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I'm computing a future for having a timeout in waiting for a serial event to happen:

Future<Response> future = executor.submit(new CommunicationTask(this, request));
response = new Response("timeout");
try {
  response = future.get(timeoutMilliseconds, TimeUnit.MILLISECONDS);
} catch (InterruptedException | TimeoutException e) {
  future.cancel(true);
  log.info("Execution time out." + e);
} catch (ExecutionException e) {
  future.cancel(true);
  log.error("Encountered problem communicating with device: " + e);
}

The CommunicationTask class has implemented the Observer interface to listen to an change from the serial port.

The problem is that reading from the serial port is relatively slow and even when a serial event is happening the time runs out and a TimeoutException is thrown. What can I do to stop the timeout clock of my future when a serial event is happening?

I tried it with an AtomicReference but that didn't change anything:

public class CommunicationTask implements Callable<Response>, Observer {
  private AtomicReference atomicResponse = new AtomicReference(new Response("timeout"));
  private CountDownLatch latch = new CountDownLatch(1);
  private SerialPort port;

  CommunicationTask(SerialCommunicator communicator, Request request) {
    this.communicator = communicator;
    this.message = request.serialize();
    this.port = communicator.getPort();
  }

  @Override
  public Response call() throws Exception {
    return query(message);
  }

  public Response query(String message) {
    communicator.getListener().addObserver(this);
    message = message + "\r\n";
    try {
      port.writeString(message);
    } catch (Exception e) {
      log.warn("Could not write to port: " + e);
      communicator.disconnect();
    }
    try {
      latch.await();
    } catch (InterruptedException e) {
      log.info("Execution time out.");
    }
    communicator.getListener().deleteObserver(this);
    return (Response)atomicResponse.get();
  }

  @Override
  public void update(Observable o, Object arg) {
    atomicResponse.set((Response)arg);
    latch.countDown();
  }
}

What can I do to solve this problem?

EDIT:

Ok I had one error. I was counting down my latch befor setting the atomicResponse in my update function. Now it seems to work, but there's still the question if this approach is the right way to do so?

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You could add a isCommunicationStarted method to your CommunicationTask - when you catch TimeoutException, check isCommunicationStarted - if it returns false => cancel, otherwise try future.get() again (maybe with a new timeout). –  assylias Dec 3 '12 at 12:23
    
Can you split your task class into two: first will wait till event starts with timeout and submits task of 2nd type on event's start. 2nd task will process event accordingly. –  Victor Sorokin Dec 3 '12 at 12:44
    
It's not quite clear what you want to achieve. Setting a timeout implies that events that arrived after timeout can be ignored. If so, why does the corner case in question matter? –  axtavt Dec 3 '12 at 12:56
    
Yes it's true after a timeout all subsequent events can be ignored. But in my case when an event is happening, due to the lazy readout from my serial port, a timeout can still occure after an event was happening. I prevented this by using AtomicReference. –  Reza Dec 3 '12 at 12:59
    
-1 the question has contradiction in itself: timeout occur, but "serial event is happening". What's the problem to increase timeout? Also, for not providing where SerialCommunicator class is taken from. I strongly suspect using Executor is of no good for communicating with that class. –  Alexei Kaigorodov Dec 3 '12 at 15:09
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1 Answer

Hope this will help. I won't comment on it in the hopes that everything is clear from the code.

class CommunicationTask implements Callable<String>, Observer {
    volatile boolean ignoreTimeoutException;

    public CommunicationTask(SerialCommunicator communicator, Request request) {
    }

    public String call() throws Exception {
        Thread.sleep(1000);
        return "done";
    }

    public void update(Observable o, Object arg) {
        ignoreTimeoutException = true;
    }
}

class FutureCommunicationTask extends FutureTask<String> {
    private CommunicationTask ct;

    public FutureCommunicationTask(CommunicationTask ct) {
        super(ct);
        this.ct = ct;
    }

    public String get(long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException {
        try {
            return super.get(timeout, unit);
        } catch (TimeoutException e) {
            if (ct.ignoreTimeoutException) {
                return get();  //  no timeout wait 
            }
            throw e;
        }
    }
}

public class Test {

    public static void main(String[] args) throws Exception {
        CommunicationTask ct = new CommunicationTask(null, null);
        FutureTask<String> fct = new FutureCommunicationTask(ct);
        ExecutorService ex = Executors.newSingleThreadExecutor();
        ex.execute(fct);
//      uncomment this line and timeout will be cancelled 
        ct.update(null, null);  
        String res = fct.get(1, TimeUnit.MILLISECONDS);
        System.out.println(res);
    }
}
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