Esempio n. 1
0
 void closeMulticastSocket() {
   if (mcast_sock != null) {
     try {
       if (mcast_addr != null) {
         // by sending a dummy packet the thread will be awakened
         sendDummyPacket(mcast_addr.getIpAddress(), mcast_addr.getPort());
         Util.sleep(300);
         mcast_sock.leaveGroup(mcast_addr.getIpAddress());
       }
       mcast_sock.close(); // this will cause the mcast receiver thread to break out of its loop
       mcast_sock = null;
       if (Trace.trace) {
         Trace.info("UDP.closeMulticastSocket()", "multicast socket closed");
       }
     } catch (IOException ex) {
     }
     mcast_addr = null;
   }
 }
Esempio n. 2
0
  public void run() {
    DatagramPacket packet;
    byte receive_buf[] = new byte[65535];
    int len;
    byte[] tmp, data;

    // moved out of loop to avoid excessive object creations (bela March 8 2001)
    packet = new DatagramPacket(receive_buf, receive_buf.length);

    while (mcast_receiver != null && mcast_sock != null) {
      try {
        packet.setData(receive_buf, 0, receive_buf.length);
        mcast_sock.receive(packet);
        len = packet.getLength();
        data = packet.getData();
        if (len == 1 && data[0] == 0) {
          if (Trace.debug) {
            Trace.info("UDP.run()", "received dummy packet");
          }
          continue;
        }

        if (len == 4) { // received a diagnostics probe
          if (data[0] == 'd' && data[1] == 'i' && data[2] == 'a' && data[3] == 'g') {
            handleDiagnosticProbe(packet.getAddress(), packet.getPort());
            continue;
          }
        }

        if (Trace.debug) {
          Trace.info(
              "UDP.receive()",
              "received (mcast) "
                  + packet.getLength()
                  + " bytes from "
                  + packet.getAddress()
                  + ":"
                  + packet.getPort()
                  + " (size="
                  + len
                  + " bytes)");
        }
        if (len > receive_buf.length) {
          Trace.error(
              "UDP.run()",
              "size of the received packet ("
                  + len
                  + ") is bigger than "
                  + "allocated buffer ("
                  + receive_buf.length
                  + "): will not be able to handle packet. "
                  + "Use the FRAG protocol and make its frag_size lower than "
                  + receive_buf.length);
        }

        if (Version.compareTo(data) == false) {
          Trace.warn(
              "UDP.run()",
              "packet from "
                  + packet.getAddress()
                  + ":"
                  + packet.getPort()
                  + " has different version ("
                  + Version.printVersionId(data, Version.version_id.length)
                  + ") from ours ("
                  + Version.printVersionId(Version.version_id)
                  + "). This may cause problems");
        }

        if (use_incoming_packet_handler) {
          tmp = new byte[len];
          System.arraycopy(data, 0, tmp, 0, len);
          incoming_queue.add(tmp);
        } else {
          handleIncomingUdpPacket(data);
        }
      } catch (SocketException sock_ex) {
        if (Trace.trace) {
          Trace.info("UDP.run()", "multicast socket is closed, exception=" + sock_ex);
        }
        break;
      } catch (InterruptedIOException io_ex) { // thread was interrupted
        ; // go back to top of loop, where we will terminate loop
      } catch (Throwable ex) {
        Trace.error("UDP.run()", "exception=" + ex + ", stack trace=" + Util.printStackTrace(ex));
        Util.sleep(300); // so we don't get into 100% cpu spinning (should NEVER happen !)
      }
    }
    if (Trace.trace) {
      Trace.info("UDP.run()", "multicast thread terminated");
    }
  }