4

I'm having difficulty getting using the Spring Reactor Stream API (similar to rxjava) to construct a response object in my service wrapping responses provided by two downstream services.

The following is the accept() method on my Channel Consumer. Some names have been changed to protect the innocent..

@Override
public void accept(final NetChannel channel) {
    log.info("Consuming NetChannel of FullHttpRequest");
    try {
        // Our initial Stream is a single HTTP request containing our XML document.
        Stream requestStream = channel.in();

        requestStream.filter((x) -> {return true;})
                .dispatchOn(dispatcher)
                .map(new FooRequestFunction())                    // 1)
                .flatMap(new BarRequestStreamFunction())          // 2)
                .flatMap(new DownstreamRequestZipFunction())      // 3)
                .toList()                                         // 4)
                .onComplete(new ResponsesConsumer(channel));      // 5)

    } catch (Exception e) {
        log.error("Exception thrown during Channel processing", e);
    }
}

So, a FooRequest wraps many BarRequests, each of which has one associated Classify request, and one associated Validate request. We want to 1) Convert to a FooRequest, 2) Convert the FooRequest to a series of BarRequests, 3) Run two downstream requests for each BarRequest, 4) Aggregate all of our BarResponse objects into an overall response, 5) send a response back out to the client.

The point at which I encounter problems is the toList() method, which never seems to execute. Every time I've attempted something that involves a Promise it always seems to break, and this has been no exception.

FooRequestFunction, BarRequestStreamFunction are fairly simple, and seem to run fine. Their method signatures are:

// FooRequestFunction
public FooRequest apply(final FullHttpRequest request);

And:

// BarRequestStreamFunction
public Stream<BarRequest> apply(FooRequest dsoRequests);

DownstreamRequestZipFunction looks like this:

@Override
public Stream apply(BarRequest t) { 
    Stream classifyRes = Streams
            .just(t)
            .flatMap(new ClassifyDownstreamRequestFunction());

    Stream validateRes = Streams
            .just(t)
            .flatMap(new ValidateDownstreamRequestFunction());

    return Streams.zip(classifyRes, validateRes, (tuple) -> {
        BarResponse response = new BarResponse();
        response.setClassifyRes(tuple.getT1());
        response.setValidateRes(tuple.getT2());
        return response;
    });
}

This seems to work fine, as long as both of the downstream request functions return a result.

Finally, the Consumer at the end of the chained calls has this signature:

// ResponsesConsumer
public void accept(Promise<List<BarResponse>> responses)

What this does is await() the responses promise, and then aggregates all of those responses into a single XML document written back to the channel. I can tell the execution never gets as far as this method, because none of the logging fires. It all seems to stop at .toList().

Does anyone know why this set up ever seems to execute toList() or anything afterwards?

EDIT: Okay, I have a bit more information. After supplying a naming convention to each thread in the application to make debugging easier, I can see that "shared-1", the thread that runs the accept() method enters into a WAITING state, and then stays there. This could be something to do with the fact that the underlying Dispatcher is a ringbuffer dispatcher, which is single threaded.

I modified the code so that the approach was slightly different, and used a multithreaded dispatcher, and avoided using a Promise, but I still have a state in which the tail of the chained set of calls will not execute. See below:

@Override
public void accept(final NetChannel channel) {
    log.info("Consuming NetChannel of FullHttpRequest");
    try {
        // Our initial Stream is a single HTTP request containing our XML document.
        Stream requestStream = channel.in();

        requestStream.filter((x) -> {return true;})
                .dispatchOn(dispatcher)
                .map(new FooRequestFunction())                    // 1)
                .flatMap(new BarRequestStreamFunction())          // 2)
                .flatMap(new DownstreamRequestZipFunction())      // 3)
                .reduce(new ArrayList(), (list,resp) -> {log.info("Reducing"); list.add(resp); return list;})                                        // 4)
                .consumeOn((x)->{log.info("Consume");}, (x)->{log.error("error");}, (x)->{log.info("Complete");}, dispatcher);      // 5)

    } catch (Exception e) {
        log.error("Exception thrown during Channel processing", e);
    }
}

In the above, I've replaced the toList() with a call to reduce() and collapsed everything into a single List<BarResponse>. I can see this executing and logging just fine. However, no matter what I do with the last call, after trying consume(), consumeOn() etc - it never executes, and never logs the final calls you see above.

Looking in VisualVM I can see that the dispatcher threads are all waiting on the same object monitor associated with a blocking queue - in other words, they're all waiting for work to arrive. It's like the tail consumeOn() call is completely ignored.

What am I doing wrong here? What am I not understanding?

EDIT 2: Given Johns reply below, I suspect the issue is with the Server setup. Possibly solely for reactor release 2.0.0.M2, which is configured in the main Application class as follows:

 @Bean
    public NetServer httpServer(
            final Environment env,
            final MetricRegistry metrics,
            final ChannelConsumer consumer) throws InterruptedException {

        NetServer server = new TcpServerSpec(
                NettyTcpServer.class)
                .env(env)
                .options(
                        new NettyServerSocketOptions()
                            .pipelineConfigurer((ChannelPipeline pipeline) -> pipeline
                                .addLast(new HttpServerCodec())
                                .addLast(new HttpObjectAggregator(MAX_CONTENT_LENGTH))))
                .consume(consumer)
                .get();

        server.start().await();

        return server;
    }

No dispatcher is configured for this, and it seems to be using the LMAX disruptor under the hood, not a NettyEventLoopDispatcher. It's not clear how to set up NettyEventLoopDispatcher and use it as a replacement dispatcher.

3
  • is there sufficient dispatcher capacity?
    – harshtuna
    Mar 10, 2015 at 23:23
  • Yes. I'm testing it with one single Http request. It hangs as soon as it gets to toList()
    – Jon
    Mar 11, 2015 at 0:19
  • Just a quick comment on the above - this looks like it is some kind of problem with Netty. We tried an equivalent program using RxJava/RxNetty and had a very similar issue. Beyond that we were unable to learn more as we'd run out of time budgeted for the task.
    – Jon
    May 13, 2015 at 17:27

1 Answer 1

0

The consumeOn() call is redundant because you're already on that Dispatcher (unless your "real" code uses something different than this example). When you write the output, internally it will switch to a NettyEventLoopDispatcher anyway.

I did a quick check to make sure this flow works outside of a TcpServer and this works as expected:

@Test
public void testStream() throws InterruptedException {
    Stream<String> s1 = Streams.just("Hello World!");

    s1.filter(s -> s.startsWith("Hello"))
      .dispatchOn(Environment.sharedDispatcher())
      .map(s -> s.toUpperCase())
      .flatMap(s -> Streams.just(s, s))
      .flatMap(s -> Streams.just(s, s))
      .reduce(new ArrayList<>(), (l, s) -> {
          l.add(s);
          return l;
      })
      .consume(l -> {
          System.out.println("thread: " + Thread.currentThread() + ", l: " + l);
      });

    Thread.sleep(500);
}

It would be interesting to know if the flow works on the Netty thread by simply commenting out the .dispatchOn() call.

2
  • Tried that before. What happens is that a Thread labelled "shared-2" ends up logging everything up to the consumer, then entering a WAITING state, and the Consumer doesn't execute. Thread dump shows that it is waiting on an Object monitor for a Queue. From the stack trace on the Thread dump it looks like its using the LMAX disruptor under the hood. That's as far as I can get.
    – Jon
    Mar 11, 2015 at 18:57
  • Modifying consumeOn() to consume() has no effect, I'd already tried that too.
    – Jon
    Mar 11, 2015 at 18:58

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