public void SetUp()
        {
            MockClientErrorHandler = A.Fake <ErrorHandler>(options => options.Wrapping(throwable =>
            {
                if (!SuppressPrintError)
                {
                    Console.WriteLine(throwable.ToString());
                    Console.Write(throwable.StackTrace);
                }
            }));

            PublicationReady  = new PublicationBuffersReadyFlyweight();
            CorrelatedMessage = new CorrelatedMessageFlyweight();
            ErrorResponse     = new ErrorResponseFlyweight();

            PublicationReadyBuffer  = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            CorrelatedMessageBuffer = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            ErrorMessageBuffer      = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            CounterValuesBuffer     = new UnsafeBuffer(new byte[COUNTER_BUFFER_LENGTH]);
            MockToClientReceiver    = A.Fake <CopyBroadcastReceiver>();

            MockAvailableImageHandler   = A.Fake <AvailableImageHandler>();
            MockUnavailableImageHandler = A.Fake <UnavailableImageHandler>();

            LogBuffersFactory = A.Fake <ILogBuffersFactory>();

            SubscriberPositionMap = new Dictionary <long, long>(); // should return -1 when element does not exist

            DriverProxy = A.Fake <DriverProxy>();

            A.CallTo(() => DriverProxy.AddPublication(CHANNEL, STREAM_ID_1)).Returns(CORRELATION_ID);
            A.CallTo(() => DriverProxy.AddPublication(CHANNEL, STREAM_ID_2)).Returns(CORRELATION_ID_2);
            A.CallTo(() => DriverProxy.RemovePublication(CORRELATION_ID)).Returns(CLOSE_CORRELATION_ID);
            A.CallTo(() => DriverProxy.AddSubscription(A <string> ._, A <int> ._)).Returns(CORRELATION_ID);
            A.CallTo(() => DriverProxy.RemoveSubscription(CORRELATION_ID)).Returns(CLOSE_CORRELATION_ID);

            Conductor = new ClientConductor(EpochClock, NanoClock, MockToClientReceiver, LogBuffersFactory, CounterValuesBuffer, DriverProxy, MockClientErrorHandler, MockAvailableImageHandler, MockUnavailableImageHandler, MapMode.ReadOnly, KEEP_ALIVE_INTERVAL, AWAIT_TIMEOUT, NanoUtil.FromMilliseconds(INTER_SERVICE_TIMEOUT_MS), PUBLICATION_CONNECTION_TIMEOUT_MS);

            PublicationReady.Wrap(PublicationReadyBuffer, 0);
            CorrelatedMessage.Wrap(CorrelatedMessageBuffer, 0);
            ErrorResponse.Wrap(ErrorMessageBuffer, 0);

            PublicationReady.CorrelationId(CORRELATION_ID);
            PublicationReady.SessionId(SESSION_ID_1);
            PublicationReady.StreamId(STREAM_ID_1);
            PublicationReady.LogFileName(SESSION_ID_1 + "-log");

            SubscriberPositionMap.Add(CORRELATION_ID, 0);

            CorrelatedMessage.CorrelationId(CLOSE_CORRELATION_ID);

            var termBuffersSession1 = new UnsafeBuffer[LogBufferDescriptor.PARTITION_COUNT];
            var termBuffersSession2 = new UnsafeBuffer[LogBufferDescriptor.PARTITION_COUNT];

            for (var i = 0; i < LogBufferDescriptor.PARTITION_COUNT; i++)
            {
                termBuffersSession1[i] = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
                termBuffersSession2[i] = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
            }

            UnsafeBuffer logMetaDataSession1 = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
            UnsafeBuffer logMetaDataSession2 = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);

            IMutableDirectBuffer header1 = DataHeaderFlyweight.CreateDefaultHeader(SESSION_ID_1, STREAM_ID_1, 0);
            IMutableDirectBuffer header2 = DataHeaderFlyweight.CreateDefaultHeader(SESSION_ID_2, STREAM_ID_2, 0);

            LogBufferDescriptor.StoreDefaultFrameHeader(logMetaDataSession1, header1);
            LogBufferDescriptor.StoreDefaultFrameHeader(logMetaDataSession2, header2);

            var logBuffersSession1 = A.Fake <LogBuffers>();
            var logBuffersSession2 = A.Fake <LogBuffers>();

            A.CallTo(() => LogBuffersFactory.Map(SESSION_ID_1 + "-log", A <MapMode> ._)).Returns(logBuffersSession1);
            A.CallTo(() => LogBuffersFactory.Map(SESSION_ID_2 + "-log", A <MapMode> ._)).Returns(logBuffersSession2);
            A.CallTo(() => logBuffersSession1.TermBuffers()).Returns(termBuffersSession1);
            A.CallTo(() => logBuffersSession2.TermBuffers()).Returns(termBuffersSession2);

            A.CallTo(() => logBuffersSession1.MetaDataBuffer()).Returns(logMetaDataSession1);
            A.CallTo(() => logBuffersSession2.MetaDataBuffer()).Returns(logMetaDataSession2);
        }
 public void Setup()
 {
     conductorBuffer = new ManyToOneRingBuffer(new UnsafeBuffer(new byte[RingBufferDescriptor.TrailerLength + 1024]));
     conductor       = new DriverProxy(conductorBuffer);
 }
Example #3
0
 public void Setup()
 {
     conductorBuffer = new ManyToOneRingBuffer(new UnsafeBuffer(new byte[RingBufferDescriptor.TrailerLength + 1024]));
     conductor = new DriverProxy(conductorBuffer);
 }
Example #4
0
        public void SetUp()
        {
            MockClientErrorHandler = A.Fake <ErrorHandler>(options => options.Wrapping(throwable =>
            {
                if (!SuppressPrintError)
                {
                    Console.WriteLine(throwable.ToString());
                    Console.Write(throwable.StackTrace);
                }
            }));

            PublicationReady  = new PublicationBuffersReadyFlyweight();
            SubscriptionReady = new SubscriptionReadyFlyweight();
            OperationSuccess  = new OperationSucceededFlyweight();
            ErrorResponse     = new ErrorResponseFlyweight();
            ClientTimeout     = new ClientTimeoutFlyweight();

            PublicationReadyBuffer  = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            SubscriptionReadyBuffer = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            OperationSuccessBuffer  = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            ErrorMessageBuffer      = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);
            ClientTimeoutBuffer     = new UnsafeBuffer(new byte[SEND_BUFFER_CAPACITY]);

            CounterValuesBuffer  = new UnsafeBuffer(new byte[COUNTER_BUFFER_LENGTH]);
            MockToClientReceiver = A.Fake <CopyBroadcastReceiver>();

            MockAvailableImageHandler   = A.Fake <AvailableImageHandler>();
            MockUnavailableImageHandler = A.Fake <UnavailableImageHandler>();
            MockCloseHandler            = A.Fake <Action>();

            LogBuffersFactory = A.Fake <ILogBuffersFactory>();

            DriverProxy = A.Fake <DriverProxy>();

            MockAeron = A.Fake <Aeron>();

            A.CallTo(() => mockClientLock.TryLock()).Returns(true);

            A.CallTo(() => DriverProxy.AddPublication(CHANNEL, STREAM_ID_1)).Returns(CORRELATION_ID);
            A.CallTo(() => DriverProxy.AddPublication(CHANNEL, STREAM_ID_2)).Returns(CORRELATION_ID_2);
            A.CallTo(() => DriverProxy.RemovePublication(CORRELATION_ID)).Returns(CLOSE_CORRELATION_ID);
            A.CallTo(() => DriverProxy.AddSubscription(A <string> ._, A <int> ._)).Returns(CORRELATION_ID);
            A.CallTo(() => DriverProxy.RemoveSubscription(CORRELATION_ID)).Returns(CLOSE_CORRELATION_ID);

            Aeron.Context ctx = new Aeron.Context()
                                .ClientLock(mockClientLock)
                                .EpochClock(EpochClock)
                                .NanoClock(NanoClock)
                                .ToClientBuffer(MockToClientReceiver)
                                .DriverProxy(DriverProxy)
                                .LogBuffersFactory(LogBuffersFactory)
                                .ErrorHandler(MockClientErrorHandler)
                                .AvailableImageHandler(MockAvailableImageHandler)
                                .UnavailableImageHandler(MockUnavailableImageHandler)
                                .CloseHandler(MockCloseHandler)
                                .KeepAliveIntervalNs(KEEP_ALIVE_INTERVAL)
                                .DriverTimeoutMs(AWAIT_TIMEOUT)
                                .InterServiceTimeoutNs(INTER_SERVICE_TIMEOUT_MS * 1000000)
                                .CountersValuesBuffer(CounterValuesBuffer);

            Conductor = new ClientConductor(ctx, MockAeron);

            PublicationReady.Wrap(PublicationReadyBuffer, 0);
            SubscriptionReady.Wrap(SubscriptionReadyBuffer, 0);
            OperationSuccess.Wrap(OperationSuccessBuffer, 0);
            ErrorResponse.Wrap(ErrorMessageBuffer, 0);
            ClientTimeout.Wrap(ClientTimeoutBuffer, 0);

            PublicationReady.CorrelationId(CORRELATION_ID);
            PublicationReady.RegistrationId(CORRELATION_ID);
            PublicationReady.SessionId(SESSION_ID_1);
            PublicationReady.StreamId(STREAM_ID_1);
            PublicationReady.LogFileName(SESSION_ID_1 + "-log");

            OperationSuccess.CorrelationId(CLOSE_CORRELATION_ID);

            var termBuffersSession1 = new UnsafeBuffer[LogBufferDescriptor.PARTITION_COUNT];
            var termBuffersSession2 = new UnsafeBuffer[LogBufferDescriptor.PARTITION_COUNT];

            for (var i = 0; i < LogBufferDescriptor.PARTITION_COUNT; i++)
            {
                termBuffersSession1[i] = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
                termBuffersSession2[i] = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
            }

            UnsafeBuffer logMetaDataSession1 = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);
            UnsafeBuffer logMetaDataSession2 = new UnsafeBuffer(new byte[TERM_BUFFER_LENGTH]);

            IMutableDirectBuffer header1 = DataHeaderFlyweight.CreateDefaultHeader(SESSION_ID_1, STREAM_ID_1, 0);
            IMutableDirectBuffer header2 = DataHeaderFlyweight.CreateDefaultHeader(SESSION_ID_2, STREAM_ID_2, 0);

            LogBufferDescriptor.StoreDefaultFrameHeader(logMetaDataSession1, header1);
            LogBufferDescriptor.StoreDefaultFrameHeader(logMetaDataSession2, header2);

            var logBuffersSession1 = A.Fake <LogBuffers>();
            var logBuffersSession2 = A.Fake <LogBuffers>();

            A.CallTo(() => LogBuffersFactory.Map(SESSION_ID_1 + "-log")).Returns(logBuffersSession1);
            A.CallTo(() => LogBuffersFactory.Map(SESSION_ID_2 + "-log")).Returns(logBuffersSession2);

            A.CallTo(() => logBuffersSession1.DuplicateTermBuffers()).Returns(termBuffersSession1);
            A.CallTo(() => logBuffersSession2.DuplicateTermBuffers()).Returns(termBuffersSession2);

            A.CallTo(() => logBuffersSession1.MetaDataBuffer()).Returns(logMetaDataSession1);
            A.CallTo(() => logBuffersSession2.MetaDataBuffer()).Returns(logMetaDataSession2);

            A.CallTo(() => logBuffersSession1.TermLength()).Returns(TERM_BUFFER_LENGTH);
            A.CallTo(() => logBuffersSession2.TermLength()).Returns(TERM_BUFFER_LENGTH);
        }
Example #5
0
 public void Setup()
 {
     conductorBuffer = new ManyToOneRingBuffer(new UnsafeBuffer(BufferUtil.AllocateDirect(RingBufferDescriptor.TrailerLength + 1024)));
     conductor       = new DriverProxy(conductorBuffer, CLIENT_ID);
 }