Beispiel #1
0
  @Override
  protected Object decode(ChannelHandlerContext ctx, Channel channel, ChannelBuffer buf)
      throws Exception {

    char marker = (char) buf.getByte(buf.readerIndex());

    while (marker != '*' && marker != '$' && buf.readableBytes() > 0) {
      buf.skipBytes(1);
      if (buf.readableBytes() > 0) {
        marker = (char) buf.getByte(buf.readerIndex());
      }
    }

    if (marker == '*') {

      // Return text message
      int index = buf.indexOf(buf.readerIndex(), buf.writerIndex(), (byte) '#');
      if (index != -1) {
        return buf.readBytes(index + 1 - buf.readerIndex());
      }

    } else if (marker == '$' && buf.readableBytes() >= MESSAGE_LENGTH) {

      // Return binary message
      return buf.readBytes(MESSAGE_LENGTH);
    }

    return null;
  }
Beispiel #2
0
 @Override
 public Bitmap call(sensor_msgs.Image message) {
   Preconditions.checkArgument(message.getEncoding().equals("rgb8"));
   Bitmap bitmap =
       Bitmap.createBitmap(
           (int) message.getWidth(), (int) message.getHeight(), Bitmap.Config.ARGB_8888);
   for (int x = 0; x < message.getWidth(); x++) {
     for (int y = 0; y < message.getHeight(); y++) {
       ChannelBuffer data = message.getData();
       byte red = data.getByte((int) (y * message.getStep() + 3 * x));
       byte green = data.getByte((int) (y * message.getStep() + 3 * x + 1));
       byte blue = data.getByte((int) (y * message.getStep() + 3 * x + 2));
       bitmap.setPixel(x, y, Color.argb(255, red & 0xFF, green & 0xFF, blue & 0xFF));
     }
   }
   return bitmap;
 }
  protected void applyDataMask(byte[] mask, ChannelBuffer data) {
    if (!shouldMask()) {
      return;
    }

    int dataLen = data.readableBytes();
    data.markReaderIndex();
    for (int i = 0; i < dataLen; ++i) {
      byte cur = data.getByte(i);
      cur = (byte) (cur ^ mask[i % 4]);
      data.setByte(i, cur);
    }
    data.resetReaderIndex();
  }
Beispiel #4
0
 public static String format(ChannelBuffer observed) {
   if (!observed.readable()) {
     return "[]";
   } else {
     StringBuilder sb = new StringBuilder();
     sb.append("[");
     for (int readerIndex = observed.readerIndex();
         readerIndex < observed.writerIndex();
         readerIndex++) {
       sb.append(String.format("0x%02x ", observed.getByte(readerIndex)));
     }
     sb.setCharAt(sb.length() - 1, ']');
     return sb.toString();
   }
 }
  @Override
  protected Object decode(Channel channel, SocketAddress remoteAddress, Object msg)
      throws Exception {

    ChannelBuffer buf = (ChannelBuffer) msg;
    char first = (char) buf.getByte(0);

    if (first == '$') {
      return decodeNormalMessage(buf, channel, remoteAddress);
    } else if (first == '(') {
      return decodeAlertMessage(buf, channel, remoteAddress);
    }

    return null;
  }
  @Override
  protected Object encode(ChannelHandlerContext ctx, Channel channel, Object msg) throws Exception {
    if (!(msg instanceof ChannelBuffer)) return msg;
    if (!enabled) return msg;
    final ChannelBuffer buffer = (ChannelBuffer) msg;

    final int offset = buffer.readerIndex() + 2; // skip header
    final int size = buffer.readableBytes() - 2;
    int temp = 0, temp2 = 0;
    synchronized (key) {
      for (int i = 0; i < size; i++) {
        temp2 = buffer.getByte(offset + i) & 0xFF;
        temp = temp2 ^ key.get(i) ^ temp;
        buffer.setByte(offset + i, (byte) temp);
      }
      key.update(size);
    }

    return msg;
  }
  private void sendReply(Channel channel, long deviceId, byte packetNumber) {
    ChannelBuffer reply = ChannelBuffers.directBuffer(ByteOrder.LITTLE_ENDIAN, 28);
    reply.writeByte('M');
    reply.writeByte('C');
    reply.writeByte('G');
    reply.writeByte('P');
    reply.writeByte(MSG_SERVER_ACKNOWLEDGE);
    reply.writeInt((int) deviceId);
    reply.writeByte(commandCount++);
    reply.writeInt(0); // authentication code
    reply.writeByte(0);
    reply.writeByte(packetNumber);
    reply.writeZero(11);

    byte checksum = 0;
    for (int i = 4; i < 27; i++) {
      checksum += reply.getByte(i);
    }
    reply.writeByte(checksum);

    if (channel != null) {
      channel.write(reply);
    }
  }
  @Override
  public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception {
    Object m = e.getMessage();
    if (!(m instanceof ChannelBuffer)) {
      ctx.sendUpstream(e);
      return;
    }
    ChannelBuffer buffer = (ChannelBuffer) m;
    int size = buffer.getInt(buffer.readerIndex() - 4);
    transportServiceAdapter.received(size + 6);

    // we have additional bytes to read, outside of the header
    boolean hasMessageBytesToRead = (size - (NettyHeader.HEADER_SIZE - 6)) != 0;

    int markedReaderIndex = buffer.readerIndex();
    int expectedIndexReader = markedReaderIndex + size;

    // netty always copies a buffer, either in NioWorker in its read handler, where it copies to a
    // fresh
    // buffer, or in the cumlation buffer, which is cleaned each time
    StreamInput streamIn = ChannelBufferStreamInputFactory.create(buffer, size);

    long requestId = buffer.readLong();
    byte status = buffer.readByte();
    Version version = Version.fromId(buffer.readInt());

    StreamInput wrappedStream;
    if (TransportStatus.isCompress(status) && hasMessageBytesToRead && buffer.readable()) {
      Compressor compressor = CompressorFactory.compressor(buffer);
      if (compressor == null) {
        int maxToRead = Math.min(buffer.readableBytes(), 10);
        int offset = buffer.readerIndex();
        StringBuilder sb =
            new StringBuilder("stream marked as compressed, but no compressor found, first [")
                .append(maxToRead)
                .append("] content bytes out of [")
                .append(buffer.readableBytes())
                .append("] readable bytes with message size [")
                .append(size)
                .append("] ")
                .append("] are [");
        for (int i = 0; i < maxToRead; i++) {
          sb.append(buffer.getByte(offset + i)).append(",");
        }
        sb.append("]");
        throw new ElasticsearchIllegalStateException(sb.toString());
      }
      wrappedStream = CachedStreamInput.cachedHandlesCompressed(compressor, streamIn);
    } else {
      wrappedStream = CachedStreamInput.cachedHandles(streamIn);
    }
    wrappedStream.setVersion(version);

    if (TransportStatus.isRequest(status)) {
      String action = handleRequest(ctx.getChannel(), wrappedStream, requestId, version);
      if (buffer.readerIndex() != expectedIndexReader) {
        if (buffer.readerIndex() < expectedIndexReader) {
          logger.warn(
              "Message not fully read (request) for [{}] and action [{}], resetting",
              requestId,
              action);
        } else {
          logger.warn(
              "Message read past expected size (request) for [{}] and action [{}], resetting",
              requestId,
              action);
        }
        buffer.readerIndex(expectedIndexReader);
      }
    } else {
      TransportResponseHandler handler = transportServiceAdapter.remove(requestId);
      // ignore if its null, the adapter logs it
      if (handler != null) {
        if (TransportStatus.isError(status)) {
          handlerResponseError(wrappedStream, handler);
        } else {
          handleResponse(ctx.getChannel(), wrappedStream, handler);
        }
      } else {
        // if its null, skip those bytes
        buffer.readerIndex(markedReaderIndex + size);
      }
      if (buffer.readerIndex() != expectedIndexReader) {
        if (buffer.readerIndex() < expectedIndexReader) {
          logger.warn(
              "Message not fully read (response) for [{}] handler {}, error [{}], resetting",
              requestId,
              handler,
              TransportStatus.isError(status));
        } else {
          logger.warn(
              "Message read past expected size (response) for [{}] handler {}, error [{}], resetting",
              requestId,
              handler,
              TransportStatus.isError(status));
        }
        buffer.readerIndex(expectedIndexReader);
      }
    }
    wrappedStream.close();
  }
Beispiel #9
0
 /**
  * Reads a big-endian short integer from the buffer. Please note that we do not use {@link
  * ChannelBuffer#getShort(int)} because it might be a little-endian buffer.
  */
 private static short getShort(ChannelBuffer buf, int offset) {
   return (short) (buf.getByte(offset) << 8 | buf.getByte(offset + 1) & 0xFF);
 }