testName, "ln", 0, 100, isOffHeap() }); vm5.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 0, 100, isOffHeap() }); vm6.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 0, 100, isOffHeap() }); vm7.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, "ln", 0, 100, isOffHeap() }); testName, null,1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null,1, 100, isOffHeap() }); pause(5000); vm4.invoke(WANTestBase.class, "checkQueueSize", new Object[] { "ln", keyValues.size() }); for(int i=0;i<500;i++) { pause(5000); pause(5000); testName, keyValues }); pause(2000); vm4.invoke(WANTestBase.class, "checkQueueStats", new Object[] {"ln", 0, 2000, 2000, 1500});
testName + "_RR_1", null, isOffHeap() }); testName + "_RR_1", "ln", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); pause(3000); vm2.invoke(WANTestBase.class, "destroyRegion", new Object[] { testName + "_RR_1"}); } catch (InterruptedException e) { e.printStackTrace(); fail();
public void testWANStatsTwoWanSites() throws Exception { Integer lnPort = createFirstLocatorWithDSId(1); Integer nyPort = (Integer)vm0.invoke(WANTestBase.class, "createFirstRemoteLocator", new Object[] { 2, lnPort }); testName + "_RR", null, isOffHeap() }); vm3.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", null, isOffHeap() }); testName + "_RR", "lnSerial1,lnSerial2", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "lnSerial1,lnSerial2", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "lnSerial1,lnSerial2", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "lnSerial1,lnSerial2", isOffHeap() }); testName + "_RR", 1000 }); pause(2000); vm2.invoke(WANTestBase.class, "checkGatewayReceiverStats", new Object[] {100, 1000, 1000 }); vm3.invoke(WANTestBase.class, "checkGatewayReceiverStats", new Object[] {100, 1000, 1000 });
testName + "_RR", null, isOffHeap() }); testName + "_RR", "ln", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); pause(2000); AsyncInvocation inv2 = vm4.invokeAsync(WANTestBase.class, "killSender", new Object[] { "ln" }); Boolean isKilled = Boolean.FALSE; fail("Unexpected exception while killing a sender");
testName + "_RR_1", null, isOffHeap() }); vm3.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", null, isOffHeap() }); testName + "_RR_2", null, isOffHeap() }); vm3.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_2", null, isOffHeap() }); testName + "_RR_1", "ln", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_1", "ln", isOffHeap() }); testName + "_RR_2", "ln", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_2", "ln", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_2", "ln", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR_2", "ln", isOffHeap() }); pause(2000); vm4.invoke(WANTestBase.class, "checkQueueStats", new Object[] {"ln", 0, 1500, 1500, 1500});
testName + "_RR", null, isOffHeap() }); testName + "_RR", "ln", isOffHeap() }); vm5.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); vm6.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); vm7.invoke(WANTestBase.class, "createReplicatedRegion", new Object[] { testName + "_RR", "ln", isOffHeap() }); testName + "_RR", 1000 }); pause(2000); vm2.invoke(WANTestBase.class, "checkGatewayReceiverStats", new Object[] {100, 1000, 1000 });
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() }); testName, null, 1, 100, isOffHeap() }); vm3.invoke(WANTestBase.class, "createPartitionedRegion", new Object[] { testName, null, 1, 100, isOffHeap() }); testName, 800 }); pause(2000); vm4.invoke(WANTestBase.class, "checkQueueStats", new Object[] {"ln", 0, 1000, 900, 800});