/* Copyright 2014 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package config import ( "math/rand" "reflect" "sort" "strconv" "testing" "time" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/types" "k8s.io/kubernetes/pkg/api" "k8s.io/kubernetes/pkg/api/v1" "k8s.io/kubernetes/pkg/client/record" kubetypes "k8s.io/kubernetes/pkg/kubelet/types" "k8s.io/kubernetes/pkg/securitycontext" ) const ( TestSource = "test" ) func expectEmptyChannel(t *testing.T, ch <-chan interface{}) { select { case update := <-ch: t.Errorf("Expected no update in channel, Got %v", update) default: } } type sortedPods []*v1.Pod func (s sortedPods) Len() int { return len(s) } func (s sortedPods) Swap(i, j int) { s[i], s[j] = s[j], s[i] } func (s sortedPods) Less(i, j int) bool { return s[i].Namespace < s[j].Namespace } func CreateValidPod(name, namespace string) *v1.Pod { return &v1.Pod{ ObjectMeta: v1.ObjectMeta{ UID: types.UID(name), // for the purpose of testing, this is unique enough Name: name, Namespace: namespace, }, Spec: v1.PodSpec{ RestartPolicy: v1.RestartPolicyAlways, DNSPolicy: v1.DNSClusterFirst, Containers: []v1.Container{ { Name: "ctr", Image: "image", ImagePullPolicy: "IfNotPresent", SecurityContext: securitycontext.ValidSecurityContextWithContainerDefaults(), }, }, }, } } func CreatePodUpdate(op kubetypes.PodOperation, source string, pods ...*v1.Pod) kubetypes.PodUpdate { return kubetypes.PodUpdate{Pods: pods, Op: op, Source: source} } func createPodConfigTester(mode PodConfigNotificationMode) (chan<- interface{}, <-chan kubetypes.PodUpdate, *PodConfig) { eventBroadcaster := record.NewBroadcaster() config := NewPodConfig(mode, eventBroadcaster.NewRecorder(v1.EventSource{Component: "kubelet"})) channel := config.Channel(TestSource) ch := config.Updates() return channel, ch, config } func expectPodUpdate(t *testing.T, ch <-chan kubetypes.PodUpdate, expected ...kubetypes.PodUpdate) { for i := range expected { update := <-ch sort.Sort(sortedPods(update.Pods)) sort.Sort(sortedPods(expected[i].Pods)) // Make copies of the expected/actual update to compare all fields // except for "Pods", which are compared separately below. expectedCopy, updateCopy := expected[i], update expectedCopy.Pods, updateCopy.Pods = nil, nil if !api.Semantic.DeepEqual(expectedCopy, updateCopy) { t.Fatalf("Expected %#v, Got %#v", expectedCopy, updateCopy) } if len(expected[i].Pods) != len(update.Pods) { t.Fatalf("Expected %#v, Got %#v", expected[i], update) } // Compare pods one by one. This is necessary because we don't want to // compare local annotations. for j := range expected[i].Pods { if podsDifferSemantically(expected[i].Pods[j], update.Pods[j]) || !reflect.DeepEqual(expected[i].Pods[j].Status, update.Pods[j].Status) { t.Fatalf("Expected %#v, Got %#v", expected[i].Pods[j], update.Pods[j]) } } } expectNoPodUpdate(t, ch) } func expectNoPodUpdate(t *testing.T, ch <-chan kubetypes.PodUpdate) { select { case update := <-ch: t.Errorf("Expected no update in channel, Got %#v", update) default: } } func TestNewPodAdded(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationIncremental) // see an update podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"))) config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource, CreateValidPod("foo", "new"))) } func TestNewPodAddedInvalidNamespace(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationIncremental) // see an update podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "")) channel <- podUpdate config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource)) } func TestNewPodAddedDefaultNamespace(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationIncremental) // see an update podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "default")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "default"))) config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource, CreateValidPod("foo", "default"))) } func TestNewPodAddedDifferentNamespaces(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationIncremental) // see an update podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "default")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "default"))) // see an update in another namespace podUpdate = CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"))) config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource, CreateValidPod("foo", "default"), CreateValidPod("foo", "new"))) } func TestInvalidPodFiltered(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) // see an update podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"))) // add an invalid update podUpdate = CreatePodUpdate(kubetypes.UPDATE, TestSource, &v1.Pod{ObjectMeta: v1.ObjectMeta{Name: "foo"}}) channel <- podUpdate expectNoPodUpdate(t, ch) } func TestNewPodAddedSnapshotAndUpdates(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationSnapshotAndUpdates) // see an set podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo", "new"))) config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource, CreateValidPod("foo", "new"))) // container updates are separated as UPDATE pod := *podUpdate.Pods[0] pod.Spec.Containers = []v1.Container{{Name: "bar", Image: "test", ImagePullPolicy: v1.PullIfNotPresent}} channel <- CreatePodUpdate(kubetypes.ADD, TestSource, &pod) expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, &pod)) } func TestNewPodAddedSnapshot(t *testing.T) { channel, ch, config := createPodConfigTester(PodConfigNotificationSnapshot) // see an set podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo", "new"))) config.Sync() expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, kubetypes.AllSource, CreateValidPod("foo", "new"))) // container updates are separated as UPDATE pod := *podUpdate.Pods[0] pod.Spec.Containers = []v1.Container{{Name: "bar", Image: "test", ImagePullPolicy: v1.PullIfNotPresent}} channel <- CreatePodUpdate(kubetypes.ADD, TestSource, &pod) expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.SET, TestSource, &pod)) } func TestNewPodAddedUpdatedRemoved(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) // should register an add podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"))) // should ignore ADDs that are identical expectNoPodUpdate(t, ch) // an kubetypes.ADD should be converted to kubetypes.UPDATE pod := CreateValidPod("foo", "new") pod.Spec.Containers = []v1.Container{{Name: "bar", Image: "test", ImagePullPolicy: v1.PullIfNotPresent}} podUpdate = CreatePodUpdate(kubetypes.ADD, TestSource, pod) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) podUpdate = CreatePodUpdate(kubetypes.REMOVE, TestSource, &v1.Pod{ObjectMeta: v1.ObjectMeta{Name: "foo", Namespace: "new"}}) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.REMOVE, TestSource, pod)) } func TestNewPodAddedDelete(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) // should register an add addedPod := CreateValidPod("foo", "new") podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, addedPod) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, addedPod)) // mark this pod as deleted timestamp := metav1.NewTime(time.Now()) deletedPod := CreateValidPod("foo", "new") deletedPod.ObjectMeta.DeletionTimestamp = ×tamp podUpdate = CreatePodUpdate(kubetypes.DELETE, TestSource, deletedPod) channel <- podUpdate // the existing pod should be gracefully deleted expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.DELETE, TestSource, addedPod)) } func TestNewPodAddedUpdatedSet(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) // should register an add podUpdate := CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"), CreateValidPod("foo2", "new"), CreateValidPod("foo3", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new"), CreateValidPod("foo2", "new"), CreateValidPod("foo3", "new"))) // should ignore ADDs that are identical expectNoPodUpdate(t, ch) // should be converted to an kubetypes.ADD, kubetypes.REMOVE, and kubetypes.UPDATE pod := CreateValidPod("foo2", "new") pod.Spec.Containers = []v1.Container{{Name: "bar", Image: "test", ImagePullPolicy: v1.PullIfNotPresent}} podUpdate = CreatePodUpdate(kubetypes.SET, TestSource, pod, CreateValidPod("foo3", "new"), CreateValidPod("foo4", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.REMOVE, TestSource, CreateValidPod("foo", "new")), CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo4", "new")), CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) } func TestNewPodAddedSetReconciled(t *testing.T) { // Create and touch new test pods, return the new pods and touched pod. We should create new pod list // before touching to avoid data race. newTestPods := func(touchStatus, touchSpec bool) ([]*v1.Pod, *v1.Pod) { pods := []*v1.Pod{ CreateValidPod("changeable-pod-0", "new"), CreateValidPod("constant-pod-1", "new"), CreateValidPod("constant-pod-2", "new"), } if touchStatus { pods[0].Status = v1.PodStatus{Message: strconv.Itoa(rand.Int())} } if touchSpec { pods[0].Spec.Containers[0].Name = strconv.Itoa(rand.Int()) } return pods, pods[0] } for _, op := range []kubetypes.PodOperation{ kubetypes.ADD, kubetypes.SET, } { var podWithStatusChange *v1.Pod pods, _ := newTestPods(false, false) channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) // Use SET to initialize the config, especially initialize the source set channel <- CreatePodUpdate(kubetypes.SET, TestSource, pods...) expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, pods...)) // If status is not changed, no reconcile should be triggered channel <- CreatePodUpdate(op, TestSource, pods...) expectNoPodUpdate(t, ch) // If the pod status is changed and not updated, a reconcile should be triggered pods, podWithStatusChange = newTestPods(true, false) channel <- CreatePodUpdate(op, TestSource, pods...) expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.RECONCILE, TestSource, podWithStatusChange)) // If the pod status is changed, but the pod is also updated, no reconcile should be triggered pods, podWithStatusChange = newTestPods(true, true) channel <- CreatePodUpdate(op, TestSource, pods...) expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, podWithStatusChange)) } } func TestInitialEmptySet(t *testing.T) { for _, test := range []struct { mode PodConfigNotificationMode op kubetypes.PodOperation }{ {PodConfigNotificationIncremental, kubetypes.ADD}, {PodConfigNotificationSnapshot, kubetypes.SET}, {PodConfigNotificationSnapshotAndUpdates, kubetypes.SET}, } { channel, ch, _ := createPodConfigTester(test.mode) // should register an empty PodUpdate operation podUpdate := CreatePodUpdate(kubetypes.SET, TestSource) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(test.op, TestSource)) // should ignore following empty sets podUpdate = CreatePodUpdate(kubetypes.SET, TestSource) channel <- podUpdate podUpdate = CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(test.op, TestSource, CreateValidPod("foo", "new"))) } } func TestPodUpdateAnnotations(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) pod := CreateValidPod("foo2", "new") pod.Annotations = make(map[string]string, 0) pod.Annotations["kubernetes.io/blah"] = "blah" clone, err := api.Scheme.DeepCopy(pod) if err != nil { t.Fatalf("%v", err) } podUpdate := CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo1", "new"), clone.(*v1.Pod), CreateValidPod("foo3", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, CreateValidPod("foo1", "new"), pod, CreateValidPod("foo3", "new"))) pod.Annotations["kubenetes.io/blah"] = "superblah" podUpdate = CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo1", "new"), pod, CreateValidPod("foo3", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) pod.Annotations["kubernetes.io/otherblah"] = "doh" podUpdate = CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo1", "new"), pod, CreateValidPod("foo3", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) delete(pod.Annotations, "kubernetes.io/blah") podUpdate = CreatePodUpdate(kubetypes.SET, TestSource, CreateValidPod("foo1", "new"), pod, CreateValidPod("foo3", "new")) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) } func TestPodUpdateLabels(t *testing.T) { channel, ch, _ := createPodConfigTester(PodConfigNotificationIncremental) pod := CreateValidPod("foo2", "new") pod.Labels = make(map[string]string, 0) pod.Labels["key"] = "value" clone, err := api.Scheme.DeepCopy(pod) if err != nil { t.Fatalf("%v", err) } podUpdate := CreatePodUpdate(kubetypes.SET, TestSource, clone.(*v1.Pod)) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.ADD, TestSource, pod)) pod.Labels["key"] = "newValue" podUpdate = CreatePodUpdate(kubetypes.SET, TestSource, pod) channel <- podUpdate expectPodUpdate(t, ch, CreatePodUpdate(kubetypes.UPDATE, TestSource, pod)) }