Esempio n. 1
0
// TestScheduler_LifeCycle creates a scheduler plugin with the config returned by the scheduler,
// and plays through the whole life cycle of the plugin while creating pods, deleting
// and failing them.
func TestScheduler_LifeCycle(t *testing.T) {
	assert := &EventAssertions{*assert.New(t)}
	lt := newLifecycleTest(t)
	defer lt.Close()

	// run plugin
	launchedTasks := lt.Start()
	defer lt.End()

	// fake new, unscheduled pod
	pod, i := NewTestPod()
	lt.podsListWatch.Add(pod, true) // notify watchers

	// wait for failedScheduling event because there is no offer
	assert.EventWithReason(lt.eventObs, controller.FailedScheduling, "failedScheduling event not received")

	// add some matching offer
	offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
	lt.framework.ResourceOffers(nil, offers)

	// first offer is declined because node is not available yet
	lt.apiServer.WaitForNode("some_hostname")

	// add one more offer
	lt.framework.ResourceOffers(nil, offers)

	// and wait for scheduled pod
	assert.EventWithReason(lt.eventObs, controller.Scheduled)
	select {
	case launchedTask := <-launchedTasks:
		// report back that the task has been staged, and then started by mesos
		lt.framework.StatusUpdate(
			lt.driver,
			newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_STAGING),
		)

		lt.framework.StatusUpdate(
			lt.driver,
			newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_RUNNING),
		)

		// check that ExecutorInfo.data has the static pod data
		assert.Len(launchedTask.taskInfo.Executor.Data, 3)

		// report back that the task has been lost
		lt.driver.AssertNumberOfCalls(t, "SendFrameworkMessage", 0)

		lt.framework.StatusUpdate(
			lt.driver,
			newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_LOST),
		)

		// and wait that framework message is sent to executor
		lt.driver.AssertNumberOfCalls(t, "SendFrameworkMessage", 1)

	case <-time.After(util.ForeverTestTimeout):
		t.Fatalf("timed out waiting for launchTasks call")
	}

	offeredNodes := make(map[string]struct{})

	// Launch a pod and wait until the scheduler driver is called
	schedulePodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		// wait for failedScheduling event because there is no offer
		assert.EventWithReason(lt.eventObs, controller.FailedScheduling, "failedScheduling event not received")

		// supply a matching offer
		lt.framework.ResourceOffers(lt.driver, offers)
		for _, offer := range offers {
			if _, ok := offeredNodes[offer.GetHostname()]; !ok {
				offeredNodes[offer.GetHostname()] = struct{}{}
				lt.apiServer.WaitForNode(offer.GetHostname())

				// reoffer since it must have been declined above
				lt.framework.ResourceOffers(lt.driver, []*mesos.Offer{offer})
			}
		}

		// and wait to get scheduled
		assert.EventWithReason(lt.eventObs, controller.Scheduled)

		// wait for driver.launchTasks call
		select {
		case launchedTask := <-launchedTasks:
			for _, offer := range offers {
				if offer.Id.GetValue() == launchedTask.offerId.GetValue() {
					return pod, &launchedTask, offer
				}
			}
			t.Fatalf("unknown offer used to start a pod")
			return nil, nil, nil
		case <-time.After(util.ForeverTestTimeout):
			t.Fatal("timed out waiting for launchTasks")
			return nil, nil, nil
		}
	}

	// Launch a pod and wait until the scheduler driver is called
	launchPodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		lt.podsListWatch.Add(pod, true)
		return schedulePodWithOffers(pod, offers)
	}

	// Launch a pod, wait until the scheduler driver is called and report back that it is running
	startPodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		// notify about pod, offer resources and wait for scheduling
		pod, launchedTask, offer := launchPodWithOffers(pod, offers)
		if pod != nil {
			// report back status
			lt.framework.StatusUpdate(
				lt.driver,
				newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_STAGING),
			)
			lt.framework.StatusUpdate(
				lt.driver,
				newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_RUNNING),
			)

			return pod, launchedTask, offer
		}

		return nil, nil, nil
	}

	startTestPod := func() (*api.Pod, *LaunchedTask, *mesos.Offer) {
		pod, i := NewTestPod()
		offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
		return startPodWithOffers(pod, offers)
	}

	// start another pod
	pod, launchedTask, _ := startTestPod()

	// mock driver.KillTask, should be invoked when a pod is deleted
	lt.driver.On("KillTask",
		mock.AnythingOfType("*mesosproto.TaskID"),
	).Return(mesos.Status_DRIVER_RUNNING, nil).Run(func(args mock.Arguments) {
		killedTaskId := *(args.Get(0).(*mesos.TaskID))
		assert.Equal(*launchedTask.taskInfo.TaskId, killedTaskId, "expected same TaskID as during launch")
	})
	killTaskCalled := lt.driver.Upon()

	// stop it again via the apiserver mock
	lt.podsListWatch.Delete(pod, true) // notify watchers

	// and wait for the driver killTask call with the correct TaskId
	select {
	case <-killTaskCalled:
		// report back that the task is finished
		lt.framework.StatusUpdate(
			lt.driver,
			newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_FINISHED),
		)

	case <-time.After(util.ForeverTestTimeout):
		t.Fatal("timed out waiting for KillTask")
	}

	// start a pod with on a given NodeName and check that it is scheduled to the right host
	pod, i = NewTestPod()
	pod.Spec.NodeName = "hostname1"
	offers = []*mesos.Offer{}
	for j := 0; j < 3; j++ {
		offer := NewTestOffer(fmt.Sprintf("offer%d_%d", i, j))
		hostname := fmt.Sprintf("hostname%d", j)
		offer.Hostname = &hostname
		offers = append(offers, offer)
	}

	_, _, usedOffer := startPodWithOffers(pod, offers)

	assert.Equal(offers[1].Id.GetValue(), usedOffer.Id.GetValue())
	assert.Equal(pod.Spec.NodeName, *usedOffer.Hostname)

	lt.framework.OfferRescinded(lt.driver, offers[0].Id)
	lt.framework.OfferRescinded(lt.driver, offers[2].Id)

	// start pods:
	// - which are failing while binding,
	// - leading to reconciliation
	// - with different states on the apiserver

	failPodFromExecutor := func(task *mesos.TaskInfo) {
		beforePodLookups := lt.apiServer.Stats(pod.Name)
		status := newTaskStatusForTask(task, mesos.TaskState_TASK_FAILED)
		message := messages.CreateBindingFailure
		status.Message = &message
		lt.framework.StatusUpdate(lt.driver, status)

		// wait until pod is looked up at the apiserver
		assertext.EventuallyTrue(t, util.ForeverTestTimeout, func() bool {
			return lt.apiServer.Stats(pod.Name) == beforePodLookups+1
		}, "expect that reconcileTask will access apiserver for pod %v", pod.Name)
	}

	launchTestPod := func() (*api.Pod, *LaunchedTask, *mesos.Offer) {
		pod, i := NewTestPod()
		offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
		return launchPodWithOffers(pod, offers)
	}

	// 1. with pod deleted from the apiserver
	//    expected: pod is removed from internal task registry
	pod, launchedTask, _ = launchTestPod()
	lt.podsListWatch.Delete(pod, false) // not notifying the watchers
	failPodFromExecutor(launchedTask.taskInfo)

	podKey, _ := podtask.MakePodKey(api.NewDefaultContext(), pod.Name)
	assertext.EventuallyTrue(t, util.ForeverTestTimeout, func() bool {
		t, _ := lt.sched.Tasks().ForPod(podKey)
		return t == nil
	})

	// 2. with pod still on the apiserver, not bound
	//    expected: pod is rescheduled
	pod, launchedTask, _ = launchTestPod()
	failPodFromExecutor(launchedTask.taskInfo)

	retryOffers := []*mesos.Offer{NewTestOffer("retry-offer")}
	schedulePodWithOffers(pod, retryOffers)

	// 3. with pod still on the apiserver, bound, notified via ListWatch
	// expected: nothing, pod updates not supported, compare ReconcileTask function
	pod, launchedTask, usedOffer = startTestPod()
	pod.Annotations = map[string]string{
		meta.BindingHostKey: *usedOffer.Hostname,
	}
	pod.Spec.NodeName = *usedOffer.Hostname
	lt.podsListWatch.Modify(pod, true) // notifying the watchers
	time.Sleep(time.Second / 2)
	failPodFromExecutor(launchedTask.taskInfo)
}
Esempio n. 2
0
// Test to create the scheduler plugin with the config returned by the scheduler,
// and play through the whole life cycle of the plugin while creating pods, deleting
// and failing them.
func TestPlugin_LifeCycle(t *testing.T) {
	t.Skip("This test is flaky, see #11901")
	assert := &EventAssertions{*assert.New(t)}

	// create a fake pod watch. We use that below to submit new pods to the scheduler
	podListWatch := NewMockPodsListWatch(api.PodList{})

	// create fake apiserver
	testApiServer := NewTestServer(t, api.NamespaceDefault, podListWatch)
	defer testApiServer.server.Close()

	// create executor with some data for static pods if set
	executor := util.NewExecutorInfo(
		util.NewExecutorID("executor-id"),
		util.NewCommandInfo("executor-cmd"),
	)
	executor.Data = []byte{0, 1, 2}

	// create scheduler
	nodeStore := cache.NewStore(cache.MetaNamespaceKeyFunc)
	as := NewAllocationStrategy(
		podtask.DefaultPredicate,
		podtask.NewDefaultProcurement(mresource.DefaultDefaultContainerCPULimit, mresource.DefaultDefaultContainerMemLimit))
	testScheduler := New(Config{
		Executor: executor,
		Client:   client.NewOrDie(&client.Config{Host: testApiServer.server.URL, Version: testapi.Default.Version()}),
		Scheduler: NewFCFSPodScheduler(as, func(node string) *api.Node {
			obj, _, _ := nodeStore.GetByKey(node)
			if obj == nil {
				return nil
			}
			return obj.(*api.Node)
		}),
		Schedcfg: *schedcfg.CreateDefaultConfig(),
	})

	assert.NotNil(testScheduler.client, "client is nil")
	assert.NotNil(testScheduler.executor, "executor is nil")
	assert.NotNil(testScheduler.offers, "offer registry is nil")

	// create scheduler process
	schedulerProcess := ha.New(testScheduler)

	// get plugin config from it
	c := testScheduler.NewPluginConfig(schedulerProcess.Terminal(), http.DefaultServeMux, &podListWatch.ListWatch)
	assert.NotNil(c)

	// make events observable
	eventObserver := NewEventObserver()
	c.Recorder = eventObserver

	// create plugin
	p := NewPlugin(c).(*schedulingPlugin)
	assert.NotNil(p)

	// run plugin
	p.Run(schedulerProcess.Terminal())
	defer schedulerProcess.End()

	// init scheduler
	err := testScheduler.Init(schedulerProcess.Master(), p, http.DefaultServeMux)
	assert.NoError(err)

	// create mock mesos scheduler driver
	mockDriver := &joinableDriver{}
	mockDriver.On("Start").Return(mesos.Status_DRIVER_RUNNING, nil).Once()
	started := mockDriver.Upon()

	mAny := mock.AnythingOfType
	mockDriver.On("ReconcileTasks", mAny("[]*mesosproto.TaskStatus")).Return(mesos.Status_DRIVER_RUNNING, nil)
	mockDriver.On("SendFrameworkMessage", mAny("*mesosproto.ExecutorID"), mAny("*mesosproto.SlaveID"), mAny("string")).
		Return(mesos.Status_DRIVER_RUNNING, nil)

	type LaunchedTask struct {
		offerId  mesos.OfferID
		taskInfo *mesos.TaskInfo
	}
	launchedTasks := make(chan LaunchedTask, 1)
	launchTasksCalledFunc := func(args mock.Arguments) {
		offerIDs := args.Get(0).([]*mesos.OfferID)
		taskInfos := args.Get(1).([]*mesos.TaskInfo)
		assert.Equal(1, len(offerIDs))
		assert.Equal(1, len(taskInfos))
		launchedTasks <- LaunchedTask{
			offerId:  *offerIDs[0],
			taskInfo: taskInfos[0],
		}
	}
	mockDriver.On("LaunchTasks", mAny("[]*mesosproto.OfferID"), mAny("[]*mesosproto.TaskInfo"), mAny("*mesosproto.Filters")).
		Return(mesos.Status_DRIVER_RUNNING, nil).Run(launchTasksCalledFunc)
	mockDriver.On("DeclineOffer", mAny("*mesosproto.OfferID"), mAny("*mesosproto.Filters")).
		Return(mesos.Status_DRIVER_RUNNING, nil)

	// elect master with mock driver
	driverFactory := ha.DriverFactory(func() (bindings.SchedulerDriver, error) {
		return mockDriver, nil
	})
	schedulerProcess.Elect(driverFactory)
	elected := schedulerProcess.Elected()

	// driver will be started
	<-started

	// tell scheduler to be registered
	testScheduler.Registered(
		mockDriver,
		util.NewFrameworkID("kubernetes-id"),
		util.NewMasterInfo("master-id", (192<<24)+(168<<16)+(0<<8)+1, 5050),
	)

	// wait for being elected
	<-elected

	//TODO(jdef) refactor things above here into a test suite setup of some sort

	// fake new, unscheduled pod
	pod, i := NewTestPod()
	podListWatch.Add(pod, true) // notify watchers

	// wait for failedScheduling event because there is no offer
	assert.EventWithReason(eventObserver, "failedScheduling", "failedScheduling event not received")

	// add some matching offer
	offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
	testScheduler.ResourceOffers(nil, offers)

	// and wait for scheduled pod
	assert.EventWithReason(eventObserver, "scheduled")
	select {
	case launchedTask := <-launchedTasks:
		// report back that the task has been staged, and then started by mesos
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_STAGING))
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_RUNNING))

		// check that ExecutorInfo.data has the static pod data
		assert.Len(launchedTask.taskInfo.Executor.Data, 3)

		// report back that the task has been lost
		mockDriver.AssertNumberOfCalls(t, "SendFrameworkMessage", 0)
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_LOST))

		// and wait that framework message is sent to executor
		mockDriver.AssertNumberOfCalls(t, "SendFrameworkMessage", 1)

	case <-time.After(5 * time.Second):
		t.Fatalf("timed out waiting for launchTasks call")
	}

	// Launch a pod and wait until the scheduler driver is called
	schedulePodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		// wait for failedScheduling event because there is no offer
		assert.EventWithReason(eventObserver, "failedScheduling", "failedScheduling event not received")

		// supply a matching offer
		testScheduler.ResourceOffers(mockDriver, offers)

		// and wait to get scheduled
		assert.EventWithReason(eventObserver, "scheduled")

		// wait for driver.launchTasks call
		select {
		case launchedTask := <-launchedTasks:
			for _, offer := range offers {
				if offer.Id.GetValue() == launchedTask.offerId.GetValue() {
					return pod, &launchedTask, offer
				}
			}
			t.Fatalf("unknown offer used to start a pod")
			return nil, nil, nil
		case <-time.After(5 * time.Second):
			t.Fatal("timed out waiting for launchTasks")
			return nil, nil, nil
		}
	}
	// Launch a pod and wait until the scheduler driver is called
	launchPodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		podListWatch.Add(pod, true)
		return schedulePodWithOffers(pod, offers)
	}

	// Launch a pod, wait until the scheduler driver is called and report back that it is running
	startPodWithOffers := func(pod *api.Pod, offers []*mesos.Offer) (*api.Pod, *LaunchedTask, *mesos.Offer) {
		// notify about pod, offer resources and wait for scheduling
		pod, launchedTask, offer := launchPodWithOffers(pod, offers)
		if pod != nil {
			// report back status
			testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_STAGING))
			testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_RUNNING))
			return pod, launchedTask, offer
		}

		return nil, nil, nil
	}

	startTestPod := func() (*api.Pod, *LaunchedTask, *mesos.Offer) {
		pod, i := NewTestPod()
		offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
		return startPodWithOffers(pod, offers)
	}

	// start another pod
	pod, launchedTask, _ := startTestPod()

	// mock drvier.KillTask, should be invoked when a pod is deleted
	mockDriver.On("KillTask", mAny("*mesosproto.TaskID")).Return(mesos.Status_DRIVER_RUNNING, nil).Run(func(args mock.Arguments) {
		killedTaskId := *(args.Get(0).(*mesos.TaskID))
		assert.Equal(*launchedTask.taskInfo.TaskId, killedTaskId, "expected same TaskID as during launch")
	})
	killTaskCalled := mockDriver.Upon()

	// stop it again via the apiserver mock
	podListWatch.Delete(pod, true) // notify watchers

	// and wait for the driver killTask call with the correct TaskId
	select {
	case <-killTaskCalled:
		// report back that the task is finished
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask.taskInfo, mesos.TaskState_TASK_FINISHED))

	case <-time.After(5 * time.Second):
		t.Fatal("timed out waiting for KillTask")
	}

	// start a pod with on a given NodeName and check that it is scheduled to the right host
	pod, i = NewTestPod()
	pod.Spec.NodeName = "hostname1"
	offers = []*mesos.Offer{}
	for j := 0; j < 3; j++ {
		offer := NewTestOffer(fmt.Sprintf("offer%d_%d", i, j))
		hostname := fmt.Sprintf("hostname%d", j)
		offer.Hostname = &hostname
		offers = append(offers, offer)
	}

	_, _, usedOffer := startPodWithOffers(pod, offers)

	assert.Equal(offers[1].Id.GetValue(), usedOffer.Id.GetValue())
	assert.Equal(pod.Spec.NodeName, *usedOffer.Hostname)

	testScheduler.OfferRescinded(mockDriver, offers[0].Id)
	testScheduler.OfferRescinded(mockDriver, offers[2].Id)

	// start pods:
	// - which are failing while binding,
	// - leading to reconciliation
	// - with different states on the apiserver

	failPodFromExecutor := func(task *mesos.TaskInfo) {
		beforePodLookups := testApiServer.Stats(pod.Name)
		status := newTaskStatusForTask(task, mesos.TaskState_TASK_FAILED)
		message := messages.CreateBindingFailure
		status.Message = &message
		testScheduler.StatusUpdate(mockDriver, status)

		// wait until pod is looked up at the apiserver
		assertext.EventuallyTrue(t, time.Second, func() bool {
			return testApiServer.Stats(pod.Name) == beforePodLookups+1
		}, "expect that reconcileTask will access apiserver for pod %v", pod.Name)
	}

	launchTestPod := func() (*api.Pod, *LaunchedTask, *mesos.Offer) {
		pod, i := NewTestPod()
		offers := []*mesos.Offer{NewTestOffer(fmt.Sprintf("offer%d", i))}
		return launchPodWithOffers(pod, offers)
	}

	// 1. with pod deleted from the apiserver
	//    expected: pod is removed from internal task registry
	pod, launchedTask, _ = launchTestPod()
	podListWatch.Delete(pod, false) // not notifying the watchers
	failPodFromExecutor(launchedTask.taskInfo)

	podKey, _ := podtask.MakePodKey(api.NewDefaultContext(), pod.Name)
	assertext.EventuallyTrue(t, time.Second, func() bool {
		t, _ := p.api.tasks().ForPod(podKey)
		return t == nil
	})

	// 2. with pod still on the apiserver, not bound
	//    expected: pod is rescheduled
	pod, launchedTask, _ = launchTestPod()
	failPodFromExecutor(launchedTask.taskInfo)

	retryOffers := []*mesos.Offer{NewTestOffer("retry-offer")}
	schedulePodWithOffers(pod, retryOffers)

	// 3. with pod still on the apiserver, bound, notified via ListWatch
	// expected: nothing, pod updates not supported, compare ReconcileTask function
	pod, launchedTask, usedOffer = startTestPod()
	pod.Annotations = map[string]string{
		meta.BindingHostKey: *usedOffer.Hostname,
	}
	pod.Spec.NodeName = *usedOffer.Hostname
	podListWatch.Modify(pod, true) // notifying the watchers
	time.Sleep(time.Second / 2)
	failPodFromExecutor(launchedTask.taskInfo)
}
Esempio n. 3
0
// Test to create the scheduler plugin with the config returned by the scheduler,
// and play through the whole life cycle of the plugin while creating pods, deleting
// and failing them.
func TestPlugin_LifeCycle(t *testing.T) {
	t.Skip("disabled due to flakiness; see #10795")
	assert := &EventAssertions{*assert.New(t)}

	// create a fake pod watch. We use that below to submit new pods to the scheduler
	podListWatch := NewMockPodsListWatch(api.PodList{})

	// create fake apiserver
	testApiServer := NewTestServer(t, api.NamespaceDefault, podListWatch)
	defer testApiServer.server.Close()

	// create executor with some data for static pods if set
	executor := util.NewExecutorInfo(
		util.NewExecutorID("executor-id"),
		util.NewCommandInfo("executor-cmd"),
	)
	executor.Data = []byte{0, 1, 2}

	// create scheduler
	testScheduler := New(Config{
		Executor:     executor,
		Client:       client.NewOrDie(&client.Config{Host: testApiServer.server.URL, Version: testapi.Version()}),
		ScheduleFunc: FCFSScheduleFunc,
		Schedcfg:     *schedcfg.CreateDefaultConfig(),
	})

	assert.NotNil(testScheduler.client, "client is nil")
	assert.NotNil(testScheduler.executor, "executor is nil")
	assert.NotNil(testScheduler.offers, "offer registry is nil")

	// create scheduler process
	schedulerProcess := ha.New(testScheduler)

	// get plugin config from it
	c := testScheduler.NewPluginConfig(schedulerProcess.Terminal(), http.DefaultServeMux, &podListWatch.ListWatch)
	assert.NotNil(c)

	// make events observable
	eventObserver := NewEventObserver()
	c.Recorder = eventObserver

	// create plugin
	p := NewPlugin(c)
	assert.NotNil(p)

	// run plugin
	p.Run(schedulerProcess.Terminal())
	defer schedulerProcess.End()

	// init scheduler
	err := testScheduler.Init(schedulerProcess.Master(), p, http.DefaultServeMux)
	assert.NoError(err)

	// create mock mesos scheduler driver
	mockDriver := &joinableDriver{}
	mockDriver.On("Start").Return(mesos.Status_DRIVER_RUNNING, nil).Once()
	started := mockDriver.Upon()

	mAny := mock.AnythingOfType
	mockDriver.On("ReconcileTasks", mAny("[]*mesosproto.TaskStatus")).Return(mesos.Status_DRIVER_RUNNING, nil)
	mockDriver.On("SendFrameworkMessage", mAny("*mesosproto.ExecutorID"), mAny("*mesosproto.SlaveID"), mAny("string")).
		Return(mesos.Status_DRIVER_RUNNING, nil)

	launchedTasks := make(chan *mesos.TaskInfo, 1)
	launchTasksCalledFunc := func(args mock.Arguments) {
		taskInfos := args.Get(1).([]*mesos.TaskInfo)
		assert.Equal(1, len(taskInfos))
		launchedTasks <- taskInfos[0]
	}
	mockDriver.On("LaunchTasks", mAny("[]*mesosproto.OfferID"), mAny("[]*mesosproto.TaskInfo"), mAny("*mesosproto.Filters")).
		Return(mesos.Status_DRIVER_RUNNING, nil).Run(launchTasksCalledFunc)

	// elect master with mock driver
	driverFactory := ha.DriverFactory(func() (bindings.SchedulerDriver, error) {
		return mockDriver, nil
	})
	schedulerProcess.Elect(driverFactory)
	elected := schedulerProcess.Elected()

	// driver will be started
	<-started

	// tell scheduler to be registered
	testScheduler.Registered(
		mockDriver,
		util.NewFrameworkID("kubernetes-id"),
		util.NewMasterInfo("master-id", (192<<24)+(168<<16)+(0<<8)+1, 5050),
	)

	// wait for being elected
	<-elected

	//TODO(jdef) refactor things above here into a test suite setup of some sort

	// fake new, unscheduled pod
	pod1 := NewTestPod(1)
	podListWatch.Add(pod1, true) // notify watchers

	// wait for failedScheduling event because there is no offer
	assert.EventWithReason(eventObserver, "failedScheduling", "failedScheduling event not received")

	// add some matching offer
	offers1 := []*mesos.Offer{NewTestOffer(1)}
	testScheduler.ResourceOffers(nil, offers1)

	// and wait for scheduled pod
	assert.EventWithReason(eventObserver, "scheduled")
	select {
	case launchedTask := <-launchedTasks:
		// report back that the task has been staged, and then started by mesos
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_STAGING))
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_RUNNING))

		// check that ExecutorInfo.data has the static pod data
		assert.Len(launchedTask.Executor.Data, 3)

		// report back that the task has been lost
		mockDriver.AssertNumberOfCalls(t, "SendFrameworkMessage", 0)
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_LOST))

		// and wait that framework message is sent to executor
		mockDriver.AssertNumberOfCalls(t, "SendFrameworkMessage", 1)

	case <-time.After(5 * time.Second):
		t.Fatalf("timed out waiting for launchTasks call")
	}

	// start another pod
	podNum := 1
	startPod := func(offers []*mesos.Offer) (*api.Pod, *mesos.TaskInfo) {
		podNum = podNum + 1

		// create pod and matching offer
		pod := NewTestPod(podNum)
		podListWatch.Add(pod, true) // notify watchers
		testScheduler.ResourceOffers(mockDriver, offers)
		assert.EventWithReason(eventObserver, "scheduled")

		// wait for driver.launchTasks call
		select {
		case launchedTask := <-launchedTasks:
			testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_STAGING))
			testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_RUNNING))
			return pod, launchedTask

		case <-time.After(5 * time.Second):
			t.Fatal("timed out waiting for launchTasks")
			return nil, nil
		}
	}

	pod, launchedTask := startPod(offers1)

	// mock drvier.KillTask, should be invoked when a pod is deleted
	mockDriver.On("KillTask", mAny("*mesosproto.TaskID")).Return(mesos.Status_DRIVER_RUNNING, nil).Run(func(args mock.Arguments) {
		killedTaskId := *(args.Get(0).(*mesos.TaskID))
		assert.Equal(*launchedTask.TaskId, killedTaskId, "expected same TaskID as during launch")
	})
	killTaskCalled := mockDriver.Upon()

	// stop it again via the apiserver mock
	podListWatch.Delete(pod, true) // notify watchers

	// and wait for the driver killTask call with the correct TaskId
	select {
	case <-killTaskCalled:
		// report back that the task is finished
		testScheduler.StatusUpdate(mockDriver, newTaskStatusForTask(launchedTask, mesos.TaskState_TASK_FINISHED))

	case <-time.After(5 * time.Second):
		t.Fatal("timed out waiting for KillTask")
	}

	// start pods:
	// - which are failing while binding,
	// - leading to reconciliation
	// - with different states on the apiserver

	failPodFromExecutor := func(task *mesos.TaskInfo) {
		beforePodLookups := testApiServer.Stats(pod.Name)
		status := newTaskStatusForTask(task, mesos.TaskState_TASK_FAILED)
		message := messages.CreateBindingFailure
		status.Message = &message
		testScheduler.StatusUpdate(mockDriver, status)

		// wait until pod is looked up at the apiserver
		assertext.EventuallyTrue(t, time.Second, func() bool {
			return testApiServer.Stats(pod.Name) == beforePodLookups+1
		}, "expect that reconcilePod will access apiserver for pod %v", pod.Name)
	}

	// 1. with pod deleted from the apiserver
	pod, launchedTask = startPod(offers1)
	podListWatch.Delete(pod, false) // not notifying the watchers
	failPodFromExecutor(launchedTask)

	// 2. with pod still on the apiserver, not bound
	pod, launchedTask = startPod(offers1)
	failPodFromExecutor(launchedTask)

	// 3. with pod still on the apiserver, bound i.e. host!=""
	pod, launchedTask = startPod(offers1)
	pod.Spec.NodeName = *offers1[0].Hostname
	podListWatch.Modify(pod, false) // not notifying the watchers
	failPodFromExecutor(launchedTask)

	// 4. with pod still on the apiserver, bound i.e. host!="", notified via ListWatch
	pod, launchedTask = startPod(offers1)
	pod.Spec.NodeName = *offers1[0].Hostname
	podListWatch.Modify(pod, true) // notifying the watchers
	time.Sleep(time.Second / 2)
	failPodFromExecutor(launchedTask)
}