Esempio n. 1
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  /**
   * An event is to be sent down the stack. The layer may want to examine its type and perform some
   * action on it, depending on the event's type. If the event is a message MSG, then the layer may
   * need to add a header to it (or do nothing at all) before sending it down the stack using <code>
   * PassDown</code>. In case of a GET_ADDRESS event (which tries to retrieve the stack's address
   * from one of the bottom layers), the layer may need to send a new response event back up the
   * stack using <code>up_prot.up()</code>. The PING protocol is interested in several different
   * down events, Event.FIND_INITIAL_MBRS - sent by the GMS layer and expecting a GET_MBRS_OK
   * Event.TMP_VIEW and Event.VIEW_CHANGE - a view change event Event.BECOME_SERVER - called after
   * client has joined and is fully working group member Event.CONNECT, Event.DISCONNECT.
   */
  @SuppressWarnings("unchecked")
  public Object down(Event evt) {

    switch (evt.getType()) {
      case Event.FIND_INITIAL_MBRS: // sent by GMS layer
      case Event.FIND_ALL_VIEWS:
        // sends the GET_MBRS_REQ to all members, waits 'timeout' ms or until 'num_initial_members'
        // have been retrieved
        long start = System.currentTimeMillis();
        boolean find_all_views = evt.getType() == Event.FIND_ALL_VIEWS;
        Promise<JoinRsp> promise = (Promise<JoinRsp>) evt.getArg();
        List<PingData> rsps = find_all_views ? findAllViews(promise) : findInitialMembers(promise);
        long diff = System.currentTimeMillis() - start;
        if (log.isTraceEnabled())
          log.trace("discovery took " + diff + " ms: responses: " + Util.printPingData(rsps));
        return rsps;

      case Event.TMP_VIEW:
      case Event.VIEW_CHANGE:
        List<Address> tmp;
        view = (View) evt.getArg();
        if ((tmp = view.getMembers()) != null) {
          synchronized (members) {
            members.clear();
            members.addAll(tmp);
          }
        }
        current_coord = !members.isEmpty() ? members.get(0) : null;
        is_coord = current_coord != null && local_addr != null && current_coord.equals(local_addr);

        return down_prot.down(evt);

      case Event.BECOME_SERVER: // called after client has joined and is fully working group member
        down_prot.down(evt);
        is_server = true;
        return null;

      case Event.SET_LOCAL_ADDRESS:
        local_addr = (Address) evt.getArg();
        return down_prot.down(evt);

      case Event.CONNECT:
      case Event.CONNECT_WITH_STATE_TRANSFER:
      case Event.CONNECT_USE_FLUSH:
      case Event.CONNECT_WITH_STATE_TRANSFER_USE_FLUSH:
        is_leaving = false;
        group_addr = (String) evt.getArg();
        Object ret = down_prot.down(evt);
        handleConnect();
        return ret;

      case Event.DISCONNECT:
        is_leaving = true;
        handleDisconnect();
        return down_prot.down(evt);

      default:
        return down_prot.down(evt); // Pass on to the layer below us
    }
  }
Esempio n. 2
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    public List<PingData> get(long timeout) throws InterruptedException {
      long start_time = System.currentTimeMillis(), time_to_wait = timeout;

      promise.getLock().lock();
      try {
        while (time_to_wait > 0 && !promise.hasResult()) {
          // if num_expected_srv_rsps > 0, then it overrides num_expected_rsps
          if (num_expected_srv_rsps > 0) {
            int received_srv_rsps = getNumServerResponses(ping_rsps);
            if (received_srv_rsps >= num_expected_srv_rsps)
              return new LinkedList<PingData>(ping_rsps);
          } else if (ping_rsps.size() >= num_expected_rsps) {
            return new LinkedList<PingData>(ping_rsps);
          }

          if (break_on_coord_rsp && containsCoordinatorResponse(ping_rsps))
            return new LinkedList<PingData>(ping_rsps);

          promise.getCond().await(time_to_wait, TimeUnit.MILLISECONDS);
          time_to_wait = timeout - (System.currentTimeMillis() - start_time);
        }
        return new LinkedList<PingData>(ping_rsps);
      } finally {
        promise.getLock().unlock();
      }
    }
Esempio n. 3
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    public void receive(Message msg) {
      byte[] buf = msg.getRawBuffer();
      byte type = buf[msg.getOffset()];

      switch (type) {
        case START:
          ByteBuffer tmp = ByteBuffer.wrap(buf, 1 + msg.getOffset(), Global.LONG_SIZE);
          num_msgs = (int) tmp.getLong();
          print = num_msgs / 10;
          current_value.set(0);
          total_bytes.set(0);
          start = System.currentTimeMillis();
          break;
        case DATA:
          long new_val = current_value.incrementAndGet();
          total_bytes.addAndGet(msg.getLength() - Global.INT_SIZE);
          if (print > 0 && new_val % print == 0) System.out.println("received " + new_val);
          if (new_val >= num_msgs) {
            long time = System.currentTimeMillis() - start;
            double msgs_sec = (current_value.get() / (time / 1000.0));
            double throughput = total_bytes.get() / (time / 1000.0);
            System.out.println(
                String.format(
                    "\nreceived %d messages in %d ms (%.2f msgs/sec), throughput=%s",
                    current_value.get(), time, msgs_sec, Util.printBytes(throughput)));
            break;
          }
          break;
        default:
          System.err.println("Type " + type + " is invalid");
      }
    }
 public static long sleep(long timeout) {
   // System.out.println("sleep()");
   long start = System.currentTimeMillis();
   Util.sleep(timeout);
   // throw new NullPointerException("boom");
   return System.currentTimeMillis() - start;
 }
  protected void waitForBridgeView(
      int expected_size, long timeout, long interval, JChannel... channels) {
    long deadline = System.currentTimeMillis() + timeout;

    while (System.currentTimeMillis() < deadline) {
      boolean views_correct = true;
      for (JChannel ch : channels) {
        RELAY2 relay = (RELAY2) ch.getProtocolStack().findProtocol(RELAY2.class);
        View bridge_view = relay.getBridgeView(BRIDGE_CLUSTER);
        if (bridge_view == null || bridge_view.size() != expected_size) {
          views_correct = false;
          break;
        }
      }
      if (views_correct) break;
      Util.sleep(interval);
    }

    System.out.println("Bridge views:\n");
    for (JChannel ch : channels) {
      RELAY2 relay = (RELAY2) ch.getProtocolStack().findProtocol(RELAY2.class);
      View bridge_view = relay.getBridgeView(BRIDGE_CLUSTER);
      System.out.println(ch.getAddress() + ": " + bridge_view);
    }

    for (JChannel ch : channels) {
      RELAY2 relay = (RELAY2) ch.getProtocolStack().findProtocol(RELAY2.class);
      View bridge_view = relay.getBridgeView(BRIDGE_CLUSTER);
      assert bridge_view != null && bridge_view.size() == expected_size
          : ch.getAddress() + ": bridge view=" + bridge_view + ", expected=" + expected_size;
    }
  }
Esempio n. 6
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    /**
     * Sends a MERGE_REQ to all coords and populates a list of MergeData (in merge_rsps). Returns
     * after coords.size() response have been received, or timeout msecs have elapsed (whichever is
     * first).
     *
     * <p>If a subgroup coordinator rejects the MERGE_REQ (e.g. because of participation in a
     * different merge), <em>that member will be removed from coords !</em>
     *
     * @param coords A map of coordinatgor addresses and associated membership lists
     * @param new_merge_id The new merge id
     * @param timeout Max number of msecs to wait for the merge responses from the subgroup coords
     */
    private boolean getMergeDataFromSubgroupCoordinators(
        Map<Address, Collection<Address>> coords, MergeId new_merge_id, long timeout) {
      boolean gotAllResponses;
      long start = System.currentTimeMillis();
      merge_rsps.reset(coords.keySet());
      if (log.isDebugEnabled())
        log.debug(gms.local_addr + ": sending MERGE_REQ to " + coords.keySet());

      for (Map.Entry<Address, Collection<Address>> entry : coords.entrySet()) {
        Address coord = entry.getKey();
        Collection<Address> mbrs = entry.getValue();
        Message msg = new Message(coord, null, null);
        msg.setFlag(Message.OOB);
        GMS.GmsHeader hdr = new GMS.GmsHeader(GMS.GmsHeader.MERGE_REQ, mbrs);
        hdr.mbr = gms.local_addr;
        hdr.merge_id = new_merge_id;
        msg.putHeader(gms.getId(), hdr);
        gms.getDownProtocol().down(new Event(Event.MSG, msg));
      }

      // wait until num_rsps_expected >= num_rsps or timeout elapsed
      merge_rsps.waitForAllResponses(timeout);
      gotAllResponses = merge_rsps.hasAllResponses();
      long stop = System.currentTimeMillis();
      if (log.isDebugEnabled())
        log.debug(
            gms.local_addr
                + ": collected "
                + merge_rsps.size()
                + " merge response(s) in "
                + (stop - start)
                + " ms");
      return gotAllResponses;
    }
Esempio n. 7
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  /**
   * Sends the new view and digest to all subgroup coordinors in coords. Each coord will in turn
   *
   * <ol>
   *   <li>broadcast the new view and digest to all the members of its subgroup (MergeView)
   *   <li>on reception of the view, if it is a MergeView, each member will set the digest and
   *       install the new view
   * </ol>
   */
  private void sendMergeView(
      Collection<Address> coords, MergeData combined_merge_data, MergeId merge_id) {
    if (coords == null || combined_merge_data == null) return;

    View view = combined_merge_data.view;
    Digest digest = combined_merge_data.digest;
    if (view == null || digest == null) {
      if (log.isErrorEnabled())
        log.error("view or digest is null, cannot send consolidated merge view/digest");
      return;
    }

    if (log.isDebugEnabled())
      log.debug(
          gms.local_addr + ": sending merge view " + view.getVid() + " to coordinators " + coords);

    gms.merge_ack_collector.reset(coords);
    int size = gms.merge_ack_collector.size();
    long timeout = gms.view_ack_collection_timeout;

    long start = System.currentTimeMillis();
    for (Address coord : coords) {
      Message msg = new Message(coord, null, null);
      GMS.GmsHeader hdr = new GMS.GmsHeader(GMS.GmsHeader.INSTALL_MERGE_VIEW);
      hdr.view = view;
      hdr.my_digest = digest;
      hdr.merge_id = merge_id;
      msg.putHeader(gms.getId(), hdr);
      gms.getDownProtocol().down(new Event(Event.MSG, msg));
    }

    // [JGRP-700] - FLUSH: flushing should span merge
    // if flush is in stack wait for acks from separated island coordinators
    if (gms.flushProtocolInStack) {
      try {
        gms.merge_ack_collector.waitForAllAcks(timeout);
        long stop = System.currentTimeMillis();
        if (log.isTraceEnabled())
          log.trace(
              "received all ACKs ("
                  + size
                  + ") for merge view "
                  + view
                  + " in "
                  + (stop - start)
                  + "ms");
      } catch (TimeoutException e) {
        log.warn(
            gms.local_addr
                + ": failed to collect all ACKs for merge ("
                + size
                + ") for view "
                + view
                + " after "
                + timeout
                + "ms, missing ACKs from "
                + gms.merge_ack_collector.printMissing());
      }
    }
  }
Esempio n. 8
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  public Results startTest() throws Throwable {
    System.out.println(
        "invoking "
            + num_msgs
            + " RPCs of "
            + Util.printBytes(msg_size)
            + ", sync="
            + sync
            + ", oob="
            + oob);
    int total_gets = 0, total_puts = 0;
    final AtomicInteger num_msgs_sent = new AtomicInteger(0);

    Invoker[] invokers = new Invoker[num_threads];
    for (int i = 0; i < invokers.length; i++)
      invokers[i] = new Invoker(members, num_msgs, num_msgs_sent);

    long start = System.currentTimeMillis();
    for (Invoker invoker : invokers) invoker.start();

    for (Invoker invoker : invokers) {
      invoker.join();
      total_gets += invoker.numGets();
      total_puts += invoker.numPuts();
    }

    long total_time = System.currentTimeMillis() - start;
    System.out.println("done (in " + total_time + " ms)");
    return new Results(total_gets, total_puts, total_time);
  }
Esempio n. 9
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 private void measureThrougput(long size) {
   if ((System.currentTimeMillis() - startTimeThroughput) > oneSecond) {
     control.throughput.setText("" + (throughput / 1024) + " KB/sec");
     startTimeThroughput = System.currentTimeMillis();
     throughput = 0;
   } else {
     throughput += size;
   }
 }
Esempio n. 10
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 public Object objectFromByteBuffer(byte[] buf, int offset, int length) throws Exception {
   if (buf == null || (offset == 0 && length == buf.length))
     return marshaller.objectFromByteBuffer(buf);
   byte[] tmp = new byte[length];
   System.arraycopy(buf, offset, tmp, 0, length);
   return marshaller.objectFromByteBuffer(tmp);
 }
Esempio n. 11
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 /** Set the digest and the send the state up to the application */
 protected void handleStateRsp(final Digest digest, Address sender, byte[] state) {
   try {
     if (isDigestNeeded()) {
       punchHoleFor(sender);
       closeBarrierAndSuspendStable(); // fix for https://jira.jboss.org/jira/browse/JGRP-1013
       if (digest != null)
         down_prot.down(
             new Event(Event.OVERWRITE_DIGEST, digest)); // set the digest (e.g. in NAKACK)
     }
     waiting_for_state_response = false;
     stop = System.currentTimeMillis();
     log.debug(
         "%s: received state, size=%s, time=%d milliseconds",
         local_addr, (state == null ? "0" : Util.printBytes(state.length)), stop - start);
     StateTransferResult result = new StateTransferResult(state);
     up_prot.up(new Event(Event.GET_STATE_OK, result));
     down_prot.down(
         new Event(Event.GET_VIEW_FROM_COORD)); // https://issues.jboss.org/browse/JGRP-1751
   } catch (Throwable t) {
     handleException(t);
   } finally {
     if (isDigestNeeded()) {
       closeHoleFor(sender);
       openBarrierAndResumeStable();
     }
   }
 }
Esempio n. 12
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    protected synchronized boolean acquireTryLock(long timeout, boolean use_timeout)
        throws InterruptedException {
      if (denied) return false;
      if (!acquired) {
        is_trylock = true;
        this.timeout = timeout;
        if (owner == null) owner = getOwner();
        sendGrantLockRequest(name, owner, timeout, true);

        long target_time = use_timeout ? System.currentTimeMillis() + timeout : 0;
        boolean interrupted = false;
        while (!acquired && !denied) {
          if (use_timeout) {
            long wait_time = target_time - System.currentTimeMillis();
            if (wait_time <= 0) break;
            else {
              this.timeout = wait_time;
              try {
                this.wait(wait_time);
              } catch (InterruptedException e) {
                // If we were interrupted and haven't received a response yet then we try to
                // clean up the lock request and throw the exception
                if (!acquired && !denied) {
                  _unlock(true);
                  throw e;
                }
                // In the case that we were told if we acquired or denied the lock then return that,
                // but
                // make sure we set the interrupt status
                interrupted = true;
              }
            }
          } else {
            try {
              this.wait();
            } catch (InterruptedException e) {
              interrupted = true;
            }
          }
        }
        if (interrupted) Thread.currentThread().interrupt();
      }
      if (!acquired || denied) _unlock(true);
      return acquired && !denied;
    }
Esempio n. 13
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    protected long await(long nanoSeconds) throws InterruptedException {
      long target_nano = System.nanoTime() + nanoSeconds;

      if (!signaled.get()) {
        // We release the lock at the same time as waiting on the
        // condition
        lock.acquired = false;
        sendAwaitConditionRequest(lock.name, lock.owner);

        boolean interrupted = false;
        while (!signaled.get()) {
          long wait_nano = target_nano - System.nanoTime();
          // If we waited max time break out
          if (wait_nano > 0) {
            parker.set(Thread.currentThread());
            LockSupport.parkNanos(this, wait_nano);

            if (Thread.interrupted()) {
              // If we were interrupted and haven't received a response yet then we try to
              // clean up the lock request and throw the exception
              if (!signaled.get()) {
                sendDeleteAwaitConditionRequest(lock.name, lock.owner);
                throw new InterruptedException();
              }
              // In the case that we were signaled and interrupted
              // we want to return the signal but still interrupt
              // our thread
              interrupted = true;
            }
          } else {
            break;
          }
        }
        if (interrupted) Thread.currentThread().interrupt();
      }

      // We set as if this signal was no released.  This way if the
      // condition is reused again, but the client condition isn't lost
      // we won't think we were signaled immediately
      // If we weren't signaled then delete our request
      if (!signaled.getAndSet(false)) {
        sendDeleteAwaitConditionRequest(lock.name, lock.owner);
      }
      return target_nano - System.nanoTime();
    }
Esempio n. 14
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  public static void testGetProperty() {
    Properties props = new Properties();
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    System.setProperty("name", "Michelle");
    System.setProperty("name2", "Nicole");
    String retval;

    retval = Util.getProperty(new String[] {"name", "name2"}, props, "name", "Jeannette");
    Assert.assertEquals("Bela", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name2", "name"}, props, "name", "Jeannette");
    Assert.assertEquals("Bela", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name3", "name"}, props, "name", "Jeannette");
    Assert.assertEquals("Bela", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name3", "name4"}, props, "name", "Jeannette");
    Assert.assertEquals("Bela", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name2", "name"}, props, "name", "Jeannette");
    Assert.assertEquals("Bela", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name2", "name"}, props, "name2", "Jeannette");
    Assert.assertEquals("Nicole", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");

    retval = Util.getProperty(new String[] {"name2", "name"}, props, "name2", null);
    Assert.assertEquals("Nicole", retval);
    props.setProperty("name", "Bela");
    props.setProperty("key", "val");
  }
Esempio n. 15
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  public Object down(Event evt) {
    switch (evt.getType()) {
      case Event.TMP_VIEW:
      case Event.VIEW_CHANGE:
        handleViewChange((View) evt.getArg());
        break;

      case Event.GET_STATE:
        Address target;
        StateTransferInfo info = (StateTransferInfo) evt.getArg();
        if (info.target == null) {
          target = determineCoordinator();
        } else {
          target = info.target;
          if (target.equals(local_addr)) {
            log.error("%s: cannot fetch state from myself", local_addr);
            target = null;
          }
        }
        if (target == null) {
          log.debug("%s: first member (no state)", local_addr);
          up_prot.up(new Event(Event.GET_STATE_OK, new StateTransferInfo()));
        } else {
          Message state_req =
              new Message(target)
                  .putHeader(this.id, new StateHeader(StateHeader.STATE_REQ))
                  .setFlag(Message.Flag.DONT_BUNDLE, Message.Flag.OOB, Message.Flag.SKIP_BARRIER);
          log.debug("%s: asking %s for state", local_addr, target);

          // suspend sending and handling of message garbage collection gossip messages,
          // fixes bugs #943480 and #938584). Wake up when state has been received
          /*if(log.isDebugEnabled())
              log.debug("passing down a SUSPEND_STABLE event");
          down_prot.down(new Event(Event.SUSPEND_STABLE, new Long(info.timeout)));*/
          waiting_for_state_response = true;
          start = System.currentTimeMillis();
          down_prot.down(new Event(Event.MSG, state_req));
        }
        return null; // don't pass down any further !

      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); // pass on to the layer below us
  }
Esempio n. 16
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    @Override
    public long awaitNanos(long nanosTimeout) throws InterruptedException {
      long beforeLock;
      InterruptedException ex = null;
      try {
        beforeLock = await(nanosTimeout) + System.nanoTime();
      } catch (InterruptedException e) {
        ex = e;
        throw ex;
      } finally {
        lock.lock();

        // If we are throwing an InterruptedException
        // then clear the interrupt state as well.
        if (ex != null) {
          Thread.interrupted();
        }
      }

      return beforeLock - System.nanoTime();
    }
Esempio n. 17
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    @Override
    public boolean awaitUntil(Date deadline) throws InterruptedException {
      long waitUntilTime = deadline.getTime();
      long currentTime = System.currentTimeMillis();

      long waitTime = waitUntilTime - currentTime;
      if (waitTime > 0) {
        return await(waitTime, TimeUnit.MILLISECONDS);
      } else {
        return false;
      }
    }
Esempio n. 18
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    public void run() {
      long end_time, wait_time;
      List<Request> requests = new LinkedList<Request>();
      while (Thread.currentThread().equals(thread) && !suspended) {
        try {
          boolean keepGoing = false;
          end_time = System.currentTimeMillis() + max_bundling_time;
          do {
            Request firstRequest =
                (Request)
                    queue.remove(INTERVAL); // throws a TimeoutException if it runs into timeout
            requests.add(firstRequest);
            if (!view_bundling) break;
            if (queue.size() > 0) {
              Request nextReq = (Request) queue.peek();
              keepGoing = view_bundling && firstRequest.canBeProcessedTogether(nextReq);
            } else {
              wait_time = end_time - System.currentTimeMillis();
              if (wait_time > 0)
                queue.waitUntilClosed(
                    wait_time); // misnomer: waits until element has been added or q closed
              keepGoing =
                  queue.size() > 0 && firstRequest.canBeProcessedTogether((Request) queue.peek());
            }
          } while (keepGoing && System.currentTimeMillis() < end_time);

          try {
            process(requests);
          } finally {
            requests.clear();
          }
        } catch (QueueClosedException e) {
          break;
        } catch (TimeoutException e) {
          break;
        } catch (Throwable catchall) {
          Util.sleep(50);
        }
      }
    }
Esempio n. 19
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 protected void waitUntilStatus(
     String site_name,
     RELAY2.RouteStatus expected_status,
     long timeout,
     long interval,
     JChannel ch)
     throws Exception {
   RELAY2 relay = (RELAY2) ch.getProtocolStack().findProtocol(RELAY2.class);
   if (relay == null) throw new IllegalArgumentException("Protocol RELAY2 not found");
   Relayer.Route route = null;
   long deadline = System.currentTimeMillis() + timeout;
   while (System.currentTimeMillis() < deadline) {
     route = relay.getRoute(site_name);
     if (route != null && route.status() == expected_status) break;
     Util.sleep(interval);
   }
   assert route.status() == expected_status
       : "status="
           + (route != null ? route.status() : "n/a")
           + ", expected status="
           + expected_status;
 }
Esempio n. 20
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  public static void testGetProperty2() {
    String input = "foo, bar,  foobar: 1000";
    String result = Util.getProperty(input);
    assert result != null && result.equals("1000");

    input = "foo, bar,  foobar";
    result = Util.getProperty(input);
    assert result == null;

    System.setProperty("foobar", "900");

    input = "foo, bar,  foobar: 1000";
    result = Util.getProperty(input);
    assert result != null && result.equals("900");

    input = "foo, bar,  foobar";
    result = Util.getProperty(input);
    assert result != null && result.equals("900");

    System.setProperty("bar", "500");
    input = "foo, bar,  foobar: 1000";
    result = Util.getProperty(input);
    assert result != null && result.equals("500");

    input = "foo, bar,  foobar";
    result = Util.getProperty(input);
    assert result != null && result.equals("500");

    System.setProperty("foo", "200");
    input = "foo, bar,  foobar: 1000";
    result = Util.getProperty(input);
    assert result != null && result.equals("200");

    input = "foo, bar,  foobar";
    result = Util.getProperty(input);
    assert result != null && result.equals("200");
  }
Esempio n. 21
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    public void run() {
      // 1. Generate merge_id
      final MergeId new_merge_id = MergeId.create(gms.local_addr);
      final Collection<Address> coordsCopy = new ArrayList<Address>(coords.keySet());

      long start = System.currentTimeMillis();

      try {
        _run(new_merge_id, coordsCopy); // might remove members from coordsCopy
      } catch (Throwable ex) {
        if (log.isWarnEnabled()) log.warn(gms.local_addr + ": " + ex + ", merge is cancelled");
        sendMergeCancelledMessage(coordsCopy, new_merge_id);
        cancelMerge(
            new_merge_id); // the message above cancels the merge, too, but this is a 2nd line of
        // defense
      } finally {
        /* 5. if flush is in stack stop the flush for entire cluster [JGRP-700] - FLUSH: flushing should span merge */
        if (gms.flushProtocolInStack) gms.stopFlush();
        thread = null;
      }
      long diff = System.currentTimeMillis() - start;
      if (log.isDebugEnabled())
        log.debug(gms.local_addr + ": merge " + new_merge_id + " took " + diff + " ms");
    }
Esempio n. 22
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 void runServer() throws Exception {
   System.setProperty("jgroups.bind_addr", host);
   if (port > 0) {
     Protocol transport = ch.getProtocolStack().getTransport();
     if (transport instanceof TP) {
       ((TP) transport).setBindPort(port);
     }
   }
   ch.connect(null); // this makes it a unicast channel
   System.out.println(
       "server started at " + new java.util.Date() + ", listening on " + ch.getAddress());
   while (ch.isOpen()) {
     Util.sleep(10000);
   }
 }
Esempio n. 23
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 public Responses findMembers(
     final List<Address> members, final boolean initial_discovery, boolean async) {
   num_discovery_requests++;
   int num_expected = members != null ? members.size() : 0;
   int capacity = members != null ? members.size() : 16;
   final Responses rsps =
       new Responses(num_expected, initial_discovery && break_on_coord_rsp, capacity);
   synchronized (ping_responses) {
     ping_responses.put(System.nanoTime(), rsps);
   }
   if (async || async_discovery)
     timer.execute(() -> findMembers(members, initial_discovery, rsps));
   else findMembers(members, initial_discovery, rsps);
   weedOutCompletedDiscoveryResponses();
   return rsps;
 }
Esempio n. 24
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 protected void addResponse(PingData rsp, boolean overwrite) {
   synchronized (ping_responses) {
     for (Iterator<Map.Entry<Long, Responses>> it = ping_responses.entrySet().iterator();
         it.hasNext(); ) {
       Map.Entry<Long, Responses> entry = it.next();
       long timestamp = entry.getKey();
       Responses rsps = entry.getValue();
       rsps.addResponse(rsp, overwrite);
       if (rsps.isDone()
           || TimeUnit.MILLISECONDS.convert(System.nanoTime() - timestamp, TimeUnit.NANOSECONDS)
               > discovery_rsp_expiry_time) {
         it.remove();
         rsps.done();
       }
     }
   }
 }
Esempio n. 25
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 /**
  * Removes responses which are done or whose timeout has expired (in the latter case, an expired
  * response is marked as done)
  */
 @ManagedOperation(description = "Removes expired or completed responses")
 public void weedOutCompletedDiscoveryResponses() {
   synchronized (ping_responses) {
     for (Iterator<Map.Entry<Long, Responses>> it = ping_responses.entrySet().iterator();
         it.hasNext(); ) {
       Map.Entry<Long, Responses> entry = it.next();
       long timestamp = entry.getKey();
       Responses rsps = entry.getValue();
       if (rsps.isDone()
           || TimeUnit.MILLISECONDS.convert(System.nanoTime() - timestamp, TimeUnit.NANOSECONDS)
               > discovery_rsp_expiry_time) {
         it.remove();
         rsps.done();
       }
     }
   }
 }
Esempio n. 26
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  private class ReceiverThread extends Thread {
    volatile boolean running = true;
    Thread nullifier = null;
    private long startTimeThroughput = System.currentTimeMillis();
    private final long oneSecond = 1000;
    private long throughput = 1;

    public ReceiverThread() {
      nullifier =
          new Thread(
              new Runnable() {
                public void run() {
                  // nullifies throughput display
                  while (running) {
                    Util.sleep(2000);
                    if ((System.currentTimeMillis() - startTimeThroughput) > 2000) {
                      control.throughput.setText("0 KB/sec");
                    }
                  }
                }
              });
      nullifier.start();
    }

    public void shutDown() {
      running = false;
    }

    private void measureThrougput(long size) {
      if ((System.currentTimeMillis() - startTimeThroughput) > oneSecond) {
        control.throughput.setText("" + (throughput / 1024) + " KB/sec");
        startTimeThroughput = System.currentTimeMillis();
        throughput = 0;
      } else {
        throughput += size;
      }
    }

    public void run() {
      Object tmp;
      Message msg = null;
      int counter = 0;
      Vector v = new Vector();
      while (running) {
        Util.sleep(10);
        try {

          tmp = channel.receive(0);
          if (tmp == null) continue;

          if (tmp instanceof View) {
            View vw = (View) tmp;
            control.viewNumber.setText(String.valueOf(vw.getVid().getId()));
            control.numMessagesInLastView.setText(String.valueOf(counter));
            counter = 0;
            v.clear();
            continue;
          }

          if (!(tmp instanceof Message)) continue;

          msg = (Message) tmp;

          measureThrougput(msg.size());
          TotalPayload p = null;

          p = (TotalPayload) msg.getObject();
          v.addElement(new Integer(p.getRandomSequence()));
          int size = v.size();
          if (size % 50 == 0) {
            int value = 0;
            int i = 0;
            Iterator iter = v.iterator();
            while (iter.hasNext()) {
              i++;
              int seq = ((Integer) iter.next()).intValue();
              if (i % 2 == 0) {
                value *= seq;
              } else if (i % 3 == 0) {
                value -= seq;
              } else value += seq;
            }
            v.clear();
            value = Math.abs(value);
            int r = value % 85;
            int g = value % 170;
            int b = value % 255;
            colorPanel.setSeq(r, g, b);
          }
          counter++;
        } catch (ChannelNotConnectedException e) {
          e.printStackTrace();
        } catch (ChannelClosedException e) {
          e.printStackTrace();
        } catch (TimeoutException e) {
          e.printStackTrace();
        }
      }
    }
  }
Esempio n. 27
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  /**
   * Setup the Protocol instance acording to the configuration string The following properties are
   * being read by the UDP protocol param mcast_addr - the multicast address to use default is
   * 224.0.0.200 param mcast_port - (int) the port that the multicast is sent on default is 7500
   * param ip_mcast - (boolean) flag whether to use IP multicast - default is true param ip_ttl -
   * Set the default time-to-live for multicast packets sent out on this socket. default is 32
   *
   * @return true if no other properties are left. false if the properties still have data in them,
   *     ie , properties are left over and not handled by the protocol stack
   */
  public boolean setProperties(Properties props) {
    String str, tmp;

    tmp = System.getProperty("UDP.bind_addr");
    if (tmp != null) {
      str = tmp;
    } else {
      str = props.getProperty("bind_addr");
    }
    if (str != null) {
      try {
        bind_addr = InetAddress.getByName(str);
      } catch (UnknownHostException unknown) {
        Trace.fatal("UDP.setProperties()", "(bind_addr): host " + str + " not known");
        return false;
      }
      props.remove("bind_addr");
    }

    str = props.getProperty("bind_port");
    if (str != null) {
      bind_port = new Integer(str).intValue();
      props.remove("bind_port");
    }

    str = props.getProperty("start_port");
    if (str != null) {
      bind_port = new Integer(str).intValue();
      props.remove("start_port");
    }

    str = props.getProperty("port_range");
    if (str != null) {
      port_range = new Integer(str).intValue();
      props.remove("port_range");
    }

    str = props.getProperty("mcast_addr");
    if (str != null) {
      mcast_addr_name = new String(str);
      props.remove("mcast_addr");
    }

    str = props.getProperty("mcast_port");
    if (str != null) {
      mcast_port = new Integer(str).intValue();
      props.remove("mcast_port");
    }

    str = props.getProperty("ip_mcast");
    if (str != null) {
      ip_mcast = new Boolean(str).booleanValue();
      props.remove("ip_mcast");
    }

    str = props.getProperty("ip_ttl");
    if (str != null) {
      ip_ttl = new Integer(str).intValue();
      props.remove("ip_ttl");
    }

    str = props.getProperty("mcast_send_buf_size");
    if (str != null) {
      mcast_send_buf_size = Integer.parseInt(str);
      props.remove("mcast_send_buf_size");
    }

    str = props.getProperty("mcast_recv_buf_size");
    if (str != null) {
      mcast_recv_buf_size = Integer.parseInt(str);
      props.remove("mcast_recv_buf_size");
    }

    str = props.getProperty("ucast_send_buf_size");
    if (str != null) {
      ucast_send_buf_size = Integer.parseInt(str);
      props.remove("ucast_send_buf_size");
    }

    str = props.getProperty("ucast_recv_buf_size");
    if (str != null) {
      ucast_recv_buf_size = Integer.parseInt(str);
      props.remove("ucast_recv_buf_size");
    }

    str = props.getProperty("loopback");
    if (str != null) {
      loopback = new Boolean(str).booleanValue();
      props.remove("loopback");
    }

    // this is deprecated, just left for compatibility (use use_incoming_packet_handler)
    str = props.getProperty("use_packet_handler");
    if (str != null) {
      use_incoming_packet_handler = new Boolean(str).booleanValue();
      props.remove("use_packet_handler");
      Trace.warn(
          "UDP.setProperties()",
          "'use_packet_handler' is deprecated; use 'use_incoming_packet_handler' instead");
    }

    str = props.getProperty("use_incoming_packet_handler");
    if (str != null) {
      use_incoming_packet_handler = new Boolean(str).booleanValue();
      props.remove("use_incoming_packet_handler");
    }

    str = props.getProperty("use_outgoing_packet_handler");
    if (str != null) {
      use_outgoing_packet_handler = new Boolean(str).booleanValue();
      props.remove("use_outgoing_packet_handler");
    }

    str = props.getProperty("max_bundle_size");
    if (str != null) {
      int bundle_size = Integer.parseInt(str);
      if (bundle_size > max_bundle_size) {
        Trace.error(
            "UDP.setProperties()",
            "max_bundle_size ("
                + bundle_size
                + ") is greater than largest UDP fragmentation size ("
                + max_bundle_size
                + ")");
        return false;
      }
      if (bundle_size <= 0) {
        Trace.error("UDP.setProperties()", "max_bundle_size (" + bundle_size + ") is <= 0");
        return false;
      }
      max_bundle_size = bundle_size;
      props.remove("max_bundle_size");
    }

    str = props.getProperty("max_bundle_timeout");
    if (str != null) {
      max_bundle_timeout = Long.parseLong(str);
      if (max_bundle_timeout <= 0) {
        Trace.error(
            "UDP.setProperties()", "max_bundle_timeout of " + max_bundle_timeout + " is invalid");
        return false;
      }
      props.remove("max_bundle_timeout");
    }

    str = props.getProperty("enable_bundling");
    if (str != null) {
      enable_bundling = new Boolean(str).booleanValue();
      props.remove("enable_bundling");
    }

    if (props.size() > 0) {
      System.err.println("UDP.setProperties(): the following properties are not recognized:");
      props.list(System.out);
      return false;
    }

    if (enable_bundling) {
      if (use_outgoing_packet_handler == false) {
        Trace.warn(
            "UDP.setProperties()",
            "enable_bundling is true; setting use_outgoing_packet_handler=true");
      }
      use_outgoing_packet_handler = true;
    }

    return true;
  }
Esempio n. 28
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  public void run() {
    DatagramPacket packet;
    byte receive_buf[] = new byte[65535];
    int len;
    byte[] tmp, data;

    // moved out of loop to avoid excessive object creations (bela March 8 2001)
    packet = new DatagramPacket(receive_buf, receive_buf.length);

    while (mcast_receiver != null && mcast_sock != null) {
      try {
        packet.setData(receive_buf, 0, receive_buf.length);
        mcast_sock.receive(packet);
        len = packet.getLength();
        data = packet.getData();
        if (len == 1 && data[0] == 0) {
          if (Trace.debug) {
            Trace.info("UDP.run()", "received dummy packet");
          }
          continue;
        }

        if (len == 4) { // received a diagnostics probe
          if (data[0] == 'd' && data[1] == 'i' && data[2] == 'a' && data[3] == 'g') {
            handleDiagnosticProbe(packet.getAddress(), packet.getPort());
            continue;
          }
        }

        if (Trace.debug) {
          Trace.info(
              "UDP.receive()",
              "received (mcast) "
                  + packet.getLength()
                  + " bytes from "
                  + packet.getAddress()
                  + ":"
                  + packet.getPort()
                  + " (size="
                  + len
                  + " bytes)");
        }
        if (len > receive_buf.length) {
          Trace.error(
              "UDP.run()",
              "size of the received packet ("
                  + len
                  + ") is bigger than "
                  + "allocated buffer ("
                  + receive_buf.length
                  + "): will not be able to handle packet. "
                  + "Use the FRAG protocol and make its frag_size lower than "
                  + receive_buf.length);
        }

        if (Version.compareTo(data) == false) {
          Trace.warn(
              "UDP.run()",
              "packet from "
                  + packet.getAddress()
                  + ":"
                  + packet.getPort()
                  + " has different version ("
                  + Version.printVersionId(data, Version.version_id.length)
                  + ") from ours ("
                  + Version.printVersionId(Version.version_id)
                  + "). This may cause problems");
        }

        if (use_incoming_packet_handler) {
          tmp = new byte[len];
          System.arraycopy(data, 0, tmp, 0, len);
          incoming_queue.add(tmp);
        } else {
          handleIncomingUdpPacket(data);
        }
      } catch (SocketException sock_ex) {
        if (Trace.trace) {
          Trace.info("UDP.run()", "multicast socket is closed, exception=" + sock_ex);
        }
        break;
      } catch (InterruptedIOException io_ex) { // thread was interrupted
        ; // go back to top of loop, where we will terminate loop
      } catch (Throwable ex) {
        Trace.error("UDP.run()", "exception=" + ex + ", stack trace=" + Util.printStackTrace(ex));
        Util.sleep(300); // so we don't get into 100% cpu spinning (should NEVER happen !)
      }
    }
    if (Trace.trace) {
      Trace.info("UDP.run()", "multicast thread terminated");
    }
  }
Esempio n. 29
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 long age() {
   return System.currentTimeMillis() - timestamp;
 }
Esempio n. 30
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 void update() {
   timestamp = System.currentTimeMillis();
 }