Esempio n. 1
0
// Calls Run()
// Verifies there are no calls to attach, detach, mount, unmount, etc.
func Test_Run_Positive_DoNothing(t *testing.T) {
	// Arrange
	volumePluginMgr, fakePlugin := volumetesting.GetTestVolumePluginMgr(t)
	dsw := cache.NewDesiredStateOfWorld(volumePluginMgr)
	asw := cache.NewActualStateOfWorld(nodeName, volumePluginMgr)
	kubeClient := createTestClient()
	oex := operationexecutor.NewOperationExecutor(kubeClient, volumePluginMgr)
	reconciler := NewReconciler(
		kubeClient,
		false, /* controllerAttachDetachEnabled */
		reconcilerLoopSleepDuration,
		reconcilerReconstructSleepPeriod,
		waitForAttachTimeout,
		nodeName,
		dsw,
		asw,
		oex,
		&mount.FakeMounter{},
		volumePluginMgr,
		kubeletPodsDir)

	// Act
	runReconciler(reconciler)

	// Assert
	assert.NoError(t, volumetesting.VerifyZeroAttachCalls(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroWaitForAttachCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroMountDeviceCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroSetUpCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroTearDownCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroDetachCallCount(fakePlugin))
}
Esempio n. 2
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// NewVolumeManager returns a new concrete instance implementing the
// VolumeManager interface.
//
// kubeClient - kubeClient is the kube API client used by DesiredStateOfWorldPopulator
//   to communicate with the API server to fetch PV and PVC objects
// volumePluginMgr - the volume plugin manager used to access volume plugins.
//   Must be pre-initialized.
func NewVolumeManager(
	controllerAttachDetachEnabled bool,
	nodeName k8stypes.NodeName,
	podManager pod.Manager,
	kubeClient clientset.Interface,
	volumePluginMgr *volume.VolumePluginMgr,
	kubeContainerRuntime kubecontainer.Runtime,
	mounter mount.Interface,
	kubeletPodsDir string,
	recorder record.EventRecorder,
	checkNodeCapabilitiesBeforeMount bool) (VolumeManager, error) {

	vm := &volumeManager{
		kubeClient:          kubeClient,
		volumePluginMgr:     volumePluginMgr,
		desiredStateOfWorld: cache.NewDesiredStateOfWorld(volumePluginMgr),
		actualStateOfWorld:  cache.NewActualStateOfWorld(nodeName, volumePluginMgr),
		operationExecutor: operationexecutor.NewOperationExecutor(operationexecutor.NewOperationGenerator(
			kubeClient,
			volumePluginMgr,
			recorder,
			checkNodeCapabilitiesBeforeMount),
		),
	}

	vm.reconciler = reconciler.NewReconciler(
		kubeClient,
		controllerAttachDetachEnabled,
		reconcilerLoopSleepPeriod,
		reconcilerSyncStatesSleepPeriod,
		waitForAttachTimeout,
		nodeName,
		vm.desiredStateOfWorld,
		vm.actualStateOfWorld,
		vm.operationExecutor,
		mounter,
		volumePluginMgr,
		kubeletPodsDir)
	vm.desiredStateOfWorldPopulator = populator.NewDesiredStateOfWorldPopulator(
		kubeClient,
		desiredStateOfWorldPopulatorLoopSleepPeriod,
		desiredStateOfWorldPopulatorGetPodStatusRetryDuration,
		podManager,
		vm.desiredStateOfWorld,
		kubeContainerRuntime)

	return vm, nil
}
Esempio n. 3
0
// NewVolumeManager returns a new concrete instance implementing the
// VolumeManager interface.
//
// kubeClient - kubeClient is the kube API client used by DesiredStateOfWorldPopulator
//   to communicate with the API server to fetch PV and PVC objects
// volumePluginMgr - the volume plugin manager used to access volume plugins.
//   Must be pre-initialized.
func NewVolumeManager(
	controllerAttachDetachEnabled bool,
	hostName string,
	podManager pod.Manager,
	kubeClient internalclientset.Interface,
	volumePluginMgr *volume.VolumePluginMgr,
	kubeContainerRuntime kubecontainer.Runtime,
	mounter mount.Interface,
	kubeletPodsDir string,
	recorder record.EventRecorder) (VolumeManager, error) {

	vm := &volumeManager{
		kubeClient:          kubeClient,
		volumePluginMgr:     volumePluginMgr,
		desiredStateOfWorld: cache.NewDesiredStateOfWorld(volumePluginMgr),
		actualStateOfWorld:  cache.NewActualStateOfWorld(hostName, volumePluginMgr),
		operationExecutor: operationexecutor.NewOperationExecutor(
			kubeClient,
			volumePluginMgr,
			recorder),
	}

	vm.reconciler = reconciler.NewReconciler(
		kubeClient,
		controllerAttachDetachEnabled,
		reconcilerLoopSleepPeriod,
		reconcilerReconstructSleepPeriod,
		waitForAttachTimeout,
		hostName,
		vm.desiredStateOfWorld,
		vm.actualStateOfWorld,
		vm.operationExecutor,
		mounter,
		volumePluginMgr,
		kubeletPodsDir)
	vm.desiredStateOfWorldPopulator = populator.NewDesiredStateOfWorldPopulator(
		kubeClient,
		desiredStateOfWorldPopulatorLoopSleepPeriod,
		desiredStateOfWorldPopulatorGetPodStatusRetryDuration,
		podManager,
		vm.desiredStateOfWorld,
		kubeContainerRuntime)

	return vm, nil
}
Esempio n. 4
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// Populates desiredStateOfWorld cache with one volume/pod.
// Calls Run()
// Verifies there is are attach/mount/etc calls and no detach/unmount calls.
func Test_Run_Positive_VolumeAttachAndMount(t *testing.T) {
	// Arrange
	volumePluginMgr, fakePlugin := volumetesting.GetTestVolumePluginMgr(t)
	dsw := cache.NewDesiredStateOfWorld(volumePluginMgr)
	asw := cache.NewActualStateOfWorld(nodeName, volumePluginMgr)
	kubeClient := createTestClient()
	oex := operationexecutor.NewOperationExecutor(kubeClient, volumePluginMgr)
	reconciler := NewReconciler(
		kubeClient,
		false, /* controllerAttachDetachEnabled */
		reconcilerLoopSleepDuration,
		reconcilerReconstructSleepPeriod,
		waitForAttachTimeout,
		nodeName,
		dsw,
		asw,
		oex,
		&mount.FakeMounter{},
		volumePluginMgr,
		kubeletPodsDir)
	pod := &api.Pod{
		ObjectMeta: api.ObjectMeta{
			Name: "pod1",
			UID:  "pod1uid",
		},
		Spec: api.PodSpec{
			Volumes: []api.Volume{
				{
					Name: "volume-name",
					VolumeSource: api.VolumeSource{
						GCEPersistentDisk: &api.GCEPersistentDiskVolumeSource{
							PDName: "fake-device1",
						},
					},
				},
			},
		},
	}

	volumeSpec := &volume.Spec{Volume: &pod.Spec.Volumes[0]}
	podName := volumehelper.GetUniquePodName(pod)
	generatedVolumeName, err := dsw.AddPodToVolume(
		podName, pod, volumeSpec, volumeSpec.Name(), "" /* volumeGidValue */)

	// Assert
	if err != nil {
		t.Fatalf("AddPodToVolume failed. Expected: <no error> Actual: <%v>", err)
	}

	// Act
	runReconciler(reconciler)
	waitForMount(t, fakePlugin, generatedVolumeName, asw)
	// Assert
	assert.NoError(t, volumetesting.VerifyAttachCallCount(
		1 /* expectedAttachCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyWaitForAttachCallCount(
		1 /* expectedWaitForAttachCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyMountDeviceCallCount(
		1 /* expectedMountDeviceCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifySetUpCallCount(
		1 /* expectedSetUpCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroTearDownCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroDetachCallCount(fakePlugin))
}
Esempio n. 5
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// Populates desiredStateOfWorld cache with one volume/pod.
// Enables controllerAttachDetachEnabled.
// Calls Run()
// Verifies one mount call is made and no unmount calls.
// Deletes volume/pod from desired state of world.
// Verifies one unmount call is made.
// Verifies there are no attach/detach calls made.
func Test_Run_Positive_VolumeUnmountControllerAttachEnabled(t *testing.T) {
	// Arrange
	volumePluginMgr, fakePlugin := volumetesting.GetTestVolumePluginMgr(t)
	dsw := cache.NewDesiredStateOfWorld(volumePluginMgr)
	asw := cache.NewActualStateOfWorld(nodeName, volumePluginMgr)
	kubeClient := createTestClient()
	fakeRecorder := &record.FakeRecorder{}
	oex := operationexecutor.NewOperationExecutor(operationexecutor.NewOperationGenerator(kubeClient, volumePluginMgr, fakeRecorder, false /* checkNodeCapabilitiesBeforeMount */))
	reconciler := NewReconciler(
		kubeClient,
		true, /* controllerAttachDetachEnabled */
		reconcilerLoopSleepDuration,
		reconcilerSyncStatesSleepPeriod,
		waitForAttachTimeout,
		nodeName,
		dsw,
		asw,
		oex,
		&mount.FakeMounter{},
		volumePluginMgr,
		kubeletPodsDir)
	pod := &v1.Pod{
		ObjectMeta: metav1.ObjectMeta{
			Name: "pod1",
			UID:  "pod1uid",
		},
		Spec: v1.PodSpec{
			Volumes: []v1.Volume{
				{
					Name: "volume-name",
					VolumeSource: v1.VolumeSource{
						GCEPersistentDisk: &v1.GCEPersistentDiskVolumeSource{
							PDName: "fake-device1",
						},
					},
				},
			},
		},
	}

	volumeSpec := &volume.Spec{Volume: &pod.Spec.Volumes[0]}
	podName := volumehelper.GetUniquePodName(pod)
	generatedVolumeName, err := dsw.AddPodToVolume(
		podName, pod, volumeSpec, volumeSpec.Name(), "" /* volumeGidValue */)

	// Assert
	if err != nil {
		t.Fatalf("AddPodToVolume failed. Expected: <no error> Actual: <%v>", err)
	}

	// Act
	runReconciler(reconciler)

	dsw.MarkVolumesReportedInUse([]v1.UniqueVolumeName{generatedVolumeName})
	waitForMount(t, fakePlugin, generatedVolumeName, asw)

	// Assert
	assert.NoError(t, volumetesting.VerifyZeroAttachCalls(fakePlugin))
	assert.NoError(t, volumetesting.VerifyWaitForAttachCallCount(
		1 /* expectedWaitForAttachCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyMountDeviceCallCount(
		1 /* expectedMountDeviceCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifySetUpCallCount(
		1 /* expectedSetUpCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroTearDownCallCount(fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroDetachCallCount(fakePlugin))

	// Act
	dsw.DeletePodFromVolume(podName, generatedVolumeName)
	waitForDetach(t, fakePlugin, generatedVolumeName, asw)

	// Assert
	assert.NoError(t, volumetesting.VerifyTearDownCallCount(
		1 /* expectedTearDownCallCount */, fakePlugin))
	assert.NoError(t, volumetesting.VerifyZeroDetachCallCount(fakePlugin))
}