5

I am writing a Play2 application service method in Java that should do the following. Asynchronously call method A, and if that fails, asynchronously call method B.

To illustrate assume this interface for the backend called by the service:

public interface MyBackend {
    CompletionStage<Object> tryWrite(Object foo);
    CompletionStage<Object> tryCleanup(Object foo);
}

So in my service method, I want to return a Future that can complete with these:

  • Success of tryWrite completed
  • Fail of tryWrite and Success of tryCleanup completed and failing with exception of tryWrite()

(Note: Of course tryWrite() could do any cleanup itself, this is a simplified example to illustrate a problem)

The implementation of a service calling the backend like this seems difficult to me because the CompletionStage.exceptionally() method does not allow Composing.

Version 1:

public class MyServiceImpl {
    public CompletionStage<Object> tryWriteWithCleanup(Object foo) {

        CompletionStage<Object> writeFuture = myBackend.tryWrite(foo)
            .exceptionally((throwable) -> {
                CompletionStage<Object> cleanupFuture = myBackend.tryCleanup(foo);
                throw new RuntimeException(throwable);
        });
        return writeFuture;
    }
}

So version 1 calls tryCleanup(foo) in a non-blocking way, but the CompletionStage returned by tryWriteWithCleanup() will not wait for cleanupFuture to complete. How to change this code to return a future from the service that would also wait for completion of cleanupFuture?

Version 2:

public class MyServiceImpl {
    public CompletionStage<Object> tryWriteWithCleanup(Object foo) {

        final AtomicReference<Throwable> saveException = new AtomicReference<>();
        CompletionStage<Object> writeFuture = myBackend
            .tryWrite(foo)
            .exceptionally(t -> {
                saveException.set(t);
                // continue with cleanup
                return null;
            })
            .thenCompose((nil) -> {
                // if no cleanup necessary, return
                if (saveException.get() == null) {
                    return CompletableFuture.completedFuture(null);
                }
                return CompletionStage<Object> cleanupFuture = myBackend.tryCleanup(foo)
                    .exceptionally(cleanupError -> {
                        // log error
                        return null;
                    })
                    .thenRun(() -> {
                        throw saveException.get();
                    });
        });
        return writeFuture;
    }
}

Version2 uses an external AtomicReference to store the failure, and makes the asynchronous second call in another thenCompose() block, if there was a failure.

All my other attempts to do so ended up so unwieldy that I don't want to paste them here.

4
  • You could always call tryCleanup() synchronously within exceptionally()
    – Naufal
    Jun 14, 2017 at 5:44
  • I do not want to block a thread in exceptionally
    – tkruse
    Jun 15, 2017 at 8:11
  • 1
    FYI, you should not add "solved" in the question title: this will be indicated by the fact you accepted an answer. I thus rolled it back to the previous title. Thanks for the accept by the way :-)
    – Didier L
    Jun 15, 2017 at 8:28
  • Hey @tkruse! Thanks a lot for the bounty! First time someone awards me one of this kind. And congrats for your fast progress and investment on SO during the last few months!
    – Didier L
    Jan 13, 2018 at 23:32

2 Answers 2

11
+50

Unfortunately CompletionStage/CompletableFuture does not provide exception handling API's with composition.

You can work around this though by relying on a handle() with a BiFunction that returns a CompletionStage. This will give you nested stages (CompletionStage<CompletionStage<Object>>) that you can the "unnest" using compose(identity()):

public CompletionStage<Object> tryWriteWithCleanup(Object foo) {
    return myBackend.tryWrite(foo)
            .handle((r, e) -> {
                if (e != null) {
                    return myBackend.tryCleanup(foo)
                            .handle((r2, e2) -> {
                                // Make sure we always return the original exception
                                // but keep track of new exception if any,
                                // as if run in a finally block
                                if (e2 != null) {
                                    e.addSuppressed(e2);
                                }
                                // wrapping in CompletionException  behaves as if
                                // we threw the original exception
                                throw new CompletionException(e);
                            });
                }
                return CompletableFuture.completedFuture(r);
            })
            .thenCompose(Function.identity());
}
3
  • As far as I can tell, this is also a correct solution to my problem. I like that since there is only one future involved, there is no risk of forgetting to complete a future.
    – tkruse
    Jun 15, 2017 at 8:21
  • @Holger, if you do that, when e != null you will actually return a CompletableFuture<CompletableFuture<Object>>, and that one will be completed before the inner one (the cleanup) completes. The OP required to return a future from the service that would also wait for completion of cleanupFuture.
    – Didier L
    Jan 12, 2018 at 15:18
  • Oh right, I was focused on the fact that the operation never completes normally, but yes, it still has the formal type of a CompletionStage.
    – Holger
    Jan 12, 2018 at 15:27
2

You may simply wait for the completion inside the handler:

public CompletionStage<Object> tryWriteWithCleanup(Object foo) {
    return myBackend.tryWrite(foo).exceptionally(throwable -> {
        myBackend.tryCleanup(foo).toCompletableFuture().join();
        throw new CompletionException(throwable);
    });
}

This will defer the completion of the result CompletionStage to the completion of the cleanup stage. Using CompletionException as wrapper will make the wrapping transparent to the caller.

However, it has some drawbacks. While the framework might utilize the thread while waiting or spawn a compensation thread, if it is a worker thread, the blocked thread might be the caller thread if the stage returned by tryWrite happens to be already completed when entering exceptionally. Unfortunately, there is no exceptionallyAsync method. You may use handleAsync instead, but it will complicate the code while still feeling like a kludge.

Further, exceptions thrown by the cleanup may shadow the original failure.

A cleaner solution may be a bit more involved:

public CompletionStage<Object> tryWriteWithCleanup(Object foo) {

    CompletableFuture<Object> writeFuture = new CompletableFuture<>();

    myBackend.tryWrite(foo).whenComplete((obj,throwable) -> {
        if(throwable==null)
            writeFuture.complete(obj);
        else
            myBackend.tryCleanup(foo).whenComplete((x,next) -> {
                try {
                    if(next!=null) throwable.addSuppressed(next);
                }
                finally {
                    writeFuture.completeExceptionally(throwable);
                }
        });
    });
    return writeFuture;
}

This simply creates a CompletableFuture manually, allowing to control its completion, which will happen either directly by the action chained to tryWrite’s stage in the successful case, or by the action chained to the cleanup stage in the exceptional case. Note that the latter takes care about chaining a possible subsequent cleanup exception via addSuppressed.

4
  • Why do you wrap the addSuppressed() in a try/finally? If it fails it would indicate a serious bug, wouldn't it?
    – Didier L
    Jun 14, 2017 at 16:24
  • @Didier L: since we don’t know what the main action and the cleanup action do, they may throw the same exception instance generated and reused by an underlying system (e.g. database). Then addSuppressed may fail due to a self-suppression attempt. Apparently, it only fails for identical exceptions but is fine with loops so a pre-test throwable!=next would do, but I just used what I saw once in a compiled try-with-resource construct. But this is compiler specific, the last time I checked, ECJ generated a pre-test, current javac seems not to care about preventing self-suppression at all.
    – Holger
    Jun 14, 2017 at 16:48
  • BTW: As you said, I do not want a thread waiting for tryCleanup(), not even a worker thread (i think those must be protected, too). You get extra-points for thinking of the try-catch. In your place I'd reformat the code in your second answer to make it more readable, even if it takes more vertical space
    – tkruse
    Jun 15, 2017 at 8:01
  • Choosing the other answer only because there is less risk of forgetting to complete the returned Future in more involved code.
    – tkruse
    Jun 15, 2017 at 8:21

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