service subclasses (e.g.,
JobService) will be ignored here.)
Service represents, to the OS, "an application's desire to perform a longer-running operation while not interacting with the user" [ref].
While you have a
Service running, Android understands that you don't want your process to be killed. This is also true whenever you have an
Activity onscreen, and it is especially true when you are running a foreground service. (When all your application components go away, Android thinks, "Oh, now is a good time to kill this app, so I can free up resources".)
Also, depending on the last return value from
Service.onCreate(), Android can attempt to "revive" apps/services that were killed due to resource pressure [ref].
AsyncTasks don't do any of that. It doesn't matter how many background threads you have running, or how hard they are working: Android will not keep your app alive just because your app is using the CPU. It has to have some way of knowing that your app still has work to do; that's why
Services are registered with the OS, and
AsyncTasks are all about creating a background thread on which to do work, and then presenting the result of that work to the UI thread in a threadsafe manner.
AsyncTask execution generally results in more concurrency (more threads), subject to the limitations of the
AsyncTasks's thread-pool [ref].
Service methods, on the other hand, are always invoked on the UI thread [ref]. This applies to
onServiceConnected(), etc. So, in some sense,
Services don't "run" in the background. Once they start up (
onCreate()), they just kinda "sit" there -- until it's time to clean up, execute an
In other words, adding additional
Services does not result in more concurrency. Service methods are not a good place to do large amounts of work, because they run on the UI thread.
Of course, you can extend
Service, add your own methods, and call them from any thread you want. But if you do that, the responsibility for thread safety lies with you -- not the framework.
If you want to add a background thread (or some other sort of worker) to your
Service, you are free to do so. You could start a background thread/
Service.onCreate(), for example. But not all use cases require this. For example:
- You may wish to keep a
Service running so you can continue getting location updates in the "background" (meaning, without necessarily having any
- Or, you may want to keep your app alive just so you can keep an "implicit"
BroadcastReceiver registered on a long-term basis (after API 26, you can't always do this via the manifest, so you have to register at runtime instead [ref]).
Neither of these use cases require a great deal of CPU activity; they just require that the app not be killed.
Services are not task-oriented. They are not set up to "perform a task" and "deliver a result", like
Services do not solve any thread-safety problems (notwithstanding the fact that all methods execute on a single thread).
AsyncTasks, on the other hand, handle that complexity for you.
AsyncTask is slated for deprecation. But that doesn't mean your should replace your
Services! (If you have learned anything from this answer, that much should be clear.)
Services are mostly there to "exist". They are like an off-screen
Activity, providing a reason for the app to stay alive, while other components take care of doing the "work".
AsyncTasks do "work", but they will not, in and of themselves, keep a process alive.