Example usage for io.netty.util AttributeMap attr

List of usage examples for io.netty.util AttributeMap attr

Introduction

In this page you can find the example usage for io.netty.util AttributeMap attr.

Prototype

<T> Attribute<T> attr(AttributeKey<T> key);

Source Link

Document

Get the Attribute for the given AttributeKey .

Usage

From source file:org.dna.mqtt.moquette.parser.netty.ConnectDecoder.java

License:Open Source License

@Override
void decode(AttributeMap ctx, ByteBuf in, List<Object> out) throws UnsupportedEncodingException {
    in.resetReaderIndex();/*from w ww  .  j av  a 2s  . com*/
    //Common decoding part
    ConnectMessage message = new ConnectMessage();
    if (!decodeCommonHeader(message, 0x00, in)) {
        in.resetReaderIndex();
        return;
    }
    int remainingLength = message.getRemainingLength();
    int start = in.readerIndex();

    int protocolNameLen = in.readUnsignedShort();
    byte[] encProtoName;
    String protoName;
    Attribute<Integer> versionAttr = ctx.attr(MQTTDecoder.PROTOCOL_VERSION);
    switch (protocolNameLen) {
    case 6:
        //MQTT version 3.1 "MQIsdp"
        //ProtocolName 8 bytes or 6 bytes
        if (in.readableBytes() < 10) {
            in.resetReaderIndex();
            return;
        }

        encProtoName = new byte[6];
        in.readBytes(encProtoName);
        protoName = new String(encProtoName, "UTF-8");
        if (!"MQIsdp".equals(protoName)) {
            in.resetReaderIndex();
            throw new CorruptedFrameException("Invalid protoName: " + protoName);
        }
        message.setProtocolName(protoName);

        versionAttr.set((int) VERSION_3_1);
        break;
    case 4:
        //MQTT version 3.1.1 "MQTT"
        //ProtocolName 6 bytes
        if (in.readableBytes() < 8) {
            in.resetReaderIndex();
            return;
        }
        encProtoName = new byte[4];
        in.readBytes(encProtoName);
        protoName = new String(encProtoName, "UTF-8");
        if (!"MQTT".equals(protoName)) {
            in.resetReaderIndex();
            throw new CorruptedFrameException("Invalid protoName: " + protoName);
        }
        message.setProtocolName(protoName);
        versionAttr.set((int) VERSION_3_1_1);
        break;
    default:
        //protocol broken
        throw new CorruptedFrameException("Invalid protoName size: " + protocolNameLen);
    }

    //ProtocolVersion 1 byte (value 0x03 for 3.1, 0x04 for 3.1.1)
    message.setProcotolVersion(in.readByte());
    if (message.getProcotolVersion() == VERSION_3_1_1) {
        //if 3.1.1, check the flags (dup, retain and qos == 0)
        if (message.isDupFlag() || message.isRetainFlag()
                || message.getQos() != AbstractMessage.QOSType.MOST_ONE) {
            throw new CorruptedFrameException("Received a CONNECT with fixed header flags != 0");
        }

        //check if this is another connect from the same client on the same session
        Attribute<Boolean> connectAttr = ctx.attr(ConnectDecoder.CONNECT_STATUS);
        Boolean alreadyConnected = connectAttr.get();
        if (alreadyConnected == null) {
            //never set
            connectAttr.set(true);
        } else if (alreadyConnected) {
            throw new CorruptedFrameException("Received a second CONNECT on the same network connection");
        }
    }

    //Connection flag
    byte connFlags = in.readByte();
    if (message.getProcotolVersion() == VERSION_3_1_1) {
        if ((connFlags & 0x01) != 0) { //bit(0) of connection flags is != 0
            throw new CorruptedFrameException("Received a CONNECT with connectionFlags[0(bit)] != 0");
        }
    }

    boolean cleanSession = ((connFlags & 0x02) >> 1) == 1;
    boolean willFlag = ((connFlags & 0x04) >> 2) == 1;
    byte willQos = (byte) ((connFlags & 0x18) >> 3);
    if (willQos > 2) {
        in.resetReaderIndex();
        throw new CorruptedFrameException("Expected will QoS in range 0..2 but found: " + willQos);
    }
    boolean willRetain = ((connFlags & 0x20) >> 5) == 1;
    boolean passwordFlag = ((connFlags & 0x40) >> 6) == 1;
    boolean userFlag = ((connFlags & 0x80) >> 7) == 1;
    //a password is true iff user is true.
    if (!userFlag && passwordFlag) {
        in.resetReaderIndex();
        throw new CorruptedFrameException(
                "Expected password flag to true if the user flag is true but was: " + passwordFlag);
    }
    message.setCleanSession(cleanSession);
    message.setWillFlag(willFlag);
    message.setWillQos(willQos);
    message.setWillRetain(willRetain);
    message.setPasswordFlag(passwordFlag);
    message.setUserFlag(userFlag);

    //Keep Alive timer 2 bytes
    //int keepAlive = Utils.readWord(in);
    int keepAlive = in.readUnsignedShort();
    message.setKeepAlive(keepAlive);

    if ((remainingLength == 12 && message.getProcotolVersion() == VERSION_3_1)
            || (remainingLength == 10 && message.getProcotolVersion() == VERSION_3_1_1)) {
        out.add(message);
        return;
    }

    //Decode the ClientID
    String clientID = Utils.decodeString(in);
    if (clientID == null) {
        in.resetReaderIndex();
        return;
    }
    message.setClientID(clientID);

    //Decode willTopic
    if (willFlag) {
        String willTopic = Utils.decodeString(in);
        if (willTopic == null) {
            in.resetReaderIndex();
            return;
        }
        message.setWillTopic(willTopic);
    }

    //Decode willMessage
    if (willFlag) {
        String willMessage = Utils.decodeString(in);
        if (willMessage == null) {
            in.resetReaderIndex();
            return;
        }
        message.setWillMessage(willMessage);
    }

    //Compatibility check with v3.0, remaining length has precedence over
    //the user and password flags
    int readed = in.readerIndex() - start;
    if (readed == remainingLength) {
        out.add(message);
        return;
    }

    //Decode username
    if (userFlag) {
        String userName = Utils.decodeString(in);
        if (userName == null) {
            in.resetReaderIndex();
            return;
        }
        message.setUsername(userName);
    }

    readed = in.readerIndex() - start;
    if (readed == remainingLength) {
        out.add(message);
        return;
    }

    //Decode password
    if (passwordFlag) {
        String password = Utils.decodeString(in);
        if (password == null) {
            in.resetReaderIndex();
            return;
        }
        message.setPassword(password);
    }

    out.add(message);
}

From source file:org.jmqtt.core.codec.ConnectDecoder.java

License:Open Source License

@Override
void decode(AttributeMap ctx, ByteBuf in, List<Object> out) throws UnsupportedEncodingException {
    in.resetReaderIndex();/*  ww  w .  ja v a2s  .co m*/
    //Common decoding part
    ConnectPacket message = new ConnectPacket();
    if (!decodeCommonHeader(message, 0x00, in)) {
        in.resetReaderIndex();
        return;
    }
    int remainingLength = message.getRemainingLength();
    int start = in.readerIndex();

    int protocolNameLen = in.readUnsignedShort();
    byte[] encProtoName;
    String protoName;
    Attribute<Integer> versionAttr = ctx.attr(MQTTDecoder.PROTOCOL_VERSION);
    switch (protocolNameLen) {
    case 6:
        //MQTT version 3.1 "MQIsdp"
        //ProtocolName 8 bytes or 6 bytes
        if (in.readableBytes() < 10) {
            in.resetReaderIndex();
            return;
        }

        encProtoName = new byte[6];
        in.readBytes(encProtoName);
        protoName = new String(encProtoName, "UTF-8");
        if (!"MQIsdp".equals(protoName)) {
            in.resetReaderIndex();
            throw new CorruptedFrameException("Invalid protoName: " + protoName);
        }
        message.setProtocolName(protoName);

        versionAttr.set((int) MqttUtils.VERSION_3_1);
        break;
    case 4:
        //MQTT version 3.1.1 "MQTT"
        //ProtocolName 6 bytes
        if (in.readableBytes() < 8) {
            in.resetReaderIndex();
            return;
        }
        encProtoName = new byte[4];
        in.readBytes(encProtoName);
        protoName = new String(encProtoName, "UTF-8");
        if (!"MQTT".equals(protoName)) {
            in.resetReaderIndex();
            throw new CorruptedFrameException("Invalid protoName: " + protoName);
        }
        message.setProtocolName(protoName);
        versionAttr.set((int) MqttUtils.VERSION_3_1_1);
        break;
    default:
        //protocol broken
        throw new CorruptedFrameException("Invalid protoName size: " + protocolNameLen);
    }

    //ProtocolVersion 1 byte (value 0x03 for 3.1, 0x04 for 3.1.1)
    message.setProtocolVersion(in.readByte());
    if (message.getProtocolVersion() == MqttUtils.VERSION_3_1_1) {
        //if 3.1.1, check the flags (dup, retain and qos == 0)
        if (message.isDupFlag() || message.isRetainFlag() || message.getQos() != QosType.MOST_ONE) {
            throw new CorruptedFrameException("Received a CONNECT with fixed header flags != 0");
        }

        //check if this is another connect from the same client on the same session
        Attribute<Boolean> connectAttr = ctx.attr(ConnectDecoder.CONNECT_STATUS);
        Boolean alreadyConnected = connectAttr.get();
        if (alreadyConnected == null) {
            //never set
            connectAttr.set(true);
        } else if (alreadyConnected) {
            throw new CorruptedFrameException("Received a second CONNECT on the same network connection");
        }
    }

    //Connection flag
    byte connFlags = in.readByte();
    if (message.getProtocolVersion() == MqttUtils.VERSION_3_1_1) {
        if ((connFlags & 0x01) != 0) { //bit(0) of connection flags is != 0
            throw new CorruptedFrameException("Received a CONNECT with connectionFlags[0(bit)] != 0");
        }
    }

    boolean cleanSession = ((connFlags & 0x02) >> 1) == 1;
    boolean willFlag = ((connFlags & 0x04) >> 2) == 1;
    byte willQos = (byte) ((connFlags & 0x18) >> 3);
    if (willQos > 2) {
        in.resetReaderIndex();
        throw new CorruptedFrameException("Expected will QoS in range 0..2 but found: " + willQos);
    }
    boolean willRetain = ((connFlags & 0x20) >> 5) == 1;
    boolean passwordFlag = ((connFlags & 0x40) >> 6) == 1;
    boolean userFlag = ((connFlags & 0x80) >> 7) == 1;
    //a password is true iff user is true.
    if (!userFlag && passwordFlag) {
        in.resetReaderIndex();
        throw new CorruptedFrameException(
                "Expected password flag to true if the user flag is true but was: " + passwordFlag);
    }
    message.setCleanSession(cleanSession);
    message.setWillFlag(willFlag);
    message.setWillQos(willQos);
    message.setWillRetain(willRetain);
    message.setPasswordFlag(passwordFlag);
    message.setUserFlag(userFlag);

    //Keep Alive timer 2 bytes
    //int keepAlive = MqttUtils.readWord(in);
    int keepAlive = in.readUnsignedShort();
    message.setKeepAlive(keepAlive);

    if ((remainingLength == 12 && message.getProtocolVersion() == MqttUtils.VERSION_3_1)
            || (remainingLength == 10 && message.getProtocolVersion() == MqttUtils.VERSION_3_1_1)) {
        out.add(message);
        return;
    }

    //Decode the ClientID
    String clientID = MqttUtils.decodeString(in);
    if (clientID == null) {
        in.resetReaderIndex();
        return;
    }
    message.setClientID(clientID);

    //Decode willTopic
    if (willFlag) {
        String willTopic = MqttUtils.decodeString(in);
        if (willTopic == null) {
            in.resetReaderIndex();
            return;
        }
        message.setWillTopic(willTopic);
    }

    //Decode willMessage
    if (willFlag) {
        byte[] willMessage = MqttUtils.readFixedLengthContent(in);
        if (willMessage == null) {
            in.resetReaderIndex();
            return;
        }
        message.setWillMessage(willMessage);
    }

    //Compatibility check with v3.0, remaining length has precedence over
    //the user and password flags
    int readed = in.readerIndex() - start;
    if (readed == remainingLength) {
        out.add(message);
        return;
    }

    //Decode username
    if (userFlag) {
        String userName = MqttUtils.decodeString(in);
        if (userName == null) {
            in.resetReaderIndex();
            return;
        }
        message.setUsername(userName);
    }

    readed = in.readerIndex() - start;
    if (readed == remainingLength) {
        out.add(message);
        return;
    }

    //Decode password
    if (passwordFlag) {
        byte[] password = MqttUtils.readFixedLengthContent(in);
        if (password == null) {
            in.resetReaderIndex();
            return;
        }
        message.setPassword(password);
    }

    out.add(message);
}

From source file:org.jmqtt.core.util.MqttUtils.java

License:Open Source License

public static boolean isMQTT3_1_1(AttributeMap attrsMap) {
    Attribute<Integer> versionAttr = attrsMap.attr(MQTTDecoder.PROTOCOL_VERSION);
    Integer protocolVersion = versionAttr.get();
    if (protocolVersion == null) {
        return true;
    }//from  ww  w .  ja  va  2  s  . c o  m
    return protocolVersion == VERSION_3_1_1;
}