/** * Verify that registering a processing-time timer that is earlier than the existing timers * removes the one physical timer and creates one for the earlier timestamp {@link * ProcessingTimeService}. */ @Test public void testRegisterEarlierProcessingTimerMovesPhysicalProcessingTimer() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); int key = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); keyContext.setCurrentKey(key); timerService.registerProcessingTimeTimer("ciao", 20); assertEquals(1, timerService.numProcessingTimeTimers()); assertEquals(1, processingTimeService.getNumRegisteredTimers()); assertThat(processingTimeService.getRegisteredTimerTimestamps(), containsInAnyOrder(20L)); timerService.registerProcessingTimeTimer("ciao", 10); assertEquals(2, timerService.numProcessingTimeTimers()); assertEquals(1, processingTimeService.getNumRegisteredTimers()); assertThat(processingTimeService.getRegisteredTimerTimestamps(), containsInAnyOrder(10L)); }
private static HeapInternalTimerService<Integer, String> restoreTimerService( Map<Integer, byte[]> state, Triggerable<Integer, String> triggerable, KeyContext keyContext, ProcessingTimeService processingTimeService, KeyGroupsList keyGroupsList, int maxParallelism) throws Exception { // create an empty service HeapInternalTimerService<Integer, String> service = new HeapInternalTimerService<>( maxParallelism, keyGroupsList, keyContext, processingTimeService); // restore the timers for (Integer keyGroupIndex : keyGroupsList) { if (state.containsKey(keyGroupIndex)) { service.restoreTimersForKeyGroup( new DataInputViewStreamWrapper(new ByteArrayInputStream(state.get(keyGroupIndex))), keyGroupIndex, HeapInternalTimerServiceTest.class.getClassLoader()); } } // initialize the service service.startTimerService(IntSerializer.INSTANCE, StringSerializer.INSTANCE, triggerable); return service; }
@Test public void testRegisteringProcessingTimeTimerInOnProcessingTimeDoesNotLeakPhysicalTimers() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); final HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); int key = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); keyContext.setCurrentKey(key); timerService.registerProcessingTimeTimer("ciao", 10); assertEquals(1, timerService.numProcessingTimeTimers()); assertEquals(1, processingTimeService.getNumRegisteredTimers()); assertThat(processingTimeService.getRegisteredTimerTimestamps(), containsInAnyOrder(10L)); doAnswer( new Answer<Object>() { @Override public Object answer(InvocationOnMock invocation) throws Exception { timerService.registerProcessingTimeTimer("ciao", 20); return null; } }) .when(mockTriggerable) .onProcessingTime(anyInternalTimer()); processingTimeService.setCurrentTime(10); assertEquals(1, processingTimeService.getNumRegisteredTimers()); assertThat(processingTimeService.getRegisteredTimerTimestamps(), containsInAnyOrder(20L)); doAnswer( new Answer<Object>() { @Override public Object answer(InvocationOnMock invocation) throws Exception { timerService.registerProcessingTimeTimer("ciao", 30); return null; } }) .when(mockTriggerable) .onProcessingTime(anyInternalTimer()); processingTimeService.setCurrentTime(20); assertEquals(1, timerService.numProcessingTimeTimers()); assertEquals(1, processingTimeService.getNumRegisteredTimers()); assertThat(processingTimeService.getRegisteredTimerTimestamps(), containsInAnyOrder(30L)); }
private static HeapInternalTimerService<Integer, String> createTimerService( Triggerable<Integer, String> triggerable, KeyContext keyContext, ProcessingTimeService processingTimeService, KeyGroupsList keyGroupList, int maxParallelism) { HeapInternalTimerService<Integer, String> service = new HeapInternalTimerService<>( maxParallelism, keyGroupList, keyContext, processingTimeService); service.startTimerService(IntSerializer.INSTANCE, StringSerializer.INSTANCE, triggerable); return service; }
@Test public void testCurrentEventTime() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); timerService.advanceWatermark(17); assertEquals(17, timerService.currentWatermark()); timerService.advanceWatermark(42); assertEquals(42, timerService.currentWatermark()); }
/** This also verifies that we don't have leakage between keys/namespaces. */ @Test public void testSetAndFireEventTimeTimers() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); // get two different keys int key1 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); int key2 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); while (key2 == key1) { key2 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); } keyContext.setCurrentKey(key1); timerService.registerEventTimeTimer("ciao", 10); timerService.registerEventTimeTimer("hello", 10); keyContext.setCurrentKey(key2); timerService.registerEventTimeTimer("ciao", 10); timerService.registerEventTimeTimer("hello", 10); assertEquals(4, timerService.numEventTimeTimers()); assertEquals(2, timerService.numEventTimeTimers("hello")); assertEquals(2, timerService.numEventTimeTimers("ciao")); timerService.advanceWatermark(10); verify(mockTriggerable, times(4)).onEventTime(anyInternalTimer()); verify(mockTriggerable, times(1)).onEventTime(eq(new InternalTimer<>(10, key1, "ciao"))); verify(mockTriggerable, times(1)).onEventTime(eq(new InternalTimer<>(10, key1, "hello"))); verify(mockTriggerable, times(1)).onEventTime(eq(new InternalTimer<>(10, key2, "ciao"))); verify(mockTriggerable, times(1)).onEventTime(eq(new InternalTimer<>(10, key2, "hello"))); assertEquals(0, timerService.numEventTimeTimers()); }
@Test public void testKeyGroupStartIndexSetting() { int startKeyGroupIdx = 7; int endKeyGroupIdx = 21; KeyGroupsList testKeyGroupList = new KeyGroupRange(startKeyGroupIdx, endKeyGroupIdx); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> service = new HeapInternalTimerService<>( testKeyGroupList.getNumberOfKeyGroups(), testKeyGroupList, keyContext, processingTimeService); Assert.assertEquals(startKeyGroupIdx, service.getLocalKeyGroupRangeStartIdx()); }
@Test public void testTimerAssignmentToKeyGroups() { int totalNoOfTimers = 100; int totalNoOfKeyGroups = 100; int startKeyGroupIdx = 0; int endKeyGroupIdx = totalNoOfKeyGroups - 1; // we have 0 to 99 @SuppressWarnings("unchecked") Set<InternalTimer<Integer, String>>[] expectedNonEmptyTimerSets = new HashSet[totalNoOfKeyGroups]; TestKeyContext keyContext = new TestKeyContext(); HeapInternalTimerService<Integer, String> timerService = new HeapInternalTimerService<>( totalNoOfKeyGroups, new KeyGroupRange(startKeyGroupIdx, endKeyGroupIdx), keyContext, new TestProcessingTimeService()); timerService.startTimerService( IntSerializer.INSTANCE, StringSerializer.INSTANCE, mock(Triggerable.class)); for (int i = 0; i < totalNoOfTimers; i++) { // create the timer to be registered InternalTimer<Integer, String> timer = new InternalTimer<>(10 + i, i, "hello_world_" + i); int keyGroupIdx = KeyGroupRangeAssignment.assignToKeyGroup(timer.getKey(), totalNoOfKeyGroups); // add it in the adequate expected set of timers per keygroup Set<InternalTimer<Integer, String>> timerSet = expectedNonEmptyTimerSets[keyGroupIdx]; if (timerSet == null) { timerSet = new HashSet<>(); expectedNonEmptyTimerSets[keyGroupIdx] = timerSet; } timerSet.add(timer); // register the timer as both processing and event time one keyContext.setCurrentKey(timer.getKey()); timerService.registerEventTimeTimer(timer.getNamespace(), timer.getTimestamp()); timerService.registerProcessingTimeTimer(timer.getNamespace(), timer.getTimestamp()); } Set<InternalTimer<Integer, String>>[] eventTimeTimers = timerService.getEventTimeTimersPerKeyGroup(); Set<InternalTimer<Integer, String>>[] processingTimeTimers = timerService.getProcessingTimeTimersPerKeyGroup(); // finally verify that the actual timers per key group sets are the expected ones. for (int i = 0; i < expectedNonEmptyTimerSets.length; i++) { Set<InternalTimer<Integer, String>> expected = expectedNonEmptyTimerSets[i]; Set<InternalTimer<Integer, String>> actualEvent = eventTimeTimers[i]; Set<InternalTimer<Integer, String>> actualProcessing = processingTimeTimers[i]; if (expected == null) { Assert.assertNull(actualEvent); Assert.assertNull(actualProcessing); } else { Assert.assertArrayEquals(expected.toArray(), actualEvent.toArray()); Assert.assertArrayEquals(expected.toArray(), actualProcessing.toArray()); } } }
/** * This test checks whether timers are assigned to correct key groups and whether snapshot/restore * respects key groups. */ @Test public void testSnapshotAndRebalancingRestore() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); int midpoint = testKeyGroupRange.getStartKeyGroup() + (testKeyGroupRange.getEndKeyGroup() - testKeyGroupRange.getStartKeyGroup()) / 2; // get two sub key-ranges so that we can restore two ranges separately KeyGroupRange subKeyGroupRange1 = new KeyGroupRange(testKeyGroupRange.getStartKeyGroup(), midpoint); KeyGroupRange subKeyGroupRange2 = new KeyGroupRange(midpoint + 1, testKeyGroupRange.getEndKeyGroup()); // get two different keys, one per sub range int key1 = getKeyInKeyGroupRange(subKeyGroupRange1, maxParallelism); int key2 = getKeyInKeyGroupRange(subKeyGroupRange2, maxParallelism); keyContext.setCurrentKey(key1); timerService.registerProcessingTimeTimer("ciao", 10); timerService.registerEventTimeTimer("hello", 10); keyContext.setCurrentKey(key2); timerService.registerEventTimeTimer("ciao", 10); timerService.registerProcessingTimeTimer("hello", 10); assertEquals(2, timerService.numProcessingTimeTimers()); assertEquals(1, timerService.numProcessingTimeTimers("hello")); assertEquals(1, timerService.numProcessingTimeTimers("ciao")); assertEquals(2, timerService.numEventTimeTimers()); assertEquals(1, timerService.numEventTimeTimers("hello")); assertEquals(1, timerService.numEventTimeTimers("ciao")); // one map per sub key-group range Map<Integer, byte[]> snapshot1 = new HashMap<>(); Map<Integer, byte[]> snapshot2 = new HashMap<>(); for (Integer keyGroupIndex : testKeyGroupRange) { ByteArrayOutputStream outStream = new ByteArrayOutputStream(); timerService.snapshotTimersForKeyGroup( new DataOutputViewStreamWrapper(outStream), keyGroupIndex); outStream.close(); if (subKeyGroupRange1.contains(keyGroupIndex)) { snapshot1.put(keyGroupIndex, outStream.toByteArray()); } else if (subKeyGroupRange2.contains(keyGroupIndex)) { snapshot2.put(keyGroupIndex, outStream.toByteArray()); } else { throw new IllegalStateException("Key-Group index doesn't belong to any sub range."); } } // from now on we need everything twice. once per sub key-group range @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable1 = mock(Triggerable.class); @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable2 = mock(Triggerable.class); TestKeyContext keyContext1 = new TestKeyContext(); TestKeyContext keyContext2 = new TestKeyContext(); TestProcessingTimeService processingTimeService1 = new TestProcessingTimeService(); TestProcessingTimeService processingTimeService2 = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService1 = restoreTimerService( snapshot1, mockTriggerable1, keyContext1, processingTimeService1, subKeyGroupRange1, maxParallelism); HeapInternalTimerService<Integer, String> timerService2 = restoreTimerService( snapshot2, mockTriggerable2, keyContext2, processingTimeService2, subKeyGroupRange2, maxParallelism); processingTimeService1.setCurrentTime(10); timerService1.advanceWatermark(10); verify(mockTriggerable1, times(1)).onProcessingTime(anyInternalTimer()); verify(mockTriggerable1, times(1)).onProcessingTime(eq(new InternalTimer<>(10, key1, "ciao"))); verify(mockTriggerable1, never()).onProcessingTime(eq(new InternalTimer<>(10, key2, "hello"))); verify(mockTriggerable1, times(1)).onEventTime(anyInternalTimer()); verify(mockTriggerable1, times(1)).onEventTime(eq(new InternalTimer<>(10, key1, "hello"))); verify(mockTriggerable1, never()).onEventTime(eq(new InternalTimer<>(10, key2, "ciao"))); assertEquals(0, timerService1.numEventTimeTimers()); processingTimeService2.setCurrentTime(10); timerService2.advanceWatermark(10); verify(mockTriggerable2, times(1)).onProcessingTime(anyInternalTimer()); verify(mockTriggerable2, never()).onProcessingTime(eq(new InternalTimer<>(10, key1, "ciao"))); verify(mockTriggerable2, times(1)).onProcessingTime(eq(new InternalTimer<>(10, key2, "hello"))); verify(mockTriggerable2, times(1)).onEventTime(anyInternalTimer()); verify(mockTriggerable2, never()).onEventTime(eq(new InternalTimer<>(10, key1, "hello"))); verify(mockTriggerable2, times(1)).onEventTime(eq(new InternalTimer<>(10, key2, "ciao"))); assertEquals(0, timerService2.numEventTimeTimers()); }
@Test public void testSnapshotAndRestore() throws Exception { @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable = mock(Triggerable.class); TestKeyContext keyContext = new TestKeyContext(); TestProcessingTimeService processingTimeService = new TestProcessingTimeService(); HeapInternalTimerService<Integer, String> timerService = createTimerService( mockTriggerable, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); // get two different keys int key1 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); int key2 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); while (key2 == key1) { key2 = getKeyInKeyGroupRange(testKeyGroupRange, maxParallelism); } keyContext.setCurrentKey(key1); timerService.registerProcessingTimeTimer("ciao", 10); timerService.registerEventTimeTimer("hello", 10); keyContext.setCurrentKey(key2); timerService.registerEventTimeTimer("ciao", 10); timerService.registerProcessingTimeTimer("hello", 10); assertEquals(2, timerService.numProcessingTimeTimers()); assertEquals(1, timerService.numProcessingTimeTimers("hello")); assertEquals(1, timerService.numProcessingTimeTimers("ciao")); assertEquals(2, timerService.numEventTimeTimers()); assertEquals(1, timerService.numEventTimeTimers("hello")); assertEquals(1, timerService.numEventTimeTimers("ciao")); Map<Integer, byte[]> snapshot = new HashMap<>(); for (Integer keyGroupIndex : testKeyGroupRange) { ByteArrayOutputStream outStream = new ByteArrayOutputStream(); timerService.snapshotTimersForKeyGroup( new DataOutputViewStreamWrapper(outStream), keyGroupIndex); outStream.close(); snapshot.put(keyGroupIndex, outStream.toByteArray()); } @SuppressWarnings("unchecked") Triggerable<Integer, String> mockTriggerable2 = mock(Triggerable.class); keyContext = new TestKeyContext(); processingTimeService = new TestProcessingTimeService(); timerService = restoreTimerService( snapshot, mockTriggerable2, keyContext, processingTimeService, testKeyGroupRange, maxParallelism); processingTimeService.setCurrentTime(10); timerService.advanceWatermark(10); verify(mockTriggerable2, times(2)).onProcessingTime(anyInternalTimer()); verify(mockTriggerable2, times(1)).onProcessingTime(eq(new InternalTimer<>(10, key1, "ciao"))); verify(mockTriggerable2, times(1)).onProcessingTime(eq(new InternalTimer<>(10, key2, "hello"))); verify(mockTriggerable2, times(2)).onEventTime(anyInternalTimer()); verify(mockTriggerable2, times(1)).onEventTime(eq(new InternalTimer<>(10, key1, "hello"))); verify(mockTriggerable2, times(1)).onEventTime(eq(new InternalTimer<>(10, key2, "ciao"))); assertEquals(0, timerService.numEventTimeTimers()); }