Ejemplo n.º 1
0
        public async Task enqueue_and_dequeue_items_with_correct_parallel_keys()
        {
            var cts = new CancellationTokenSource(10000);
            var mockQueueAwaiter = new Mock <IQueueAwaiter>();
            var maxQueueSize     = 2;
            var queue            = new HandlingQueue(mockQueueAwaiter.Object, maxQueueSize);
            var parallelKey1     = "pk1";
            var parallelKey2     = "pk2";
            var subscriberEvent1 = new SubscriberEvent(null, null, 0, null, null);
            var subscriberEvent2 = new SubscriberEvent(null, null, 0, null, null);

            Assert.False(queue.IsEventsAvailable);

            await queue.EnqueueWithWaitAsync(parallelKey1, subscriberEvent1, cts.Token);

            await queue.EnqueueWithWaitAsync(parallelKey2, subscriberEvent2, cts.Token);

            if (cts.IsCancellationRequested)
            {
                throw new TimeoutException();
            }

            Assert.True(queue.IsEventsAvailable);

            var dequeuedItem1 = queue.TryDequeue(new string[] { parallelKey2 });
            var dequeuedItem2 = queue.TryDequeue(new string[] { parallelKey1 });

            Assert.Equal(parallelKey1, dequeuedItem1.ParallelKey);
            Assert.Equal(subscriberEvent1, dequeuedItem1.SubscriberEvent);

            Assert.Equal(parallelKey2, dequeuedItem2.ParallelKey);
            Assert.Equal(subscriberEvent2, dequeuedItem2.SubscriberEvent);
        }
Ejemplo n.º 2
0
        public async Task await_enqueue_signal()
        {
            var mockQueueAwaiter = new Mock <IQueueAwaiter>();
            var queue            = new HandlingQueue(mockQueueAwaiter.Object, 1);

            await queue.AwaitEnqueueSignalAsync();

            mockQueueAwaiter.Verify(x => x.AwaitEnqueueSignalAsync());
        }
Ejemplo n.º 3
0
        public async Task honor_max_queue_size()
        {
            var cts                    = new CancellationTokenSource(10000);
            var maxQueueSize           = 2;
            var mockQueueAwaiter       = new Mock <IQueueAwaiter>();
            var queue                  = new HandlingQueue(mockQueueAwaiter.Object, maxQueueSize);
            var parallelKey1           = "pk1";
            var parallelKey2           = "pk2";
            var parallelKey3           = "pk3";
            var subscriberEvent1       = new SubscriberEvent(null, null, 0, null, null);
            var subscriberEvent2       = new SubscriberEvent(null, null, 0, null, null);
            var subscriberEvent3       = new SubscriberEvent(null, null, 0, null, null);
            var enqueueuSignalSetCount = 0;
            var awaitingDequeueSignal  = new ManualResetEventSlim(true);
            var mockDequeueSignal      = new ManualResetEventSlim(false);

            mockQueueAwaiter.Setup(x => x.SetEnqueueSignal()).Callback(() => enqueueuSignalSetCount++);
            mockQueueAwaiter.Setup(x => x.AwaitDequeueSignalAsync()).Callback(() => awaitingDequeueSignal.Set()).Returns(mockDequeueSignal.WaitHandle.AsTask());

            await queue.EnqueueWithWaitAsync(parallelKey1, subscriberEvent1, cts.Token);

            await queue.EnqueueWithWaitAsync(parallelKey2, subscriberEvent2, cts.Token);

            var enqueueTask = queue.EnqueueWithWaitAsync(parallelKey3, subscriberEvent3, cts.Token);

            await Task.WhenAny(new[] { awaitingDequeueSignal.WaitHandle.AsTask(), cts.Token.WaitHandle.AsTask() });

            if (cts.Token.IsCancellationRequested)
            {
                throw new TimeoutException();
            }

            Assert.Equal(2, enqueueuSignalSetCount);
            Assert.Equal(maxQueueSize, queue.QueueCount);

            queue.TryDequeue(new string[] { });
            Assert.Equal(maxQueueSize - 1, queue.QueueCount);

            mockDequeueSignal.Set();

            await Task.WhenAny(new[] { enqueueTask, cts.Token.WaitHandle.AsTask() });

            if (cts.Token.IsCancellationRequested)
            {
                throw new TimeoutException();
            }

            Assert.Equal(maxQueueSize, queue.QueueCount);
        }
Ejemplo n.º 4
0
        public async Task enqueue_and_not_dequeue_with_matching_parallel_key()
        {
            var cts = new CancellationTokenSource(10000);
            var mockQueueAwaiter  = new Mock <IQueueAwaiter>();
            var queue             = new HandlingQueue(mockQueueAwaiter.Object, 1);
            var subscriberEvent   = new SubscriberEvent(null, null, 0, null, null);
            var parallelKey       = "pk";
            var notInParallelKeys = new List <string>()
            {
                parallelKey
            };

            await queue.EnqueueWithWaitAsync(parallelKey, subscriberEvent, cts.Token);

            var dequeuedItem = queue.TryDequeue(notInParallelKeys);

            Assert.Null(dequeuedItem);
        }
Ejemplo n.º 5
0
        public async Task set_queue_signals()
        {
            var cts              = new CancellationTokenSource(10000);
            var maxQueueSize     = 1;
            var mockQueueAwaiter = new Mock <IQueueAwaiter>();
            var queue            = new HandlingQueue(mockQueueAwaiter.Object, maxQueueSize);
            var subscriberEvent  = new SubscriberEvent(null, null, 0, null, null);
            var parallelKey      = "pk";

            queue.TryDequeue(new string[] { });

            mockQueueAwaiter.VerifyNoOtherCalls();

            await queue.EnqueueWithWaitAsync(parallelKey, subscriberEvent, cts.Token);

            mockQueueAwaiter.Verify(x => x.SetEnqueueSignal());
            mockQueueAwaiter.VerifyNoOtherCalls();

            queue.TryDequeue(new string[] { });
            mockQueueAwaiter.Verify(x => x.SetDequeueSignal());
        }