/** @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()); }
/** * Listen to events that happen only on local node. * * @throws IgniteException If failed. */ private static void localListen() throws IgniteException { System.out.println(); System.out.println(">>> Local event listener example."); Ignite ignite = Ignition.ignite(); IgnitePredicate<TaskEvent> lsnr = evt -> { System.out.println( "Received task event [evt=" + evt.name() + ", taskName=" + evt.taskName() + ']'); return true; // Return true to continue listening. }; // Register event listener for all local task execution events. ignite.events().localListen(lsnr, EVTS_TASK_EXECUTION); // Generate task events. ignite .compute() .withName("example-event-task") .run(() -> System.out.println("Executing sample job.")); // Unsubscribe local task event listener. ignite.events().stopLocalListen(lsnr); }
/** @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; }
/** * Listen to events coming from all cluster nodes. * * @throws IgniteException If failed. */ private static void remoteListen() throws IgniteException { System.out.println(); System.out.println(">>> Remote event listener example."); // This optional local callback is called for each event notification // that passed remote predicate listener. IgniteBiPredicate<UUID, TaskEvent> locLsnr = (nodeId, evt) -> { // Remote filter only accepts tasks whose name being with "good-task" prefix. assert evt.taskName().startsWith("good-task"); System.out.println( "Received task event [evt=" + evt.name() + ", taskName=" + evt.taskName()); return true; // Return true to continue listening. }; // Remote filter which only accepts tasks whose name begins with "good-task" prefix. IgnitePredicate<TaskEvent> rmtLsnr = evt -> evt.taskName().startsWith("good-task"); Ignite ignite = Ignition.ignite(); // Register event listeners on all nodes to listen for task events. ignite.events().remoteListen(locLsnr, rmtLsnr, EVTS_TASK_EXECUTION); // Generate task events. for (int i = 0; i < 10; i++) { ignite .compute() .withName(i < 5 ? "good-task-" + i : "bad-task-" + i) .run( new IgniteRunnable() { // Auto-inject task session. @TaskSessionResource private ComputeTaskSession ses; @Override public void run() { System.out.println("Executing sample job for task: " + ses.getTaskName()); } }); } }
/** * Checks for explicit events configuration. * * @param ignite Grid instance. * @return {@code true} if all task events explicitly specified in configuration. */ public static boolean checkExplicitTaskMonitoring(Ignite ignite) { int[] evts = ignite.configuration().getIncludeEventTypes(); if (F.isEmpty(evts)) return false; for (int evt : VISOR_TASK_EVTS) { if (!F.contains(evts, evt)) return false; } return true; }
/** @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; }
/** * Grabs local events and detects if events was lost since last poll. * * @param ignite Target grid. * @param evtOrderKey Unique key to take last order key from node local map. * @param evtThrottleCntrKey Unique key to take throttle count from node local map. * @param evtTypes Event types to collect. * @param evtMapper Closure to map grid events to Visor data transfer objects. * @return Collections of node events */ public static Collection<VisorGridEvent> collectEvents( Ignite ignite, String evtOrderKey, String evtThrottleCntrKey, final int[] evtTypes, IgniteClosure<Event, VisorGridEvent> evtMapper) { assert ignite != null; assert evtTypes != null && evtTypes.length > 0; ConcurrentMap<String, Long> nl = ignite.cluster().nodeLocalMap(); final long lastOrder = getOrElse(nl, evtOrderKey, -1L); final long throttle = getOrElse(nl, evtThrottleCntrKey, 0L); // When we first time arrive onto a node to get its local events, // we'll grab only last those events that not older than given period to make sure we are // not grabbing GBs of data accidentally. final long notOlderThan = System.currentTimeMillis() - EVENTS_COLLECT_TIME_WINDOW; // Flag for detecting gaps between events. final AtomicBoolean lastFound = new AtomicBoolean(lastOrder < 0); IgnitePredicate<Event> p = new IgnitePredicate<Event>() { /** */ private static final long serialVersionUID = 0L; @Override public boolean apply(Event e) { // Detects that events were lost. if (!lastFound.get() && (lastOrder == e.localOrder())) lastFound.set(true); // Retains events by lastOrder, period and type. return e.localOrder() > lastOrder && e.timestamp() > notOlderThan && F.contains(evtTypes, e.type()); } }; Collection<Event> evts = ignite.events().localQuery(p); // Update latest order in node local, if not empty. if (!evts.isEmpty()) { Event maxEvt = Collections.max(evts, EVTS_ORDER_COMPARATOR); nl.put(evtOrderKey, maxEvt.localOrder()); } // Update throttle counter. if (!lastFound.get()) nl.put(evtThrottleCntrKey, throttle == 0 ? EVENTS_LOST_THROTTLE : throttle - 1); boolean lost = !lastFound.get() && throttle == 0; Collection<VisorGridEvent> res = new ArrayList<>(evts.size() + (lost ? 1 : 0)); if (lost) res.add(new VisorGridEventsLost(ignite.cluster().localNode().id())); for (Event e : evts) { VisorGridEvent visorEvt = evtMapper.apply(e); if (visorEvt != null) res.add(visorEvt); } return res; }
/** @throws Exception If failed. */ private void doTest() throws Exception { System.gc(); System.gc(); System.gc(); try { useCache = true; startGridsMultiThreaded(GRID_CNT); useCache = false; Ignite ignite = startGrid(); final IgniteDataStreamer<Integer, String> ldr = ignite.dataStreamer(null); ldr.perNodeBufferSize(8192); ldr.receiver(DataStreamerCacheUpdaters.<Integer, String>batchedSorted()); ldr.autoFlushFrequency(0); final LongAdder8 cnt = new LongAdder8(); long start = U.currentTimeMillis(); Thread t = new Thread( new Runnable() { @SuppressWarnings("BusyWait") @Override public void run() { while (true) { try { Thread.sleep(10000); } catch (InterruptedException ignored) { break; } info(">>> Adds/sec: " + cnt.sumThenReset() / 10); } } }); t.setDaemon(true); t.start(); int threadNum = 2; // Runtime.getRuntime().availableProcessors(); multithreaded( new Callable<Object>() { @SuppressWarnings("InfiniteLoopStatement") @Override public Object call() throws Exception { ThreadLocalRandom8 rnd = ThreadLocalRandom8.current(); while (true) { int i = rnd.nextInt(ENTRY_CNT); ldr.addData(i, vals[rnd.nextInt(vals.length)]); cnt.increment(); } } }, threadNum, "loader"); info("Closing loader..."); ldr.close(false); long duration = U.currentTimeMillis() - start; info("Finished performance test. Duration: " + duration + "ms."); } finally { stopAllGrids(); } }