/** @throws Exception If failed. */
  public void testClusterNodeMetrics() throws Exception {
    final Ignite ignite0 = grid();
    final Ignite ignite1 = startGrid(1);

    GridTestUtils.waitForCondition(
        new GridAbsPredicate() {
          @Override
          public boolean apply() {
            return ignite0.cluster().nodes().size() == 2 && ignite1.cluster().nodes().size() == 2;
          }
        },
        3000L);

    ClusterMetrics metrics0 = ignite0.cluster().localNode().metrics();

    ClusterMetrics nodesMetrics =
        ignite0
            .cluster()
            .forNode(ignite0.cluster().localNode(), ignite1.cluster().localNode())
            .metrics();

    assertEquals(metrics0.getTotalCpus(), nodesMetrics.getTotalCpus());
    assertEquals(1, metrics0.getTotalNodes());
    assertEquals(2, nodesMetrics.getTotalNodes());

    assert metrics0.getHeapMemoryUsed() > 0;
    assert metrics0.getHeapMemoryTotal() > 0;
    assert metrics0.getNonHeapMemoryMaximum() > 0;
  }
  /** @throws Exception If failed. */
  public void testIoMetrics() throws Exception {
    Ignite ignite0 = grid();
    Ignite ignite1 = startGrid(1);

    Object msg = new TestMessage();

    int size = ignite0.configuration().getMarshaller().marshal(msg).length;

    assert size > MSG_SIZE;

    final CountDownLatch latch = new CountDownLatch(MSG_CNT);

    ignite0
        .message()
        .localListen(
            null,
            new MessagingListenActor<TestMessage>() {
              @Override
              protected void receive(UUID nodeId, TestMessage rcvMsg) throws Throwable {
                latch.countDown();
              }
            });

    ignite1
        .message()
        .localListen(
            null,
            new MessagingListenActor<TestMessage>() {
              @Override
              protected void receive(UUID nodeId, TestMessage rcvMsg) throws Throwable {
                respond(rcvMsg);
              }
            });

    for (int i = 0; i < MSG_CNT; i++) message(ignite0.cluster().forRemotes()).send(null, msg);

    latch.await();

    ClusterMetrics metrics = ignite0.cluster().localNode().metrics();

    info("Node 0 metrics: " + metrics);

    // Time sync messages are being sent.
    assert metrics.getSentMessagesCount() >= MSG_CNT;
    assert metrics.getSentBytesCount() > size * MSG_CNT;
    assert metrics.getReceivedMessagesCount() >= MSG_CNT;
    assert metrics.getReceivedBytesCount() > size * MSG_CNT;

    metrics = ignite1.cluster().localNode().metrics();

    info("Node 1 metrics: " + metrics);

    // Time sync messages are being sent.
    assert metrics.getSentMessagesCount() >= MSG_CNT;
    assert metrics.getSentBytesCount() > size * MSG_CNT;
    assert metrics.getReceivedMessagesCount() >= MSG_CNT;
    assert metrics.getReceivedBytesCount() > size * MSG_CNT;
  }
Beispiel #3
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  /** @throws Exception If failed. */
  @SuppressWarnings({"TooBroadScope"})
  public void testAsyncListen() throws Exception {
    final String hello = "HELLO!";

    final String bye = "BYE!";

    final Ignite g = grid(0);

    final UUID locNodeId = g.cluster().localNode().id();

    g.message()
        .remoteListen(
            null,
            new MessagingListenActor<String>() {
              @Override
              protected void receive(UUID nodeId, String rcvMsg) throws Throwable {
                if (hello.equals(rcvMsg)) {
                  assertEquals(locNodeId, nodeId);
                  assertEquals(hello, rcvMsg);

                  stop(bye);
                }
              }
            });

    final AtomicInteger cnt = new AtomicInteger();

    g.message()
        .localListen(
            null,
            new P2<UUID, String>() {
              @Override
              public boolean apply(UUID nodeId, String msg) {
                if (msg.equals(bye)) cnt.incrementAndGet();

                return true;
              }
            });

    g.message().send(null, hello);

    GridTestUtils.waitForCondition(
        new GridAbsPredicate() {
          @Override
          public boolean apply() {
            return cnt.get() == g.cluster().nodes().size();
          }
        },
        5000);

    assertEquals(cnt.get(), g.cluster().nodes().size());
  }
  /** @throws Exception If failed. */
  public void testInternalTaskMetrics() throws Exception {
    Ignite ignite = grid();

    // Visor task is internal and should not affect metrics.
    ignite.compute().withName("visor-test-task").execute(new TestInternalTask(), "testArg");

    // Let metrics update twice.
    final CountDownLatch latch = new CountDownLatch(2);

    ignite
        .events()
        .localListen(
            new IgnitePredicate<Event>() {
              @Override
              public boolean apply(Event evt) {
                assert evt.type() == EVT_NODE_METRICS_UPDATED;

                latch.countDown();

                return true;
              }
            },
            EVT_NODE_METRICS_UPDATED);

    // Wait for metrics update.
    latch.await();

    ClusterMetrics metrics = ignite.cluster().localNode().metrics();

    info("Node metrics: " + metrics);

    assert metrics.getAverageActiveJobs() == 0;
    assert metrics.getAverageCancelledJobs() == 0;
    assert metrics.getAverageJobExecuteTime() == 0;
    assert metrics.getAverageJobWaitTime() == 0;
    assert metrics.getAverageRejectedJobs() == 0;
    assert metrics.getAverageWaitingJobs() == 0;
    assert metrics.getCurrentActiveJobs() == 0;
    assert metrics.getCurrentCancelledJobs() == 0;
    assert metrics.getCurrentJobExecuteTime() == 0;
    assert metrics.getCurrentJobWaitTime() == 0;
    assert metrics.getCurrentWaitingJobs() == 0;
    assert metrics.getMaximumActiveJobs() == 0;
    assert metrics.getMaximumCancelledJobs() == 0;
    assert metrics.getMaximumJobExecuteTime() == 0;
    assert metrics.getMaximumJobWaitTime() == 0;
    assert metrics.getMaximumRejectedJobs() == 0;
    assert metrics.getMaximumWaitingJobs() == 0;
    assert metrics.getTotalCancelledJobs() == 0;
    assert metrics.getTotalExecutedJobs() == 0;
    assert metrics.getTotalRejectedJobs() == 0;
    assert metrics.getTotalExecutedTasks() == 0;

    assertTrue(
        "MaximumJobExecuteTime="
            + metrics.getMaximumJobExecuteTime()
            + " is less than AverageJobExecuteTime="
            + metrics.getAverageJobExecuteTime(),
        metrics.getMaximumJobExecuteTime() >= metrics.getAverageJobExecuteTime());
  }
Beispiel #5
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  /** {@inheritDoc} */
  @Override
  public void testRemoteNodes() throws Exception {
    int size = remoteNodeIds().size();

    String name = "oneMoreGrid";

    try {
      Ignite g = startGrid(name);

      UUID joinedId = g.cluster().localNode().id();

      assert projection().forRemotes().nodes().size() == size + 1;

      assert F.nodeIds(projection().forRemotes().nodes()).contains(joinedId);
    } finally {
      stopGrid(name);
    }
  }