public void run() {
   while (true) {
     LinkedList<PacketCallbackStruct> list = null;
     try {
       queuedPacketCallbacksLock.lock();
       try {
         queuedPacketCallbacksNotEmpty.await();
       } catch (Exception e) {
         Log.error(
             "RDPServer.PacketCallbackThread: queuedPacketCallbacksNotEmpty.await() caught exception "
                 + e.getMessage());
       }
       list = queuedPacketCallbacks;
       queuedPacketCallbacks = new LinkedList<PacketCallbackStruct>();
     } finally {
       queuedPacketCallbacksLock.unlock();
     }
     if (Log.loggingNet)
       Log.net("RDPServer.PacketCallbackThread: Got " + list.size() + " queued packets");
     for (PacketCallbackStruct pcs : list) {
       try {
         callbackProcessPacket(pcs.cb, pcs.con, pcs.packet);
       } catch (Exception e) {
         Log.exception("RDPServer.PacketCallbackThread: ", e);
       }
     }
   }
 }
 public void handleMessage(Message msg, int flags) {
   try {
     lock.lock();
     if (activated == false) return; // return true;
     if (msg.getMsgType() == Behavior.MSG_TYPE_COMMAND) {
       Behavior.CommandMessage cmdMsg = (Behavior.CommandMessage) msg;
       String command = cmdMsg.getCmd();
       // Remove the executor, because anything we do will
       // end the current execution.
       Engine.getExecutor().remove(this);
       if (Log.loggingDebug)
         Log.debug(
             "BaseBehavior.onMessage: command = "
                 + command
                 + "; oid = "
                 + obj.getOid()
                 + "; name "
                 + obj.getName());
       if (command.equals(MSG_CMD_TYPE_GOTO)) {
         GotoCommandMessage gotoMsg = (GotoCommandMessage) msg;
         Point destination = gotoMsg.getDestination();
         mode = MSG_CMD_TYPE_GOTO;
         roamingBehavior = true;
         gotoSetup(destination, gotoMsg.getSpeed());
       } else if (command.equals(MSG_CMD_TYPE_STOP)) {
         followTarget = null;
         pathState.clear();
         obj.getWorldNode().setDir(new MVVector(0, 0, 0));
         obj.updateWorldNode();
         mode = MSG_CMD_TYPE_STOP;
         // If roamingBehavior is set, that means that we
         // used formerly had a roaming behavior, so send
         // an ArrivedEventMessage so that the other
         // behavior starts up again.
         if (roamingBehavior) {
           try {
             Engine.getAgent().sendBroadcast(new ArrivedEventMessage(obj));
           } catch (Exception e) {
             Log.error(
                 "BaseBehavior.onMessage: Error sending ArrivedEventMessage, error was '"
                     + e.getMessage()
                     + "'");
             throw new RuntimeException(e);
           }
         }
       } else if (command.equals(BaseBehavior.MSG_CMD_TYPE_FOLLOW)) {
         FollowCommandMessage followMsg = (FollowCommandMessage) msg;
         mode = MSG_CMD_TYPE_FOLLOW;
         followSetup(followMsg.getTarget(), followMsg.getSpeed());
       }
     } else if (msg.getMsgType() == WorldManagerClient.MSG_TYPE_MOB_PATH_CORRECTION) {
       Engine.getExecutor().remove(this);
       interpolatePath();
       interpolatingPath = false;
     }
     // return true;
   } finally {
     lock.unlock();
   }
 }
 static void callbackProcessPacket(
     ClientConnection.MessageCallback pcb, ClientConnection clientCon, RDPPacket packet) {
   if (packet.isNul()) {
     return;
   }
   byte[] data = packet.getData();
   MVByteBuffer buf = new MVByteBuffer(data);
   RDPConnection con = (RDPConnection) clientCon;
   // If this is a multiple-message message . . .
   if (buf.getLong() == -1 && buf.getInt() == RDPConnection.aggregatedMsgId) {
     con.aggregatedReceives++;
     PacketAggregator.allAggregatedReceives++;
     // Get the count of sub buffers
     int size = buf.getInt();
     con.receivedMessagesAggregated += size;
     PacketAggregator.allReceivedMessagesAggregated += size;
     if (Log.loggingNet)
       Log.net(
           "RDPServer.callbackProcessPacket: processing aggregated message with "
               + size
               + " submessages");
     MVByteBuffer subBuf = null;
     for (int i = 0; i < size; i++) {
       try {
         subBuf = buf.getByteBuffer();
       } catch (Exception e) {
         Log.error("In CallbackThread, error getting aggregated subbuffer: " + e.getMessage());
       }
       if (subBuf != null) pcb.processPacket(con, subBuf);
     }
   } else {
     con.unaggregatedReceives++;
     PacketAggregator.allUnaggregatedReceives++;
     buf.rewind();
     pcb.processPacket(con, buf);
   }
 }
Example #4
0
  /**
   * Send data to all participants registered as receivers, using the current timeStamp and payload
   * type. The RTP timestamp will be the same for all the packets.
   *
   * @param buffers A buffer of bytes, should not bed padded and less than 1500 bytes on most
   *     networks.
   * @param csrcArray an array with the SSRCs of contributing sources
   * @param markers An array indicating what packets should be marked. Rarely anything but the first
   *     one
   * @param rtpTimestamp The RTP timestamp to be applied to all packets
   * @param seqNumbers An array with the sequence number associated with each byte[]
   * @return null if there was a problem sending the packets, 2-dim array with {RTP Timestamp,
   *     Sequence number}
   */
  public long[][] sendData(
      byte[][] buffers, long[] csrcArray, boolean[] markers, long rtpTimestamp, long[] seqNumbers) {
    logger.debug("-> RTPSession.sendData(byte[])");

    // Same RTP timestamp for all
    if (rtpTimestamp < 0) rtpTimestamp = System.currentTimeMillis();

    // Return values
    long[][] ret = new long[buffers.length][2];

    for (int i = 0; i < buffers.length; i++) {
      byte[] buf = buffers[i];

      boolean marker = false;
      if (markers != null) marker = markers[i];

      if (buf.length > 1500) {
        System.out.println(
            "RTPSession.sendData() called with buffer exceeding 1500 bytes (" + buf.length + ")");
      }

      // Get the return values
      ret[i][0] = rtpTimestamp;
      if (seqNumbers == null) {
        ret[i][1] = getNextSeqNum();
      } else {
        ret[i][1] = seqNumbers[i];
      }
      // Create a new RTP Packet
      RtpPkt pkt = new RtpPkt(rtpTimestamp, this.ssrc, (int) ret[i][1], this.payloadType, buf);

      if (csrcArray != null) pkt.setCsrcs(csrcArray);

      pkt.setMarked(marker);

      // Creates a raw packet
      byte[] pktBytes = pkt.encode();

      // System.out.println(Integer.toString(StaticProcs.bytesToUIntInt(pktBytes, 2)));

      // Pre-flight check, are resolving an SSRC conflict?
      if (this.conflict) {
        System.out.println("RTPSession.sendData() called while trying to resolve conflict.");
        return null;
      }

      if (this.mcSession) {
        DatagramPacket packet = null;

        try {
          packet =
              new DatagramPacket(pktBytes, pktBytes.length, this.mcGroup, this.rtpMCSock.getPort());
        } catch (Exception e) {
          System.out.println("RTPSession.sendData() packet creation failed.");
          e.printStackTrace();
          return null;
        }

        try {
          rtpMCSock.send(packet);
          // Debug
          if (this.debugAppIntf != null) {
            this.debugAppIntf.packetSent(
                1,
                (InetSocketAddress) packet.getSocketAddress(),
                new String(
                    "Sent multicast RTP packet of size "
                        + packet.getLength()
                        + " to "
                        + packet.getSocketAddress().toString()
                        + " via "
                        + rtpMCSock.getLocalSocketAddress().toString()));
          }
        } catch (Exception e) {
          System.out.println("RTPSession.sendData() multicast failed.");
          e.printStackTrace();
          return null;
        }

      } else {
        // Loop over recipients
        Iterator<Participant> iter = partDb.getUnicastReceivers();
        while (iter.hasNext()) {
          InetSocketAddress receiver = iter.next().rtpAddress;
          DatagramPacket packet = null;

          logger.debug("   Sending to {}", receiver);

          try {
            packet = new DatagramPacket(pktBytes, pktBytes.length, receiver);
          } catch (Exception e) {
            System.out.println("RTPSession.sendData() packet creation failed.");
            e.printStackTrace();
            return null;
          }

          // Actually send the packet
          try {
            rtpSock.send(packet);
            // Debug
            if (this.debugAppIntf != null) {
              this.debugAppIntf.packetSent(
                  0,
                  (InetSocketAddress) packet.getSocketAddress(),
                  new String(
                      "Sent unicast RTP packet of size "
                          + packet.getLength()
                          + " to "
                          + packet.getSocketAddress().toString()
                          + " via "
                          + rtpSock.getLocalSocketAddress().toString()));
            }
          } catch (Exception e) {
            System.out.println("RTPSession.sendData() unicast failed.");
            e.printStackTrace();
            return null;
          }
        }
      }

      // Update our stats
      this.sentPktCount++;
      this.sentOctetCount++;

      logger.info("<- RTPSession.sendData(byte[])", pkt.getSeqNumber());
    }

    return ret;
  }