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. 2
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 public void testRegularUnicastsToOthers() throws Exception {
   send(c1, c2.getAddress(), false, 10);
   send(c1, c3.getAddress(), false, 10);
   sendStableMessages(c1, c2, c3);
   check(r2, 1, false, new Tuple<Address, Integer>(a1, 10));
   check(r3, 1, false, new Tuple<Address, Integer>(a1, 10));
 }
 /** Creates a singleton view for each channel listed and injects it */
 protected static void createPartition(JChannel... channels) {
   for (JChannel ch : channels) {
     View view = Util.createView(ch.getAddress(), 5, ch.getAddress());
     GMS gms = (GMS) ch.getProtocolStack().findProtocol(GMS.class);
     gms.installView(view);
   }
 }
  private void sendMessageToBothChannels(int size) throws Exception {
    long start, stop;
    d1.setRequestHandler(new MyHandler(new byte[size]));

    c2 = createChannel(c1);
    c2.setName("B");
    disableBundling(c2);
    d2 = new MessageDispatcher(c2, null, null, new MyHandler(new byte[size]));
    c2.connect("MessageDispatcherUnitTest");
    Assert.assertEquals(2, c2.getView().size());

    System.out.println("casting message");
    start = System.currentTimeMillis();
    RspList rsps = d1.castMessage(null, new Message(), new RequestOptions(ResponseMode.GET_ALL, 0));
    stop = System.currentTimeMillis();
    System.out.println("rsps:\n" + rsps);
    System.out.println("call took " + (stop - start) + " ms");
    assertNotNull(rsps);
    Assert.assertEquals(2, rsps.size());
    Rsp rsp = rsps.get(c1.getAddress());
    assertNotNull(rsp);
    byte[] ret = (byte[]) rsp.getValue();
    Assert.assertEquals(size, ret.length);

    rsp = rsps.get(c2.getAddress());
    assertNotNull(rsp);
    ret = (byte[]) rsp.getValue();
    Assert.assertEquals(size, ret.length);

    Util.close(c2);
  }
  public void testNullMessageToAll() throws Exception {
    d1.setRequestHandler(new MyHandler(null));

    c2 = createChannel(c1);
    c2.setName("B");
    disableBundling(c2);
    long stop, start = System.currentTimeMillis();
    d2 = new MessageDispatcher(c2, null, null, new MyHandler(null));
    stop = System.currentTimeMillis();
    c2.connect("MessageDispatcherUnitTest");
    Assert.assertEquals(2, c2.getView().size());
    System.out.println("view: " + c2.getView());

    System.out.println("casting message");
    start = System.currentTimeMillis();
    RspList rsps = d1.castMessage(null, new Message(), new RequestOptions(ResponseMode.GET_ALL, 0));
    stop = System.currentTimeMillis();
    System.out.println("rsps:\n" + rsps);
    System.out.println("call took " + (stop - start) + " ms");
    assertNotNull(rsps);
    Assert.assertEquals(2, rsps.size());
    Rsp rsp = rsps.get(c1.getAddress());
    assertNotNull(rsp);
    Object ret = rsp.getValue();
    assert ret == null;

    rsp = rsps.get(c2.getAddress());
    assertNotNull(rsp);
    ret = rsp.getValue();
    assert ret == null;

    Util.close(c2);
  }
Esempio n. 6
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 @Test(invocationCount = 10)
 public void testOOBUnicastsToOthers() throws Exception {
   send(c1, c2.getAddress(), true, 10);
   send(c1, c3.getAddress(), true, 10);
   sendStableMessages(c1, c2, c3);
   check(r2, 1, true, new Tuple<Address, Integer>(a1, 10));
   check(r3, 1, true, new Tuple<Address, Integer>(a1, 10));
 }
  /**
   * Multiple threads (NUM_THREADS) send messages (NUM_MSGS)
   *
   * @throws Exception
   */
  @Test(dataProvider = "provider")
  public void testMessageReceptionUnderHighLoad(String props) throws Exception {
    CountDownLatch latch = new CountDownLatch(1);
    c1 = new JChannel(props);
    c2 = new JChannel(props);
    MyReceiver r1 = new MyReceiver("c1"), r2 = new MyReceiver("c2");
    c1.setReceiver(r1);
    c2.setReceiver(r2);
    c1.connect("testSimpleMessageReception");
    c2.connect("testSimpleMessageReception");

    Address c1_addr = c1.getAddress(), c2_addr = c2.getAddress();
    MySender[] c1_senders = new MySender[NUM_THREADS];
    for (int i = 0; i < c1_senders.length; i++) {
      c1_senders[i] = new MySender(c1, c2_addr, latch);
      c1_senders[i].start();
    }
    MySender[] c2_senders = new MySender[NUM_THREADS];
    for (int i = 0; i < c2_senders.length; i++) {
      c2_senders[i] = new MySender(c2, c1_addr, latch);
      c2_senders[i].start();
    }

    Util.sleep(500);
    latch.countDown(); // starts all threads

    long NUM_EXPECTED_MSGS = NUM_THREADS * NUM_MSGS;

    for (int i = 0; i < 20; i++) {
      if (r1.getNum() == NUM_EXPECTED_MSGS && r2.getNum() == NUM_EXPECTED_MSGS) break;
      Util.sleep(2000);
      UNICAST2 unicast2 = (UNICAST2) c1.getProtocolStack().findProtocol(UNICAST2.class);
      if (unicast2 != null) unicast2.sendStableMessages();
      unicast2 = (UNICAST2) c2.getProtocolStack().findProtocol(UNICAST2.class);
      if (unicast2 != null) unicast2.sendStableMessages();
    }

    System.out.println(
        "c1 received "
            + r1.getNum()
            + " msgs, "
            + getNumberOfRetransmissions(c1)
            + " retransmissions");
    System.out.println(
        "c2 received "
            + r2.getNum()
            + " msgs, "
            + getNumberOfRetransmissions(c2)
            + " retransmissions");

    assert r1.getNum() == NUM_EXPECTED_MSGS
        : "expected " + NUM_EXPECTED_MSGS + ", but got " + r1.getNum();
    assert r2.getNum() == NUM_EXPECTED_MSGS
        : "expected " + NUM_EXPECTED_MSGS + ", but got " + r2.getNum();
  }
  /**
   * Verifies that unicasts are received correctly by all participants after an overlapping merge.
   * The following steps are executed:
   *
   * <ol>
   *   <li/>Group is {A,B,C}, A is the coordinator
   *   <li/>MERGE2 is removed from all members
   *   <li/>VERIFY_SUSPECT is removed from all members
   *   <li/>Everyone sends 5 unicast messages to everyone else
   *   <li/>A VIEW(B,C) is injected into B and C
   *   <li/>B and C install {B,C}
   *   <li/>B and C trash the connection table for A in UNICAST
   *   <li/>A still has view {A,B,C} and all connection tables intact in UNICAST
   *   <li/>We now send N unicasts from everyone to everyone else, all the unicasts should be
   *       received.
   * </ol>
   */
  public void testWithViewBC() throws Exception {

    System.out.println("A's view: " + a.getView());

    // Inject view {B,C} into B and C:
    View new_view = Util.createView(b.getAddress(), 10, b.getAddress(), c.getAddress());
    injectView(new_view, b, c);
    assertEquals("A's view is " + a.getView(), 3, a.getView().size());
    assertEquals("B's view is " + b.getView(), 2, b.getView().size());
    assertEquals("C's view is " + c.getView(), 2, c.getView().size());
    sendAndCheckMessages(5, a, b, c);
  }
Esempio n. 9
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  private static void createPartitions(JChannel... channels) throws Exception {
    for (JChannel ch : channels) {
      DISCARD discard = new DISCARD();
      discard.setDiscardAll(true);
      ch.getProtocolStack().insertProtocol(discard, ProtocolStack.Position.ABOVE, TP.class);
    }

    for (JChannel ch : channels) {
      View view = View.create(ch.getAddress(), 10, ch.getAddress());
      GMS gms = (GMS) ch.getProtocolStack().findProtocol(GMS.class);
      gms.installView(view);
    }
  }
Esempio n. 10
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 /**
  * Set Frame's title
  *
  * @param title : frame's title
  */
 void setTitle(String title) {
   String tmp = "";
   if (noChannel) {
     mainFrame.setTitle("JWhiteBoard");
     return;
   }
   if (title != null) {
     mainFrame.setTitle(title);
   } else {
     if (channel.getAddress() != null) tmp += channel.getAddress();
     tmp += " (" + memberSize + ")";
     mainFrame.setTitle(tmp);
   }
 }
  @Test
  public void testJoinMessageReceivedForDisconnectedHost() throws Exception {
    final AtomicInteger counter1 = new AtomicInteger(0);
    final AtomicInteger counter2 = new AtomicInteger(0);

    connector1.subscribe(String.class.getName(), new CountingCommandHandler(counter1));
    connector1.connect(20);
    assertTrue(
        "Expected connector 1 to connect within 10 seconds",
        connector1.awaitJoined(10, TimeUnit.SECONDS));

    connector2.subscribe(String.class.getName(), new CountingCommandHandler(counter2));
    connector2.connect(80);
    assertTrue("Connector 2 failed to connect", connector2.awaitJoined());

    // wait for both connectors to have the same view
    waitForConnectorSync();

    ConsistentHash hashBefore = connector1.getConsistentHash();
    // secretly insert an illegal message
    channel1
        .getReceiver()
        .receive(
            new Message(
                channel1.getAddress(),
                new IpAddress(12345),
                new JoinMessage(10, Collections.<String>emptySet())));
    ConsistentHash hash2After = connector1.getConsistentHash();
    assertEquals("That message should not have changed the ring", hashBefore, hash2After);
  }
Esempio n. 12
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  /** Execute when new member join or leave Group */
  public void viewAccepted(View v) {
    memberSize = v.size();
    if (mainFrame != null) setTitle();
    members.clear();
    members.addAll(v.getMembers());

    if (v instanceof MergeView) {
      System.out.println("** " + v);

      // This is a simple merge function, which fetches the state from the coordinator
      // on a merge and overwrites all of its own state
      if (useState && !members.isEmpty()) {
        Address coord = members.get(0);
        Address local_addr = channel.getAddress();
        if (local_addr != null && !local_addr.equals(coord)) {
          try {

            // make a copy of our state first
            Map<Point, Color> copy = null;
            if (send_own_state_on_merge) {
              synchronized (drawPanel.state) {
                copy = new LinkedHashMap<Point, Color>(drawPanel.state);
              }
            }
            System.out.println("fetching state from " + coord);
            channel.getState(coord, 5000);
            if (copy != null)
              sendOwnState(copy); // multicast my own state so everybody else has it too
          } catch (Exception e) {
            e.printStackTrace();
          }
        }
      }
    } else System.out.println("** View=" + v);
  }
Esempio n. 13
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  /** When receive a message, analyze message content and then execute the command: Draw or Clear */
  public void receive(Message msg) {
    byte[] buf = msg.getRawBuffer();
    if (buf == null) {
      System.err.println(
          "["
              + channel.getAddress()
              + "] received null buffer from "
              + msg.getSrc()
              + ", headers: "
              + msg.printHeaders());
      return;
    }

    try {
      DrawCommand comm =
          (DrawCommand)
              Util.streamableFromByteBuffer(
                  DrawCommand.class, buf, msg.getOffset(), msg.getLength());
      switch (comm.mode) {
        case DrawCommand.DRAW:
          if (drawPanel != null) drawPanel.drawPoint(comm);
          break;
        case DrawCommand.CLEAR:
          clearPanel();
        default:
          System.err.println("***** received invalid draw command " + comm.mode);
          break;
      }
    } catch (Exception e) {
      e.printStackTrace();
    }
  }
Esempio n. 14
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 private boolean viewContains(View view, JChannel... channels) {
   boolean b = true;
   for (JChannel ch : channels) {
     b = b && view.containsMember(ch.getAddress());
   }
   return b;
 }
Esempio n. 15
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 private static void mergePartitions(JChannel... channels) throws Exception {
   Membership membership = new Membership();
   for (JChannel ch : channels) {
     membership.add(ch.getAddress());
   }
   membership.sort();
   Address leaderAddress = membership.elementAt(0);
   JChannel leader = findChannelByAddress(leaderAddress, channels);
   GMS gms = (GMS) leader.getProtocolStack().findProtocol(GMS.class);
   gms.setLevel("trace");
   Map<Address, View> views = new HashMap<>();
   for (JChannel ch : channels) {
     views.put(ch.getAddress(), ch.getView());
   }
   gms.up(new Event(Event.MERGE, views));
 }
Esempio n. 16
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  /**
   * If the coordinator of the lock locks the lock and then send a message, the receiver will wait
   * for ever in tryLock. However, castMessage will return after a while because of the default
   * settings of RequestOptions.SYNC().
   */
  public void testCoordSendFirst() throws Exception {
    System.out.println("Running testCoordSendFirst");

    // ===========================================================================
    if (lock_a.tryLock()) {
      try {
        System.out.println("A aquired the lock, about to send message to B");
        String rsp =
            disp_a.sendMessage(
                new Message(b.getAddress(), "bla"), RequestOptions.SYNC().setTimeout(60000));
        if (rsp == null) {
          System.err.println("ERROR: didn't return correctly");
          Assert.fail("Didn't return correctly");
        } else System.out.println("Returned: " + rsp);

      } finally {
        lock_a.unlock();
      }
    } else {
      Assert.fail("The lock was already locked");
      System.out.println("A failed to aquire the lock");
    }
    // ===========================================================================

    System.out.println();
  }
Esempio n. 17
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  /** Tests https://jira.jboss.org/jira/browse/JGRP-1079 for unicast messages */
  public void testOOBUnicastMessageLoss() throws Exception {
    MyReceiver receiver = new MySleepingReceiver("C2", 1000);
    b.setReceiver(receiver);

    a.getProtocolStack().getTransport().setOOBRejectionPolicy("discard");

    final int NUM = 10;
    final Address dest = b.getAddress();
    for (int i = 1; i <= NUM; i++) {
      Message msg = new Message(dest, null, i);
      msg.setFlag(Message.OOB);
      a.send(msg);
    }

    Collection<Integer> msgs = receiver.getMsgs();

    for (int i = 0; i < 20; i++) {
      if (msgs.size() == NUM) break;
      Util.sleep(1000);
      // sendStableMessages(c1,c2); // not needed for unicasts !
    }

    assert msgs.size() == NUM
        : "expected " + NUM + " messages but got " + msgs.size() + ", msgs=" + Util.print(msgs);
    for (int i = 1; i <= NUM; i++) {
      assert msgs.contains(i);
    }
  }
Esempio n. 18
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  /**
   * Tests sending 1, 2 (OOB) and 3, where they are received in the order 1, 3, 2. Message 3 should
   * not get delivered until message 4 is received (http://jira.jboss.com/jira/browse/JGRP-780)
   */
  public void testRegularAndOOBUnicasts() throws Exception {
    DISCARD discard = new DISCARD();
    ProtocolStack stack = a.getProtocolStack();
    stack.insertProtocol(discard, ProtocolStack.BELOW, UNICAST.class, UNICAST2.class);

    Address dest = b.getAddress();
    Message m1 = new Message(dest, null, 1);
    Message m2 = new Message(dest, null, 2);
    m2.setFlag(Message.OOB);
    Message m3 = new Message(dest, null, 3);

    MyReceiver receiver = new MyReceiver("C2");
    b.setReceiver(receiver);
    a.send(m1);
    discard.setDropDownUnicasts(1);
    a.send(m2);
    a.send(m3);

    Collection<Integer> list = receiver.getMsgs();
    int count = 10;
    while (list.size() < 3 && --count > 0) {
      Util.sleep(500); // time for potential retransmission
      sendStableMessages(a, b);
    }

    assert list.size() == 3 : "list is " + list;
    assert list.contains(1) && list.contains(2) && list.contains(3);
  }
Esempio n. 19
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  public void testRegularAndOOBUnicasts2() throws Exception {
    DISCARD discard = new DISCARD();
    ProtocolStack stack = a.getProtocolStack();
    stack.insertProtocol(
        discard, ProtocolStack.BELOW, (Class<? extends Protocol>[]) Util.getUnicastProtocols());

    Address dest = b.getAddress();
    Message m1 = new Message(dest, 1);
    Message m2 = new Message(dest, 2).setFlag(Message.Flag.OOB);
    Message m3 = new Message(dest, 3).setFlag(Message.Flag.OOB);
    Message m4 = new Message(dest, 4);

    MyReceiver receiver = new MyReceiver("B");
    b.setReceiver(receiver);
    a.send(m1);

    discard.setDropDownUnicasts(2);
    a.send(m2); // dropped
    a.send(m3); // dropped
    a.send(m4);

    Collection<Integer> list = receiver.getMsgs();
    int count = 10;
    while (list.size() < 4 && --count > 0) {
      Util.sleep(500); // time for potential retransmission
      sendStableMessages(a, b);
    }
    System.out.println("list = " + list);
    assert list.size() == 4 : "list is " + list;
    assert list.contains(1) && list.contains(2) && list.contains(3) && list.contains(4);
  }
Esempio n. 20
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 private static JChannel findChannelByAddress(Address address, JChannel... channels) {
   for (JChannel ch : channels) {
     if (ch.getAddress().equals(address)) {
       return ch;
     }
   }
   return null;
 }
Esempio n. 21
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  @BeforeMethod
  void init() throws Exception {
    createChannels(true, true, (short) 5, (short) 5);
    c1.setName("C1");
    c2.setName("C2");
    c3.setName("C3");
    a1 = c1.getAddress();
    a2 = c2.getAddress();
    a3 = c3.getAddress();

    r1 = new MyReceiver("C1");
    r2 = new MyReceiver("C2");
    r3 = new MyReceiver("C3");
    c1.setReceiver(r1);
    c2.setReceiver(r2);
    c3.setReceiver(r3);
  }
 @BeforeMethod
 void start() throws Exception {
   r1 = new MyReceiver("A");
   r2 = new MyReceiver("B");
   a = new JChannel(props);
   a.setName("A");
   a.connect(CLUSTER);
   a_addr = a.getAddress();
   a.setReceiver(r1);
   u1 = a.getProtocolStack().findProtocol(UNICAST.class);
   b = new JChannel(props);
   b.setName("B");
   b.connect(CLUSTER);
   b_addr = b.getAddress();
   b.setReceiver(r2);
   u2 = b.getProtocolStack().findProtocol(UNICAST.class);
   System.out.println("A=" + a_addr + ", B=" + b_addr);
 }
 protected void receive(Message msg) {
   String greeting = (String) msg.getObject();
   msgs.add(greeting);
   System.out.println("received " + greeting + " from " + msg.getSrc());
   if (HELLO1.equals(greeting)) {
     try {
       a.send(new Message(a.getAddress(), HELLO2));
     } catch (Exception e) {
       ex = e;
     }
   }
 }
  private void sendAndCheckMessages(int num_msgs, JChannel... channels) throws Exception {
    ra.clear();
    rb.clear();
    rc.clear();
    // 1. send unicast messages
    Set<Address> mbrs = new HashSet<Address>(channels.length);
    for (JChannel ch : channels) mbrs.add(ch.getAddress());

    for (JChannel ch : channels) {
      Address addr = ch.getAddress();
      for (Address dest : mbrs) {
        for (int i = 1; i <= num_msgs; i++) {
          ch.send(dest, null, "unicast msg #" + i + " from " + addr);
        }
      }
    }
    int total_msgs = num_msgs * channels.length;
    MyReceiver[] receivers = new MyReceiver[channels.length];
    for (int i = 0; i < channels.length; i++) receivers[i] = (MyReceiver) channels[i].getReceiver();
    checkReceivedMessages(total_msgs, receivers);
  }
Esempio n. 25
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  /**
   * Tests a simple split: {A,B} and {C,D} need to merge back into one subgroup. Checks how many
   * MergeViews are installed
   */
  public void testSplitInTheMiddle2() throws Exception {
    View v1 = View.create(a.getAddress(), 10, a.getAddress(), b.getAddress());
    View v2 = View.create(c.getAddress(), 10, c.getAddress(), d.getAddress());
    injectView(v1, a, b);
    injectView(v2, c, d);
    enableInfoSender(false, a, b, c, d);
    Util.waitUntilAllChannelsHaveSameSize(10000, 500, a, b);
    Util.waitUntilAllChannelsHaveSameSize(10000, 500, c, d);
    enableInfoSender(false, a, b, c, d);
    for (JChannel ch : Arrays.asList(a, b, c, d))
      System.out.println(ch.getName() + ": " + ch.getView());
    System.out.println("\nEnabling INFO sending in merge protocols to merge subclusters");
    enableInfoSender(true, a, b, c, d);

    Util.waitUntilAllChannelsHaveSameSize(30000, 1000, a, b, c, d);
    System.out.println("\nResulting views:");
    for (JChannel ch : Arrays.asList(a, b, c, d)) {
      GMS gms = (GMS) ch.getProtocolStack().findProtocol(GMS.class);
      View mv = gms.view();
      System.out.println(mv);
    }
    for (JChannel ch : Arrays.asList(a, b, c, d)) {
      GMS gms = (GMS) ch.getProtocolStack().findProtocol(GMS.class);
      View mv = gms.view();
      assert mv instanceof MergeView;
      assert mv.size() == 4;
      assert ((MergeView) mv).getSubgroups().size() == 2;
    }
    for (JChannel ch : Arrays.asList(a, b, c, d)) {
      View view = ch.getView();
      assert view.size() == 4 : "view should have 4 members: " + view;
    }
  }
  @Test(dataProvider = "provider")
  public void testSimpleMessageReception(String props) throws Exception {
    c1 = new JChannel(props);
    c2 = new JChannel(props);
    MyReceiver r1 = new MyReceiver("c1"), r2 = new MyReceiver("c2");
    c1.setReceiver(r1);
    c2.setReceiver(r2);
    c1.connect("testSimpleMessageReception");
    c2.connect("testSimpleMessageReception");

    int NUM = 100;
    Address c1_addr = c1.getAddress(), c2_addr = c2.getAddress();
    for (int i = 1; i <= NUM; i++) {
      c1.send(c1_addr, "bla");
      c1.send(c2_addr, "bla");
      c2.send(c2_addr, "bla");
      c2.send(c1_addr, "bla");
    }

    for (int i = 0; i < 10; i++) {
      if (r1.getNum() == NUM * 2 && r2.getNum() == NUM * 2) break;
      Util.sleep(500);
    }

    System.out.println(
        "c1 received "
            + r1.getNum()
            + " msgs, "
            + getNumberOfRetransmissions(c1)
            + " retransmissions");
    System.out.println(
        "c2 received "
            + r2.getNum()
            + " msgs, "
            + getNumberOfRetransmissions(c2)
            + " retransmissions");

    assert r1.getNum() == NUM * 2 : "expected " + NUM * 2 + ", but got " + r1.getNum();
    assert r2.getNum() == NUM * 2 : "expected " + NUM * 2 + ", but got " + r2.getNum();
  }
 public void testWithEveryoneHavingASingletonView() throws Exception {
   // Inject view {A} into A, B and C:
   injectView(Util.createView(a.getAddress(), 10, a.getAddress()), a);
   injectView(Util.createView(b.getAddress(), 10, b.getAddress()), b);
   injectView(Util.createView(c.getAddress(), 10, c.getAddress()), c);
   sendAndCheckMessages(5, a, b, c);
 }
Esempio n. 28
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 public void connect() {
   try {
     channel.connect("TOTAL_TOKEN_DEMO_GROUP");
   } catch (ChannelException e) {
     e.printStackTrace();
   }
   receiverThread = new ReceiverThread();
   receiverThread.start();
   Address a = channel.getAddress();
   if (a != null) setTitle(a.toString());
   else setTitle("Not connected");
   control.connected();
 }
Esempio n. 29
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  /**
   * Tests a simple split: {A,B} and {C,D} need to merge back into one subgroup. Checks how many
   * MergeViews are installed
   */
  public void testSplitInTheMiddle() {
    View v1 = View.create(a.getAddress(), 10, a.getAddress(), b.getAddress());
    View v2 = View.create(c.getAddress(), 10, c.getAddress(), d.getAddress());

    injectView(v1, a, b);
    injectView(v2, c, d);
    Util.waitUntilAllChannelsHaveSameSize(10000, 500, a, b);
    Util.waitUntilAllChannelsHaveSameSize(10000, 500, c, d);
    for (JChannel ch : Arrays.asList(a, b, c, d))
      System.out.println(ch.getName() + ": " + ch.getView());
    Address merge_leader_one =
        new Membership().add(a.getAddress(), b.getAddress()).sort().elementAt(0);
    Address merge_leader_two =
        new Membership().add(c.getAddress(), d.getAddress()).sort().elementAt(0);

    for (int x = 0; x < 20; x++) {
      if (a.getView().size() == 4
          && b.getView().size() == 4
          && c.getView().size() == 4
          && d.getView().size() == 4) break;

      for (JChannel ch : Arrays.asList(a, b, c, d)) {
        MERGE3 merge = (MERGE3) ch.getProtocolStack().findProtocol(MERGE3.class);
        merge.sendInfo(); // multicasts an INFO msg to everybody else
      }

      for (JChannel ch :
          Arrays.asList(findChannel(merge_leader_one), findChannel(merge_leader_two))) {
        MERGE3 merge = (MERGE3) ch.getProtocolStack().findProtocol(MERGE3.class);
        merge.checkInconsistencies();
      }
      Util.sleep(1000);
    }

    for (JChannel ch : Arrays.asList(a, b, c, d))
      System.out.println(ch.getName() + ": " + ch.getView());
    for (JChannel ch : Arrays.asList(a, b, c, d))
      assert ch.getView().size() == 4 : "view of " + ch.getName() + ": " + ch.getView();
  }
Esempio n. 30
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  /**
   * Creates a list of randomly generated partitions, each having a max size of max_partition_size
   */
  protected List<View> createPartitions(int max_partition_size, JChannel... channels) {
    long view_id = 1;
    for (JChannel ch : channels) view_id = Math.max(view_id, ch.getView().getViewId().getId());
    List<View> partitions = new ArrayList<>();
    List<Address> tmp = new ArrayList<>();
    for (JChannel ch : channels) tmp.add(ch.getAddress());

    while (!tmp.isEmpty()) {
      int num_to_remove = (int) Util.random(max_partition_size);
      List<Address> part = new ArrayList<>(max_partition_size);
      for (int x = 0; x < num_to_remove && !tmp.isEmpty(); x++) part.add(tmp.remove(0));
      partitions.add(new View(part.get(0), view_id + 1, part));
    }
    return partitions;
  }