Exemplo n.º 1
0
  /**
   * Returns existing chat rooms for the given <tt>chatRoomProvider</tt>.
   *
   * @param chatRoomProvider the <tt>ChatRoomProviderWrapper</tt>, which chat rooms we're looking
   *     for
   * @return existing chat rooms for the given <tt>chatRoomProvider</tt>
   */
  public List<String> getExistingChatRooms(ChatRoomProviderWrapper chatRoomProvider) {
    if (chatRoomProvider == null) return null;

    ProtocolProviderService protocolProvider = chatRoomProvider.getProtocolProvider();

    if (protocolProvider == null) return null;

    OperationSetMultiUserChat groupChatOpSet =
        protocolProvider.getOperationSet(OperationSetMultiUserChat.class);

    if (groupChatOpSet == null) return null;

    List<String> chatRooms = null;
    try {
      chatRooms = groupChatOpSet.getExistingChatRooms();
    } catch (OperationFailedException e) {
      if (logger.isTraceEnabled())
        logger.trace(
            "Failed to obtain existing chat rooms for server: "
                + protocolProvider.getAccountID().getService(),
            e);
    } catch (OperationNotSupportedException e) {
      if (logger.isTraceEnabled())
        logger.trace(
            "Failed to obtain existing chat rooms for server: "
                + protocolProvider.getAccountID().getService(),
            e);
    }

    return chatRooms;
  }
Exemplo n.º 2
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  /**
   * When a message is received determines whether to open a new chat window or chat window tab, or
   * to indicate that a message is received from a contact which already has an open chat. When the
   * chat is found checks if in mode "Auto popup enabled" and if this is the case shows the message
   * in the appropriate chat panel.
   *
   * @param evt the event containing details on the received message
   */
  public void messageReceived(MessageReceivedEvent evt) {
    if (logger.isTraceEnabled())
      logger.trace("MESSAGE RECEIVED from contact: " + evt.getSourceContact().getAddress());

    Contact protocolContact = evt.getSourceContact();
    ContactResource contactResource = evt.getContactResource();
    Message message = evt.getSourceMessage();
    int eventType = evt.getEventType();
    MetaContact metaContact =
        GuiActivator.getContactListService().findMetaContactByContact(protocolContact);

    if (metaContact != null) {
      messageReceived(
          protocolContact,
          contactResource,
          metaContact,
          message,
          eventType,
          evt.getTimestamp(),
          evt.getCorrectedMessageUID(),
          evt.isPrivateMessaging(),
          evt.getPrivateMessagingContactRoom());
    } else {
      if (logger.isTraceEnabled())
        logger.trace("MetaContact not found for protocol contact: " + protocolContact + ".");
    }
  }
Exemplo n.º 3
0
  /**
   * Put the JAIN-SIP stack in a state where it cannot receive any data and frees the network ports
   * used. That is to say remove JAIN-SIP <tt>ListeningPoint</tt>s and <tt>SipProvider</tt>s.
   */
  @SuppressWarnings("unchecked") // jain-sip legacy code
  private void stopListening() {
    try {
      this.secureJainSipProvider.removeSipListener(this);
      this.stack.deleteSipProvider(this.secureJainSipProvider);
      this.secureJainSipProvider = null;
      this.clearJainSipProvider.removeSipListener(this);
      this.stack.deleteSipProvider(this.clearJainSipProvider);
      this.clearJainSipProvider = null;

      Iterator<ListeningPoint> it = this.stack.getListeningPoints();
      Vector<ListeningPoint> lpointsToRemove = new Vector<ListeningPoint>();
      while (it.hasNext()) {
        lpointsToRemove.add(it.next());
      }

      it = lpointsToRemove.iterator();
      while (it.hasNext()) {
        this.stack.deleteListeningPoint(it.next());
      }

      this.stack.stop();
      if (logger.isTraceEnabled()) logger.trace("stopped listening");
    } catch (ObjectInUseException ex) {
      logger.fatal("Failed to stop listening", ex);
    }
  }
Exemplo n.º 4
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 /**
  * Adds this <tt>listener</tt> as a candidate recipient for the dispatching of new messages
  * received from the JAIN-SIP <tt>SipProvider</tt>s.
  *
  * @param listener a new possible target for the dispatching process.
  * @throws OperationFailedException if creating one of the underlying <tt>SipProvider</tt>s fails
  *     for whatever reason.
  */
 public void addSipListener(ProtocolProviderServiceSipImpl listener)
     throws OperationFailedException {
   synchronized (this.listeners) {
     if (this.listeners.size() == 0) startListening();
     this.listeners.add(listener);
     if (logger.isTraceEnabled()) logger.trace(this.listeners.size() + " listeners now");
   }
 }
Exemplo n.º 5
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  /**
   * This <tt>listener</tt> will no longer be a candidate recipient for the dispatching of new
   * messages received from the JAIN-SIP <tt>SipProvider</tt>s.
   *
   * @param listener possible target to remove for the dispatching process.
   */
  public void removeSipListener(ProtocolProviderServiceSipImpl listener) {
    synchronized (this.listeners) {
      this.listeners.remove(listener);

      int listenerCount = listeners.size();
      if (logger.isTraceEnabled()) logger.trace(listenerCount + " listeners left");
      if (listenerCount == 0) stopListening();
    }
  }
Exemplo n.º 6
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  /**
   * When a sent message is delivered shows it in the chat conversation panel.
   *
   * @param evt the event containing details on the message delivery
   */
  public void messageDelivered(MessageDeliveredEvent evt) {
    Contact contact = evt.getDestinationContact();
    MetaContact metaContact =
        GuiActivator.getContactListService().findMetaContactByContact(contact);

    if (logger.isTraceEnabled())
      logger.trace("MESSAGE DELIVERED to contact: " + contact.getAddress());

    ChatPanel chatPanel = chatWindowManager.getContactChat(metaContact, false);

    if (chatPanel != null) {
      Message msg = evt.getSourceMessage();
      ProtocolProviderService protocolProvider = contact.getProtocolProvider();

      if (logger.isTraceEnabled())
        logger.trace(
            "MESSAGE DELIVERED: process message to chat for contact: "
                + contact.getAddress()
                + " MESSAGE: "
                + msg.getContent());

      chatPanel.addMessage(
          this.mainFrame.getAccountAddress(protocolProvider),
          this.mainFrame.getAccountDisplayName(protocolProvider),
          evt.getTimestamp(),
          Chat.OUTGOING_MESSAGE,
          msg.getContent(),
          msg.getContentType(),
          msg.getMessageUID(),
          evt.getCorrectedMessageUID());

      if (evt.isSmsMessage() && !ConfigurationUtils.isSmsNotifyTextDisabled()) {
        chatPanel.addMessage(
            contact.getDisplayName(),
            new Date(),
            Chat.ACTION_MESSAGE,
            GuiActivator.getResources().getI18NString("service.gui.SMS_SUCCESSFULLY_SENT"),
            "text");
      }
    }
  }
Exemplo n.º 7
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  /**
   * Retrieves and returns that ProtocolProviderService that this transaction belongs to, or
   * <tt>null</tt> if we couldn't associate it with a provider based on neither the request nor the
   * transaction itself.
   *
   * @param transaction the transaction that we'd like to determine a provider for.
   * @return a reference to the <tt>ProtocolProviderServiceSipImpl</tt> that <tt>transaction</tt>
   *     was associated with or <tt>null</tt> if we couldn't determine which one it is.
   */
  private ProtocolProviderServiceSipImpl getServiceData(Transaction transaction) {
    ProtocolProviderServiceSipImpl service =
        (ProtocolProviderServiceSipImpl)
            SipApplicationData.getApplicationData(
                transaction.getRequest(), SipApplicationData.KEY_SERVICE);

    if (service != null) {
      if (logger.isTraceEnabled()) logger.trace("service was found in request data");
      return service;
    }

    service =
        (ProtocolProviderServiceSipImpl)
            SipApplicationData.getApplicationData(
                transaction.getDialog(), SipApplicationData.KEY_SERVICE);
    if (service != null) {
      if (logger.isTraceEnabled()) logger.trace("service was found in dialog data");
    }

    return service;
  }
Exemplo n.º 8
0
  /**
   * Dispatches the event received from a JAIN-SIP <tt>SipProvider</tt> to one of our "candidate
   * recipient" listeners.
   *
   * @param event the event received for a <tt>SipProvider</tt>.
   */
  public void processIOException(IOExceptionEvent event) {
    try {
      if (logger.isTraceEnabled()) logger.trace(event);

      // impossible to dispatch, log here
      if (logger.isDebugEnabled()) logger.debug("@todo implement processIOException()");
    } catch (Throwable exc) {
      // any exception thrown within our code should be caught here
      // so that we could log it rather than interrupt stack activity with
      // it.
      this.logApplicationException(DialogTerminatedEvent.class, exc);
    }
  }
Exemplo n.º 9
0
  /**
   * Receives options requests and replies with an OK response containing methods that we support.
   *
   * @param requestEvent the incoming options request.
   * @return <tt>true</tt> if request has been successfully processed, <tt>false</tt> otherwise
   */
  @Override
  public boolean processRequest(RequestEvent requestEvent) {
    Response optionsOK = null;
    try {
      optionsOK =
          provider.getMessageFactory().createResponse(Response.OK, requestEvent.getRequest());

      // add to the allows header all methods that we support
      for (String method : provider.getSupportedMethods()) {
        // don't support REGISTERs
        if (!method.equals(Request.REGISTER))
          optionsOK.addHeader(provider.getHeaderFactory().createAllowHeader(method));
      }

      Iterable<String> knownEventsList = provider.getKnownEventsList();

      synchronized (knownEventsList) {
        for (String event : knownEventsList)
          optionsOK.addHeader(provider.getHeaderFactory().createAllowEventsHeader(event));
      }
    } catch (ParseException ex) {
      // What else could we do apart from logging?
      logger.warn("Failed to create an incoming OPTIONS request", ex);
      return false;
    }

    try {
      SipStackSharing.getOrCreateServerTransaction(requestEvent).sendResponse(optionsOK);
    } catch (TransactionUnavailableException ex) {
      // this means that we received an OPTIONS request outside the scope
      // of a transaction which could mean that someone is simply sending
      // us b****hit to keep a NAT connection alive, so let's not get too
      // excited.
      if (logger.isInfoEnabled())
        logger.info("Failed to respond to an incoming " + "transactionless OPTIONS request");
      if (logger.isTraceEnabled()) logger.trace("Exception was:", ex);
      return false;
    } catch (InvalidArgumentException ex) {
      // What else could we do apart from logging?
      logger.warn("Failed to send an incoming OPTIONS request", ex);
      return false;
    } catch (SipException ex) {
      // What else could we do apart from logging?
      logger.warn("Failed to send an incoming OPTIONS request", ex);
      return false;
    }

    return true;
  }
  /**
   * Subscribes this provider as interested in receiving notifications for new mail messages from
   * Google mail services such as Gmail or Google Apps.
   */
  private void subscribeForGmailNotifications() {
    // first check support for the notification service
    String accountIDService = jabberProvider.getAccountID().getService();
    boolean notificationsAreSupported =
        jabberProvider.isFeatureSupported(accountIDService, NewMailNotificationIQ.NAMESPACE);

    if (!notificationsAreSupported) {
      if (logger.isDebugEnabled())
        logger.debug(
            accountIDService
                + " does not seem to provide a Gmail notification "
                + " service so we won't be trying to subscribe for it");
      return;
    }

    if (logger.isDebugEnabled())
      logger.debug(
          accountIDService
              + " seems to provide a Gmail notification "
              + " service so we will try to subscribe for it");

    ProviderManager providerManager = ProviderManager.getInstance();

    providerManager.addIQProvider(
        MailboxIQ.ELEMENT_NAME, MailboxIQ.NAMESPACE, new MailboxIQProvider());
    providerManager.addIQProvider(
        NewMailNotificationIQ.ELEMENT_NAME,
        NewMailNotificationIQ.NAMESPACE,
        new NewMailNotificationProvider());

    Connection connection = jabberProvider.getConnection();

    connection.addPacketListener(new MailboxIQListener(), new PacketTypeFilter(MailboxIQ.class));
    connection.addPacketListener(
        new NewMailNotificationListener(), new PacketTypeFilter(NewMailNotificationIQ.class));

    if (opSetPersPresence.getCurrentStatusMessage().equals(JabberStatusEnum.OFFLINE)) return;

    // create a query with -1 values for newer-than-tid and
    // newer-than-time attributes
    MailboxQueryIQ mailboxQuery = new MailboxQueryIQ();

    if (logger.isTraceEnabled())
      logger.trace(
          "sending mailNotification for acc: "
              + jabberProvider.getAccountID().getAccountUniqueID());
    jabberProvider.getConnection().sendPacket(mailboxQuery);
  }
Exemplo n.º 11
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  @Test
  public void delegatesLevelIsEnabledToSlf4j() {
    logging.setLevel(LogLevel.WARN);

    Logger logger = Logging.getLogger(LoggingTest.class);
    assertTrue(logger.isErrorEnabled());
    assertTrue(logger.isQuietEnabled());
    assertTrue(logger.isWarnEnabled());
    assertFalse(logger.isLifecycleEnabled());
    assertFalse(logger.isInfoEnabled());
    assertFalse(logger.isDebugEnabled());
    assertFalse(logger.isTraceEnabled());

    assertTrue(logger.isEnabled(LogLevel.ERROR));
    assertFalse(logger.isEnabled(LogLevel.INFO));
  }
  /** Prepares the factory for bundle shutdown. */
  public void stop() {
    if (logger.isTraceEnabled()) logger.trace("Preparing to stop all protocol providers of" + this);

    synchronized (registeredAccounts) {
      for (Enumeration<ServiceRegistration> registrations = registeredAccounts.elements();
          registrations.hasMoreElements(); ) {
        ServiceRegistration reg = registrations.nextElement();

        stop(reg);

        reg.unregister();
      }

      registeredAccounts.clear();
    }
  }
Exemplo n.º 13
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  /**
   * Put the stack in a state where it can receive data on three UDP/TCP ports (2 for clear
   * communication, 1 for TLS). That is to say create the related JAIN-SIP <tt>ListeningPoint</tt>s
   * and <tt>SipProvider</tt>s.
   *
   * @throws OperationFailedException if creating one of the underlying <tt>SipProvider</tt>s fails
   *     for whatever reason.
   */
  private void startListening() throws OperationFailedException {
    try {
      int bindRetriesValue = getBindRetriesValue();

      this.createProvider(this.getPreferredClearPort(), bindRetriesValue, false);
      this.createProvider(this.getPreferredSecurePort(), bindRetriesValue, true);
      this.stack.start();
      if (logger.isTraceEnabled()) logger.trace("started listening");
    } catch (Exception ex) {
      logger.error(
          "An unexpected error happened while creating the" + "SipProviders and ListeningPoints.");
      throw new OperationFailedException(
          "An unexpected error hapenned" + "while initializing the SIP stack",
          OperationFailedException.INTERNAL_ERROR,
          ex);
    }
  }
 /**
  * The method queries a Stun server for a binding for the port and address that <tt>sock</tt> is
  * bound on.
  *
  * @param sock the socket whose port and address we'dlike to resolve (the stun message gets sent
  *     trhough that socket)
  * @return StunAddress the address returned by the stun server or null if an error occurred or no
  *     address was returned
  * @throws IOException if an error occurs while stun4j is using sockets.
  * @throws BindException if the port is already in use.
  */
 private StunAddress queryStunServer(DatagramSocket sock) throws IOException, BindException {
   StunAddress mappedAddress = null;
   if (detector != null && useStun) {
     mappedAddress = detector.getMappingFor(sock);
     if (logger.isTraceEnabled()) {
       logger.trace(
           "For socket with address "
               + sock.getLocalAddress().getHostAddress()
               + " and port "
               + sock.getLocalPort()
               + " the stun server returned the "
               + "following mapping ["
               + mappedAddress
               + "]");
     }
   }
   return mappedAddress;
 }
  /**
   * Function called when a icq file transfer request arrive
   *
   * @param manager the joustsim manager
   * @param transfer the incoming transfer
   */
  public void handleNewIncomingConnection(
      RvConnectionManager manager, IncomingRvConnection transfer) {
    if (transfer instanceof IncomingFileTransfer) {
      if (logger.isTraceEnabled())
        logger.trace("Incoming Icq file transfer request " + transfer.getClass());

      if (!(transfer instanceof IncomingFileTransfer)) {
        logger.warn("Wrong file transfer.");
        return;
      }

      OperationSetPersistentPresenceIcqImpl opSetPersPresence =
          (OperationSetPersistentPresenceIcqImpl)
              icqProvider.getOperationSet(OperationSetPersistentPresence.class);

      Contact sender =
          opSetPersPresence.findContactByID(transfer.getBuddyScreenname().getFormatted());

      IncomingFileTransfer incomingFileTransfer = (IncomingFileTransfer) transfer;

      final Date newDate = new Date();
      final IncomingFileTransferRequest req =
          new IncomingFileTransferRequestIcqImpl(
              icqProvider, this, incomingFileTransfer, sender, newDate);

      // this handels when we receive request and before accept or decline
      // it we receive cancel
      transfer.addEventListener(
          new RvConnectionEventListener() {
            public void handleEventWithStateChange(
                RvConnection transfer, RvConnectionState state, RvConnectionEvent event) {
              if (state == FileTransferState.FAILED && event instanceof BuddyCancelledEvent) {
                fireFileTransferRequestCanceled(
                    new FileTransferRequestEvent(
                        OperationSetFileTransferIcqImpl.this, req, newDate));
              }
            }

            public void handleEvent(RvConnection arg0, RvConnectionEvent arg1) {}
          });

      fireFileTransferRequest(new FileTransferRequestEvent(this, req, newDate));
    }
  }
Exemplo n.º 16
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  /**
   * Dispatches the event received from a JAIN-SIP <tt>SipProvider</tt> to one of our "candidate
   * recipient" listeners.
   *
   * @param event the event received for a <tt>SipProvider</tt>.
   */
  public void processResponse(ResponseEvent event) {
    try {
      // we don't have to accept the transaction since we
      // created the request
      ClientTransaction transaction = event.getClientTransaction();
      if (logger.isTraceEnabled())
        logger.trace(
            "received response: "
                + event.getResponse().getStatusCode()
                + " "
                + event.getResponse().getReasonPhrase());

      if (transaction == null) {
        logger.warn("Transaction is null, probably already expired!");
        return;
      }

      ProtocolProviderServiceSipImpl service = getServiceData(transaction);
      if (service != null) {
        // Mark the dialog for the dispatching of later in-dialog
        // responses. If there is no dialog then the initial request
        // sure is marked otherwise we won't have found the service with
        // getServiceData(). The request has to be marked in case we
        // receive one more response in an out-of-dialog transaction.
        if (event.getDialog() != null) {
          SipApplicationData.setApplicationData(
              event.getDialog(), SipApplicationData.KEY_SERVICE, service);
        }
        service.processResponse(event);
      } else {
        logger.error(
            "We received a response which "
                + "wasn't marked, please report this to "
                + "*****@*****.**");
      }
    } catch (Throwable exc) {
      // any exception thrown within our code should be caught here
      // so that we could log it rather than interrupt stack activity with
      // it.
      this.logApplicationException(DialogTerminatedEvent.class, exc);
    }
  }
Exemplo n.º 17
0
 /**
  * Dispatches the event received from a JAIN-SIP <tt>SipProvider</tt> to one of our "candidate
  * recipient" listeners.
  *
  * @param event the event received for a <tt>SipProvider</tt>.
  */
 public void processDialogTerminated(DialogTerminatedEvent event) {
   try {
     ProtocolProviderServiceSipImpl recipient =
         (ProtocolProviderServiceSipImpl)
             SipApplicationData.getApplicationData(
                 event.getDialog(), SipApplicationData.KEY_SERVICE);
     if (recipient == null) {
       logger.error(
           "Dialog wasn't marked, please report this to " + "*****@*****.**");
     } else {
       if (logger.isTraceEnabled()) logger.trace("service was found with dialog data");
       recipient.processDialogTerminated(event);
     }
   } catch (Throwable exc) {
     // any exception thrown within our code should be caught here
     // so that we could log it rather than interrupt stack activity with
     // it.
     this.logApplicationException(DialogTerminatedEvent.class, exc);
   }
 }
Exemplo n.º 18
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  /**
   * Joins the room with the given name though the given chat room provider.
   *
   * @param chatRoomName the name of the room to join.
   * @param chatRoomProvider the chat room provider to join through.
   */
  public void joinChatRoom(String chatRoomName, ChatRoomProviderWrapper chatRoomProvider) {
    OperationSetMultiUserChat groupChatOpSet =
        chatRoomProvider.getProtocolProvider().getOperationSet(OperationSetMultiUserChat.class);

    ChatRoom chatRoom = null;
    try {
      chatRoom = groupChatOpSet.findRoom(chatRoomName);
    } catch (Exception e) {
      if (logger.isTraceEnabled())
        logger.trace("Un exception occurred while searching for room:" + chatRoomName, e);
    }

    if (chatRoom != null) {
      ChatRoomWrapper chatRoomWrapper = chatRoomList.findChatRoomWrapperFromChatRoom(chatRoom);

      if (chatRoomWrapper == null) {
        ChatRoomProviderWrapper parentProvider =
            chatRoomList.findServerWrapperFromProvider(chatRoom.getParentProvider());

        chatRoomWrapper = new ChatRoomWrapperImpl(parentProvider, chatRoom);

        chatRoomList.addChatRoom(chatRoomWrapper);

        fireChatRoomListChangedEvent(chatRoomWrapper, ChatRoomListChangeEvent.CHAT_ROOM_ADDED);
      }
      joinChatRoom(chatRoomWrapper);
    } else
      MUCActivator.getAlertUIService()
          .showAlertDialog(
              MUCActivator.getResources().getI18NString("service.gui.ERROR"),
              MUCActivator.getResources()
                  .getI18NString(
                      "service.gui.CHAT_ROOM_NOT_EXIST",
                      new String[] {
                        chatRoomName,
                        chatRoomProvider.getProtocolProvider().getAccountID().getService()
                      }));
  }
Exemplo n.º 19
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  /**
   * Constructor for this class. Creates the JAIN-SIP stack.
   *
   * @throws OperationFailedException if creating the stack fails.
   */
  SipStackSharing() throws OperationFailedException {
    // init of the stack
    try {
      SipFactory sipFactory = SipFactory.getInstance();
      sipFactory.setPathName("org.jitsi.gov.nist");

      Properties sipStackProperties = new SipStackProperties();

      // Create SipStack object
      this.stack = sipFactory.createSipStack(sipStackProperties);
      if (logger.isTraceEnabled()) logger.trace("Created stack: " + this.stack);

      // set our custom address resolver managing SRV records
      AddressResolverImpl addressResolver = new AddressResolverImpl();
      ((SIPTransactionStack) this.stack).setAddressResolver(addressResolver);

      SipActivator.getNetworkAddressManagerService().addNetworkConfigurationChangeListener(this);
    } catch (Exception ex) {
      logger.fatal("Failed to get SIP Factory.", ex);
      throw new OperationFailedException(
          "Failed to get SIP Factory", OperationFailedException.INTERNAL_ERROR, ex);
    }
  }
Exemplo n.º 20
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/**
 * A depacketizer from VP8. See {@link "http://tools.ietf.org/html/draft-ietf-payload-vp8-11"}
 *
 * @author Boris Grozev
 * @author George Politis
 */
public class DePacketizer extends AbstractCodec2 {
  /**
   * The <tt>Logger</tt> used by the <tt>DePacketizer</tt> class and its instances for logging
   * output.
   */
  private static final Logger logger = Logger.getLogger(DePacketizer.class);

  /** Whether trace logging is enabled. */
  private static final boolean TRACE = logger.isTraceEnabled();

  /**
   * A <tt>Comparator</tt> implementation for RTP sequence numbers. Compares <tt>a</tt> and
   * <tt>b</tt>, taking into account the wrap at 2^16.
   *
   * <p>IMPORTANT: This is a valid <tt>Comparator</tt> implementation only if used for subsets of
   * [0, 2^16) which don't span more than 2^15 elements.
   *
   * <p>E.g. it works for: [0, 2^15-1] and ([50000, 2^16) u [0, 10000]) Doesn't work for: [0, 2^15]
   * and ([0, 2^15-1] u {2^16-1}) and [0, 2^16)
   *
   * <p>NOTE: An identical implementation for Integers can be found in the class SeqNumComparator.
   * Sequence numbers are 16 bits and unsigned, so an Integer should be sufficient to hold that.
   */
  private static final Comparator<? super Long> seqNumComparator =
      new Comparator<Long>() {
        @Override
        public int compare(Long a, Long b) {
          if (a.equals(b)) return 0;
          else if (a > b) {
            if (a - b < 32768) return 1;
            else return -1;
          } else // a < b
          {
            if (b - a < 32768) return -1;
            else return 1;
          }
        }
      };

  /**
   * Stores the RTP payloads (VP8 payload descriptor stripped) from RTP packets belonging to a
   * single VP8 compressed frame.
   */
  private SortedMap<Long, Container> data = new TreeMap<Long, Container>(seqNumComparator);

  /** Stores unused <tt>Container</tt>'s. */
  private Queue<Container> free = new ArrayBlockingQueue<Container>(100);

  /**
   * Stores the first (earliest) sequence number stored in <tt>data</tt>, or -1 if <tt>data</tt> is
   * empty.
   */
  private long firstSeq = -1;

  /**
   * Stores the last (latest) sequence number stored in <tt>data</tt>, or -1 if <tt>data</tt> is
   * empty.
   */
  private long lastSeq = -1;

  /**
   * Stores the value of the <tt>PictureID</tt> field for the VP8 compressed frame, parts of which
   * are currently stored in <tt>data</tt>, or -1 if the <tt>PictureID</tt> field is not in use or
   * <tt>data</tt> is empty.
   */
  private int pictureId = -1;

  /**
   * Stores the RTP timestamp of the packets stored in <tt>data</tt>, or -1 if they don't have a
   * timestamp set.
   */
  private long timestamp = -1;

  /** Whether we have stored any packets in <tt>data</tt>. Equivalent to <tt>data.isEmpty()</tt>. */
  private boolean empty = true;

  /**
   * Whether we have stored in <tt>data</tt> the last RTP packet of the VP8 compressed frame, parts
   * of which are currently stored in <tt>data</tt>.
   */
  private boolean haveEnd = false;

  /**
   * Whether we have stored in <tt>data</tt> the first RTP packet of the VP8 compressed frame, parts
   * of which are currently stored in <tt>data</tt>.
   */
  private boolean haveStart = false;

  /**
   * Stores the sum of the lengths of the data stored in <tt>data</tt>, that is the total length of
   * the VP8 compressed frame to be constructed.
   */
  private int frameLength = 0;

  /** The sequence number of the last RTP packet, which was included in the output. */
  private long lastSentSeq = -1;

  /** Initializes a new <tt>JNIEncoder</tt> instance. */
  public DePacketizer() {
    super(
        "VP8 RTP DePacketizer",
        VideoFormat.class,
        new VideoFormat[] {new VideoFormat(Constants.VP8)});
    inputFormats = new VideoFormat[] {new VideoFormat(Constants.VP8_RTP)};
  }

  /** {@inheritDoc} */
  @Override
  protected void doClose() {}

  /** {@inheritDoc} */
  @Override
  protected void doOpen() throws ResourceUnavailableException {
    if (logger.isInfoEnabled()) logger.info("Opened VP8 depacketizer");
  }

  /**
   * Re-initializes the fields which store information about the currently held data. Empties
   * <tt>data</tt>.
   */
  private void reinit() {
    firstSeq = lastSeq = timestamp = -1;
    pictureId = -1;
    empty = true;
    haveEnd = haveStart = false;
    frameLength = 0;

    Iterator<Map.Entry<Long, Container>> it = data.entrySet().iterator();
    Map.Entry<Long, Container> e;
    while (it.hasNext()) {
      e = it.next();
      free.offer(e.getValue());
      it.remove();
    }
  }

  /**
   * Checks whether the currently held VP8 compressed frame is complete (e.g all its packets are
   * stored in <tt>data</tt>).
   *
   * @return <tt>true</tt> if the currently help VP8 compressed frame is complete, <tt>false</tt>
   *     otherwise.
   */
  private boolean frameComplete() {
    return haveStart && haveEnd && !haveMissing();
  }

  /**
   * Checks whether there are packets with sequence numbers between <tt>firstSeq</tt> and
   * <tt>lastSeq</tt> which are *not* stored in <tt>data</tt>.
   *
   * @return <tt>true</tt> if there are packets with sequence numbers between <tt>firstSeq</tt> and
   *     <tt>lastSeq</tt> which are *not* stored in <tt>data</tt>.
   */
  private boolean haveMissing() {
    Set<Long> seqs = data.keySet();
    long s = firstSeq;
    while (s != lastSeq) {
      if (!seqs.contains(s)) return true;
      s = (s + 1) % (1 << 16);
    }
    return false;
  }

  /** {@inheritDoc} */
  @Override
  protected int doProcess(Buffer inBuffer, Buffer outBuffer) {
    byte[] inData = (byte[]) inBuffer.getData();
    int inOffset = inBuffer.getOffset();

    if (!VP8PayloadDescriptor.isValid(inData, inOffset)) {
      logger.warn("Invalid RTP/VP8 packet discarded.");
      outBuffer.setDiscard(true);
      return BUFFER_PROCESSED_FAILED; // XXX: FAILED or OK?
    }

    long inSeq = inBuffer.getSequenceNumber();
    long inRtpTimestamp = inBuffer.getRtpTimeStamp();
    int inPictureId = VP8PayloadDescriptor.getPictureId(inData, inOffset);
    boolean inMarker = (inBuffer.getFlags() & Buffer.FLAG_RTP_MARKER) != 0;
    boolean inIsStartOfFrame = VP8PayloadDescriptor.isStartOfFrame(inData, inOffset);
    int inLength = inBuffer.getLength();
    int inPdSize = VP8PayloadDescriptor.getSize(inData, inOffset);
    int inPayloadLength = inLength - inPdSize;

    if (empty && lastSentSeq != -1 && seqNumComparator.compare(inSeq, lastSentSeq) != 1) {
      if (logger.isInfoEnabled()) logger.info("Discarding old packet (while empty) " + inSeq);
      outBuffer.setDiscard(true);
      return BUFFER_PROCESSED_OK;
    }

    if (!empty) {
      // if the incoming packet has a different PictureID or timestamp
      // than those of the current frame, then it belongs to a different
      // frame.
      if ((inPictureId != -1 && pictureId != -1 && inPictureId != pictureId)
          | (timestamp != -1 && inRtpTimestamp != -1 && inRtpTimestamp != timestamp)) {
        if (seqNumComparator.compare(inSeq, firstSeq) != 1) // inSeq <= firstSeq
        {
          // the packet belongs to a previous frame. discard it
          if (logger.isInfoEnabled()) logger.info("Discarding old packet " + inSeq);
          outBuffer.setDiscard(true);
          return BUFFER_PROCESSED_OK;
        } else // inSeq > firstSeq (and also presumably isSeq > lastSeq)
        {
          // the packet belongs to a subsequent frame (to the one
          // currently being held). Drop the current frame.

          if (logger.isInfoEnabled())
            logger.info(
                "Discarding saved packets on arrival of"
                    + " a packet for a subsequent frame: "
                    + inSeq);

          // TODO: this would be the place to complain about the
          // not-well-received PictureID by sending a RTCP SLI or NACK.
          reinit();
        }
      }
    }

    // a whole frame in a single packet. avoid the extra copy to
    // this.data and output it immediately.
    if (empty && inMarker && inIsStartOfFrame) {
      byte[] outData = validateByteArraySize(outBuffer, inPayloadLength, false);
      System.arraycopy(inData, inOffset + inPdSize, outData, 0, inPayloadLength);
      outBuffer.setOffset(0);
      outBuffer.setLength(inPayloadLength);
      outBuffer.setRtpTimeStamp(inBuffer.getRtpTimeStamp());

      if (TRACE) logger.trace("Out PictureID=" + inPictureId);

      lastSentSeq = inSeq;

      return BUFFER_PROCESSED_OK;
    }

    // add to this.data
    Container container = free.poll();
    if (container == null) container = new Container();
    if (container.buf == null || container.buf.length < inPayloadLength)
      container.buf = new byte[inPayloadLength];

    if (data.get(inSeq) != null) {
      if (logger.isInfoEnabled())
        logger.info("(Probable) duplicate packet detected, discarding " + inSeq);
      outBuffer.setDiscard(true);
      return BUFFER_PROCESSED_OK;
    }

    System.arraycopy(inData, inOffset + inPdSize, container.buf, 0, inPayloadLength);
    container.len = inPayloadLength;
    data.put(inSeq, container);

    // update fields
    frameLength += inPayloadLength;
    if (firstSeq == -1 || (seqNumComparator.compare(firstSeq, inSeq) == 1)) firstSeq = inSeq;
    if (lastSeq == -1 || (seqNumComparator.compare(inSeq, lastSeq) == 1)) lastSeq = inSeq;

    if (empty) {
      // the first received packet for the current frame was just added
      empty = false;
      timestamp = inRtpTimestamp;
      pictureId = inPictureId;
    }

    if (inMarker) haveEnd = true;
    if (inIsStartOfFrame) haveStart = true;

    // check if we have a full frame
    if (frameComplete()) {
      byte[] outData = validateByteArraySize(outBuffer, frameLength, false);
      int ptr = 0;
      Container b;
      for (Map.Entry<Long, Container> entry : data.entrySet()) {
        b = entry.getValue();
        System.arraycopy(b.buf, 0, outData, ptr, b.len);
        ptr += b.len;
      }

      outBuffer.setOffset(0);
      outBuffer.setLength(frameLength);
      outBuffer.setRtpTimeStamp(inBuffer.getRtpTimeStamp());

      if (TRACE) logger.trace("Out PictureID=" + inPictureId);
      lastSentSeq = lastSeq;

      // prepare for the next frame
      reinit();

      return BUFFER_PROCESSED_OK;
    } else {
      // frame not complete yet
      outBuffer.setDiscard(true);
      return OUTPUT_BUFFER_NOT_FILLED;
    }
  }

  /**
   * Returns true if the buffer contains a VP8 key frame at offset <tt>offset</tt>.
   *
   * @param buff the byte buffer to check
   * @param off the offset in the byte buffer where the actual data starts
   * @param len the length of the data in the byte buffer
   * @return true if the buffer contains a VP8 key frame at offset <tt>offset</tt>.
   */
  public static boolean isKeyFrame(byte[] buff, int off, int len) {
    if (buff == null || buff.length < off + len || len < RawPacket.FIXED_HEADER_SIZE) {
      return false;
    }

    // Check if this is the start of a VP8 partition in the payload
    // descriptor.
    if (!DePacketizer.VP8PayloadDescriptor.isValid(buff, off)) {
      return false;
    }

    if (!DePacketizer.VP8PayloadDescriptor.isStartOfFrame(buff, off)) {
      return false;
    }

    int szVP8PayloadDescriptor = DePacketizer.VP8PayloadDescriptor.getSize(buff, off);

    return DePacketizer.VP8PayloadHeader.isKeyFrame(buff, off + szVP8PayloadDescriptor);
  }

  /**
   * A class that represents the VP8 Payload Descriptor structure defined in {@link
   * "http://tools.ietf.org/html/draft-ietf-payload-vp8-10"}
   */
  public static class VP8PayloadDescriptor {
    /** I bit from the X byte of the Payload Descriptor. */
    private static final byte I_BIT = (byte) 0x80;

    /** K bit from the X byte of the Payload Descriptor. */
    private static final byte K_BIT = (byte) 0x10;
    /** L bit from the X byte of the Payload Descriptor. */
    private static final byte L_BIT = (byte) 0x40;

    /** I bit from the I byte of the Payload Descriptor. */
    private static final byte M_BIT = (byte) 0x80;
    /** Maximum length of a VP8 Payload Descriptor. */
    public static final int MAX_LENGTH = 6;
    /** S bit from the first byte of the Payload Descriptor. */
    private static final byte S_BIT = (byte) 0x10;
    /** T bit from the X byte of the Payload Descriptor. */
    private static final byte T_BIT = (byte) 0x20;

    /** X bit from the first byte of the Payload Descriptor. */
    private static final byte X_BIT = (byte) 0x80;

    /**
     * Gets the temporal layer index (TID), if that's set.
     *
     * @param buf the byte buffer that holds the VP8 packet.
     * @param off the offset in the byte buffer where the VP8 packet starts.
     * @param len the length of the VP8 packet.
     * @return the temporal layer index (TID), if that's set, -1 otherwise.
     */
    public static int getTemporalLayerIndex(byte[] buf, int off, int len) {
      if (buf == null || buf.length < off + len || len < 2) {
        return -1;
      }

      if ((buf[off] & X_BIT) == 0 || (buf[off + 1] & T_BIT) == 0) {
        return -1;
      }

      int sz = getSize(buf, off);
      if (buf.length < off + sz || sz < 1) {
        return -1;
      }

      return (buf[off + sz - 1] & 0xc0) >> 6;
    }

    /**
     * Returns a simple Payload Descriptor, with PartID = 0, the 'start of partition' bit set
     * according to <tt>startOfPartition</tt>, and all other bits set to 0.
     *
     * @param startOfPartition whether to 'start of partition' bit should be set
     * @return a simple Payload Descriptor, with PartID = 0, the 'start of partition' bit set
     *     according to <tt>startOfPartition</tt>, and all other bits set to 0.
     */
    public static byte[] create(boolean startOfPartition) {
      byte[] pd = new byte[1];
      pd[0] = startOfPartition ? (byte) 0x10 : 0;
      return pd;
    }

    /**
     * The size in bytes of the Payload Descriptor at offset <tt>offset</tt> in <tt>input</tt>. The
     * size is between 1 and 6.
     *
     * @param input input
     * @param offset offset
     * @return The size in bytes of the Payload Descriptor at offset <tt>offset</tt> in
     *     <tt>input</tt>, or -1 if the input is not a valid VP8 Payload Descriptor. The size is
     *     between 1 and 6.
     */
    public static int getSize(byte[] input, int offset) {
      if (!isValid(input, offset)) return -1;

      if ((input[offset] & X_BIT) == 0) return 1;

      int size = 2;
      if ((input[offset + 1] & I_BIT) != 0) {
        size++;
        if ((input[offset + 2] & M_BIT) != 0) size++;
      }
      if ((input[offset + 1] & L_BIT) != 0) size++;
      if ((input[offset + 1] & (T_BIT | K_BIT)) != 0) size++;

      return size;
    }

    /**
     * Gets the value of the PictureID field of a VP8 Payload Descriptor.
     *
     * @param input
     * @param offset
     * @return the value of the PictureID field of a VP8 Payload Descriptor, or -1 if the fields is
     *     not present.
     */
    private static int getPictureId(byte[] input, int offset) {
      if (!isValid(input, offset)) return -1;

      if ((input[offset] & X_BIT) == 0 || (input[offset + 1] & I_BIT) == 0) return -1;

      boolean isLong = (input[offset + 2] & M_BIT) != 0;
      if (isLong) return (input[offset + 2] & 0x7f) << 8 | (input[offset + 3] & 0xff);
      else return input[offset + 2] & 0x7f;
    }

    public static boolean isValid(byte[] input, int offset) {
      return true;
    }

    /**
     * Checks whether the '<tt>start of partition</tt>' bit is set in the VP8 Payload Descriptor at
     * offset <tt>offset</tt> in <tt>input</tt>.
     *
     * @param input input
     * @param offset offset
     * @return <tt>true</tt> if the '<tt>start of partition</tt>' bit is set, <tt>false</tt>
     *     otherwise.
     */
    public static boolean isStartOfPartition(byte[] input, int offset) {
      return (input[offset] & S_BIT) != 0;
    }

    /**
     * Returns <tt>true</tt> if both the '<tt>start of partition</tt>' bit is set and the
     * <tt>PID</tt> fields has value 0 in the VP8 Payload Descriptor at offset <tt>offset</tt> in
     * <tt>input</tt>.
     *
     * @param input
     * @param offset
     * @return <tt>true</tt> if both the '<tt>start of partition</tt>' bit is set and the
     *     <tt>PID</tt> fields has value 0 in the VP8 Payload Descriptor at offset <tt>offset</tt>
     *     in <tt>input</tt>.
     */
    public static boolean isStartOfFrame(byte[] input, int offset) {
      return isStartOfPartition(input, offset) && getPartitionId(input, offset) == 0;
    }

    /**
     * Returns the value of the <tt>PID</tt> (partition ID) field of the VP8 Payload Descriptor at
     * offset <tt>offset</tt> in <tt>input</tt>.
     *
     * @param input
     * @param offset
     * @return the value of the <tt>PID</tt> (partition ID) field of the VP8 Payload Descriptor at
     *     offset <tt>offset</tt> in <tt>input</tt>.
     */
    public static int getPartitionId(byte[] input, int offset) {
      return input[offset] & 0x07;
    }
  }

  /**
   * A class that represents the VP8 Payload Header structure defined in {@link
   * "http://tools.ietf.org/html/draft-ietf-payload-vp8-10"}
   */
  public static class VP8PayloadHeader {
    /** S bit of the Payload Descriptor. */
    private static final byte S_BIT = (byte) 0x01;

    /**
     * Returns true if the <tt>P</tt> (inverse key frame flag) field of the VP8 Payload Header at
     * offset <tt>offset</tt> in <tt>input</tt> is 0.
     *
     * @return true if the <tt>P</tt> (inverse key frame flag) field of the VP8 Payload Header at
     *     offset <tt>offset</tt> in <tt>input</tt> is 0, false otherwise.
     */
    public static boolean isKeyFrame(byte[] input, int offset) {
      // When set to 0 the current frame is a key frame.  When set to 1
      // the current frame is an interframe. Defined in [RFC6386]

      return (input[offset] & S_BIT) == 0;
    }
  }

  /** A simple container for a <tt>byte[]</tt> and an integer. */
  private static class Container {
    /** This <tt>Container</tt>'s data. */
    private byte[] buf;

    /** Length used. */
    private int len = 0;
  }
}
Exemplo n.º 21
0
 /**
  * Logs the build time stamp of the jain-sip reference implementation.
  *
  * @param buildTimeStamp the build time stamp of the jain-sip reference implementation.
  */
 public void setBuildTimeStamp(String buildTimeStamp) {
   if (logger.isTraceEnabled()) logger.trace("JAIN-SIP RI build " + buildTimeStamp);
 }
  /**
   * Notifies this instance that a <tt>DatagramPacket</tt> packet received on the data
   * <tt>DatagramSocket</tt> of this <tt>Channel</tt> has been accepted for further processing
   * within Jitsi Videobridge.
   *
   * @param pkt the accepted <tt>RawPacket</tt>.
   */
  public void accepted(RawPacket pkt) {
    // With native simulcast we don't have a notification when a stream
    // has started/stopped. The simulcast manager implements a timeout
    // for the high quality stream and it needs to be notified when
    // the channel has accepted a datagram packet for the timeout to
    // function correctly.

    if (!hasLayers() || pkt == null) {
      return;
    }

    // Find the layer that corresponds to this packet.
    int acceptedSSRC = pkt.getSSRC();
    SimulcastLayer[] layers = getSimulcastLayers();
    SimulcastLayer acceptedLayer = null;
    for (SimulcastLayer layer : layers) {
      // We only care about the primary SSRC and not the RTX ssrc (or
      // future FEC ssrc).
      if ((int) layer.getPrimarySSRC() == acceptedSSRC) {
        acceptedLayer = layer;
        break;
      }
    }

    // If this is not an RTP packet or if we can't find an accepted
    // layer, log and return as it makes no sense to continue in this
    // situation.
    if (acceptedLayer == null) {
      return;
    }

    // There are sequences of packets with increasing timestamps but without
    // the marker bit set. Supposedly, they are probes to detect whether the
    // bandwidth may increase. We think that they should cause neither the
    // start nor the stop of any SimulcastLayer.

    // XXX There's RawPacket#getPayloadLength() but the implementation
    // includes pkt.paddingSize at the time of this writing and we do not
    // know whether that's going to stay that way.
    int pktPayloadLength = pkt.getLength() - pkt.getHeaderLength();
    int pktPaddingSize = pkt.getPaddingSize();

    if (pktPayloadLength <= pktPaddingSize) {
      if (logger.isTraceEnabled()) {
        logger.trace(
            "pkt.payloadLength= "
                + pktPayloadLength
                + " <= pkt.paddingSize= "
                + pktPaddingSize
                + "("
                + pkt.getSequenceNumber()
                + ")");
      }
      return;
    }

    // NOTE(gp) we expect the base layer to be always on, so we never touch
    // it or starve it.

    // XXX Refer to the implementation of
    // SimulcastLayer#touch(boolean, RawPacket) for an explanation of why we
    // chose to use a return value.
    boolean frameStarted = acceptedLayer.touch(pkt);
    if (frameStarted) simulcastLayerFrameStarted(acceptedLayer, pkt, layers);
  }
Exemplo n.º 23
0
  /**
   * Dispatches the event received from a JAIN-SIP <tt>SipProvider</tt> to one of our "candidate
   * recipient" listeners.
   *
   * @param event the event received for a <tt>SipProvider</tt>.
   */
  public void processRequest(RequestEvent event) {
    try {
      Request request = event.getRequest();
      if (logger.isTraceEnabled()) logger.trace("received request: " + request.getMethod());

      /*
       * Create the transaction if it doesn't exist yet. If it is a
       * dialog-creating request, the dialog will also be automatically
       * created by the stack.
       */
      if (event.getServerTransaction() == null) {
        try {
          // apply some hacks if needed on incoming request
          // to be compliant with some servers/clients
          // if needed stop further processing.
          if (applyNonConformanceHacks(event)) return;

          SipProvider source = (SipProvider) event.getSource();
          ServerTransaction transaction = source.getNewServerTransaction(request);

          /*
           * Update the event, otherwise getServerTransaction() and
           * getDialog() will still return their previous value.
           */
          event = new RequestEvent(source, transaction, transaction.getDialog(), request);
        } catch (SipException ex) {
          logger.error(
              "couldn't create transaction, please report "
                  + "this to [email protected]",
              ex);
        }
      }

      ProtocolProviderServiceSipImpl service = getServiceData(event.getServerTransaction());
      if (service != null) {
        service.processRequest(event);
      } else {
        service = findTargetFor(request);
        if (service == null) {
          logger.error("couldn't find a ProtocolProviderServiceSipImpl " + "to dispatch to");
          if (event.getServerTransaction() != null) event.getServerTransaction().terminate();
        } else {

          /*
           * Mark the dialog for the dispatching of later in-dialog
           * requests. If there is no dialog, we need to mark the
           * request to dispatch a possible timeout when sending the
           * response.
           */
          Object container = event.getDialog();
          if (container == null) container = request;
          SipApplicationData.setApplicationData(container, SipApplicationData.KEY_SERVICE, service);

          service.processRequest(event);
        }
      }
    } catch (Throwable exc) {

      /*
       * Any exception thrown within our code should be caught here so
       * that we could log it rather than interrupt stack activity with
       * it.
       */
      this.logApplicationException(DialogTerminatedEvent.class, exc);

      // Unfortunately, death can hardly be ignored.
      if (exc instanceof ThreadDeath) throw (ThreadDeath) exc;
    }
  }
  /**
   * Helper function used to send a message to a contact, with the given extensions attached.
   *
   * @param to The contact to send the message to.
   * @param toResource The resource to send the message to or null if no resource has been specified
   * @param message The message to send.
   * @param extensions The XMPP extensions that should be attached to the message before sending.
   * @return The MessageDeliveryEvent that resulted after attempting to send this message, so the
   *     calling function can modify it if needed.
   */
  private MessageDeliveredEvent sendMessage(
      Contact to, ContactResource toResource, Message message, PacketExtension[] extensions) {
    if (!(to instanceof ContactJabberImpl))
      throw new IllegalArgumentException("The specified contact is not a Jabber contact." + to);

    assertConnected();

    org.jivesoftware.smack.packet.Message msg = new org.jivesoftware.smack.packet.Message();

    String toJID = null;

    if (toResource != null) {
      if (toResource.equals(ContactResource.BASE_RESOURCE)) {
        toJID = to.getAddress();
      } else toJID = ((ContactResourceJabberImpl) toResource).getFullJid();
    }

    if (toJID == null) {
      toJID = to.getAddress();
    }

    msg.setPacketID(message.getMessageUID());
    msg.setTo(toJID);

    for (PacketExtension ext : extensions) {
      msg.addExtension(ext);
    }

    if (logger.isTraceEnabled())
      logger.trace("Will send a message to:" + toJID + " chat.jid=" + toJID);

    MessageDeliveredEvent msgDeliveryPendingEvt =
        new MessageDeliveredEvent(message, to, toResource);

    MessageDeliveredEvent[] transformedEvents =
        messageDeliveryPendingTransform(msgDeliveryPendingEvt);

    if (transformedEvents == null || transformedEvents.length == 0) return null;

    for (MessageDeliveredEvent event : transformedEvents) {
      String content = event.getSourceMessage().getContent();

      if (message.getContentType().equals(HTML_MIME_TYPE)) {
        msg.setBody(Html2Text.extractText(content));

        // Check if the other user supports XHTML messages
        // make sure we use our discovery manager as it caches calls
        if (jabberProvider.isFeatureListSupported(toJID, HTML_NAMESPACE)) {
          // Add the XHTML text to the message
          XHTMLManager.addBody(msg, OPEN_BODY_TAG + content + CLOSE_BODY_TAG);
        }
      } else {
        // this is plain text so keep it as it is.
        msg.setBody(content);
      }

      // msg.addExtension(new Version());

      if (event.isMessageEncrypted() && isCarbonEnabled) {
        msg.addExtension(new CarbonPacketExtension.PrivateExtension());
      }

      MessageEventManager.addNotificationsRequests(msg, true, false, false, true);

      String threadID = getThreadIDForAddress(toJID);
      if (threadID == null) threadID = nextThreadID();

      msg.setThread(threadID);
      msg.setType(org.jivesoftware.smack.packet.Message.Type.chat);
      msg.setFrom(jabberProvider.getConnection().getUser());

      jabberProvider.getConnection().sendPacket(msg);

      putJidForAddress(toJID, threadID);
    }

    return new MessageDeliveredEvent(message, to, toResource);
  }
Exemplo n.º 25
0
 /**
  * Log an error message.
  *
  * @param message -- error message to log.
  */
 public void logFatalError(String message) {
   if (logger.isTraceEnabled()) logger.trace("Fatal error from the JAIN-SIP stack: " + message);
 }
Exemplo n.º 26
0
  /**
   * Attach JAIN-SIP <tt>SipProvider</tt> and <tt>ListeningPoint</tt> to the stack either for clear
   * communications or TLS. Clear UDP and TCP <tt>ListeningPoint</tt>s are not handled separately as
   * the former is a fallback for the latter (depending on the size of the data transmitted). Both
   * <tt>ListeningPoint</tt>s must be bound to the same address and port in order for the related
   * <tt>SipProvider</tt> to be created. If a UDP or TCP <tt>ListeningPoint</tt> cannot bind, retry
   * for both on another port.
   *
   * @param preferredPort which port to try first to bind.
   * @param retries how many times should we try to find a free port to bind
   * @param secure whether to create the TLS SipProvider. or the clear UDP/TCP one.
   * @throws TransportNotSupportedException in case we try to create a provider for a transport not
   *     currently supported by jain-sip
   * @throws InvalidArgumentException if we try binding to an illegal port (which we won't)
   * @throws ObjectInUseException if another <tt>SipProvider</tt> is already associated with this
   *     <tt>ListeningPoint</tt>.
   * @throws TransportAlreadySupportedException if there is already a ListeningPoint associated to
   *     this <tt>SipProvider</tt> with the same transport of the <tt>ListeningPoint</tt>.
   * @throws TooManyListenersException if we try to add a new <tt>SipListener</tt> with a
   *     <tt>SipProvider</tt> when one was already registered.
   */
  private void createProvider(int preferredPort, int retries, boolean secure)
      throws TransportNotSupportedException, InvalidArgumentException, ObjectInUseException,
          TransportAlreadySupportedException, TooManyListenersException {
    String context = (secure ? "TLS: " : "clear UDP/TCP: ");

    if (retries < 0) {
      // very unlikely to happen with the default 50 retries
      logger.error(context + "couldn't find free ports to listen on.");
      return;
    }

    ListeningPoint tlsLP = null;
    ListeningPoint udpLP = null;
    ListeningPoint tcpLP = null;

    try {
      if (secure) {
        tlsLP =
            this.stack.createListeningPoint(
                NetworkUtils.IN_ADDR_ANY, preferredPort, ListeningPoint.TLS);
        if (logger.isTraceEnabled()) logger.trace("TLS secure ListeningPoint has been created.");

        this.secureJainSipProvider = this.stack.createSipProvider(tlsLP);
        this.secureJainSipProvider.addSipListener(this);
      } else {
        udpLP =
            this.stack.createListeningPoint(
                NetworkUtils.IN_ADDR_ANY, preferredPort, ListeningPoint.UDP);
        tcpLP =
            this.stack.createListeningPoint(
                NetworkUtils.IN_ADDR_ANY, preferredPort, ListeningPoint.TCP);
        if (logger.isTraceEnabled())
          logger.trace("UDP and TCP clear ListeningPoints have " + "been created.");

        this.clearJainSipProvider = this.stack.createSipProvider(udpLP);
        this.clearJainSipProvider.addListeningPoint(tcpLP);
        this.clearJainSipProvider.addSipListener(this);
      }

      if (logger.isTraceEnabled()) logger.trace(context + "SipProvider has been created.");
    } catch (InvalidArgumentException ex) {
      // makes sure we didn't leave an open listener
      // as both UDP and TCP listener have to bind to the same port
      if (tlsLP != null) this.stack.deleteListeningPoint(tlsLP);
      if (udpLP != null) this.stack.deleteListeningPoint(udpLP);
      if (tcpLP != null) this.stack.deleteListeningPoint(tcpLP);

      // FIXME: "Address already in use" is not working
      // as ex.getMessage() displays in the locale language in SC
      // (getMessage() is always supposed to be English though)
      // this should be a temporary workaround
      // if (ex.getMessage().indexOf("Address already in use") != -1)
      // another software is probably using the port
      if (ex.getCause() instanceof java.io.IOException) {
        if (logger.isDebugEnabled())
          logger.debug("Port " + preferredPort + " seems in use for either TCP or UDP.");

        // tries again on a new random port
        int currentlyTriedPort = NetworkUtils.getRandomPortNumber();
        if (logger.isDebugEnabled()) logger.debug("Retrying bind on port " + currentlyTriedPort);
        this.createProvider(currentlyTriedPort, retries - 1, secure);
      } else throw ex;
    }
  }
Exemplo n.º 27
0
  /**
   * Find the <tt>ProtocolProviderServiceSipImpl</tt> (one of our "candidate recipient" listeners)
   * which this <tt>request</tt> should be dispatched to. The strategy is to look first at the
   * request URI, and then at the To field to find a matching candidate for dispatching. Note that
   * this method takes a <tt>Request</tt> as param, and not a <tt>ServerTransaction</tt>, because
   * sometimes <tt>RequestEvent</tt>s have no associated <tt>ServerTransaction</tt>.
   *
   * @param request the <tt>Request</tt> to find a recipient for.
   * @return a suitable <tt>ProtocolProviderServiceSipImpl</tt>.
   */
  private ProtocolProviderServiceSipImpl findTargetFor(Request request) {
    if (request == null) {
      logger.error("request shouldn't be null.");
      return null;
    }

    List<ProtocolProviderServiceSipImpl> currentListenersCopy =
        new ArrayList<ProtocolProviderServiceSipImpl>(this.getSipListeners());

    // Let's first narrow down candidate choice by comparing
    // addresses and ports (no point in delivering to a provider with a
    // non matching IP address  since they will reject it anyway).
    filterByAddress(currentListenersCopy, request);

    if (currentListenersCopy.size() == 0) {
      logger.error("no listeners");
      return null;
    }

    URI requestURI = request.getRequestURI();

    if (requestURI.isSipURI()) {
      String requestUser = ((SipURI) requestURI).getUser();

      List<ProtocolProviderServiceSipImpl> candidates =
          new ArrayList<ProtocolProviderServiceSipImpl>();

      // check if the Request-URI username is
      // one of ours usernames
      for (ProtocolProviderServiceSipImpl listener : currentListenersCopy) {
        String ourUserID = listener.getAccountID().getUserID();
        // logger.trace(ourUserID + " *** " + requestUser);
        if (ourUserID.equals(requestUser)) {
          if (logger.isTraceEnabled())
            logger.trace("suitable candidate found: " + listener.getAccountID());
          candidates.add(listener);
        }
      }

      // the perfect match
      // every other case is approximation
      if (candidates.size() == 1) {
        ProtocolProviderServiceSipImpl perfectMatch = candidates.get(0);

        if (logger.isTraceEnabled())
          logger.trace("Will dispatch to \"" + perfectMatch.getAccountID() + "\"");
        return perfectMatch;
      }

      // more than one account match
      if (candidates.size() > 1) {
        // check if a custom param exists in the contact
        // address (set for registrar accounts)
        for (ProtocolProviderServiceSipImpl candidate : candidates) {
          String hostValue =
              ((SipURI) requestURI).getParameter(SipStackSharing.CONTACT_ADDRESS_CUSTOM_PARAM_NAME);
          if (hostValue == null) continue;
          if (hostValue.equals(candidate.getContactAddressCustomParamValue())) {
            if (logger.isTraceEnabled())
              logger.trace(
                  "Will dispatch to \""
                      + candidate.getAccountID()
                      + "\" because "
                      + "\" the custom param was set");
            return candidate;
          }
        }

        // Past this point, our guess is not reliable. We try to find
        // the "least worst" match based on parameters like the To field

        // check if the To header field host part
        // matches any of our SIP hosts
        for (ProtocolProviderServiceSipImpl candidate : candidates) {
          URI fromURI = ((FromHeader) request.getHeader(FromHeader.NAME)).getAddress().getURI();
          if (fromURI.isSipURI() == false) continue;
          SipURI ourURI = (SipURI) candidate.getOurSipAddress((SipURI) fromURI).getURI();
          String ourHost = ourURI.getHost();

          URI toURI = ((ToHeader) request.getHeader(ToHeader.NAME)).getAddress().getURI();
          if (toURI.isSipURI() == false) continue;
          String toHost = ((SipURI) toURI).getHost();

          // logger.trace(toHost + "***" + ourHost);
          if (toHost.equals(ourHost)) {
            if (logger.isTraceEnabled())
              logger.trace(
                  "Will dispatch to \""
                      + candidate.getAccountID()
                      + "\" because "
                      + "host in the To: is the same as in our AOR");
            return candidate;
          }
        }

        // fallback on the first candidate
        ProtocolProviderServiceSipImpl target = candidates.iterator().next();
        logger.info(
            "Will randomly dispatch to \""
                + target.getAccountID()
                + "\" because there is ambiguity on the username from"
                + " the Request-URI");
        if (logger.isTraceEnabled()) logger.trace("\n" + request);
        return target;
      }

      // fallback on any account
      ProtocolProviderServiceSipImpl target = currentListenersCopy.iterator().next();
      if (logger.isDebugEnabled())
        logger.debug(
            "Will randomly dispatch to \""
                + target.getAccountID()
                + "\" because the username in the Request-URI "
                + "is unknown or empty");
      if (logger.isTraceEnabled()) logger.trace("\n" + request);
      return target;
    } else {
      logger.error("Request-URI is not a SIP URI, dropping");
    }
    return null;
  }
Exemplo n.º 28
0
 /**
  * logs a stack trace. This helps to look at the stack frame.
  *
  * @param traceLevel currently unused.
  */
 public void logStackTrace(int traceLevel) {
   if (logger.isTraceEnabled()) logger.trace("JAIN-SIP stack trace", new Throwable());
 }