using System; using System.Collections.Generic; using System.Linq; using System.Threading; using System.Threading.Tasks; using MQTTnet.Adapter; using MQTTnet.Diagnostics; using MQTTnet.Exceptions; using MQTTnet.Internal; using MQTTnet.Packets; using MQTTnet.Protocol; namespace MQTTnet.Client { public class MqttClient : IMqttClient { private readonly IMqttClientAdapterFactory _adapterFactory; private readonly MqttPacketDispatcher _packetDispatcher; private readonly IMqttNetLogger _logger; private IMqttClientOptions _options; private bool _isReceivingPackets; private int _latestPacketIdentifier; private CancellationTokenSource _cancellationTokenSource; private IMqttChannelAdapter _adapter; public MqttClient(IMqttClientAdapterFactory channelFactory, IMqttNetLogger logger) { _adapterFactory = channelFactory ?? throw new ArgumentNullException(nameof(channelFactory)); _logger = logger ?? throw new ArgumentNullException(nameof(logger)); _packetDispatcher = new MqttPacketDispatcher(logger); } public event EventHandler Connected; public event EventHandler Disconnected; public event EventHandler ApplicationMessageReceived; public bool IsConnected { get; private set; } public async Task ConnectAsync(IMqttClientOptions options) { if (options == null) throw new ArgumentNullException(nameof(options)); if (options.ChannelOptions == null) throw new ArgumentException("ChannelOptions are not set."); ThrowIfConnected("It is not allowed to connect with a server after the connection is established."); try { _options = options; _cancellationTokenSource = new CancellationTokenSource(); _latestPacketIdentifier = 0; _packetDispatcher.Reset(); _adapter = _adapterFactory.CreateClientAdapter(options.ChannelOptions, _logger); _logger.Trace("Trying to connect with server."); await _adapter.ConnectAsync(_options.CommunicationTimeout).ConfigureAwait(false); _logger.Trace("Connection with server established."); await StartReceivingPacketsAsync(_cancellationTokenSource.Token).ConfigureAwait(false); var connectResponse = await AuthenticateAsync(options.WillMessage).ConfigureAwait(false); _logger.Trace("MQTT connection with server established."); if (_options.KeepAlivePeriod != TimeSpan.Zero) { StartSendingKeepAliveMessages(_cancellationTokenSource.Token); } IsConnected = true; Connected?.Invoke(this, new MqttClientConnectedEventArgs(connectResponse.IsSessionPresent)); return new MqttClientConnectResult(connectResponse.IsSessionPresent); } catch (Exception exception) { _logger.Error(exception, "Error while connecting with server."); await DisconnectInternalAsync(exception).ConfigureAwait(false); throw; } } public async Task DisconnectAsync() { if (!IsConnected) { return; } try { await SendAsync(new MqttDisconnectPacket()).ConfigureAwait(false); } finally { await DisconnectInternalAsync(null).ConfigureAwait(false); } } public async Task> SubscribeAsync(IEnumerable topicFilters) { if (topicFilters == null) throw new ArgumentNullException(nameof(topicFilters)); ThrowIfNotConnected(); var subscribePacket = new MqttSubscribePacket { PacketIdentifier = GetNewPacketIdentifier(), TopicFilters = topicFilters.ToList() }; var response = await SendAndReceiveAsync(subscribePacket).ConfigureAwait(false); if (response.SubscribeReturnCodes.Count != subscribePacket.TopicFilters.Count) { throw new MqttProtocolViolationException("The return codes are not matching the topic filters [MQTT-3.9.3-1]."); } return subscribePacket.TopicFilters.Select((t, i) => new MqttSubscribeResult(t, response.SubscribeReturnCodes[i])).ToList(); } public async Task UnsubscribeAsync(IEnumerable topicFilters) { if (topicFilters == null) throw new ArgumentNullException(nameof(topicFilters)); ThrowIfNotConnected(); var unsubscribePacket = new MqttUnsubscribePacket { PacketIdentifier = GetNewPacketIdentifier(), TopicFilters = topicFilters.ToList() }; await SendAndReceiveAsync(unsubscribePacket).ConfigureAwait(false); } public async Task PublishAsync(IEnumerable applicationMessages) { ThrowIfNotConnected(); var publishPackets = applicationMessages.Select(m => m.ToPublishPacket()); var packetGroups = publishPackets.GroupBy(p => p.QualityOfServiceLevel).OrderBy(g => g.Key); foreach (var qosGroup in packetGroups) { switch (qosGroup.Key) { case MqttQualityOfServiceLevel.AtMostOnce: { // No packet identifier is used for QoS 0 [3.3.2.2 Packet Identifier] await _adapter.SendPacketsAsync(_options.CommunicationTimeout, _cancellationTokenSource.Token, qosGroup).ConfigureAwait(false); break; } case MqttQualityOfServiceLevel.AtLeastOnce: { foreach (var publishPacket in qosGroup) { publishPacket.PacketIdentifier = GetNewPacketIdentifier(); await SendAndReceiveAsync(publishPacket).ConfigureAwait(false); } break; } case MqttQualityOfServiceLevel.ExactlyOnce: { foreach (var publishPacket in qosGroup) { publishPacket.PacketIdentifier = GetNewPacketIdentifier(); var pubRecPacket = await SendAndReceiveAsync(publishPacket).ConfigureAwait(false); await SendAndReceiveAsync(pubRecPacket.CreateResponse()).ConfigureAwait(false); } break; } default: { throw new InvalidOperationException(); } } } } public void Dispose() { _cancellationTokenSource?.Dispose(); } private async Task AuthenticateAsync(MqttApplicationMessage willApplicationMessage) { var connectPacket = new MqttConnectPacket { ClientId = _options.ClientId, Username = _options.Credentials?.Username, Password = _options.Credentials?.Password, CleanSession = _options.CleanSession, KeepAlivePeriod = (ushort)_options.KeepAlivePeriod.TotalSeconds, WillMessage = willApplicationMessage }; var response = await SendAndReceiveAsync(connectPacket).ConfigureAwait(false); if (response.ConnectReturnCode != MqttConnectReturnCode.ConnectionAccepted) { throw new MqttConnectingFailedException(response.ConnectReturnCode); } return response; } private void ThrowIfNotConnected() { if (!IsConnected) throw new MqttCommunicationException("The client is not connected."); } private void ThrowIfConnected(string message) { if (IsConnected) throw new MqttProtocolViolationException(message); } private async Task DisconnectInternalAsync(Exception exception) { var clientWasConnected = IsConnected; IsConnected = false; var cts = _cancellationTokenSource; if (cts == null || cts.IsCancellationRequested) { return; } cts.Cancel(false); cts.Dispose(); _cancellationTokenSource = null; try { await _adapter.DisconnectAsync(_options.CommunicationTimeout).ConfigureAwait(false); _logger.Info("Disconnected from adapter."); } catch (Exception adapterException) { _logger.Warning(adapterException, "Error while disconnecting from adapter."); } finally { _logger.Info("Disconnected."); Disconnected?.Invoke(this, new MqttClientDisconnectedEventArgs(clientWasConnected, exception)); } } private async Task ProcessReceivedPacketAsync(MqttBasePacket packet) { try { _logger.Info("Received <<< {0}", packet); if (packet is MqttPublishPacket publishPacket) { await ProcessReceivedPublishPacketAsync(publishPacket).ConfigureAwait(false); return; } if (packet is MqttPingReqPacket) { await SendAsync(new MqttPingRespPacket()).ConfigureAwait(false); return; } if (packet is MqttDisconnectPacket) { await DisconnectAsync().ConfigureAwait(false); return; } if (packet is MqttPubRelPacket pubRelPacket) { await ProcessReceivedPubRelPacket(pubRelPacket).ConfigureAwait(false); return; } _packetDispatcher.Dispatch(packet); } catch (Exception exception) { _logger.Error(exception, "Unhandled exception while processing received packet."); } } private void FireApplicationMessageReceivedEvent(MqttPublishPacket publishPacket) { try { var applicationMessage = publishPacket.ToApplicationMessage(); ApplicationMessageReceived?.Invoke(this, new MqttApplicationMessageReceivedEventArgs(_options.ClientId, applicationMessage)); } catch (Exception exception) { _logger.Error(exception, "Unhandled exception while handling application message."); } } private Task ProcessReceivedPublishPacketAsync(MqttPublishPacket publishPacket) { if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtMostOnce) { FireApplicationMessageReceivedEvent(publishPacket); return Task.FromResult(0); } if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.AtLeastOnce) { FireApplicationMessageReceivedEvent(publishPacket); return SendAsync(new MqttPubAckPacket { PacketIdentifier = publishPacket.PacketIdentifier }); } if (publishPacket.QualityOfServiceLevel == MqttQualityOfServiceLevel.ExactlyOnce) { // QoS 2 is implement as method "B" [4.3.3 QoS 2: Exactly once delivery] FireApplicationMessageReceivedEvent(publishPacket); return SendAsync(new MqttPubRecPacket { PacketIdentifier = publishPacket.PacketIdentifier }); } throw new MqttCommunicationException("Received a not supported QoS level."); } private Task ProcessReceivedPubRelPacket(MqttPubRelPacket pubRelPacket) { return SendAsync(pubRelPacket.CreateResponse()); } private Task SendAsync(MqttBasePacket packet) { return _adapter.SendPacketsAsync(_options.CommunicationTimeout, _cancellationTokenSource.Token, packet); } private async Task SendAndReceiveAsync(MqttBasePacket requestPacket) where TResponsePacket : MqttBasePacket { var packetAwaiter = _packetDispatcher.WaitForPacketAsync(requestPacket, typeof(TResponsePacket), _options.CommunicationTimeout); await _adapter.SendPacketsAsync(_options.CommunicationTimeout, _cancellationTokenSource.Token, requestPacket).ConfigureAwait(false); return (TResponsePacket)await packetAwaiter.ConfigureAwait(false); } private ushort GetNewPacketIdentifier() { return (ushort)Interlocked.Increment(ref _latestPacketIdentifier); } private async Task SendKeepAliveMessagesAsync(CancellationToken cancellationToken) { _logger.Info("Start sending keep alive packets."); try { while (!cancellationToken.IsCancellationRequested) { await SendAndReceiveAsync(new MqttPingReqPacket()).ConfigureAwait(false); await Task.Delay(_options.KeepAlivePeriod, cancellationToken).ConfigureAwait(false); } } catch (OperationCanceledException) { if (cancellationToken.IsCancellationRequested) { return; } await DisconnectInternalAsync(null).ConfigureAwait(false); } catch (MqttCommunicationException exception) { if (cancellationToken.IsCancellationRequested) { return; } _logger.Warning(exception, "MQTT communication exception while sending/receiving keep alive packets."); await DisconnectInternalAsync(exception).ConfigureAwait(false); } catch (Exception exception) { _logger.Warning(exception, "Unhandled exception while sending/receiving keep alive packets."); await DisconnectInternalAsync(exception).ConfigureAwait(false); } finally { _logger.Info("Stopped sending keep alive packets."); } } private async Task ReceivePacketsAsync(CancellationToken cancellationToken) { _logger.Info("Start receiving packets."); try { while (!cancellationToken.IsCancellationRequested) { _isReceivingPackets = true; var packet = await _adapter.ReceivePacketAsync(TimeSpan.Zero, cancellationToken).ConfigureAwait(false); if (cancellationToken.IsCancellationRequested) { return; } StartProcessReceivedPacket(packet, cancellationToken); } } catch (OperationCanceledException) { if (cancellationToken.IsCancellationRequested) { return; } await DisconnectInternalAsync(null).ConfigureAwait(false); } catch (MqttCommunicationException exception) { if (cancellationToken.IsCancellationRequested) { return; } _logger.Warning(exception, "MQTT communication exception while receiving packets."); await DisconnectInternalAsync(exception).ConfigureAwait(false); } catch (Exception exception) { _logger.Error(exception, "Unhandled exception while receiving packets."); await DisconnectInternalAsync(exception).ConfigureAwait(false); } finally { _logger.Info("Stopped receiving packets."); } } private void StartProcessReceivedPacket(MqttBasePacket packet, CancellationToken cancellationToken) { #pragma warning disable CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed Task.Run( async () => await ProcessReceivedPacketAsync(packet).ConfigureAwait(false), cancellationToken).ConfigureAwait(false); #pragma warning restore CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed } private async Task StartReceivingPacketsAsync(CancellationToken cancellationToken) { _isReceivingPackets = false; #pragma warning disable CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed Task.Run( async () => await ReceivePacketsAsync(cancellationToken).ConfigureAwait(false), cancellationToken).ConfigureAwait(false); #pragma warning restore CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed while (!_isReceivingPackets && !cancellationToken.IsCancellationRequested) { await Task.Delay(TimeSpan.FromMilliseconds(100), cancellationToken).ConfigureAwait(false); } } private void StartSendingKeepAliveMessages(CancellationToken cancellationToken) { #pragma warning disable CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed Task.Run( async () => await SendKeepAliveMessagesAsync(cancellationToken).ConfigureAwait(false), cancellationToken).ConfigureAwait(false); #pragma warning restore CS4014 // Because this call is not awaited, execution of the current method continues before the call is completed } } }