// Test even if AM container is allocated with containerId not equal to 1, the
// following allocate requests from AM should be able to retrieve the
// corresponding NM Token.
/// <exception cref="System.Exception"/>
public virtual void TestNMTokenSentForNormalContainer()
{
conf.Set(YarnConfiguration.RmScheduler, typeof(CapacityScheduler).GetCanonicalName
());
MockRM rm = new MockRM(conf);
rm.Start();
MockNM nm1 = rm.RegisterNode("h1:1234", 5120);
RMApp app = rm.SubmitApp(2000);
RMAppAttempt attempt = app.GetCurrentAppAttempt();
// Call getNewContainerId to increase container Id so that the AM container
// Id doesn't equal to one.
CapacityScheduler cs = (CapacityScheduler)rm.GetResourceScheduler();
cs.GetApplicationAttempt(attempt.GetAppAttemptId()).GetNewContainerId();
// kick the scheduling
nm1.NodeHeartbeat(true);
MockAM am = MockRM.LaunchAM(app, rm, nm1);
// am container Id not equal to 1.
NUnit.Framework.Assert.IsTrue(attempt.GetMasterContainer().GetId().GetContainerId
() != 1);
// NMSecretManager doesn't record the node on which the am is allocated.
NUnit.Framework.Assert.IsFalse(rm.GetRMContext().GetNMTokenSecretManager().IsApplicationAttemptNMTokenPresent
(attempt.GetAppAttemptId(), nm1.GetNodeId()));
am.RegisterAppAttempt();
rm.WaitForState(app.GetApplicationId(), RMAppState.Running);
int NumContainers = 1;
IList <Container> containers = new AList <Container>();
// nmTokens keeps track of all the nmTokens issued in the allocate call.
IList <NMToken> expectedNMTokens = new AList <NMToken>();
// am1 allocate 1 container on nm1.
while (true)
{
AllocateResponse response = am.Allocate("127.0.0.1", 2000, NumContainers, new AList
<ContainerId>());
nm1.NodeHeartbeat(true);
Sharpen.Collections.AddAll(containers, response.GetAllocatedContainers());
Sharpen.Collections.AddAll(expectedNMTokens, response.GetNMTokens());
if (containers.Count == NumContainers)
{
break;
}
Sharpen.Thread.Sleep(200);
System.Console.Out.WriteLine("Waiting for container to be allocated.");
}
NodeId nodeId = expectedNMTokens[0].GetNodeId();
// NMToken is sent for the allocated container.
NUnit.Framework.Assert.AreEqual(nm1.GetNodeId(), nodeId);
}
/// <exception cref="System.Exception"/>
public virtual void TestFinishApplicationMasterBeforeRegistering()
{
MockRM rm = new MockRM(conf);
try
{
rm.Start();
// Register node1
MockNM nm1 = rm.RegisterNode("127.0.0.1:1234", 6 * Gb);
// Submit an application
RMApp app1 = rm.SubmitApp(2048);
MockAM am1 = MockRM.LaunchAM(app1, rm, nm1);
FinishApplicationMasterRequest req = FinishApplicationMasterRequest.NewInstance(FinalApplicationStatus
.Failed, string.Empty, string.Empty);
try
{
am1.UnregisterAppAttempt(req, false);
NUnit.Framework.Assert.Fail("ApplicationMasterNotRegisteredException should be thrown"
);
}
catch (ApplicationMasterNotRegisteredException e)
{
NUnit.Framework.Assert.IsNotNull(e);
NUnit.Framework.Assert.IsNotNull(e.Message);
NUnit.Framework.Assert.IsTrue(e.Message.Contains("Application Master is trying to unregister before registering for:"
));
}
catch (Exception)
{
NUnit.Framework.Assert.Fail("ApplicationMasterNotRegisteredException should be thrown"
);
}
am1.RegisterAppAttempt();
am1.UnregisterAppAttempt(req, false);
am1.WaitForState(RMAppAttemptState.Finishing);
}
finally
{
if (rm != null)
{
rm.Stop();
}
}
}
/// <summary>Validate killing an application when it is at accepted state.</summary>
/// <exception cref="System.Exception">exception</exception>
public virtual void TestApplicationKillAtAcceptedState()
{
Dispatcher dispatcher = new _AsyncDispatcher_573();
MockRM rm = new _MockRM_596(dispatcher, conf);
// test metrics
QueueMetrics metrics = rm.GetResourceScheduler().GetRootQueueMetrics();
int appsKilled = metrics.GetAppsKilled();
int appsSubmitted = metrics.GetAppsSubmitted();
rm.Start();
MockNM nm1 = new MockNM("127.0.0.1:1234", 15120, rm.GetResourceTrackerService());
nm1.RegisterNode();
// a failed app
RMApp application = rm.SubmitApp(200);
MockAM am = MockRM.LaunchAM(application, rm, nm1);
am.WaitForState(RMAppAttemptState.Launched);
nm1.NodeHeartbeat(am.GetApplicationAttemptId(), 1, ContainerState.Running);
rm.WaitForState(application.GetApplicationId(), RMAppState.Accepted);
// Now kill the application before new attempt is launched, the app report
// returns the invalid AM host and port.
KillApplicationRequest request = KillApplicationRequest.NewInstance(application.GetApplicationId
());
rm.GetClientRMService().ForceKillApplication(request);
// Specific test for YARN-1689 follows
// Now let's say a race causes AM to register now. This should not crash RM.
am.RegisterAppAttempt(false);
// We explicitly intercepted the kill-event to RMAppAttempt, so app should
// still be in KILLING state.
rm.WaitForState(application.GetApplicationId(), RMAppState.Killing);
// AM should now be in running
rm.WaitForState(am.GetApplicationAttemptId(), RMAppAttemptState.Running);
// Simulate that appAttempt is killed.
rm.GetRMContext().GetDispatcher().GetEventHandler().Handle(new RMAppEvent(application
.GetApplicationId(), RMAppEventType.AttemptKilled));
rm.WaitForState(application.GetApplicationId(), RMAppState.Killed);
// test metrics
metrics = rm.GetResourceScheduler().GetRootQueueMetrics();
NUnit.Framework.Assert.AreEqual(appsKilled + 1, metrics.GetAppsKilled());
NUnit.Framework.Assert.AreEqual(appsSubmitted + 1, metrics.GetAppsSubmitted());
}