Example #1
0
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        ForkHeader hdr = (ForkHeader) msg.getHeader(id);
        if (hdr == null) break;
        if (hdr.fork_stack_id == null)
          throw new IllegalArgumentException("header has a null fork_stack_id");
        Protocol bottom_prot = get(hdr.fork_stack_id);
        return bottom_prot != null
            ? bottom_prot.up(evt)
            : this.unknownForkHandler.handleUnknownForkStack(msg, hdr.fork_stack_id);

      case Event.VIEW_CHANGE:
        for (Protocol bottom : fork_stacks.values()) bottom.up(evt);
        break;

      case Event.STATE_TRANSFER_OUTPUTSTREAM:
        if (!process_state_events) break;
        getStateFromMainAndForkChannels(evt);
        return null;

      case Event.STATE_TRANSFER_INPUTSTREAM:
        if (!process_state_events) break;
        setStateInMainAndForkChannels((InputStream) evt.getArg());
        return null;
    }
    return up_prot.up(evt);
  }
Example #2
0
 /**
  * Sends an event down the protocol stack. Note that - contrary to {@link #send(Message)}, if the
  * event is a message, no checks are performed whether the channel is closed or disconnected.
  *
  * @param evt the message to send down, encapsulated in an event
  */
 public Object down(Event evt) {
   if (evt == null) return null;
   if (stats && evt.getType() == Event.MSG) {
     sent_msgs++;
     sent_bytes += ((Message) evt.getArg()).getLength();
   }
   return prot_stack.down(evt);
 }
Example #3
0
 public Object up(Event evt) {
   switch (evt.getType()) {
     case Event.VIEW_CHANGE:
       handleView(evt.getArg());
       break;
   }
   return up_prot.up(evt);
 }
 public Object down(Event evt) {
   if (channel != null) {
     if (evt.getType() == Event.MSG && !(channel.isConnected() || channel.isConnecting()))
       throw new IllegalStateException("channel is not connected");
     return channel.down(evt);
   }
   return null;
 }
Example #5
0
 public Object down(Event evt) {
   switch (evt.getType()) {
     case Event.SET_LOCAL_ADDRESS:
       local_addr = (Address) evt.getArg();
       break;
   }
   return down_prot.down(evt);
 }
Example #6
0
  /**
   * handle the UP event.
   *
   * @param evt - the event being send from the stack
   */
  public void up(Event evt) {
    passUp(evt);

    switch (evt.getType()) {
      case Event.CONFIG:
        passUp(evt);
        if (Trace.trace) {
          Trace.info("UDP.up()", "received CONFIG event: " + evt.getArg());
        }
        handleConfigEvent((HashMap) evt.getArg());
        return;
    }

    passUp(evt);
  }
Example #7
0
    public Dialog getPreviousPoppedDialog(int time) {

      Dialog d = null;

      listIt = eventList.listIterator();
      while (listIt.hasNext()) {
        Event temp = listIt.next();
        if (temp.getTimeStamp() > time) {
          break;
        }
        if (temp.getType() == DIA_TIME) {
          d = (Dialog) temp;
        }
      }
      return d;
    }
Example #8
0
  public Object down(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        if (msg.getLength() == 0 && !encrypt_entire_message) break;

        try {
          if (queue_down) {
            log.trace("queueing down message as no session key established: %s", msg);
            downMessageQueue.put(msg); // queue messages if we are waiting for a new key
          } else {
            // make sure the down queue is drained first to keep ordering
            if (!suppliedKey) drainDownQueue();
            encryptAndSend(msg);
          }
        } catch (Exception e) {
          log.warn("unable to send message down", e);
        }
        return null;

      case Event.VIEW_CHANGE:
        View view = (View) evt.getArg();
        log.debug("new view: " + view);
        if (!suppliedKey) handleViewChange(view, false);
        break;

      case Event.SET_LOCAL_ADDRESS:
        local_addr = (Address) evt.getArg();
        log.debug("set local address to %s", local_addr);
        break;

      case Event.TMP_VIEW:
        view = (View) evt.getArg();
        if (!suppliedKey) {
          // if a tmp_view then we are trying to become coordinator so
          // make us keyserver
          handleViewChange(view, true);
        }
        break;
    }
    return down_prot.down(evt);
  }
Example #9
0
  void handleDownEvent(Event evt) {
    switch (evt.getType()) {
      case Event.TMP_VIEW:
      case Event.VIEW_CHANGE:
        synchronized (members) {
          members.removeAllElements();
          Vector tmpvec = ((View) evt.getArg()).getMembers();
          for (int i = 0; i < tmpvec.size(); i++) {
            members.addElement(tmpvec.elementAt(i));
          }
        }
        break;

      case Event.GET_LOCAL_ADDRESS: // return local address -> Event(SET_LOCAL_ADDRESS, local)
        passUp(new Event(Event.SET_LOCAL_ADDRESS, local_addr));
        break;

      case Event.CONNECT:
        group_addr = (String) evt.getArg();
        udp_hdr = new UdpHeader(group_addr);

        // removed March 18 2003 (bela), not needed (handled by GMS)
        // changed July 2 2003 (bela): we discard CONNECT_OK at the GMS level anyway, this might
        // be needed if we run without GMS though
        passUp(new Event(Event.CONNECT_OK));
        break;

      case Event.DISCONNECT:
        passUp(new Event(Event.DISCONNECT_OK));
        break;

      case Event.CONFIG:
        if (Trace.trace) {
          Trace.info("UDP.down()", "received CONFIG event: " + evt.getArg());
        }
        handleConfigEvent((HashMap) evt.getArg());
        break;
    }
  }
Example #10
0
 public Object up(Event evt) {
   switch (evt.getType()) {
     case Event.VIEW_CHANGE:
       View view = (View) evt.getArg();
       log.debug("new view: " + view);
       if (!suppliedKey) handleViewChange(view, false);
       break;
     case Event.TMP_VIEW:
       view = (View) evt.getArg();
       if (!suppliedKey) handleViewChange(view, true);
       break;
       // we try and decrypt all messages
     case Event.MSG:
       try {
         return handleUpMessage(evt);
       } catch (Exception e) {
         log.warn("exception occurred decrypting message", e);
       }
       return null;
   }
   return up_prot.up(evt);
 }
Example #11
0
    public void checkCuttingOnAction(SceneManager sm, Timeline tl) {
      LinkedList<Event> eList = sm.getEventList();
      ArrayList<Tick> tArr = tl.getTickArr();
      ListIterator<Event> listIt;

      for (int i = 0; i < tArr.size(); i++) {
        //      println("here");
        listIt = eList.listIterator();
        while (listIt.hasNext()) {
          Event tempEvent = listIt.next();
          // check for time colisions.
          //        println("event " + tempEvent.getTimeStamp() + " tick time " +
          // tArr.get(i).getTimeStamp() + " " + tempEvent.type);

          if ((tempEvent.getType() == DIA_TIME)
              && (tempEvent.getTimeStamp() == tArr.get(i).getTimeStamp())) {
            println("CUTTING ON ACTION ERROR!");
            tArr.get(i).setCutViolation(true);
          } else {
            tArr.get(i).setCutViolation(false);
          }
        }
      }
    }
  protected Object handleUpEvent(Event evt) throws Exception {
    switch (evt.getType()) {
      case Event.MSG:
        if (msg_listener != null) msg_listener.receive((Message) evt.getArg());
        break;

      case Event.GET_APPLSTATE: // reply with GET_APPLSTATE_OK
        byte[] tmp_state = null;
        if (msg_listener != null) {
          ByteArrayOutputStream output = new ByteArrayOutputStream(1024);
          msg_listener.getState(output);
          tmp_state = output.toByteArray();
        }
        return new StateTransferInfo(null, 0L, tmp_state);

      case Event.GET_STATE_OK:
        if (msg_listener != null) {
          StateTransferResult result = (StateTransferResult) evt.getArg();
          if (result.hasBuffer()) {
            ByteArrayInputStream input = new ByteArrayInputStream(result.getBuffer());
            msg_listener.setState(input);
          }
        }
        break;

      case Event.STATE_TRANSFER_OUTPUTSTREAM:
        OutputStream os = (OutputStream) evt.getArg();
        if (msg_listener != null && os != null) {
          msg_listener.getState(os);
        }
        break;

      case Event.STATE_TRANSFER_INPUTSTREAM:
        InputStream is = (InputStream) evt.getArg();
        if (msg_listener != null && is != null) msg_listener.setState(is);
        break;

      case Event.VIEW_CHANGE:
        View v = (View) evt.getArg();
        List<Address> new_mbrs = v.getMembers();
        setMembers(new_mbrs);
        if (membership_listener != null) membership_listener.viewAccepted(v);
        break;

      case Event.SET_LOCAL_ADDRESS:
        if (log.isTraceEnabled())
          log.trace("setting local_addr (" + local_addr + ") to " + evt.getArg());
        local_addr = (Address) evt.getArg();
        break;

      case Event.SUSPECT:
        if (membership_listener != null) membership_listener.suspect((Address) evt.getArg());
        break;

      case Event.BLOCK:
        if (membership_listener != null) membership_listener.block();
        break;
      case Event.UNBLOCK:
        if (membership_listener != null) membership_listener.unblock();
        break;
    }

    return null;
  }
Example #13
0
  /**
   * Caller by the layer above this layer. Usually we just put this Message into the send queue and
   * let one or more worker threads handle it. A worker thread then removes the Message from the
   * send queue, performs a conversion and adds the modified Message to the send queue of the layer
   * below it, by calling Down).
   */
  public void down(Event evt) {
    Message msg;
    Object dest_addr;

    if (evt.getType() != Event.MSG) { // unless it is a message handle it and respond
      handleDownEvent(evt);
      return;
    }

    // ****************** profiling ******************
    /*if(num_msgs == 0) {
    start=System.currentTimeMillis();
    num_msgs++;
         }
         else if(num_msgs >= 1000) {
    stop=System.currentTimeMillis();

    long total_time=stop-start;
    double msgs_per_msec=num_msgs / (double)total_time;

    if(Trace.trace)
        Trace.info("UDP.down.profile()",
                "total_time=" + total_time + ", msgs/ms=" + msgs_per_msec);
    num_msgs=0;
         }
         else {
    num_msgs++;
         }*/
    // ****************** profiling ******************

    msg = (Message) evt.getArg();

    if (udp_hdr != null && udp_hdr.group_addr != null) {
      // added patch by Roland Kurmann (March 20 2003)
      msg.putHeader(name, udp_hdr);
    }

    dest_addr = msg.getDest();

    // Because we don't call Protocol.passDown(), we notify the observer directly (e.g.
    // PerfObserver).
    // This way, we still have performance numbers for UDP
    if (observer != null) {
      observer.passDown(evt);
    }
    if (dest_addr == null) { // 'null' means send to all group members
      if (ip_mcast) {
        if (mcast_addr == null) {
          Trace.error(
              "UDP.down()",
              "dest address of message is null, and "
                  + "sending to default address fails as mcast_addr is null, too !"
                  + " Discarding message "
                  + Util.printEvent(evt));
          return;
        }
        // if we want to use IP multicast, then set the destination of the message
        msg.setDest(mcast_addr);
      } else {
        // sends a separate UDP message to each address
        sendMultipleUdpMessages(msg, members);
        return;
      }
    }

    try {
      sendUdpMessage(msg);
    } catch (Exception e) {
      Trace.error("UDP.down()", "exception=" + e + ", msg=" + msg + ", mcast_addr=" + mcast_addr);
    }
  }
Example #14
0
  @SuppressWarnings("unchecked")
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        GmsHeader hdr = (GmsHeader) msg.getHeader(this.id);
        if (hdr == null) break;
        switch (hdr.type) {
          case GmsHeader.JOIN_REQ:
            view_handler.add(
                new Request(Request.JOIN, hdr.mbr, false, null, hdr.useFlushIfPresent));
            break;
          case GmsHeader.JOIN_REQ_WITH_STATE_TRANSFER:
            view_handler.add(
                new Request(
                    Request.JOIN_WITH_STATE_TRANSFER, hdr.mbr, false, null, hdr.useFlushIfPresent));
            break;
          case GmsHeader.JOIN_RSP:
            impl.handleJoinResponse(hdr.join_rsp);
            break;
          case GmsHeader.LEAVE_REQ:
            if (hdr.mbr == null) return null;
            view_handler.add(new Request(Request.LEAVE, hdr.mbr, false));
            break;
          case GmsHeader.LEAVE_RSP:
            impl.handleLeaveResponse();
            break;
          case GmsHeader.VIEW:
            View new_view = hdr.view;
            if (new_view == null) return null;

            Address coord = msg.getSrc();
            if (!new_view.containsMember(coord)) {
              sendViewAck(
                  coord); // we need to send the ack first, otherwise the connection is removed
              impl.handleViewChange(new_view, hdr.my_digest);
            } else {
              impl.handleViewChange(new_view, hdr.my_digest);
              sendViewAck(coord); // send VIEW_ACK to sender of view
            }
            break;

          case GmsHeader.VIEW_ACK:
            Address sender = msg.getSrc();
            ack_collector.ack(sender);
            return null; // don't pass further up

          case GmsHeader.MERGE_REQ:
            impl.handleMergeRequest(msg.getSrc(), hdr.merge_id, hdr.mbrs);
            break;

          case GmsHeader.MERGE_RSP:
            MergeData merge_data =
                new MergeData(msg.getSrc(), hdr.view, hdr.my_digest, hdr.merge_rejected);
            if (log.isTraceEnabled()) {
              log.trace(
                  local_addr
                      + ": got merge response from "
                      + msg.getSrc()
                      + ", merge_id="
                      + hdr.merge_id
                      + ", merge data is "
                      + merge_data);
            }
            impl.handleMergeResponse(merge_data, hdr.merge_id);
            break;

          case GmsHeader.INSTALL_MERGE_VIEW:
            impl.handleMergeView(
                new MergeData(msg.getSrc(), hdr.view, hdr.my_digest), hdr.merge_id);
            break;

          case GmsHeader.INSTALL_DIGEST:
            Digest tmp = hdr.my_digest;
            down_prot.down(new Event(Event.MERGE_DIGEST, tmp));
            break;

          case GmsHeader.INSTALL_MERGE_VIEW_OK:
            // [JGRP-700] - FLUSH: flushing should span merge
            merge_ack_collector.ack(msg.getSrc());
            break;

          case GmsHeader.CANCEL_MERGE:
            // [JGRP-524] - FLUSH and merge: flush doesn't wrap entire merge process
            impl.handleMergeCancelled(hdr.merge_id);
            break;

          case GmsHeader.GET_DIGEST_REQ:
            // only handle this request if it was sent by the coordinator (or at least a member) of
            // the current cluster
            synchronized (members) {
              if (!members.contains(msg.getSrc())) break;
            }

            // discard my own request:
            if (msg.getSrc().equals(local_addr)) return null;

            if (hdr.merge_id != null
                && !(merger.matchMergeId(hdr.merge_id) || merger.setMergeId(null, hdr.merge_id)))
              return null;

            // fetch only my own digest
            Digest digest = (Digest) down_prot.down(new Event(Event.GET_DIGEST, local_addr));
            if (digest != null) {
              GmsHeader rsp_hdr = new GmsHeader(GmsHeader.GET_DIGEST_RSP);
              rsp_hdr.my_digest = digest;
              Message get_digest_rsp = new Message(msg.getSrc(), null, null);
              get_digest_rsp.setFlag(Message.OOB);
              get_digest_rsp.putHeader(this.id, rsp_hdr);
              down_prot.down(new Event(Event.MSG, get_digest_rsp));
            }
            break;

          case GmsHeader.GET_DIGEST_RSP:
            Digest digest_rsp = hdr.my_digest;
            impl.handleDigestResponse(msg.getSrc(), digest_rsp);
            break;

          default:
            if (log.isErrorEnabled()) log.error("GmsHeader with type=" + hdr.type + " not known");
        }
        return null; // don't pass up

      case Event.SUSPECT:
        Object retval = up_prot.up(evt);
        Address suspected = (Address) evt.getArg();
        view_handler.add(new Request(Request.SUSPECT, suspected, true));
        ack_collector.suspect(suspected);
        merge_ack_collector.suspect(suspected);
        return retval;

      case Event.UNSUSPECT:
        impl.unsuspect((Address) evt.getArg());
        return null; // discard

      case Event.MERGE:
        view_handler.add(
            new Request(Request.MERGE, null, false, (Map<Address, View>) evt.getArg()));
        return null; // don't pass up

      case Event.IS_MERGE_IN_PROGRESS:
        return merger.isMergeInProgress();
    }
    return up_prot.up(evt);
  }
Example #15
0
  @SuppressWarnings("unchecked")
  public Object down(Event evt) {
    int type = evt.getType();

    switch (type) {
      case Event.CONNECT:
      case Event.CONNECT_USE_FLUSH:
      case Event.CONNECT_WITH_STATE_TRANSFER:
      case Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH:
        boolean use_flush =
            type == Event.CONNECT_USE_FLUSH || type == Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH;
        boolean state_transfer =
            type == Event.CONNECT_WITH_STATE_TRANSFER
                || type == Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH;

        if (print_local_addr) {
          PhysicalAddress physical_addr =
              print_physical_addrs
                  ? (PhysicalAddress) down(new Event(Event.GET_PHYSICAL_ADDRESS, local_addr))
                  : null;
          System.out.println(
              "\n-------------------------------------------------------------------\n"
                  + "GMS: address="
                  + local_addr
                  + ", cluster="
                  + evt.getArg()
                  + (physical_addr != null ? ", physical address=" + physical_addr : "")
                  + "\n-------------------------------------------------------------------");
        } else {
          if (log.isDebugEnabled()) {
            PhysicalAddress physical_addr =
                print_physical_addrs
                    ? (PhysicalAddress) down(new Event(Event.GET_PHYSICAL_ADDRESS, local_addr))
                    : null;
            log.debug(
                "address="
                    + local_addr
                    + ", cluster="
                    + evt.getArg()
                    + (physical_addr != null ? ", physical address=" + physical_addr : ""));
          }
        }
        down_prot.down(evt);
        if (local_addr == null) throw new IllegalStateException("local_addr is null");
        try {
          if (state_transfer) impl.joinWithStateTransfer(local_addr, use_flush);
          else impl.join(local_addr, use_flush);
        } catch (Throwable e) {
          return e;
        }
        return null; // don't pass down: event has already been passed down

      case Event.DISCONNECT:
        impl.leave((Address) evt.getArg());
        if (!(impl instanceof CoordGmsImpl)) {
          initState(); // in case connect() is called again
        }
        down_prot.down(evt); // notify the other protocols, but ignore the result
        return null;

      case Event.CONFIG:
        Map<String, Object> config = (Map<String, Object>) evt.getArg();
        if ((config != null && config.containsKey("flush_supported"))) {
          flushProtocolInStack = true;
        }
        break;

      case Event.SET_LOCAL_ADDRESS:
        local_addr = (Address) evt.getArg();
        break;
    }

    return down_prot.down(evt);
  }
Example #16
0
  public Object down(Event evt) {
    switch (evt.getType()) {
      case ExecutorEvent.TASK_SUBMIT:
        Runnable runnable = evt.getArg();
        // We are limited to a number of concurrent request id's
        // equal to 2^63-1.  This is quite large and if it
        // overflows it will still be positive
        long requestId = Math.abs(counter.getAndIncrement());
        if (requestId == Long.MIN_VALUE) {
          // TODO: need to fix this it isn't safe for concurrent modifications
          counter.set(0);
          requestId = Math.abs(counter.getAndIncrement());
        }

        // Need to make sure to put the requestId in our map before
        // adding the runnable to awaiting consumer in case if
        // coordinator sent a consumer found and their original task
        // is no longer around
        // see https://issues.jboss.org/browse/JGRP-1744
        _requestId.put(runnable, requestId);

        _awaitingConsumer.add(runnable);

        sendToCoordinator(RUN_REQUEST, requestId, local_addr);
        break;
      case ExecutorEvent.CONSUMER_READY:
        Thread currentThread = Thread.currentThread();
        long threadId = currentThread.getId();
        _consumerId.put(threadId, PRESENT);
        try {
          for (; ; ) {
            CyclicBarrier barrier = new CyclicBarrier(2);
            _taskBarriers.put(threadId, barrier);

            // We only send to the coordinator that we are ready after
            // making the barrier, wait for request to come and let
            // us free
            sendToCoordinator(Type.CONSUMER_READY, threadId, local_addr);

            try {
              barrier.await();
              break;
            } catch (BrokenBarrierException e) {
              if (log.isDebugEnabled())
                log.debug(
                    "Producer timed out before we picked up"
                        + " the task, have to tell coordinator"
                        + " we are still good.");
            }
          }
          // This should always be non nullable since the latch
          // was freed
          runnable = _tasks.remove(threadId);
          _runnableThreads.put(runnable, currentThread);
          return runnable;
        } catch (InterruptedException e) {
          if (log.isDebugEnabled()) log.debug("Consumer " + threadId + " stopped via interrupt");
          sendToCoordinator(Type.CONSUMER_UNREADY, threadId, local_addr);
          Thread.currentThread().interrupt();
        } finally {
          // Make sure the barriers are cleaned up as well
          _taskBarriers.remove(threadId);
          _consumerId.remove(threadId);
        }
        break;
      case ExecutorEvent.TASK_COMPLETE:
        Object arg = evt.getArg();
        Throwable throwable = null;
        if (arg instanceof Object[]) {
          Object[] array = (Object[]) arg;
          runnable = (Runnable) array[0];
          throwable = (Throwable) array[1];
        } else {
          runnable = (Runnable) arg;
        }
        Owner owner = _running.remove(runnable);
        // This won't remove anything if owner doesn't come back
        _runnableThreads.remove(runnable);

        Object value = null;
        boolean exception = false;
        if (throwable != null) {
          // InterruptedException is special telling us that
          // we interrupted the thread while waiting but still got
          // a task therefore we have to reject it.
          if (throwable instanceof InterruptedException) {
            if (log.isDebugEnabled())
              log.debug("Run rejected due to interrupted exception returned");
            sendRequest(owner.address, Type.RUN_REJECTED, owner.requestId, null);
            break;
          }
          value = throwable;
          exception = true;
        } else if (runnable instanceof RunnableFuture<?>) {
          RunnableFuture<?> future = (RunnableFuture<?>) runnable;

          boolean interrupted = false;
          boolean gotValue = false;

          // We have the value, before we interrupt at least get it!
          while (!gotValue) {
            try {
              value = future.get();
              gotValue = true;
            } catch (InterruptedException e) {
              interrupted = true;
            } catch (ExecutionException e) {
              value = e.getCause();
              exception = true;
              gotValue = true;
            }
          }

          if (interrupted) {
            Thread.currentThread().interrupt();
          }
        }

        if (owner != null) {
          final Type type;
          final Object valueToSend;
          if (value == null) {
            type = Type.RESULT_SUCCESS;
            valueToSend = value;
          }
          // Both serializable values and exceptions would go in here
          else if (value instanceof Serializable
              || value instanceof Externalizable
              || value instanceof Streamable) {
            type = exception ? Type.RESULT_EXCEPTION : Type.RESULT_SUCCESS;
            valueToSend = value;
          }
          // This would happen if the value wasn't serializable,
          // so we have to send back to the client that the class
          // wasn't serializable
          else {
            type = Type.RESULT_EXCEPTION;
            valueToSend = new NotSerializableException(value.getClass().getName());
          }

          if (local_addr.equals(owner.getAddress())) {
            if (log.isTraceEnabled())
              log.trace(
                  "[redirect] <--> ["
                      + local_addr
                      + "] "
                      + type.name()
                      + " ["
                      + value
                      + (owner.requestId != -1 ? " request id: " + owner.requestId : "")
                      + "]");
            if (type == Type.RESULT_SUCCESS) {
              handleValueResponse(local_addr, owner.requestId, valueToSend);
            } else if (type == Type.RESULT_EXCEPTION) {
              handleExceptionResponse(local_addr, owner.requestId, (Throwable) valueToSend);
            }
          } else {
            sendRequest(owner.getAddress(), type, owner.requestId, valueToSend);
          }
        } else {
          if (log.isTraceEnabled()) {
            log.trace("Could not return result - most likely because it was interrupted");
          }
        }
        break;
      case ExecutorEvent.TASK_CANCEL:
        Object[] array = evt.getArg();
        runnable = (Runnable) array[0];

        if (_awaitingConsumer.remove(runnable)) {
          _requestId.remove(runnable);
          ExecutorNotification notification = notifiers.remove(runnable);
          if (notification != null) {
            notification.interrupted(runnable);
          }
          if (log.isTraceEnabled())
            log.trace("Cancelled task " + runnable + " before it was picked up");
          return Boolean.TRUE;
        }
        // This is guaranteed to not be null so don't take cost of auto unboxing
        else if (array[1] == Boolean.TRUE) {
          owner = removeKeyForValue(_awaitingReturn, runnable);
          if (owner != null) {
            Long requestIdValue = _requestId.remove(runnable);
            // We only cancel if the requestId is still available
            // this means the result hasn't been returned yet and
            // we still have a chance to interrupt
            if (requestIdValue != null) {
              if (requestIdValue != owner.getRequestId()) {
                log.warn("Cancelling requestId didn't match waiting");
              }
              sendRequest(owner.getAddress(), Type.INTERRUPT_RUN, owner.getRequestId(), null);
            }
          } else {
            if (log.isTraceEnabled()) log.warn("Couldn't interrupt server task: " + runnable);
          }
          ExecutorNotification notification = notifiers.remove(runnable);
          if (notification != null) {
            notification.interrupted(runnable);
          }
          return Boolean.TRUE;
        } else {
          return Boolean.FALSE;
        }
      case ExecutorEvent.ALL_TASK_CANCEL:
        array = evt.getArg();

        // This is a RunnableFuture<?> so this cast is okay
        @SuppressWarnings("unchecked")
        Set<Runnable> runnables = (Set<Runnable>) array[0];
        Boolean booleanValue = (Boolean) array[1];

        List<Runnable> notRan = new ArrayList<>();

        for (Runnable cancelRunnable : runnables) {
          // Removed from the consumer
          if (!_awaitingConsumer.remove(cancelRunnable) && booleanValue == Boolean.TRUE) {
            synchronized (_awaitingReturn) {
              owner = removeKeyForValue(_awaitingReturn, cancelRunnable);
              if (owner != null) {
                Long requestIdValue = _requestId.remove(cancelRunnable);
                if (requestIdValue != owner.getRequestId()) {
                  log.warn("Cancelling requestId didn't match waiting");
                }
                sendRequest(owner.getAddress(), Type.INTERRUPT_RUN, owner.getRequestId(), null);
              }
              ExecutorNotification notification = notifiers.remove(cancelRunnable);
              if (notification != null) {
                log.trace("Notifying listener");
                notification.interrupted(cancelRunnable);
              }
            }
          } else {
            _requestId.remove(cancelRunnable);
            notRan.add(cancelRunnable);
          }
        }
        return notRan;
      case Event.SET_LOCAL_ADDRESS:
        local_addr = evt.getArg();
        break;

      case Event.VIEW_CHANGE:
        handleView(evt.getArg());
        break;
    }
    return down_prot.down(evt);
  }
Example #17
0
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        ExecutorHeader hdr = (ExecutorHeader) msg.getHeader(id);
        if (hdr == null) break;

        Request req = (Request) msg.getObject();
        if (log.isTraceEnabled())
          log.trace("[" + local_addr + "] <-- [" + msg.getSrc() + "] " + req);
        switch (req.type) {
          case RUN_REQUEST:
            handleTaskRequest(req.request, (Address) req.object);
            break;
          case CONSUMER_READY:
            handleConsumerReadyRequest(req.request, (Address) req.object);
            break;
          case CONSUMER_UNREADY:
            handleConsumerUnreadyRequest(req.request, (Address) req.object);
            break;
          case CONSUMER_FOUND:
            handleConsumerFoundResponse(req.request, (Address) req.object);
            break;
          case RUN_SUBMITTED:
            RequestWithThread reqWT = (RequestWithThread) req;
            Object objectToRun = reqWT.object;
            Runnable runnable;
            if (objectToRun instanceof Runnable) {
              runnable = (Runnable) objectToRun;
            } else if (objectToRun instanceof Callable) {
              @SuppressWarnings("unchecked")
              Callable<Object> callable = (Callable<Object>) objectToRun;
              runnable = new FutureTask<>(callable);
            } else {
              log.error(
                  "Request of type "
                      + req.type
                      + " sent an object of "
                      + objectToRun
                      + " which is invalid");
              break;
            }

            handleTaskSubmittedRequest(runnable, msg.getSrc(), req.request, reqWT.threadId);
            break;
          case RUN_REJECTED:
            // We could make requests local for this, but is it really worth it
            handleTaskRejectedResponse(msg.getSrc(), req.request);
            break;
          case RESULT_SUCCESS:
            handleValueResponse(msg.getSrc(), req.request, req.object);
            break;
          case RESULT_EXCEPTION:
            handleExceptionResponse(msg.getSrc(), req.request, (Throwable) req.object);
            break;
          case INTERRUPT_RUN:
            // We could make requests local for this, but is it really worth it
            handleInterruptRequest(msg.getSrc(), req.request);
            break;
          case CREATE_CONSUMER_READY:
            Owner owner = new Owner((Address) req.object, req.request);
            handleNewConsumer(owner);
            break;
          case CREATE_RUN_REQUEST:
            owner = new Owner((Address) req.object, req.request);
            handleNewRunRequest(owner);
            break;
          case DELETE_CONSUMER_READY:
            owner = new Owner((Address) req.object, req.request);
            handleRemoveConsumer(owner);
            break;
          case DELETE_RUN_REQUEST:
            owner = new Owner((Address) req.object, req.request);
            handleRemoveRunRequest(owner);
            break;
          default:
            log.error("Request of type " + req.type + " not known");
            break;
        }
        return null;

      case Event.VIEW_CHANGE:
        handleView((View) evt.getArg());
        break;
    }
    return up_prot.up(evt);
  }
Example #18
0
  /**
   * Callback method <br>
   * Called by the ProtocolStack when a message is received.
   *
   * @param evt the event carrying the message from the protocol stack
   */
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        if (stats) {
          received_msgs++;
          received_bytes += msg.getLength();
        }

        // discard local messages (sent by myself to me)
        if (discard_own_messages
            && local_addr != null
            && msg.getSrc() != null
            && local_addr.equals(msg.getSrc())) return null;
        break;

      case Event.VIEW_CHANGE:
        View tmp = (View) evt.getArg();
        if (tmp instanceof MergeView) my_view = new View(tmp.getViewId(), tmp.getMembers());
        else my_view = tmp;

        // Bela&Vladimir Oct 27th,2006 (JGroups 2.4): we need to set connected=true because a client
        // can
        // call channel.getView() in viewAccepted() callback invoked on this thread (see
        // Event.VIEW_CHANGE handling below)

        // not good: we are only connected when we returned from connect() - bela June 22 2007
        // Changed: when a channel gets a view of which it is a member then it should be
        // connected even if connect() hasn't returned yet ! (bela Noc 2010)
        if (state != State.CONNECTED) state = State.CONNECTED;
        break;

      case Event.CONFIG:
        Map<String, Object> cfg = (Map<String, Object>) evt.getArg();
        if (cfg != null) {
          if (cfg.containsKey("state_transfer")) {
            state_transfer_supported = (Boolean) cfg.get("state_transfer");
          }
          if (cfg.containsKey("flush_supported")) {
            flush_supported = (Boolean) cfg.get("flush_supported");
          }
        }
        break;

      case Event.GET_STATE_OK:
        StateTransferResult result = (StateTransferResult) evt.getArg();
        if (up_handler != null) {
          try {
            Object retval = up_handler.up(evt);
            state_promise.setResult(new StateTransferResult());
            return retval;
          } catch (Throwable t) {
            state_promise.setResult(new StateTransferResult(t));
          }
        }

        if (receiver != null) {
          try {
            if (result.hasBuffer()) {
              byte[] tmp_state = result.getBuffer();
              ByteArrayInputStream input = new ByteArrayInputStream(tmp_state);
              receiver.setState(input);
            }
            state_promise.setResult(result);
          } catch (Throwable t) {
            state_promise.setResult(new StateTransferResult(t));
          }
        }
        break;

      case Event.STATE_TRANSFER_INPUTSTREAM_CLOSED:
        state_promise.setResult((StateTransferResult) evt.getArg());
        break;

      case Event.STATE_TRANSFER_INPUTSTREAM:
        // Oct 13,2006 moved to down() when Event.STATE_TRANSFER_INPUTSTREAM_CLOSED is received
        // state_promise.setResult(is != null? Boolean.TRUE : Boolean.FALSE);

        if (up_handler != null) return up_handler.up(evt);

        InputStream is = (InputStream) evt.getArg();
        if (is != null && receiver != null) {
          try {
            receiver.setState(is);
          } catch (Throwable t) {
            throw new RuntimeException("failed calling setState() in state requester", t);
          }
        }
        break;

      case Event.STATE_TRANSFER_OUTPUTSTREAM:
        if (receiver != null && evt.getArg() != null) {
          try {
            receiver.getState((OutputStream) evt.getArg());
          } catch (Exception e) {
            throw new RuntimeException("failed calling getState() in state provider", e);
          }
        }
        break;

      case Event.GET_LOCAL_ADDRESS:
        return local_addr;

      default:
        break;
    }

    // If UpHandler is installed, pass all events to it and return (UpHandler is e.g. a building
    // block)
    if (up_handler != null) return up_handler.up(evt);

    if (receiver != null) return invokeCallback(evt.getType(), evt.getArg());
    return null;
  }