Java SimplePauseDetector Exemples

Langage de programmation: Java

Espace de nommage/Pack: org.LatencyUtils

Exemples au hotexamples.com: 2

Java SimplePauseDetector - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de org.LatencyUtils.SimplePauseDetector extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

shutdown(2)

skipConsensusTimeTo(2)

stallDetectorThreads(1)

Méthodes fréquemment utilisées

shutdown (2)

skipConsensusTimeTo (2)

stallDetectorThreads (1)

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Exemple #1

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Fichier : LatencyStatsTest.java Projet : rlodge/LatencyUtils

@Test public void testIntervalSampleDeadlock() throws Exception { SimplePauseDetector pauseDetector = new SimplePauseDetector( 1000000L /* 1 msec sleep */, 10000000L /* 10 msec reporting threshold */, 3 /* thread count */, true /* verbose */); LatencyStats.setDefaultPauseDetector(pauseDetector); final LatencyStats latencyStats = new LatencyStats(); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + 115 * MSEC); TimeServices.moveTimeForward(5000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(1000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(2000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(110000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate try { TimeUnit.NANOSECONDS.sleep(10 * MSEC); // Make sure things have some time to propagate long startTime = TimeServices.nanoTime(); try { latencyStats.recordLatency(Long.MAX_VALUE); } catch (java.lang.IndexOutOfBoundsException e) { // Suppress, because this is what we expect } TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate ExecutorService executorService = Executors.newFixedThreadPool(1); Future<Boolean> future = executorService.submit( new Runnable() { @Override public void run() { System.out.println("\nForcing Interval Update; may hang forever:\n"); latencyStats.forceIntervalSample(); System.out.println("\nCompleted forcing interval sample\n"); } }, Boolean.TRUE); try { Boolean response = future.get(5, TimeUnit.SECONDS); Assert.assertEquals(Boolean.TRUE, response); } catch (TimeoutException e) { System.err.println("\nFuture timed out.\n"); System.out.println("\nMaking sure the thread dies.\n"); try { Field f = LatencyStats.class.getDeclaredField("recordingEndEpoch"); f.setAccessible(true); f.set(latencyStats, (Long) f.get(latencyStats) + 1); System.out.println(":" + future.get(5, TimeUnit.SECONDS)); } catch (Throwable t) { t.printStackTrace(); } Assert.fail("Timed out trying to force interval sample."); } finally { executorService.shutdownNow(); System.out.println("\nSuccessfully forced interval sample to complete on test failure.\n"); } } catch (InterruptedException ex) { // Suppress } finally { latencyStats.stop(); pauseDetector.shutdown(); } }

Exemple #2

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Fichier : LatencyStatsTest.java Projet : rlodge/LatencyUtils

@Test public void testLatencyStats() throws Exception { SimplePauseDetector pauseDetector = new SimplePauseDetector( 1000000L /* 1 msec sleep */, 10000000L /* 10 msec reporting threshold */, 3 /* thread count */, true /* verbose */); LatencyStats.setDefaultPauseDetector(pauseDetector); LatencyStats latencyStats = new LatencyStats(); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + 115 * MSEC); TimeServices.moveTimeForward(5000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(1000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(2000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate TimeServices.moveTimeForward(110000000L); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate try { TimeUnit.NANOSECONDS.sleep(10 * MSEC); // Make sure things have some time to propagate long startTime = TimeServices.nanoTime(); System.out.println( "@ " + (TimeServices.nanoTime() - startTime) + " nsec after start: startTime = " + startTime); long lastTime = startTime; for (int i = 0; i < 2000; i++) { pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (4 * MSEC)); TimeServices.moveTimeForwardMsec(5); // TimeUnit.NANOSECONDS.sleep(100000L); // Give things have some time to // propagate long now = TimeServices.nanoTime(); latencyStats.recordLatency(now - lastTime); lastTime = now; } TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 10 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(lastTime)); Histogram accumulatedHistogram = latencyStats.getAccumulatedHistogram(); Histogram intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2000", 2000, accumulatedHistogram.getTotalCount()); System.out.println("Pausing detector threads for 5 seconds:"); pauseDetector.stallDetectorThreads(0x7, 5000 * MSEC); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 15 sec from start // Report without forcing interval measurement update: System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause, pre-observation Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause, pre-observation Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2000", 2000, accumulatedHistogram.getTotalCount()); // Still @ 15 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause, post-observation Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause, post-observation Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2000", 2998, accumulatedHistogram.getTotalCount()); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (500 * MSEC)); TimeServices.moveTimeForwardMsec(500); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 15.5 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2000", 2998, accumulatedHistogram.getTotalCount()); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (500 * MSEC)); TimeServices.moveTimeForwardMsec(500); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 16 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2999", 2998, accumulatedHistogram.getTotalCount()); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (2000 * MSEC)); TimeServices.moveTimeForwardMsec(2000); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 18 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2999", 2998, accumulatedHistogram.getTotalCount()); for (int i = 0; i < 100; i++) { pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (5 * MSEC)); TimeServices.moveTimeForwardMsec(5); long now = TimeServices.nanoTime(); latencyStats.recordLatency(now - lastTime); lastTime = now; } pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (500 * MSEC)); TimeServices.moveTimeForwardMsec(500); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 19 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); pauseDetector.skipConsensusTimeTo(TimeServices.nanoTime() + (500 * MSEC)); TimeServices.moveTimeForwardMsec(500); TimeUnit.NANOSECONDS.sleep(1 * MSEC); // Make sure things have some time to propagate // @ 19.5 sec from start System.out.println("\nForcing Interval Update:\n"); latencyStats.forceIntervalSample(); System.out.println("@ " + (TimeServices.nanoTime() - startTime) + " nsec after start:"); System.out.println( "Estimated interval = " + latencyStats.getIntervalEstimator().getEstimatedInterval(TimeServices.nanoTime())); accumulatedHistogram = latencyStats.getAccumulatedHistogram(); intervalHistogram = latencyStats.getIntervalHistogram(); System.out.println( "Post-pause Accumulated Average latency for 5msec sleeps: " + accumulatedHistogram.getMean() + ", count = " + accumulatedHistogram.getTotalCount()); System.out.println( "Post-pause Interval Average latency for 5msec sleeps: " + intervalHistogram.getMean() + ", count = " + intervalHistogram.getTotalCount()); Assert.assertEquals( "Accumulated total count should be 2000", 3098, accumulatedHistogram.getTotalCount()); } catch (InterruptedException ex) { } latencyStats.stop(); pauseDetector.shutdown(); }