Esempio n. 1
0
  public static void main(String args[]) {
    String fileToSend = "C:\\test1.txt";
    while (true) {
      // Maak lokale variabels eerst aan.
      // Dit is nodig om deze ook te gebruiken buiten de "try catch" blok.
      ServerSocket welcomeSocket = null;
      Socket connectionSocket = null;
      BufferedOutputStream outToClient = null;

      try {
        // poort waar gebruiker kan op connecteren
        welcomeSocket = new ServerSocket(3248);
        // Tot er een gebruiker gevonden is zal .accept() blijven wachten
        // Nadat er iemand geconnecteerd is zal er een nieuwe socket aangemaakt worden waarmee deze
        // met elkaar communiceren
        connectionSocket = welcomeSocket.accept();
        // buffer voor data communicatie tussen server en client
        outToClient = new BufferedOutputStream(connectionSocket.getOutputStream());
      } catch (IOException ex) {
        System.out.println("IOException1");
      } // if an I/O error occurs when opening the socket.

      if (outToClient
          != null) // wanneer buffer correct is aangemaakt zal deze niet een null waarde hebben
      {
        // gemaakte variabele doorgeven aan thread
        Connection c = new Connection(connectionSocket, outToClient, fileToSend);
        // thread starten
        c.start();
      }
    }
  }
Esempio n. 2
0
 void serv(int i) {
   try {
     S = new DatagramSocket(i);
     S.setSoTimeout(5000);
   } catch (Exception exception) {
     exception.printStackTrace();
     if (S != null)
       try {
         S.close();
       } catch (Exception exception2) {
       }
     return;
   }
   System.out.println(DF.format(new Date()) + "Waiting connections ...");
   do
     try {
       buf = new byte[256];
       P = new DatagramPacket(buf, buf.length);
       S.receive(P);
       Connection connection =
           (Connection) Connections.get(P.getAddress().toString() + P.getPort());
       if (connection == null) {
         System.out.println(
             DF.format(new Date())
                 + "Connect from "
                 + " ("
                 + P.getAddress().getHostAddress()
                 + ")");
         connection = new Connection(this, P);
         Connections.put(P.getAddress().toString() + P.getPort(), connection);
         connection.start();
       } else {
         connection.packet(P);
       }
     } catch (Exception exception1) {
     }
   while (true);
 }
Esempio n. 3
0
  @Override
  public int run() throws Exception {
    // Default values of command line arguments
    String host = DEFAULT_HOST;
    int port = DEFAULT_PORT;
    String user = DEFAULT_USER;
    String pass = DEFAULT_PASS;
    String destination = DEFAULT_DESTINATION;
    String file = ""; // No default -- if not given, don't read/write file
    int sleep = 0;
    boolean showpercent = false;
    int batchSize = 0;
    int length = 500; // Length of message generated internally
    String properties = "";
    String format = "short";
    String durable = null;

    int n = 1; // n is the number of messages to process, or a specific
    //   message number, depending on content
    String url = ""; // No default -- if not given, don't use it

    String[] nonSwitchArgs = cl.getArgs();
    if (nonSwitchArgs.length > 0) n = Integer.parseInt(nonSwitchArgs[0]);

    String _destination = cl.getOptionValue("destination");
    if (_destination != null) destination = _destination;

    String _host = cl.getOptionValue("host");
    if (_host != null) host = _host;

    String _port = cl.getOptionValue("port");
    if (_port != null) port = Integer.parseInt(_port);

    String _file = cl.getOptionValue("file");
    if (_file != null) file = _file;

    String _user = cl.getOptionValue("user");
    if (_user != null) user = _user;

    String _pass = cl.getOptionValue("password");
    if (_pass != null) pass = _pass;

    String _url = cl.getOptionValue("url");
    if (_url != null) url = _url;

    String _sleep = cl.getOptionValue("sleep");
    if (_sleep != null) sleep = Integer.parseInt(_sleep);

    if (cl.hasOption("percent")) showpercent = true;

    String _batchSize = cl.getOptionValue("batch");
    if (_batchSize != null) batchSize = Integer.parseInt(_batchSize);

    String _L = cl.getOptionValue("length");
    if (_L != null) length = Integer.parseInt(_L);

    String _properties = cl.getOptionValue("properties");
    if (_properties != null) properties = _properties;

    String _durable = cl.getOptionValue("durable");
    if (_durable != null) durable = _durable;

    boolean batch = false;
    if (batchSize != 0) batch = true;

    String _format = cl.getOptionValue("format");
    if (_format != null) format = _format;

    ActiveMQConnectionFactory factory = getFactory(host, port, url);

    Connection connection = factory.createConnection(user, pass);

    if (durable != null) connection.setClientID(durable);

    connection.start();

    Session session = connection.createSession(batch, Session.AUTO_ACKNOWLEDGE);

    Topic topic = session.createTopic(destination);

    MessageConsumer consumer = null;
    if (durable != null) consumer = session.createDurableSubscriber(topic, "amqutil");
    else consumer = session.createConsumer(topic);

    int oldpercent = 0;
    for (int i = 0; i < n; i++) {
      javax.jms.Message message = consumer.receive();

      if (batch) if ((i + 1) % batchSize == 0) session.commit();

      if (sleep != 0) Thread.sleep(sleep);

      JMSUtil.outputMessage(format, message, file);

      if (showpercent) {
        int percent = i * 100 / n;
        if (percent != oldpercent) System.out.println("" + percent + "%");
        oldpercent = percent;
      }
    }

    if (batch) session.commit();

    connection.close();

    return 0;
  }
  /** Begin running the websocket server. */
  @Override
  public void run() {

    try {

      Logger.info(
          MessageFormat.format("WebSocketServerBridge listening on port {0}...", this.port));

      serverSocket = new ServerSocket(this.port);

      // Waiting for the server socket to close or until the server is shutdown manually.
      while ((this.isServerRunning) && (!serverSocket.isClosed())) {

        // Wait for incoming connections.
        Socket socket = serverSocket.accept();

        // Try to reclaim any threads if we are exceeding our maximum.
        // TimeComplexity: O(n) -- Where n is the number of threads valid or invalid.
        // NOTE: Minimal unit testing has been done here...more testing is required.
        if (threads.size() + 1 > this.getMaximumThreads()) {
          for (int i = 0; i < threads.size(); i++) {
            if (!threads.get(i).isAlive()) {
              threads.remove(i);
            }
          }
        }

        // Make sure we have enough threads before accepting.
        // NOTE: Minimal unit testing has been done here...more testing is required.
        if ((threads.size() + 1) <= this.getMaximumThreads()) {

          Connection t = new Connection(socket, this.serviceLayer, this);
          t.start();
          threads.add(t);

        } else {
          Logger.debug("The server has reached its thread maximum...");
        }
      }
      // END OF while ( (this.isServerRunning) && (!serverSocket.isClosed()) )...

      Logger.info("WebSocket server stopping...");

    } catch (IOException ioException) {

      // --- CR (8/10/13) --- Only log the event if the server is still running.  This should
      // prevent an error message from appearing when the server is restarted.
      if (this.isServerRunning) {

        Logger.info(
            MessageFormat.format("The port {0} could not be opened for WebSockets.", this.port));
        Logger.debug(ioException.getMessage());
      }

      // Close all threads.
      // TimeComplexity: O(n) -- Where n is the number of threads valid or invalid.
      for (Connection t : threads) {
        if (t.isAlive()) {
          t.close();
        }
      }
    }
  }