@Override public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception { final Channel channel = ctx.getChannel(); Message m = (Message) e.getMessage(); Tuple t = cb.receive(m); if (m.type() == Type.DEREG) { channel.close(); } if (t != null) { if (m.type() == Type.REG) { PhysicalLocation pl = new PhysicalLocation(m.source().logId(), (Integer) t.get(0)); plMap.put(pl, channel); ctx.setAttachment(pl); } Message rsp = new Message(m.type(), m.getAck(), m.destination(), m.source(), t); channel.write(rsp); } }
private void handleTaintMessage(Message m) throws ExecException { if (m.body().get(0).equals("cross")) { // cross-task (accumulates) String sourceAlias = m.source().logId(); Map<Tuple, Set<String>> oneCTTT = crossTaskTaintTags.get(sourceAlias); Tuple keys = (Tuple) m.body().get(1); if (!oneCTTT.containsKey(keys)) { oneCTTT.put(keys, new HashSet<String>()); } Set<String> tags = oneCTTT.get(keys); for (int i = 2; i < m.body().size(); i++) { tags.add((String) m.body().get(i)); } } else { // within-task (replaces) currentWithinTaskTaintTag = new HashSet<String>(); for (int i = 1; i < m.body().size(); i++) { currentWithinTaskTaintTag.add((String) m.body().get(i)); } } }
public void initialize() throws Exception { this.communicator = new Communicator() { @Override public Location myLocation() { return location; } @Override public void sendToCoordinator(Tuple message) { senderReceiver.sendAsync( new Message(location, PhysicalLocation.coordinatorLocation(), message)); } @Override public void sendDownstream(Tuple message) throws NoSuchLocationException { if (withinTaskDownstreamNeighbors.isEmpty() && crossTaskDownstreamNeighbors.isEmpty()) throw new NoSuchLocationException( "Line " + logicalLocation.logId() + " has no downstream neighbor."); for (String neighbor : withinTaskDownstreamNeighbors) { sendWithinTaskMessage( neighbor, new Message(location, new LogicalLocation(neighbor), message)); } for (String neighbor : crossTaskDownstreamNeighbors) { senderReceiver.sendAsync( new Message(location, new LogicalLocation(neighbor), message)); } } @Override public void sendUpstream(Tuple message) throws NoSuchLocationException { if (withinTaskUpstreamNeighbors.isEmpty()) throw new NoSuchLocationException( "Line " + logicalLocation.logId() + " has no within-task upstream neighbor."); for (String neighbor : withinTaskUpstreamNeighbors) { sendWithinTaskMessage( neighbor, new Message(location, new LogicalLocation(neighbor), message)); } } @Override public void sendToAgents(LogicalLocation destination, Tuple tuple) throws NoSuchLocationException { if (!logicalIds.contains(destination.logId())) throw new NoSuchLocationException( "Logical location " + destination + " does not exist."); senderReceiver.sendAsync(new Message(location, destination, tuple)); } }; this.messageReceiptCallback = new MessageReceiptCallback() { public Tuple receive(Message m) { if (m.type() == Message.Type.TAINT) { try { handleTaintMessage(m); } catch (ExecException e) { throw new RuntimeException("Error in taint logic.", e); } } else { synchronized (monitorAgent) { // avoid concurrent calls to // monitorAgent, and also // wait for initialization // to finish monitorAgent.receiveMessage(m.source(), m.body()); } } return null; // default ack } @Override public void ioError(PhysicalLocation addr, Exception e) {} }; synchronized (monitorAgent) { // block tuple-processing and message // receipt activity until initialization // finishes this.senderReceiver = new MessagingClient(masterAddr, messageReceiptCallback); this.senderReceiver.connect(); monitorAgent.initialize(communicator); // send registration message to master Tuple regResponse = senderReceiver.sendSync(createRegistrationMessage()); // first part of registration response contains assigned physical // location id this.location = new PhysicalLocation(logicalLocation, (Integer) regResponse.get(0)); // next part of registration response contains pending incoming // async messages for (Iterator<Tuple> it = ((DataBag) regResponse.get(1)).iterator(); it.hasNext(); ) { messageReceiptCallback.receive(Message.fromTuple(it.next())); } } }