using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Text; using MQTTnet.Core.Adapter; using MQTTnet.Core.Exceptions; using MQTTnet.Core.Packets; using MQTTnet.Core.Protocol; namespace MQTTnet.Core.Serializer { public sealed class MqttPacketSerializer : IMqttPacketSerializer { private static byte[] ProtocolVersionV311Name { get; } = Encoding.UTF8.GetBytes("MQTT"); private static byte[] ProtocolVersionV310Name { get; } = Encoding.UTF8.GetBytes("MQIs"); public MqttProtocolVersion ProtocolVersion { get; set; } = MqttProtocolVersion.V311; public byte[] Serialize(MqttBasePacket packet) { if (packet == null) throw new ArgumentNullException(nameof(packet)); using (var stream = new MemoryStream()) using (var writer = new MqttPacketWriter(stream)) { var header = new List { SerializePacket(packet, writer) }; var body = stream.ToArray(); MqttPacketWriter.BuildLengthHeader(body.Length, header); var headerArray = header.ToArray(); var writeBuffer = new byte[header.Count + body.Length]; Buffer.BlockCopy(headerArray, 0, writeBuffer, 0, headerArray.Length); Buffer.BlockCopy(body, 0, writeBuffer, headerArray.Length, body.Length); return writeBuffer; } } public MqttBasePacket Deserialize(ReceivedMqttPacket receivedMqttPacket) { if (receivedMqttPacket == null) throw new ArgumentNullException(nameof(receivedMqttPacket)); using (var reader = new MqttPacketReader(receivedMqttPacket)) { return Deserialize(receivedMqttPacket.Header, reader); } } private byte SerializePacket(MqttBasePacket packet, MqttPacketWriter writer) { switch (packet) { case MqttConnectPacket connectPacket: return Serialize(connectPacket, writer); case MqttConnAckPacket connAckPacket: return Serialize(connAckPacket, writer); case MqttDisconnectPacket _: return SerializeEmptyPacket(MqttControlPacketType.Disconnect); case MqttPingReqPacket _: return SerializeEmptyPacket(MqttControlPacketType.PingReq); case MqttPingRespPacket _: return SerializeEmptyPacket(MqttControlPacketType.PingResp); case MqttPublishPacket publishPacket: return Serialize(publishPacket, writer); case MqttPubAckPacket pubAckPacket: return Serialize(pubAckPacket, writer); case MqttPubRecPacket pubRecPacket: return Serialize(pubRecPacket, writer); case MqttPubRelPacket pubRelPacket: return Serialize(pubRelPacket, writer); case MqttPubCompPacket pubCompPacket: return Serialize(pubCompPacket, writer); case MqttSubscribePacket subscribePacket: return Serialize(subscribePacket, writer); case MqttSubAckPacket subAckPacket: return Serialize(subAckPacket, writer); case MqttUnsubscribePacket unsubscribePacket: return Serialize(unsubscribePacket, writer); case MqttUnsubAckPacket unsubAckPacket: return Serialize(unsubAckPacket, writer); default: throw new MqttProtocolViolationException("Packet type invalid."); } } private static MqttBasePacket Deserialize(MqttPacketHeader header, MqttPacketReader reader) { switch (header.ControlPacketType) { case MqttControlPacketType.Connect: return DeserializeConnect(reader); case MqttControlPacketType.ConnAck: return DeserializeConnAck(reader); case MqttControlPacketType.Disconnect: return new MqttDisconnectPacket(); case MqttControlPacketType.Publish: return DeserializePublish(reader, header); case MqttControlPacketType.PubAck: return DeserializePubAck(reader); case MqttControlPacketType.PubRec: return DeserializePubRec(reader); case MqttControlPacketType.PubRel: return DeserializePubRel(reader); case MqttControlPacketType.PubComp: return DeserializePubComp(reader); case MqttControlPacketType.PingReq: return new MqttPingReqPacket(); case MqttControlPacketType.PingResp: return new MqttPingRespPacket(); case MqttControlPacketType.Subscribe: return DeserializeSubscribe(reader); case MqttControlPacketType.SubAck: return DeserializeSubAck(reader); case MqttControlPacketType.Unsubscibe: return DeserializeUnsubscribe(reader); case MqttControlPacketType.UnsubAck: return DeserializeUnsubAck(reader); default: throw new MqttProtocolViolationException($"Packet type ({(int)header.ControlPacketType}) not supported."); } } private static MqttBasePacket DeserializeUnsubAck(MqttPacketReader reader) { return new MqttUnsubAckPacket { PacketIdentifier = reader.ReadUInt16() }; } private static MqttBasePacket DeserializePubComp(MqttPacketReader reader) { return new MqttPubCompPacket { PacketIdentifier = reader.ReadUInt16() }; } private static MqttBasePacket DeserializePubRel(MqttPacketReader reader) { return new MqttPubRelPacket { PacketIdentifier = reader.ReadUInt16() }; } private static MqttBasePacket DeserializePubRec(MqttPacketReader reader) { return new MqttPubRecPacket { PacketIdentifier = reader.ReadUInt16() }; } private static MqttBasePacket DeserializePubAck(MqttPacketReader reader) { return new MqttPubAckPacket { PacketIdentifier = reader.ReadUInt16() }; } private static MqttBasePacket DeserializeUnsubscribe(MqttPacketReader reader) { var packet = new MqttUnsubscribePacket { PacketIdentifier = reader.ReadUInt16(), }; while (!reader.EndOfRemainingData) { packet.TopicFilters.Add(reader.ReadStringWithLengthPrefix()); } return packet; } private static MqttBasePacket DeserializeSubscribe(MqttPacketReader reader) { var packet = new MqttSubscribePacket { PacketIdentifier = reader.ReadUInt16() }; while (!reader.EndOfRemainingData) { packet.TopicFilters.Add(new TopicFilter( reader.ReadStringWithLengthPrefix(), (MqttQualityOfServiceLevel)reader.ReadByte())); } return packet; } private static MqttBasePacket DeserializePublish(MqttPacketReader reader, MqttPacketHeader mqttPacketHeader) { var fixedHeader = new ByteReader(mqttPacketHeader.FixedHeader); var retain = fixedHeader.Read(); var qualityOfServiceLevel = (MqttQualityOfServiceLevel)fixedHeader.Read(2); var dup = fixedHeader.Read(); var topic = reader.ReadStringWithLengthPrefix(); ushort packetIdentifier = 0; if (qualityOfServiceLevel > MqttQualityOfServiceLevel.AtMostOnce) { packetIdentifier = reader.ReadUInt16(); } var packet = new MqttPublishPacket { Retain = retain, QualityOfServiceLevel = qualityOfServiceLevel, Dup = dup, Topic = topic, Payload = reader.ReadRemainingData(), PacketIdentifier = packetIdentifier }; return packet; } private static MqttBasePacket DeserializeConnect(MqttPacketReader reader) { reader.ReadBytes(2); // Skip 2 bytes MqttProtocolVersion protocolVersion; var protocolName = reader.ReadBytes(4); if (protocolName.SequenceEqual(ProtocolVersionV310Name)) { reader.ReadBytes(2); protocolVersion = MqttProtocolVersion.V310; } else if (protocolName.SequenceEqual(ProtocolVersionV311Name)) { protocolVersion = MqttProtocolVersion.V311; } else { throw new MqttProtocolViolationException("Protocol name is not supported."); } reader.ReadByte(); // Skip protocol level var connectFlags = reader.ReadByte(); var connectFlagsReader = new ByteReader(connectFlags); connectFlagsReader.Read(); // Reserved. var packet = new MqttConnectPacket { ProtocolVersion = protocolVersion, CleanSession = connectFlagsReader.Read() }; var willFlag = connectFlagsReader.Read(); var willQoS = connectFlagsReader.Read(2); var willRetain = connectFlagsReader.Read(); var passwordFlag = connectFlagsReader.Read(); var usernameFlag = connectFlagsReader.Read(); packet.KeepAlivePeriod = reader.ReadUInt16(); packet.ClientId = reader.ReadStringWithLengthPrefix(); if (willFlag) { packet.WillMessage = new MqttApplicationMessage { Topic = reader.ReadStringWithLengthPrefix(), Payload = reader.ReadWithLengthPrefix(), QualityOfServiceLevel = (MqttQualityOfServiceLevel)willQoS, Retain = willRetain }; } if (usernameFlag) { packet.Username = reader.ReadStringWithLengthPrefix(); } if (passwordFlag) { packet.Password = reader.ReadStringWithLengthPrefix(); } ValidateConnectPacket(packet); return packet; } private static MqttBasePacket DeserializeSubAck(MqttPacketReader reader) { var packet = new MqttSubAckPacket { PacketIdentifier = reader.ReadUInt16() }; while (!reader.EndOfRemainingData) { packet.SubscribeReturnCodes.Add((MqttSubscribeReturnCode)reader.ReadByte()); } return packet; } private static MqttBasePacket DeserializeConnAck(MqttPacketReader reader) { var variableHeader1 = reader.ReadByte(); var variableHeader2 = reader.ReadByte(); var packet = new MqttConnAckPacket { IsSessionPresent = new ByteReader(variableHeader1).Read(), ConnectReturnCode = (MqttConnectReturnCode)variableHeader2 }; return packet; } private static void ValidateConnectPacket(MqttConnectPacket packet) { if (packet == null) throw new ArgumentNullException(nameof(packet)); if (string.IsNullOrEmpty(packet.ClientId) && !packet.CleanSession) { throw new MqttProtocolViolationException("CleanSession must be set if ClientId is empty [MQTT-3.1.3-7]."); } } private static void ValidatePublishPacket(MqttPublishPacket packet) { if (packet == null) throw new ArgumentNullException(nameof(packet)); if (packet.QualityOfServiceLevel == 0 && packet.Dup) { throw new MqttProtocolViolationException("Dup flag must be false for QoS 0 packets [MQTT-3.3.1-2]."); } } private byte Serialize(MqttConnectPacket packet, MqttPacketWriter writer) { ValidateConnectPacket(packet); // Write variable header writer.Write(0x00, 0x04); // 3.1.2.1 Protocol Name if (ProtocolVersion == MqttProtocolVersion.V311) { writer.Write(ProtocolVersionV311Name); writer.Write(0x04); // 3.1.2.2 Protocol Level (4) } else { writer.Write(ProtocolVersionV310Name); writer.Write(0x64, 0x70, 0x03); // Protocol Level (0x03) } var connectFlags = new ByteWriter(); // 3.1.2.3 Connect Flags connectFlags.Write(false); // Reserved connectFlags.Write(packet.CleanSession); connectFlags.Write(packet.WillMessage != null); if (packet.WillMessage != null) { connectFlags.Write((int)packet.WillMessage.QualityOfServiceLevel, 2); connectFlags.Write(packet.WillMessage.Retain); } else { connectFlags.Write(0, 2); connectFlags.Write(false); } connectFlags.Write(packet.Password != null); connectFlags.Write(packet.Username != null); writer.Write(connectFlags); writer.Write(packet.KeepAlivePeriod); writer.WriteWithLengthPrefix(packet.ClientId); if (packet.WillMessage != null) { writer.WriteWithLengthPrefix(packet.WillMessage.Topic); writer.WriteWithLengthPrefix(packet.WillMessage.Payload); } if (packet.Username != null) { writer.WriteWithLengthPrefix(packet.Username); } if (packet.Password != null) { writer.WriteWithLengthPrefix(packet.Password); } return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.Connect); } private byte Serialize(MqttConnAckPacket packet, MqttPacketWriter writer) { var connectAcknowledgeFlags = new ByteWriter(); if (ProtocolVersion == MqttProtocolVersion.V311) { connectAcknowledgeFlags.Write(packet.IsSessionPresent); } writer.Write(connectAcknowledgeFlags); writer.Write((byte)packet.ConnectReturnCode); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.ConnAck); } private static byte Serialize(MqttPubRelPacket packet, MqttPacketWriter writer) { writer.Write(packet.PacketIdentifier); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.PubRel, 0x02); } private static byte Serialize(MqttPublishPacket packet, MqttPacketWriter writer) { ValidatePublishPacket(packet); writer.WriteWithLengthPrefix(packet.Topic); if (packet.QualityOfServiceLevel > MqttQualityOfServiceLevel.AtMostOnce) { writer.Write(packet.PacketIdentifier); } else { if (packet.PacketIdentifier > 0) { throw new MqttProtocolViolationException("Packet identifier must be empty if QoS == 0 [MQTT-2.3.1-5]."); } } if (packet.Payload?.Length > 0) { writer.Write(packet.Payload); } byte fixedHeader = 0; if (packet.Retain) { fixedHeader |= 0x01; } fixedHeader |= (byte)((byte)packet.QualityOfServiceLevel << 1); if (packet.Dup) { fixedHeader |= 0x08; } return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.Publish, fixedHeader); } private static byte Serialize(MqttPubAckPacket packet, MqttPacketWriter writer) { writer.Write(packet.PacketIdentifier); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.PubAck); } private static byte Serialize(MqttPubRecPacket packet, MqttPacketWriter writer) { writer.Write(packet.PacketIdentifier); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.PubRec); } private static byte Serialize(MqttPubCompPacket packet, MqttPacketWriter writer) { writer.Write(packet.PacketIdentifier); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.PubComp); } private static byte Serialize(MqttSubscribePacket packet, MqttPacketWriter writer) { if (!packet.TopicFilters.Any()) throw new MqttProtocolViolationException("At least one topic filter must be set [MQTT-3.8.3-3]."); writer.Write(packet.PacketIdentifier); if (packet.TopicFilters?.Count > 0) { foreach (var topicFilter in packet.TopicFilters) { writer.WriteWithLengthPrefix(topicFilter.Topic); writer.Write((byte)topicFilter.QualityOfServiceLevel); } } return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.Subscribe, 0x02); } private static byte Serialize(MqttSubAckPacket packet, MqttPacketWriter writer) { writer.Write(packet.PacketIdentifier); if (packet.SubscribeReturnCodes?.Any() == true) { foreach (var packetSubscribeReturnCode in packet.SubscribeReturnCodes) { writer.Write((byte)packetSubscribeReturnCode); } } return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.SubAck); } private static byte Serialize(MqttUnsubscribePacket packet, MqttPacketWriter writer) { if (!packet.TopicFilters.Any()) throw new MqttProtocolViolationException("At least one topic filter must be set [MQTT-3.10.3-2]."); writer.Write(packet.PacketIdentifier); if (packet.TopicFilters?.Any() == true) { foreach (var topicFilter in packet.TopicFilters) { writer.WriteWithLengthPrefix(topicFilter); } } return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.Unsubscibe, 0x02); } private static byte Serialize(IMqttPacketWithIdentifier packet, BinaryWriter writer) { writer.Write(packet.PacketIdentifier); return MqttPacketWriter.BuildFixedHeader(MqttControlPacketType.UnsubAck); } private static byte SerializeEmptyPacket(MqttControlPacketType type) { return MqttPacketWriter.BuildFixedHeader(type); } } }