testName, "ln", 1, 100, isOffHeap() }); vm5.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm6.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm7.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); pause(1000); testName, null, 1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null, 1, 100, isOffHeap() }); long numMemVm7 = (Long) vm7.invoke(WANTestBase.class, "getNumberOfEntriesInVM", new Object[] { "ln" }); getLogWriter().info("Entries overflown to disk: " + numOvVm4 + "," + numOvVm5 + "," + numOvVm6 + "," + numOvVm7); getLogWriter().info("Entries in VM: " + numMemVm4 + "," + numMemVm5 + "," + numMemVm6 + "," + numMemVm7); assertTrue("Total number of entries overflown to disk should be at least greater than 55", (totalOverflown > 55)); assertEquals("Total number of entries on disk and in VM is incorrect", (numEventPuts*2), (totalOverflown + totalInMemory)); assertTrue("Number of entries in memory VM4 is incorrect. Should be less than 10", (numMemVm4 < 10)); assertTrue("Number of entries in memory VM5 is incorrect. Should be less than 5", (numMemVm5 < 5)); assertTrue("Number of entries in memory VM6 is incorrect. Should be less than 5", (numMemVm6 < 5)); assertTrue("Number of entries in memory VM7 is incorrect. Should be less than 20", (numMemVm7 < 20));
GatewayTransportFilter myStreamfilter2 = new MyGatewayTransportFilter2(); fact.addGatewayTransportFilter(myStreamfilter2); final ExpectedException ex = addExpectedException("Could not connect"); try { GatewaySender sender1 = fact.create("TKSender", 2); "test_ValidateGatewaySenderAttributes"); Set<GatewaySender> senders = cache.getGatewaySenders(); assertEquals(senders.size(), 1); GatewaySender gatewaySender = senders.iterator().next(); Set<RegionQueue> regionQueues = ((ParallelGatewaySenderImpl) gatewaySender) .getQueues(); assertEquals(regionQueues.size(), 1); RegionQueue regionQueue = regionQueues.iterator().next(); assertEquals(false, regionQueue.getRegion().getAttributes() .isDiskSynchronous()); } finally {
GatewayTransportFilter myStreamfilter2 = new MyGatewayTransportFilter2(); fact.addGatewayTransportFilter(myStreamfilter2); final ExpectedException exTKSender = addExpectedException("Could not connect"); try { GatewaySender sender1 = fact.create("TKSender", 2); "test_ValidateGatewaySenderAttributes"); Set<GatewaySender> senders = cache.getGatewaySenders(); assertEquals(senders.size(), 1); GatewaySender gatewaySender = senders.iterator().next(); Set<RegionQueue> regionQueues = ((ParallelGatewaySenderImpl) gatewaySender) .getQueues(); assertEquals(regionQueues.size(), 1); RegionQueue regionQueue = regionQueues.iterator().next(); assertEquals(true, regionQueue.getRegion().getAttributes() .isDiskSynchronous()); } finally {
testName, "ln", 1, 100, isOffHeap() }); vm5.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm6.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm7.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); pause(1000); testName, null, 1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null, 1, 100, isOffHeap() }); long numMemVm7 = (Long) vm7.invoke(WANTestBase.class, "getNumberOfEntriesInVM", new Object[] { "ln" }); getLogWriter().info("Entries overflown to disk: " + numOvVm4 + "," + numOvVm5 + "," + numOvVm6 + "," + numOvVm7); getLogWriter().info("Entries in VM: " + numMemVm4 + "," + numMemVm5 + "," + numMemVm6 + "," + numMemVm7); assertTrue("Total number of entries overflown to disk should be at least greater than 55", (totalOverflown > 55)); assertEquals("Total number of entries on disk and in VM is incorrect", (numEventPuts*2), (totalOverflown + totalInMemory));
testName, "ln", 1, 100, isOffHeap() }); vm5.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm6.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm7.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); pause(1000); testName, null, 1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null, 1, 100, isOffHeap() }); long numMemVm7 = (Long) vm7.invoke(WANTestBase.class, "getNumberOfEntriesInVM", new Object[] { "ln" }); getLogWriter().info("Entries overflown to disk: " + numOvVm4 + "," + numOvVm5 + "," + numOvVm6 + "," + numOvVm7); getLogWriter().info("Entries in VM: " + numMemVm4 + "," + numMemVm5 + "," + numMemVm6 + "," + numMemVm7); assertEquals("Total number of entries overflown to disk is incorrect", 0, totalOverflown); assertEquals("Total number of entries on disk and in VM is incorrect", (numEventPuts*2), (totalOverflown + totalInMemory));
testName, "ln", 1, 100, isOffHeap() }); vm5.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm6.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); vm7.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 1, 100, isOffHeap() }); pause(1000); testName, null, 1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null, 1, 100, isOffHeap() }); long numMemVm7 = (Long) vm7.invoke(WANTestBase.class, "getNumberOfEntriesInVM", new Object[] { "ln" }); getLogWriter().info("Entries overflown to disk: " + numOvVm4 + "," + numOvVm5 + "," + numOvVm6 + "," + numOvVm7); getLogWriter().info("Entries in VM: " + numMemVm4 + "," + numMemVm5 + "," + numMemVm6 + "," + numMemVm7); assertTrue("Total number of entries overflown to disk should be at least greater than 55", (totalOverflown > 55)); assertEquals("Total number of entries on disk and in VM is incorrect", (numEventPuts*2), (totalOverflown + totalInMemory));