示例#1
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func TestStoreBasicExport(t *testing.T) {
	podA := api.Pod{
		ObjectMeta: api.ObjectMeta{
			Namespace: "test",
			Name:      "foo",
			Labels:    map[string]string{},
		},
		Spec:   api.PodSpec{NodeName: "machine"},
		Status: api.PodStatus{HostIP: "1.2.3.4"},
	}

	server, registry := NewTestGenericStoreRegistry(t)
	defer server.Terminate(t)

	testContext := api.WithNamespace(api.NewContext(), "test")
	registry.UpdateStrategy.(*testRESTStrategy).allowCreateOnUpdate = true
	if !updateAndVerify(t, testContext, registry, &podA) {
		t.Errorf("Unexpected error updating podA")
	}

	obj, err := registry.Export(testContext, podA.Name, unversioned.ExportOptions{})
	if err != nil {
		t.Errorf("unexpected error: %v", err)
	}
	exportedPod := obj.(*api.Pod)
	if exportedPod.Labels["prepare_create"] != "true" {
		t.Errorf("expected: prepare_create->true, found: %s", exportedPod.Labels["prepare_create"])
	}
	delete(exportedPod.Labels, "prepare_create")
	exportObjectMeta(&podA.ObjectMeta, false)
	podA.Spec = exportedPod.Spec
	if !reflect.DeepEqual(&podA, exportedPod) {
		t.Errorf("expected:\n%v\nsaw:\n%v\n", &podA, exportedPod)
	}
}
示例#2
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// ToAPIPod converts Pod to api.Pod. Note that if a field in api.Pod has no
// corresponding field in Pod, the field would not be populated.
func (p *Pod) ToAPIPod() *api.Pod {
	var pod api.Pod
	pod.UID = p.ID
	pod.Name = p.Name
	pod.Namespace = p.Namespace

	for _, c := range p.Containers {
		var container api.Container
		container.Name = c.Name
		container.Image = c.Image
		pod.Spec.Containers = append(pod.Spec.Containers, container)
	}
	return &pod
}
示例#3
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// same as above func comments, except 'recyclerClient' is a narrower pod API
// interface to ease testing
func internalRecycleVolumeByWatchingPodUntilCompletion(pvName string, pod *api.Pod, recyclerClient recyclerClient) error {
	glog.V(5).Infof("creating recycler pod for volume %s\n", pod.Name)

	// Generate unique name for the recycler pod - we need to get "already
	// exists" error when a previous controller has already started recycling
	// the volume. Here we assume that pv.Name is already unique.
	pod.Name = "recycler-for-" + pvName
	pod.GenerateName = ""

	// Start the pod
	_, err := recyclerClient.CreatePod(pod)
	if err != nil {
		if errors.IsAlreadyExists(err) {
			glog.V(5).Infof("old recycler pod %q found for volume", pod.Name)
		} else {
			return fmt.Errorf("Unexpected error creating recycler pod:  %+v\n", err)
		}
	}
	defer recyclerClient.DeletePod(pod.Name, pod.Namespace)

	// Now only the old pod or the new pod run. Watch it until it finishes.
	stopChannel := make(chan struct{})
	defer close(stopChannel)
	nextPod := recyclerClient.WatchPod(pod.Name, pod.Namespace, stopChannel)

	for {
		watchedPod := nextPod()
		if watchedPod.Status.Phase == api.PodSucceeded {
			// volume.Recycle() returns nil on success, else error
			return nil
		}
		if watchedPod.Status.Phase == api.PodFailed {
			// volume.Recycle() returns nil on success, else error
			if watchedPod.Status.Message != "" {
				return fmt.Errorf(watchedPod.Status.Message)
			} else {
				return fmt.Errorf("pod failed, pod.Status.Message unknown.")
			}
		}
	}
}
示例#4
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// updateAnnotations returns an Annotation map containing the api annotation map plus
// locally managed annotations
func updateAnnotations(existing, ref *api.Pod) {
	annotations := make(map[string]string, len(ref.Annotations)+len(localAnnotations))
	for k, v := range ref.Annotations {
		annotations[k] = v
	}
	for _, k := range localAnnotations {
		if v, ok := existing.Annotations[k]; ok {
			annotations[k] = v
		}
	}
	existing.Annotations = annotations
}
示例#5
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// checkAndUpdatePod updates existing, and:
//   * if ref makes a meaningful change, returns needUpdate=true
//   * if ref makes no meaningful change, but changes the pod status, returns needReconcile=true
//   * else return both false
//   Now, needUpdate and needReconcile should never be both true
func checkAndUpdatePod(existing, ref *api.Pod) (needUpdate, needReconcile bool) {
	// TODO: it would be better to update the whole object and only preserve certain things
	//       like the source annotation or the UID (to ensure safety)
	if !podsDifferSemantically(existing, ref) {
		// this is not an update
		// Only check reconcile when it is not an update, because if the pod is going to
		// be updated, an extra reconcile is unnecessary
		if !reflect.DeepEqual(existing.Status, ref.Status) {
			// Pod with changed pod status needs reconcile, because kubelet should
			// be the source of truth of pod status.
			existing.Status = ref.Status
			needReconcile = true
		}
		return
	}
	// this is an update

	// Overwrite the first-seen time with the existing one. This is our own
	// internal annotation, there is no need to update.
	ref.Annotations[kubetypes.ConfigFirstSeenAnnotationKey] = existing.Annotations[kubetypes.ConfigFirstSeenAnnotationKey]

	existing.Spec = ref.Spec
	existing.Labels = ref.Labels
	existing.DeletionTimestamp = ref.DeletionTimestamp
	existing.DeletionGracePeriodSeconds = ref.DeletionGracePeriodSeconds
	existing.Status = ref.Status
	updateAnnotations(existing, ref)
	needUpdate = true
	return
}
示例#6
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func Convert_v1_Pod_To_api_Pod(in *Pod, out *api.Pod, s conversion.Scope) error {
	// TODO: when we move init container to beta, remove these conversions
	if value, ok := in.Annotations[PodInitContainersAnnotationKey]; ok {
		var values []Container
		if err := json.Unmarshal([]byte(value), &values); err != nil {
			return err
		}
		// Conversion from external to internal version exists more to
		// satisfy the needs of the decoder than it does to be a general
		// purpose tool. And Decode always creates an intermediate object
		// to decode to. Thus the caller of UnsafeConvertToVersion is
		// taking responsibility to ensure mutation of in is not exposed
		// back to the caller.
		in.Spec.InitContainers = values
	}
	if value, ok := in.Annotations[PodInitContainerStatusesAnnotationKey]; ok {
		var values []ContainerStatus
		if err := json.Unmarshal([]byte(value), &values); err != nil {
			return err
		}
		// Conversion from external to internal version exists more to
		// satisfy the needs of the decoder than it does to be a general
		// purpose tool. And Decode always creates an intermediate object
		// to decode to. Thus the caller of UnsafeConvertToVersion is
		// taking responsibility to ensure mutation of in is not exposed
		// back to the caller.
		in.Status.InitContainerStatuses = values
	}

	if err := autoConvert_v1_Pod_To_api_Pod(in, out, s); err != nil {
		return err
	}
	if len(out.Annotations) > 0 {
		old := out.Annotations
		out.Annotations = make(map[string]string, len(old))
		for k, v := range old {
			out.Annotations[k] = v
		}
		delete(out.Annotations, PodInitContainersAnnotationKey)
		delete(out.Annotations, PodInitContainerStatusesAnnotationKey)
	}
	return nil
}
示例#7
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func updatePod(t *testing.T, s storage.Interface, obj, old *api.Pod) *api.Pod {
	updateFn := func(input runtime.Object, res storage.ResponseMeta) (runtime.Object, *uint64, error) {
		newObj, err := api.Scheme.DeepCopy(obj)
		if err != nil {
			t.Errorf("unexpected error: %v", err)
			return nil, nil, err
		}
		return newObj.(*api.Pod), nil, nil
	}
	key := etcdtest.AddPrefix("pods/ns/" + obj.Name)
	if err := s.GuaranteedUpdate(context.TODO(), key, &api.Pod{}, old == nil, nil, updateFn); err != nil {
		t.Errorf("unexpected error: %v", err)
	}
	obj.ResourceVersion = ""
	result := &api.Pod{}
	if err := s.Get(context.TODO(), key, result, false); err != nil {
		t.Errorf("unexpected error: %v", err)
	}
	return result
}
// SetIdentity sets the pet namespace and name.
func (n *NameIdentityMapper) SetIdentity(id string, pet *api.Pod) {
	pet.Name = fmt.Sprintf("%v-%v", n.ps.Name, id)
	pet.Namespace = n.ps.Namespace
	return
}
func TestSyncBatchNoDeadlock(t *testing.T) {
	client := &fake.Clientset{}
	m := newTestManager(client)
	pod := getTestPod()

	// Setup fake client.
	var ret api.Pod
	var err error
	client.AddReactor("*", "pods", func(action core.Action) (bool, runtime.Object, error) {
		switch action := action.(type) {
		case core.GetAction:
			assert.Equal(t, pod.Name, action.GetName(), "Unexpeted GetAction: %+v", action)
		case core.UpdateAction:
			assert.Equal(t, pod.Name, action.GetObject().(*api.Pod).Name, "Unexpeted UpdateAction: %+v", action)
		default:
			assert.Fail(t, "Unexpected Action: %+v", action)
		}
		return true, &ret, err
	})

	pod.Status.ContainerStatuses = []api.ContainerStatus{{State: api.ContainerState{Running: &api.ContainerStateRunning{}}}}

	getAction := core.GetActionImpl{ActionImpl: core.ActionImpl{Verb: "get", Resource: unversioned.GroupVersionResource{Resource: "pods"}}}
	updateAction := core.UpdateActionImpl{ActionImpl: core.ActionImpl{Verb: "update", Resource: unversioned.GroupVersionResource{Resource: "pods"}, Subresource: "status"}}

	// Pod not found.
	ret = *pod
	err = errors.NewNotFound(api.Resource("pods"), pod.Name)
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction})
	client.ClearActions()

	// Pod was recreated.
	ret.UID = "other_pod"
	err = nil
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction})
	client.ClearActions()

	// Pod not deleted (success case).
	ret = *pod
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction, updateAction})
	client.ClearActions()

	// Pod is terminated, but still running.
	pod.DeletionTimestamp = new(unversioned.Time)
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction, updateAction})
	client.ClearActions()

	// Pod is terminated successfully.
	pod.Status.ContainerStatuses[0].State.Running = nil
	pod.Status.ContainerStatuses[0].State.Terminated = &api.ContainerStateTerminated{}
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction, updateAction})
	client.ClearActions()

	// Error case.
	err = fmt.Errorf("intentional test error")
	m.SetPodStatus(pod, getRandomPodStatus())
	m.testSyncBatch()
	verifyActions(t, client, []core.Action{getAction})
	client.ClearActions()
}