Esempio n. 1
0
        internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, Func <IPAddress, int, Task <IChannel> > channelFactory)
            : base(settings)
        {
            this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
            this.messageQueue             = new ConcurrentQueue <Message>();
            this.completionQueue          = new Queue <string>();
            this.serverAddress            = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
            this.qos = settings.PublishToServerQoS;
            this.eventLoopGroupKey = iotHubConnectionString.IotHubName + "#" + iotHubConnectionString.DeviceId + "#" + iotHubConnectionString.Audience;

            if (channelFactory == null)
            {
                switch (settings.GetTransportType())
                {
                case TransportType.Mqtt_Tcp_Only:
                    this.channelFactory = this.CreateChannelFactory(iotHubConnectionString, settings);
                    break;

                case TransportType.Mqtt_WebSocket_Only:
                    this.channelFactory = this.CreateWebSocketChannelFactory(iotHubConnectionString, settings);
                    break;

                default:
                    throw new InvalidOperationException("Unsupported Transport Setting {0}".FormatInvariant(settings.GetTransportType()));
                }
            }
            else
            {
                this.channelFactory = channelFactory;
            }

            this.closeRetryPolicy = new RetryPolicy(new TransientErrorIgnoreStrategy(), 5, TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1));
        }
        public MqttIotHubAdapter(
            string deviceId, 
            string iotHubHostName, 
            string password, 
            MqttTransportSettings mqttTransportSettings, 
            IWillMessage willMessage,
            Action onConnected,
            Action<Message> onMessageReceived,
            Action<Exception> onError)
        {
            Contract.Requires(deviceId != null);
            Contract.Requires(iotHubHostName != null);
            Contract.Requires(password != null);
            Contract.Requires(mqttTransportSettings != null);
            Contract.Requires(!mqttTransportSettings.HasWill || willMessage != null);

            this.deviceId = deviceId;
            this.iotHubHostName = iotHubHostName;
            this.password = password;
            this.mqttTransportSettings = mqttTransportSettings;
            this.willMessage = willMessage;
            this.onConnected = onConnected;
            this.onError = onError;
            this.onMessageReceived = onMessageReceived;
            this.pingRequestInterval = this.mqttTransportSettings.KeepAliveInSeconds > 0 ? TimeSpan.FromSeconds(this.mqttTransportSettings.KeepAliveInSeconds / 2d) : TimeSpan.MaxValue;

            this.deviceBoundOneWayProcessor = new SimpleWorkQueue<PublishPacket>(this.AcceptMessageAsync);
            this.deviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue<int, PublishPacket>(this.AcceptMessageAsync, p => p.PacketId, this.SendAckAsync);

            this.serviceBoundOneWayProcessor = new SimpleWorkQueue<PublishWorkItem>(this.SendMessageToServerAsync);
            this.serviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue<int, PublishWorkItem>(this.SendMessageToServerAsync, p => p.Value.PacketId, this.ProcessAckAsync);
        }
        public MqttIotHubAdapter(
            string deviceId,
            string iotHubHostName,
            string password,
            MqttTransportSettings mqttTransportSettings,
            IWillMessage willMessage,
            Action onConnected,
            Action <Message> onMessageReceived,
            Action <Exception> onError)
        {
            Contract.Requires(deviceId != null);
            Contract.Requires(iotHubHostName != null);
            Contract.Requires(password != null);
            Contract.Requires(mqttTransportSettings != null);
            Contract.Requires(!mqttTransportSettings.HasWill || willMessage != null);

            this.deviceId              = deviceId;
            this.iotHubHostName        = iotHubHostName;
            this.password              = password;
            this.mqttTransportSettings = mqttTransportSettings;
            this.willMessage           = willMessage;
            this.onConnected           = onConnected;
            this.onError             = onError;
            this.onMessageReceived   = onMessageReceived;
            this.pingRequestInterval = this.mqttTransportSettings.KeepAliveInSeconds > 0 ? TimeSpan.FromSeconds(this.mqttTransportSettings.KeepAliveInSeconds / 2d) : TimeSpan.MaxValue;

            this.deviceBoundOneWayProcessor = new SimpleWorkQueue <PublishPacket>(this.AcceptMessageAsync);
            this.deviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue <int, PublishPacket>(this.AcceptMessageAsync, p => p.PacketId, this.SendAckAsync);

            this.serviceBoundOneWayProcessor = new SimpleWorkQueue <PublishWorkItem>(this.SendMessageToServerAsync);
            this.serviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue <int, PublishWorkItem>(this.SendMessageToServerAsync, p => p.Value.PacketId, this.ProcessAckAsync);
        }
        public MqttIotHubAdapter(
            string deviceId,
            string iotHubHostName,
            IAuthorizationProvider passwordProvider,
            MqttTransportSettings mqttTransportSettings,
            IWillMessage willMessage,
            IMqttIotHubEventHandler mqttIotHubEventHandler,
            ProductInfo productInfo)
        {
            Contract.Requires(deviceId != null);
            Contract.Requires(iotHubHostName != null);
            Contract.Requires(passwordProvider != null);
            Contract.Requires(mqttTransportSettings != null);
            Contract.Requires(!mqttTransportSettings.HasWill || willMessage != null);
            Contract.Requires(productInfo != null);

            this.deviceId               = deviceId;
            this.iotHubHostName         = iotHubHostName;
            this.passwordProvider       = passwordProvider;
            this.mqttTransportSettings  = mqttTransportSettings;
            this.willMessage            = willMessage;
            this.mqttIotHubEventHandler = mqttIotHubEventHandler;
            this.pingRequestInterval    = this.mqttTransportSettings.KeepAliveInSeconds > 0 ? TimeSpan.FromSeconds(this.mqttTransportSettings.KeepAliveInSeconds / 4d) : TimeSpan.MaxValue;
            this.productInfo            = productInfo;

            this.deviceBoundOneWayProcessor = new SimpleWorkQueue <PublishPacket>(this.AcceptMessageAsync);
            this.deviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue <int, PublishPacket>(this.AcceptMessageAsync, p => p.PacketId, this.SendAckAsync);

            this.serviceBoundOneWayProcessor = new SimpleWorkQueue <PublishWorkItem>(this.SendMessageToServerAsync);
            this.serviceBoundTwoWayProcessor = new OrderedTwoPhaseWorkQueue <int, PublishWorkItem>(this.SendMessageToServerAsync, p => p.Value.PacketId, this.ProcessAckAsync);
        }
Esempio n. 5
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        public static QualityOfService DeriveQos(Message message, MqttTransportSettings config)
        {
            QualityOfService qos;
            string           qosValue;

            if (message.Properties.TryGetValue(config.QoSPropertyName, out qosValue))
            {
                int qosAsInt;
                if (int.TryParse(qosValue, out qosAsInt))
                {
                    qos = (QualityOfService)qosAsInt;
                    if (qos > QualityOfService.ExactlyOnce)
                    {
                        qos = config.PublishToServerQoS;
                    }
                }
                else
                {
                    qos = config.PublishToServerQoS;
                }
            }
            else
            {
                qos = config.PublishToServerQoS;
            }
            return(qos);
        }
 internal MqttTransportHandler(
     IPipelineContext context,
     IotHubConnectionString iotHubConnectionString,
     MqttTransportSettings settings,
     Action <object, EventArgs> onConnectionClosedCallback,
     Func <MethodRequestInternal, Task> onMethodCallback          = null,
     Action <TwinCollection> onReportedStatePatchReceivedCallback = null)
     : this(context, iotHubConnectionString, settings, null, onConnectionClosedCallback)
 {
     this.messageListener = onMethodCallback;
     this.onReportedStatePatchListener = onReportedStatePatchReceivedCallback;
 }
Esempio n. 7
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 internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, Func <IPAddress, int, Task <IChannel> > channelFactory)
     : base(settings)
 {
     this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
     this.messageQueue             = new ConcurrentQueue <Message>();
     this.completionQueue          = new Queue <string>();
     this.serverAddress            = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
     this.qos = settings.PublishToServerQoS;
     this.eventLoopGroupKey = iotHubConnectionString.IotHubName + "#" + iotHubConnectionString.DeviceId + "#" + iotHubConnectionString.Audience;
     this.channelFactory    = channelFactory ?? this.CreateChannelFactory(iotHubConnectionString, settings);
     this.closeRetryPolicy  = new RetryPolicy(new TransientErrorIgnoreStrategy(), 5, TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1));
 }
 internal MqttTransportHandler(
     IPipelineContext context,
     IotHubConnectionString iotHubConnectionString,
     MqttTransportSettings settings,
     Func<MethodRequestInternal, Task> onMethodCallback = null,
     Action<TwinCollection> onDesiredStatePatchReceivedCallback = null,
     Func<string, Message, Task> onReceiveCallback = null)
     : this(context, iotHubConnectionString, settings, null)
 {
     this.messageListener = onMethodCallback;
     this.messageReceivedListener = onReceiveCallback;
     this.onDesiredStatePatchListener = onDesiredStatePatchReceivedCallback;
 }
        public MqttIotHubAdapter Create(
            IMqttIotHubEventHandler mqttIotHubEventHandler,
            IotHubConnectionString iotHubConnectionString,
            MqttTransportSettings mqttTransportSettings)
        {
            IWillMessage willMessage = mqttTransportSettings.HasWill ? this.settings.WillMessage : null;

            return(new MqttIotHubAdapter(
                       iotHubConnectionString.DeviceId,
                       iotHubConnectionString.HostName,
                       mqttTransportSettings.ClientCertificate != null ? null : iotHubConnectionString.GetPassword(),
                       mqttTransportSettings,
                       willMessage,
                       mqttIotHubEventHandler));
        }
Esempio n. 10
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        internal MqttTransportHandler(
            IPipelineContext context,
            IotHubConnectionString iotHubConnectionString,
            MqttTransportSettings settings,
            Func <IPAddress[], int, Task <IChannel> > channelFactory,
            Action <object, ConnectionEventArgs> onConnectionOpenedCallback,
            Func <object, ConnectionEventArgs, Task> onConnectionClosedCallback)
            : base(context, settings)
        {
            this.connectionOpenedListener = onConnectionOpenedCallback;
            this.connectionClosedListener = onConnectionClosedCallback;

            this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
            this.messageQueue             = new ConcurrentQueue <Message>();
            this.completionQueue          = new Queue <string>();

            this.serverAddresses           = null; // this will be resolved asynchronously in OpenAsync
            this.hostName                  = iotHubConnectionString.HostName;
            this.receiveEventMessageFilter = string.Format(CultureInfo.InvariantCulture, receiveEventMessagePatternFilter, iotHubConnectionString.DeviceId, iotHubConnectionString.ModuleId);
            this.receiveEventMessagePrefix = string.Format(CultureInfo.InvariantCulture, receiveEventMessagePrefixPattern, iotHubConnectionString.DeviceId, iotHubConnectionString.ModuleId);

            this.qos = settings.PublishToServerQoS;
            this.eventLoopGroupKey = iotHubConnectionString.IotHubName + "#" + iotHubConnectionString.DeviceId + "#" + iotHubConnectionString.Audience;

            if (channelFactory == null)
            {
                switch (settings.GetTransportType())
                {
                case TransportType.Mqtt_Tcp_Only:
                    this.channelFactory = this.CreateChannelFactory(iotHubConnectionString, settings, context.Get <ProductInfo>());
                    break;

                case TransportType.Mqtt_WebSocket_Only:
                    this.channelFactory = this.CreateWebSocketChannelFactory(iotHubConnectionString, settings, context.Get <ProductInfo>());
                    break;

                default:
                    throw new InvalidOperationException("Unsupported Transport Setting {0}".FormatInvariant(settings.GetTransportType()));
                }
            }
            else
            {
                this.channelFactory = channelFactory;
            }

            this.closeRetryPolicy = new RetryPolicy(new TransientErrorIgnoreStrategy(), 5, TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1));
        }
        public MqttIotHubAdapter Create(
            Action onConnected,
            Action <Message> onMessageReceived,
            Action <Exception> onError,
            IotHubConnectionString iotHubConnectionString,
            MqttTransportSettings mqttTransportSettings)
        {
            IWillMessage willMessage = mqttTransportSettings.HasWill ? this.settings.WillMessage : null;

            return(new MqttIotHubAdapter(
                       iotHubConnectionString.DeviceId,
                       iotHubConnectionString.HostName,
                       iotHubConnectionString.GetPassword(),
                       mqttTransportSettings,
                       willMessage,
                       onConnected,
                       onMessageReceived,
                       onError));
        }
 public MqttIotHubAdapter Create(
     Action onConnected, 
     Action<Message> onMessageReceived,
     Action<Exception> onError, 
     IotHubConnectionString iotHubConnectionString, 
     MqttTransportSettings mqttTransportSettings)
 {
     IWillMessage willMessage = mqttTransportSettings.HasWill ? this.settings.WillMessage : null;
     
     return new MqttIotHubAdapter(
         iotHubConnectionString.DeviceId,
         iotHubConnectionString.HostName,
         mqttTransportSettings.ClientCertificate != null ? null : iotHubConnectionString.GetPassword(),
         mqttTransportSettings,
         willMessage,
         onConnected,
         onMessageReceived,
         onError);
 }
Esempio n. 13
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        public MqttIotHubAdapter Create(
            IMqttIotHubEventHandler mqttIotHubEventHandler,
            IotHubConnectionString iotHubConnectionString,
            MqttTransportSettings mqttTransportSettings,
            ProductInfo productInfo,
            ClientOptions options)
        {
            IWillMessage willMessage = mqttTransportSettings.HasWill ? this.settings.WillMessage : null;

            return(new MqttIotHubAdapter(
                       iotHubConnectionString.DeviceId,
                       iotHubConnectionString.ModuleId,
                       iotHubConnectionString.HostName,
                       mqttTransportSettings.ClientCertificate != null ? null : iotHubConnectionString,
                       mqttTransportSettings,
                       willMessage,
                       mqttIotHubEventHandler,
                       productInfo,
                       options));
        }
        internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            this.DefaultReceiveTimeout = DefaultReceiveTimeoutInSeconds;
            this.connectCompletion = new TaskCompletionSource();
            this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
            this.messageQueue = new ConcurrentQueue<Message>();
            this.completionQueue = new Queue<string>();
            this.serverAddress = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
            var group = new SingleInstanceEventLoopGroup();
            this.qos = settings.PublishToServerQoS;

            this.bootstrap = new Bootstrap()
                .Group(@group)
                .Channel<TcpSocketChannel>()
                .Option(ChannelOption.TcpNodelay, true)
                .Handler(new ActionChannelInitializer<ISocketChannel>(ch =>
                {
                    ch.Pipeline.AddLast(
                        TlsHandler.Client(iotHubConnectionString.HostName, null),
                        MqttEncoder.Instance,
                        new MqttDecoder(false, 256 * 1024),
                        this.mqttIotHubAdapterFactory.Create(
                            this.OnConnected,
                            this.OnMessageReceived,
                            this.OnError, 
                            iotHubConnectionString, 
                            settings));
                }));

            this.ScheduleCleanup(async () =>
            {
                this.connectCompletion.TrySetCanceled();
                await group.ShutdownGracefullyAsync();
            });

        }
Esempio n. 15
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        internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            this.DefaultReceiveTimeout    = DefaultReceiveTimeoutInSeconds;
            this.connectCompletion        = new TaskCompletionSource();
            this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
            this.messageQueue             = new ConcurrentQueue <Message>();
            this.completionQueue          = new Queue <string>();
            this.serverAddress            = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
            var group = new SingleInstanceEventLoopGroup();

            this.qos = settings.PublishToServerQoS;

            this.bootstrap = new Bootstrap()
                             .Group(@group)
                             .Channel <TcpSocketChannel>()
                             .Option(ChannelOption.TcpNodelay, true)
                             .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
            {
                ch.Pipeline.AddLast(
                    TlsHandler.Client(iotHubConnectionString.HostName, null),
                    MqttEncoder.Instance,
                    new MqttDecoder(false, 256 * 1024),
                    this.mqttIotHubAdapterFactory.Create(
                        this.OnConnected,
                        this.OnMessageReceived,
                        this.OnError,
                        iotHubConnectionString,
                        settings));
            }));

            this.ScheduleCleanup(async() =>
            {
                this.connectCompletion.TrySetCanceled();
                await group.ShutdownGracefullyAsync();
            });
        }
        private Func <IPAddress[], int, Task <IChannel> > CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, ProductInfo productInfo)
        {
            return(async(addresses, port) =>
            {
                IChannel channel = null;

                Func <Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);

                var certs = settings.ClientCertificate == null
                    ? new List <X509Certificate>(0)
                    : new List <X509Certificate> {
                    settings.ClientCertificate
                };

                SslProtocols protocols = TlsVersions.Instance.Preferred;
#if NET451
                // Requires hardcoding in NET451 otherwise yields error:
                //    Microsoft.Azure.Devices.Client.Exceptions.IotHubCommunicationException: Transient network error occurred, please retry.
                //    DotNetty.Transport.Channels.ClosedChannelException: I/O error occurred.
                if (settings.GetTransportType() == TransportType.Mqtt_Tcp_Only &&
                    protocols == SslProtocols.None)
                {
                    protocols = TlsVersions.Instance.MinimumTlsVersions;
                }
#endif

                var clientTlsSettings = new ClientTlsSettings(
                    protocols,
                    settings.CertificateRevocationCheck,
                    certs,
                    iotHubConnectionString.HostName);

                Bootstrap bootstrap = new Bootstrap()
                                      .Group(s_eventLoopGroup.Value)
                                      .Channel <TcpSocketChannel>()
                                      .Option(ChannelOption.TcpNodelay, true)
                                      .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                                      .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
                {
                    var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                    ch.Pipeline
                    .AddLast(
                        tlsHandler,
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        new LoggingHandler(LogLevel.DEBUG),
                        this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings, productInfo));
                }));

                foreach (IPAddress address in addresses)
                {
                    try
                    {
                        if (Logging.IsEnabled)
                        {
                            Logging.Info(this, $"Connecting to {address.ToString()}", nameof(CreateChannelFactory));
                        }
                        channel = await bootstrap.ConnectAsync(address, port).ConfigureAwait(true);

                        break;
                    }
                    catch (AggregateException ae)
                    {
                        ae.Handle((ex) =>
                        {
                            if (ex is ConnectException)     // We will handle DotNetty.Transport.Channels.ConnectException
                            {
                                if (Logging.IsEnabled)
                                {
                                    Logging.Error(this, $"ConnectException trying to connect to {address.ToString()}: {ex.ToString()}", nameof(CreateChannelFactory));
                                }
                                return true;
                            }

                            return false; // Let anything else stop the application.
                        });
                    }
                    catch (ConnectException ex)
                    {
                        //same as above, we will handle DotNetty.Transport.Channels.ConnectException
                        if (Logging.IsEnabled)
                        {
                            Logging.Error(this, $"ConnectException trying to connect to {address.ToString()}: {ex.ToString()}", nameof(CreateChannelFactory));
                        }
                    }
                }

                if (channel == null)
                {
                    throw new IotHubCommunicationException("MQTT channel open failed.");
                }
                return channel;
            });
        }
Esempio n. 17
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 internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
     : this(iotHubConnectionString, settings, null)
 {
 }
Esempio n. 18
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        Func <IPAddress, int, Task <IChannel> > CreateWebSocketChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return(async(address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                var websocketUri = new Uri(WebSocketConstants.Scheme + iotHubConnectionString.HostName + ":" + WebSocketConstants.SecurePort + WebSocketConstants.UriSuffix);
                var websocket = new ClientWebSocket();
                websocket.Options.AddSubProtocol(WebSocketConstants.SubProtocols.Mqtt);

                // Check if we're configured to use a proxy server
                IWebProxy webProxy = WebRequest.DefaultWebProxy;
                Uri proxyAddress = webProxy?.GetProxy(websocketUri);
                if (!websocketUri.Equals(proxyAddress))
                {
                    // Configure proxy server
                    websocket.Options.Proxy = webProxy;
                }

                if (settings.ClientCertificate != null)
                {
                    websocket.Options.ClientCertificates.Add(settings.ClientCertificate);
                }
                else
                {
                    websocket.Options.UseDefaultCredentials = true;
                }

                using (var cancellationTokenSource = new CancellationTokenSource(TimeSpan.FromMinutes(1)))
                {
                    await websocket.ConnectAsync(websocketUri, cancellationTokenSource.Token);
                }

                var clientChannel = new ClientWebSocketChannel(null, websocket);
                clientChannel
                .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                .Option(ChannelOption.AutoRead, false)
                .Option(ChannelOption.RcvbufAllocator, new AdaptiveRecvByteBufAllocator())
                .Option(ChannelOption.MessageSizeEstimator, DefaultMessageSizeEstimator.Default)
                .Pipeline.AddLast(
                    MqttEncoder.Instance,
                    new MqttDecoder(false, MaxMessageSize),
                    this.mqttIotHubAdapterFactory.Create(this.OnConnected, this.OnMessageReceived, this.OnError, iotHubConnectionString, settings));
                await eventLoopGroup.GetNext().RegisterAsync(clientChannel);

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return clientChannel;
            });
        }
Esempio n. 19
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        Func <IPAddress, int, Task <IChannel> > CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return((address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                Func <Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);
                var clientTlsSettings = settings.ClientCertificate != null ?
                                        new ClientTlsSettings(iotHubConnectionString.HostName, new List <X509Certificate> {
                    settings.ClientCertificate
                }) :
                                        new ClientTlsSettings(iotHubConnectionString.HostName);
                Bootstrap bootstrap = new Bootstrap()
                                      .Group(eventLoopGroup)
                                      .Channel <TcpSocketChannel>()
                                      .Option(ChannelOption.TcpNodelay, true)
                                      .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                                      .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
                {
                    var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                    ch.Pipeline
                    .AddLast(
                        tlsHandler,
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        this.mqttIotHubAdapterFactory.Create(this.OnConnected, this.OnMessageReceived, this.OnError, iotHubConnectionString, settings));
                }));

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return bootstrap.ConnectAsync(address, port);
            });
        }
Esempio n. 20
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 internal MqttTransportHandler(IPipelineContext context, IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, Func <MethodRequestInternal, Task> onMethodCallback = null)
     : this(context, iotHubConnectionString, settings, null)
 {
     this.messageListener = onMethodCallback;
 }
        Func<IPAddress[], int, Task<IChannel>> CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, ProductInfo productInfo)
        {
            return async (addresses, port) =>
            {
                IChannel channel = null;

                Func<Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);
                var clientTlsSettings = settings.ClientCertificate != null ?
                    new ClientTlsSettings(iotHubConnectionString.HostName, new List<X509Certificate> { settings.ClientCertificate }) :
                    new ClientTlsSettings(iotHubConnectionString.HostName);
                Bootstrap bootstrap = new Bootstrap()
                    .Group(s_eventLoopGroup.Value)
                    .Channel<TcpSocketChannel>()
                    .Option(ChannelOption.TcpNodelay, true)
                    .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                    .Handler(new ActionChannelInitializer<ISocketChannel>(ch =>
                    {
                        var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                        ch.Pipeline
                            .AddLast(
                                tlsHandler,
                                MqttEncoder.Instance,
                                new MqttDecoder(false, MaxMessageSize),
                                new LoggingHandler(LogLevel.DEBUG),
                                this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings, productInfo));
                    }));

                foreach (IPAddress address in addresses)
                {
                    try
                    {
                        if (Logging.IsEnabled) Logging.Info(this, $"Connecting to {address.ToString()}", nameof(CreateChannelFactory));
                        channel = await bootstrap.ConnectAsync(address, port).ConfigureAwait(true);
                        break;
                    }
                    catch (AggregateException ae)
                    {
                        ae.Handle((ex) =>
                        {
                            if (ex is ConnectException)     // We will handle DotNetty.Transport.Channels.ConnectException
                            {
                                if (Logging.IsEnabled) Logging.Error(this, $"ConnectException trying to connect to {address.ToString()}: {ex.ToString()}", nameof(CreateChannelFactory));
                                return true;
                            }

                            return false; // Let anything else stop the application.
                        });
                    }
                    catch (ConnectException ex)
                    {
                        //same as above, we will handle DotNetty.Transport.Channels.ConnectException
                        if (Logging.IsEnabled) Logging.Error(this, $"ConnectException trying to connect to {address.ToString()}: {ex.ToString()}", nameof(CreateChannelFactory));
                    }
                }

                return channel;
            };
        }
        Func <IPAddress, int, Task <IChannel> > CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
#if WINDOWS_UWP
            return(async(address, port) =>
            {
                PlatformProvider.Platform = new UWPPlatform();

                var eventLoopGroup = new MultithreadEventLoopGroup();

                var streamSocket = new StreamSocket();
                await streamSocket.ConnectAsync(new HostName(iotHubConnectionString.HostName), port.ToString(), SocketProtectionLevel.PlainSocket);

                streamSocket.Control.IgnorableServerCertificateErrors.Add(ChainValidationResult.Untrusted);
                await streamSocket.UpgradeToSslAsync(SocketProtectionLevel.Tls12, new HostName(iotHubConnectionString.HostName));

                var streamSocketChannel = new StreamSocketChannel(streamSocket);

                streamSocketChannel.Pipeline.AddLast(
                    MqttEncoder.Instance,
                    new MqttDecoder(false, MaxMessageSize),
                    this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings));

                streamSocketChannel.Configuration.SetOption(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default);

                await eventLoopGroup.GetNext().RegisterAsync(streamSocketChannel);

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return streamSocketChannel;
            });
#else
            return((address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                Func <Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);
                var clientTlsSettings = settings.ClientCertificate != null ?
                                        new ClientTlsSettings(iotHubConnectionString.HostName, new List <X509Certificate> {
                    settings.ClientCertificate
                }) :
                                        new ClientTlsSettings(iotHubConnectionString.HostName);
                Bootstrap bootstrap = new Bootstrap()
                                      .Group(eventLoopGroup)
                                      .Channel <TcpSocketChannel>()
                                      .Option(ChannelOption.TcpNodelay, true)
                                      .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                                      .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
                {
                    var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                    ch.Pipeline
                    .AddLast(
                        tlsHandler,
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings));
                }));

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return bootstrap.ConnectAsync(address, port);
            });
#endif
        }
 public MqttIotHubAdapterFactory(MqttTransportSettings settings)
 {
     this.settings = settings;
 }
Esempio n. 24
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        Func<IPAddress, int, Task<IChannel>> CreateWebSocketChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return async (address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                var websocketUri = new Uri(WebSocketConstants.Scheme + iotHubConnectionString.HostName + ":" + WebSocketConstants.SecurePort + WebSocketConstants.UriSuffix);
                var websocket = new ClientWebSocket();
                websocket.Options.AddSubProtocol(WebSocketConstants.SubProtocols.Mqtt);

                // Check if we're configured to use a proxy server
                IWebProxy webProxy = WebRequest.DefaultWebProxy;
                Uri proxyAddress = webProxy?.GetProxy(websocketUri);
                if (!websocketUri.Equals(proxyAddress))
                {
                    // Configure proxy server
                    websocket.Options.Proxy = webProxy;
                }

                if (settings.ClientCertificate != null)
                {
                    websocket.Options.ClientCertificates.Add(settings.ClientCertificate);
                }
                else
                {
                    websocket.Options.UseDefaultCredentials = true;
                }

                using (var cancellationTokenSource = new CancellationTokenSource(TimeSpan.FromMinutes(1)))
                {
                    await websocket.ConnectAsync(websocketUri, cancellationTokenSource.Token);
                }

                var clientChannel = new ClientWebSocketChannel(null, websocket);
                clientChannel
                    .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                    .Option(ChannelOption.AutoRead, false)
                    .Option(ChannelOption.RcvbufAllocator, new AdaptiveRecvByteBufAllocator())
                    .Option(ChannelOption.MessageSizeEstimator, DefaultMessageSizeEstimator.Default)
                    .Pipeline.AddLast(
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        this.mqttIotHubAdapterFactory.Create(this.OnConnected, this.OnMessageReceived, this.OnError, iotHubConnectionString, settings));
                await eventLoopGroup.GetNext().RegisterAsync(clientChannel);

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return clientChannel;
            };
        }
 internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, Func<IPAddress, int, Task<IChannel>> channelFactory)
     : base(settings)
 {
     this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
     this.messageQueue = new ConcurrentQueue<Message>();
     this.completionQueue = new Queue<string>();
     this.serverAddress = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
     this.qos = settings.PublishToServerQoS;
     this.eventLoopGroupKey = iotHubConnectionString.IotHubName + "#" + iotHubConnectionString.DeviceId + "#" + iotHubConnectionString.Audience;
     this.channelFactory = channelFactory ?? this.CreateChannelFactory(iotHubConnectionString, settings);
     this.closeRetryPolicy = new RetryPolicy(new TransientErrorIgnoreStrategy(), 5, TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1));
 }
 internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
     : this(iotHubConnectionString, settings, null)
 {
 }
        Func<IPAddress, int, Task<IChannel>> CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return (address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                Func<Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);
                ClientTlsSettings clientTlsSettings;
                clientTlsSettings = settings.ClientCertificate != null ? 
                    new ClientTlsSettings(iotHubConnectionString.HostName, new List<X509Certificate> { settings.ClientCertificate }) : 
                    new ClientTlsSettings(iotHubConnectionString.HostName);
                Bootstrap bootstrap = new Bootstrap()
                    .Group(eventLoopGroup)
                    .Channel<TcpSocketChannel>()
                    .Option(ChannelOption.TcpNodelay, true)
                    .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                    .Handler(new ActionChannelInitializer<ISocketChannel>(ch =>
                    {
                        var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                        ch.Pipeline
                            .AddLast(
                                tlsHandler, 
                                MqttEncoder.Instance, 
                                new MqttDecoder(false, 256 * 1024), 
                                this.mqttIotHubAdapterFactory.Create(this.OnConnected, this.OnMessageReceived, this.OnError, iotHubConnectionString, settings));
                    }));

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return bootstrap.ConnectAsync(address, port);
            };
        }
Esempio n. 28
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 public static QualityOfService DeriveQos(Message message, MqttTransportSettings config)
 {
     QualityOfService qos;
     string qosValue;
     if (message.Properties.TryGetValue(config.QoSPropertyName, out qosValue))
     {
         int qosAsInt;
         if (int.TryParse(qosValue, out qosAsInt))
         {
             qos = (QualityOfService)qosAsInt;
             if (qos > QualityOfService.ExactlyOnce)
             {
                 qos = config.PublishToServerQoS;
             }
         }
         else
         {
             qos = config.PublishToServerQoS;
         }
     }
     else
     {
         qos = config.PublishToServerQoS;
     }
     return qos;
 }
Esempio n. 29
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        internal MqttTransportHandler(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, Func<IPAddress, int, Task<IChannel>> channelFactory)
            : base(settings)
        {
            this.mqttIotHubAdapterFactory = new MqttIotHubAdapterFactory(settings);
            this.messageQueue = new ConcurrentQueue<Message>();
            this.completionQueue = new Queue<string>();
            this.serverAddress = Dns.GetHostEntry(iotHubConnectionString.HostName).AddressList[0];
            this.qos = settings.PublishToServerQoS;
            this.eventLoopGroupKey = iotHubConnectionString.IotHubName + "#" + iotHubConnectionString.DeviceId + "#" + iotHubConnectionString.Audience;

            if (channelFactory == null)
            {
                switch (settings.GetTransportType())
                {
                    case TransportType.Mqtt_Tcp_Only:
                        this.channelFactory = this.CreateChannelFactory(iotHubConnectionString, settings);
                        break;
                    case TransportType.Mqtt_WebSocket_Only:
                        this.channelFactory = this.CreateWebSocketChannelFactory(iotHubConnectionString, settings);
                        break;
                    default:
                        throw new InvalidOperationException("Unsupported Transport Setting {0}".FormatInvariant(settings.GetTransportType()));
                }
            }
            else
            {
                this.channelFactory = channelFactory;
            }

            this.closeRetryPolicy = new RetryPolicy(new TransientErrorIgnoreStrategy(), 5, TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1));
        }
        Func <IPAddress, int, Task <IChannel> > CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return((address, port) =>
            {
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);
                Bootstrap bootstrap = new Bootstrap()
                                      .Group(eventLoopGroup)
                                      .Channel <TcpSocketChannel>()
                                      .Option(ChannelOption.TcpNodelay, true)
                                      .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                                      .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
                {
                    ch.Pipeline
                    .AddLast(
                        TlsHandler.Client(iotHubConnectionString.HostName),
                        MqttEncoder.Instance,
                        new MqttDecoder(false, 256 * 1024),
                        this.mqttIotHubAdapterFactory.Create(this.OnConnected, this.OnMessageReceived, this.OnError, iotHubConnectionString, settings));
                }));

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return bootstrap.ConnectAsync(address, port);
            });
        }
Esempio n. 31
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        Func <IPAddress[], int, Task <IChannel> > CreateChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, ProductInfo productInfo)
        {
            return(async(addresses, port) =>
            {
                IChannel channel = null;

                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                Func <Stream, SslStream> streamFactory = stream => new SslStream(stream, true, settings.RemoteCertificateValidationCallback);
                var clientTlsSettings = settings.ClientCertificate != null ?
                                        new ClientTlsSettings(iotHubConnectionString.HostName, new List <X509Certificate> {
                    settings.ClientCertificate
                }) :
                                        new ClientTlsSettings(iotHubConnectionString.HostName);
                Bootstrap bootstrap = new Bootstrap()
                                      .Group(eventLoopGroup)
                                      .Channel <TcpSocketChannel>()
                                      .Option(ChannelOption.TcpNodelay, true)
                                      .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                                      .Handler(new ActionChannelInitializer <ISocketChannel>(ch =>
                {
                    var tlsHandler = new TlsHandler(streamFactory, clientTlsSettings);

                    ch.Pipeline
                    .AddLast(
                        tlsHandler,
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings, productInfo));
                }));

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                foreach (IPAddress address in addresses)
                {
                    try
                    {
                        Debug.WriteLine("Connecting to {0}.", address.ToString());
                        channel = await bootstrap.ConnectAsync(address, port).ConfigureAwait(false);

                        break;
                    }
                    catch (AggregateException ae)
                    {
                        ae.Handle((ex) =>
                        {
                            if (ex is ConnectException)     // We will handle DotNetty.Transport.Channels.ConnectException
                            {
                                Debug.WriteLine("ConnectException trying to connect to {0}: {1}", address.ToString(), ex.ToString());
                                return true;
                            }

                            return false; // Let anything else stop the application.
                        });
                    }
                }

                return channel;
            });
        }
        Func<IPAddress[], int, Task<IChannel>> CreateWebSocketChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings, ProductInfo productInfo)
        {
            return async (address, port) =>
            {
                string additionalQueryParams = "";
#if NETSTANDARD1_3
                // NETSTANDARD1_3 implementation doesn't set client certs, so we want to tell the IoT Hub to not ask for them
                additionalQueryParams = "?iothub-no-client-cert=true";
#endif

                var websocketUri = new Uri(WebSocketConstants.Scheme + iotHubConnectionString.HostName + ":" + WebSocketConstants.SecurePort + WebSocketConstants.UriSuffix + additionalQueryParams);
                var websocket = new ClientWebSocket();
                websocket.Options.AddSubProtocol(WebSocketConstants.SubProtocols.Mqtt);

                // Check if we're configured to use a proxy server
                IWebProxy webProxy = settings.Proxy;

                try
                {
                    if (webProxy != DefaultWebProxySettings.Instance)
                    {
                        // Configure proxy server
                        websocket.Options.Proxy = webProxy;
                        if (Logging.IsEnabled)
                        {
                            Logging.Info(this, $"{nameof(CreateWebSocketChannelFactory)} Setting ClientWebSocket.Options.Proxy");
                        }
                    }
                }
                catch (PlatformNotSupportedException)
                {
                    // .NET Core 2.0 doesn't support proxy. Ignore this setting.
                    if (Logging.IsEnabled)
                    {
                        Logging.Error(this, $"{nameof(CreateWebSocketChannelFactory)} PlatformNotSupportedException thrown as .NET Core 2.0 doesn't support proxy");
                    }
                }

                if (settings.ClientCertificate != null)
                {
                    websocket.Options.ClientCertificates.Add(settings.ClientCertificate);
                }

                using (var cancellationTokenSource = new CancellationTokenSource(TimeSpan.FromMinutes(1)))
                {
                    await websocket.ConnectAsync(websocketUri, cancellationTokenSource.Token).ConfigureAwait(true);
                }

                var clientChannel = new ClientWebSocketChannel(null, websocket);
                clientChannel
                    .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                    .Option(ChannelOption.AutoRead, false)
                    .Option(ChannelOption.RcvbufAllocator, new AdaptiveRecvByteBufAllocator())
                    .Option(ChannelOption.MessageSizeEstimator, DefaultMessageSizeEstimator.Default)
                    .Pipeline.AddLast(
                        MqttEncoder.Instance,
                        new MqttDecoder(false, MaxMessageSize),
                        new LoggingHandler(LogLevel.DEBUG),
                        this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings, productInfo));

                await s_eventLoopGroup.Value.RegisterAsync(clientChannel).ConfigureAwait(false);

                return clientChannel;
            };
        }
Esempio n. 33
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        public static Message CompleteMessageFromPacket(Message message, PublishPacket packet, MqttTransportSettings mqttTransportSettings)
        {
            message.MessageId = Guid.NewGuid().ToString("N");
            if (packet.RetainRequested)
            {
                message.Properties[mqttTransportSettings.RetainPropertyName] = IotHubTrueString;
            }
            if (packet.Duplicate)
            {
                message.Properties[mqttTransportSettings.DupPropertyName] = IotHubTrueString;
            }

            return message;
        }
        Func <IPAddress, int, Task <IChannel> > CreateWebSocketChannelFactory(IotHubConnectionString iotHubConnectionString, MqttTransportSettings settings)
        {
            return(async(address, port) =>
            {
                string additionalQueryParams = "";
#if WINDOWS_UWP || NETSTANDARD1_3
                // UWP and NETSTANDARD1_3 implementation doesn't set client certs, so we want to tell the IoT Hub to not ask for them
                additionalQueryParams = "?iothub-no-client-cert=true";
#endif
                IEventLoopGroup eventLoopGroup = EventLoopGroupPool.TakeOrAdd(this.eventLoopGroupKey);

                var websocketUri = new Uri(WebSocketConstants.Scheme + iotHubConnectionString.HostName + ":" + WebSocketConstants.SecurePort + WebSocketConstants.UriSuffix + additionalQueryParams);
                var websocket = new ClientWebSocket();
                websocket.Options.AddSubProtocol(WebSocketConstants.SubProtocols.Mqtt);

#if !WINDOWS_UWP // UWP does not support proxies
                // Check if we're configured to use a proxy server
                IWebProxy webProxy = WebRequest.DefaultWebProxy;
                Uri proxyAddress = null;
#if !NETSTANDARD1_3
                proxyAddress = webProxy?.GetProxy(websocketUri);
#endif
                if (!websocketUri.Equals(proxyAddress))
                {
                    // Configure proxy server
                    websocket.Options.Proxy = webProxy;
                }
#endif

                if (settings.ClientCertificate != null)
                {
                    websocket.Options.ClientCertificates.Add(settings.ClientCertificate);
                }
#if !WINDOWS_UWP && !NETSTANDARD1_3 // UseDefaultCredentials is not in UWP and NetStandard
                else
                {
                    websocket.Options.UseDefaultCredentials = true;
                }
#endif

                using (var cancellationTokenSource = new CancellationTokenSource(TimeSpan.FromMinutes(1)))
                {
                    await websocket.ConnectAsync(websocketUri, cancellationTokenSource.Token);
                }

#if WINDOWS_UWP
                PlatformProvider.Platform = new UWPPlatform();
#endif
                var clientChannel = new ClientWebSocketChannel(null, websocket);
                clientChannel
                .Option(ChannelOption.Allocator, UnpooledByteBufferAllocator.Default)
                .Option(ChannelOption.AutoRead, false)
                .Option(ChannelOption.RcvbufAllocator, new AdaptiveRecvByteBufAllocator())
                .Option(ChannelOption.MessageSizeEstimator, DefaultMessageSizeEstimator.Default)
                .Pipeline.AddLast(
                    MqttEncoder.Instance,
                    new MqttDecoder(false, MaxMessageSize),
                    this.mqttIotHubAdapterFactory.Create(this, iotHubConnectionString, settings));
                await eventLoopGroup.GetNext().RegisterAsync(clientChannel);

                this.ScheduleCleanup(() =>
                {
                    EventLoopGroupPool.Release(this.eventLoopGroupKey);
                    return TaskConstants.Completed;
                });

                return clientChannel;
            });
        }
Esempio n. 35
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        public static Message CompleteMessageFromPacket(Message message, PublishPacket packet, MqttTransportSettings mqttTransportSettings)
        {
            message.MessageId = Guid.NewGuid().ToString("N");
            if (packet.RetainRequested)
            {
                message.Properties[mqttTransportSettings.RetainPropertyName] = IotHubTrueString;
            }
            if (packet.Duplicate)
            {
                message.Properties[mqttTransportSettings.DupPropertyName] = IotHubTrueString;
            }

            return(message);
        }
Esempio n. 36
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 public MqttIotHubAdapterFactory(MqttTransportSettings settings)
 {
     this.settings = settings;
 }
 public void TransportSettingsTest_TransportType_Mqtt_WebSocket_Only()
 {
     var transportSetting = new MqttTransportSettings(TransportType.Mqtt_WebSocket_Only);
     Assert.IsTrue(transportSetting.GetTransportType() == TransportType.Mqtt_WebSocket_Only, "Should be TransportType.Mqtt_WebSocket_Only");
 }