コード例 #1
0
ファイル: TFTP.java プロジェクト: javajiao/mg4
  /**
   * This is a special method to perform a more efficient packet receive. It should only be used
   * after calling {@link #beginBufferedOps beginBufferedOps() }. beginBufferedOps() initializes a
   * set of buffers used internally that prevent the new allocation of a DatagramPacket and byte
   * array for each send and receive. To use these buffers you must call the bufferedReceive() and
   * bufferedSend() methods instead of send() and receive(). You must also be certain that you don't
   * manipulate the resulting packet in such a way that it interferes with future buffered
   * operations. For example, a TFTPDataPacket received with bufferedReceive() will have a reference
   * to the internal byte buffer. You must finish using this data before calling bufferedReceive()
   * again, or else the data will be overwritten by the the call.
   *
   * <p>
   *
   * @return The TFTPPacket received.
   * @throws InterruptedIOException If a socket timeout occurs. The Java documentation claims an
   *     InterruptedIOException is thrown on a DatagramSocket timeout, but in practice we find a
   *     SocketException is thrown. You should catch both to be safe.
   * @throws SocketException If a socket timeout occurs. The Java documentation claims an
   *     InterruptedIOException is thrown on a DatagramSocket timeout, but in practice we find a
   *     SocketException is thrown. You should catch both to be safe.
   * @throws IOException If some other I/O error occurs.
   * @throws TFTPPacketException If an invalid TFTP packet is received. *
   */
  public final TFTPPacket bufferedReceive()
      throws IOException, InterruptedIOException, SocketException, TFTPPacketException {
    __receiveDatagram.setData(__receiveBuffer);
    __receiveDatagram.setLength(__receiveBuffer.length);
    _socket_.receive(__receiveDatagram);

    return TFTPPacket.newTFTPPacket(__receiveDatagram);
  }
コード例 #2
0
ファイル: TFTP.java プロジェクト: javajiao/mg4
  /**
   * Receives a TFTPPacket.
   *
   * <p>
   *
   * @return The TFTPPacket received.
   * @throws InterruptedIOException If a socket timeout occurs. The Java documentation claims an
   *     InterruptedIOException is thrown on a DatagramSocket timeout, but in practice we find a
   *     SocketException is thrown. You should catch both to be safe.
   * @throws SocketException If a socket timeout occurs. The Java documentation claims an
   *     InterruptedIOException is thrown on a DatagramSocket timeout, but in practice we find a
   *     SocketException is thrown. You should catch both to be safe.
   * @throws IOException If some other I/O error occurs.
   * @throws TFTPPacketException If an invalid TFTP packet is received. *
   */
  public final TFTPPacket receive()
      throws IOException, InterruptedIOException, SocketException, TFTPPacketException {
    DatagramPacket packet;

    packet = new DatagramPacket(new byte[PACKET_SIZE], PACKET_SIZE);

    _socket_.receive(packet);

    return TFTPPacket.newTFTPPacket(packet);
  }
コード例 #3
0
ファイル: TFTP.java プロジェクト: javajiao/mg4
 /**
  * Sends a TFTP packet to its destination.
  *
  * <p>
  *
  * @param packet The TFTP packet to send.
  * @throws IOException If some I/O error occurs. *
  */
 public final void send(TFTPPacket packet) throws IOException {
   _socket_.send(packet.newDatagram());
 }
コード例 #4
0
ファイル: TFTP.java プロジェクト: javajiao/mg4
 /**
  * This is a special method to perform a more efficient packet send. It should only be used after
  * calling {@link #beginBufferedOps beginBufferedOps() }. beginBufferedOps() initializes a set of
  * buffers used internally that prevent the new allocation of a DatagramPacket and byte array for
  * each send and receive. To use these buffers you must call the bufferedReceive() and
  * bufferedSend() methods instead of send() and receive(). You must also be certain that you don't
  * manipulate the resulting packet in such a way that it interferes with future buffered
  * operations. For example, a TFTPDataPacket received with bufferedReceive() will have a reference
  * to the internal byte buffer. You must finish using this data before calling bufferedReceive()
  * again, or else the data will be overwritten by the the call.
  *
  * <p>
  *
  * @param packet The TFTP packet to send.
  * @throws IOException If some I/O error occurs. *
  */
 public final void bufferedSend(TFTPPacket packet) throws IOException {
   _socket_.send(packet._newDatagram(__sendDatagram, _sendBuffer));
 }