/* 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 dockertools import ( "flag" "fmt" "io/ioutil" "net" "net/http" "os" "reflect" "regexp" "sort" "strconv" "strings" "testing" "time" dockertypes "github.com/docker/engine-api/types" dockercontainer "github.com/docker/engine-api/types/container" dockerstrslice "github.com/docker/engine-api/types/strslice" "github.com/golang/mock/gomock" cadvisorapi "github.com/google/cadvisor/info/v1" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" apiequality "k8s.io/apimachinery/pkg/api/equality" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/runtime" kubetypes "k8s.io/apimachinery/pkg/types" "k8s.io/apimachinery/pkg/util/intstr" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/client-go/tools/record" "k8s.io/client-go/util/clock" "k8s.io/client-go/util/flowcontrol" "k8s.io/kubernetes/pkg/api/testapi" "k8s.io/kubernetes/pkg/api/v1" "k8s.io/kubernetes/pkg/apis/componentconfig" kubecontainer "k8s.io/kubernetes/pkg/kubelet/container" containertest "k8s.io/kubernetes/pkg/kubelet/container/testing" "k8s.io/kubernetes/pkg/kubelet/images" "k8s.io/kubernetes/pkg/kubelet/network" nettest "k8s.io/kubernetes/pkg/kubelet/network/testing" proberesults "k8s.io/kubernetes/pkg/kubelet/prober/results" "k8s.io/kubernetes/pkg/kubelet/types" uexec "k8s.io/kubernetes/pkg/util/exec" ) var testTempDir string func TestMain(m *testing.M) { dir, err := ioutil.TempDir("", "dockertools") if err != nil { panic(err) } testTempDir = dir flag.Parse() status := m.Run() os.RemoveAll(testTempDir) os.Exit(status) } type fakeHTTP struct { url string err error } func (f *fakeHTTP) Get(url string) (*http.Response, error) { f.url = url return nil, f.err } type fakeImageManager struct{} func newFakeImageManager() images.ImageManager { return &fakeImageManager{} } func (m *fakeImageManager) EnsureImageExists(pod *v1.Pod, container *v1.Container, pullSecrets []v1.Secret) (string, string, error) { return container.Image, "", nil } func createTestDockerManager(fakeHTTPClient *fakeHTTP, fakeDocker *FakeDockerClient) (*DockerManager, *FakeDockerClient) { if fakeHTTPClient == nil { fakeHTTPClient = &fakeHTTP{} } if fakeDocker == nil { fakeDocker = NewFakeDockerClient() } fakeRecorder := &record.FakeRecorder{} containerRefManager := kubecontainer.NewRefManager() networkPlugin, _ := network.InitNetworkPlugin( []network.NetworkPlugin{}, "", nettest.NewFakeHost(nil), componentconfig.HairpinNone, "10.0.0.0/8", network.UseDefaultMTU) dockerManager := NewFakeDockerManager( fakeDocker, fakeRecorder, proberesults.NewManager(), containerRefManager, &cadvisorapi.MachineInfo{}, "", 0, 0, "", &containertest.FakeOS{}, networkPlugin, &containertest.FakeRuntimeHelper{}, fakeHTTPClient, flowcontrol.NewBackOff(time.Second, 300*time.Second)) return dockerManager, fakeDocker } func createTestDockerManagerWithFakeImageManager(fakeHTTPClient *fakeHTTP, fakeDocker *FakeDockerClient) (*DockerManager, *FakeDockerClient) { dm, fd := createTestDockerManager(fakeHTTPClient, fakeDocker) dm.imagePuller = newFakeImageManager() return dm, fd } func newTestDockerManagerWithRealImageManager() (*DockerManager, *FakeDockerClient) { return createTestDockerManager(nil, nil) } func newTestDockerManagerWithHTTPClient(fakeHTTPClient *fakeHTTP) (*DockerManager, *FakeDockerClient) { return createTestDockerManagerWithFakeImageManager(fakeHTTPClient, nil) } func newTestDockerManagerWithVersion(version, apiVersion string) (*DockerManager, *FakeDockerClient) { fakeDocker := NewFakeDockerClient().WithVersion(version, apiVersion) return createTestDockerManagerWithFakeImageManager(nil, fakeDocker) } func newTestDockerManager() (*DockerManager, *FakeDockerClient) { return createTestDockerManagerWithFakeImageManager(nil, nil) } func matchString(t *testing.T, pattern, str string) bool { match, err := regexp.MatchString(pattern, str) if err != nil { t.Logf("unexpected error: %v", err) } return match } func TestSetEntrypointAndCommand(t *testing.T) { cases := []struct { name string container *v1.Container envs []kubecontainer.EnvVar expected *dockertypes.ContainerCreateConfig }{ { name: "none", container: &v1.Container{}, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{}, }, }, { name: "command", container: &v1.Container{ Command: []string{"foo", "bar"}, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Entrypoint: dockerstrslice.StrSlice([]string{"foo", "bar"}), }, }, }, { name: "command expanded", container: &v1.Container{ Command: []string{"foo", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []kubecontainer.EnvVar{ { Name: "VAR_TEST", Value: "zoo", }, { Name: "VAR_TEST2", Value: "boo", }, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Entrypoint: dockerstrslice.StrSlice([]string{"foo", "zoo", "boo"}), }, }, }, { name: "args", container: &v1.Container{ Args: []string{"foo", "bar"}, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Cmd: []string{"foo", "bar"}, }, }, }, { name: "args expanded", container: &v1.Container{ Args: []string{"zap", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []kubecontainer.EnvVar{ { Name: "VAR_TEST", Value: "hap", }, { Name: "VAR_TEST2", Value: "trap", }, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Cmd: dockerstrslice.StrSlice([]string{"zap", "hap", "trap"}), }, }, }, { name: "both", container: &v1.Container{ Command: []string{"foo"}, Args: []string{"bar", "baz"}, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Entrypoint: dockerstrslice.StrSlice([]string{"foo"}), Cmd: dockerstrslice.StrSlice([]string{"bar", "baz"}), }, }, }, { name: "both expanded", container: &v1.Container{ Command: []string{"$(VAR_TEST2)--$(VAR_TEST)", "foo", "$(VAR_TEST3)"}, Args: []string{"foo", "$(VAR_TEST)", "$(VAR_TEST2)"}, }, envs: []kubecontainer.EnvVar{ { Name: "VAR_TEST", Value: "zoo", }, { Name: "VAR_TEST2", Value: "boo", }, { Name: "VAR_TEST3", Value: "roo", }, }, expected: &dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{ Entrypoint: dockerstrslice.StrSlice([]string{"boo--zoo", "foo", "roo"}), Cmd: dockerstrslice.StrSlice([]string{"foo", "zoo", "boo"}), }, }, }, } for _, tc := range cases { opts := &kubecontainer.RunContainerOptions{ Envs: tc.envs, } actualOpts := dockertypes.ContainerCreateConfig{ Config: &dockercontainer.Config{}, } setEntrypointAndCommand(tc.container, opts, actualOpts) if e, a := tc.expected.Config.Entrypoint, actualOpts.Config.Entrypoint; !apiequality.Semantic.DeepEqual(e, a) { t.Errorf("%v: unexpected entrypoint: expected %v, got %v", tc.name, e, a) } if e, a := tc.expected.Config.Cmd, actualOpts.Config.Cmd; !apiequality.Semantic.DeepEqual(e, a) { t.Errorf("%v: unexpected command: expected %v, got %v", tc.name, e, a) } } } // verifyPods returns true if the two pod slices are equal. func verifyPods(a, b []*kubecontainer.Pod) bool { if len(a) != len(b) { return false } // Sort the containers within a pod. for i := range a { sort.Sort(containersByID(a[i].Containers)) } for i := range b { sort.Sort(containersByID(b[i].Containers)) } // Sort the pods by UID. sort.Sort(podsByID(a)) sort.Sort(podsByID(b)) return reflect.DeepEqual(a, b) } func TestGetPods(t *testing.T) { manager, fakeDocker := newTestDockerManager() dockerContainers := []*FakeContainer{ { ID: "1111", Name: "/k8s_foo_qux_new_1234_42", }, { ID: "2222", Name: "/k8s_bar_qux_new_1234_42", }, { ID: "3333", Name: "/k8s_bar_jlk_wen_5678_42", }, } // Convert the docker containers. This does not affect the test coverage // because the conversion is tested separately in convert_test.go containers := make([]*kubecontainer.Container, len(dockerContainers)) for i := range containers { c, err := toRuntimeContainer(&dockertypes.Container{ ID: dockerContainers[i].ID, Names: []string{dockerContainers[i].Name}, }) if err != nil { t.Fatalf("unexpected error %v", err) } containers[i] = c } expected := []*kubecontainer.Pod{ { ID: kubetypes.UID("1234"), Name: "qux", Namespace: "new", Containers: []*kubecontainer.Container{containers[0], containers[1]}, }, { ID: kubetypes.UID("5678"), Name: "jlk", Namespace: "wen", Containers: []*kubecontainer.Container{containers[2]}, }, } fakeDocker.SetFakeRunningContainers(dockerContainers) actual, err := manager.GetPods(false) if err != nil { t.Fatalf("unexpected error %v", err) } if !verifyPods(expected, actual) { t.Errorf("expected %#v, got %#v", expected, actual) } } func TestListImages(t *testing.T) { manager, fakeDocker := newTestDockerManager() dockerImages := []dockertypes.Image{{ID: "1111"}, {ID: "2222"}, {ID: "3333"}} expected := sets.NewString([]string{"1111", "2222", "3333"}...) fakeDocker.Images = dockerImages actualImages, err := manager.ListImages() if err != nil { t.Fatalf("unexpected error %v", err) } actual := sets.NewString() for _, i := range actualImages { actual.Insert(i.ID) } // We can compare the two sets directly because util.StringSet.List() // returns a "sorted" list. if !reflect.DeepEqual(expected.List(), actual.List()) { t.Errorf("expected %#v, got %#v", expected.List(), actual.List()) } } func TestDeleteImage(t *testing.T) { manager, fakeDocker := newTestDockerManager() fakeDocker.InjectImages([]dockertypes.Image{{ID: "1111", RepoTags: []string{"foo"}}}) manager.RemoveImage(kubecontainer.ImageSpec{Image: "1111"}) fakeDocker.AssertCallDetails(NewCalledDetail("inspect_image", nil), NewCalledDetail("remove_image", []interface{}{"1111", dockertypes.ImageRemoveOptions{PruneChildren: true}})) } func TestDeleteImageWithMultipleTags(t *testing.T) { manager, fakeDocker := newTestDockerManager() fakeDocker.InjectImages([]dockertypes.Image{{ID: "1111", RepoTags: []string{"foo", "bar"}}}) manager.RemoveImage(kubecontainer.ImageSpec{Image: "1111"}) fakeDocker.AssertCallDetails(NewCalledDetail("inspect_image", nil), NewCalledDetail("remove_image", []interface{}{"foo", dockertypes.ImageRemoveOptions{PruneChildren: true}}), NewCalledDetail("remove_image", []interface{}{"bar", dockertypes.ImageRemoveOptions{PruneChildren: true}})) } func TestKillContainerInPod(t *testing.T) { manager, fakeDocker := newTestDockerManager() pod := makePod("qux", nil) containers := []*FakeContainer{ { ID: "1111", Name: "/k8s_foo_qux_new_1234_42", }, { ID: "2222", Name: "/k8s_bar_qux_new_1234_42", }, } containerToKill := containers[0] containerToSpare := containers[1] fakeDocker.SetFakeRunningContainers(containers) if err := manager.KillContainerInPod(kubecontainer.ContainerID{}, &pod.Spec.Containers[0], pod, "test kill container in pod.", nil); err != nil { t.Errorf("unexpected error: %v", err) } // Assert the container has been stopped. if err := fakeDocker.AssertStopped([]string{containerToKill.ID}); err != nil { t.Errorf("container was not stopped correctly: %v", err) } // Assert the container has been spared. if err := fakeDocker.AssertStopped([]string{containerToSpare.ID}); err == nil { t.Errorf("container unexpectedly stopped: %v", containerToSpare.ID) } } func TestKillContainerInPodWithPreStop(t *testing.T) { manager, fakeDocker := newTestDockerManager() fakeDocker.ExecInspect = &dockertypes.ContainerExecInspect{ Running: false, ExitCode: 0, } expectedCmd := []string{"foo.sh", "bar"} pod := makePod("qux", &v1.PodSpec{ Containers: []v1.Container{ { Name: "foo", Lifecycle: &v1.Lifecycle{ PreStop: &v1.Handler{ Exec: &v1.ExecAction{ Command: expectedCmd, }, }, }, }, {Name: "bar"}}}) podString, err := runtime.Encode(testapi.Default.Codec(), pod) if err != nil { t.Errorf("unexpected error: %v", err) } containers := []*FakeContainer{ { ID: "1111", Name: "/k8s_foo_qux_new_1234_42", Config: &dockercontainer.Config{ Labels: map[string]string{ kubernetesPodLabel: string(podString), types.KubernetesContainerNameLabel: "foo", }, }, }, { ID: "2222", Name: "/k8s_bar_qux_new_1234_42", }, } containerToKill := containers[0] fakeDocker.SetFakeRunningContainers(containers) if err := manager.KillContainerInPod(kubecontainer.ContainerID{}, &pod.Spec.Containers[0], pod, "test kill container with preStop.", nil); err != nil { t.Errorf("unexpected error: %v", err) } // Assert the container has been stopped. if err := fakeDocker.AssertStopped([]string{containerToKill.ID}); err != nil { t.Errorf("container was not stopped correctly: %v", err) } verifyCalls(t, fakeDocker, []string{"list", "inspect_container", "create_exec", "start_exec", "stop"}) if !reflect.DeepEqual(expectedCmd, fakeDocker.execCmd) { t.Errorf("expected: %v, got %v", expectedCmd, fakeDocker.execCmd) } } func TestKillContainerInPodWithError(t *testing.T) { manager, fakeDocker := newTestDockerManager() pod := makePod("qux", nil) containers := []*FakeContainer{ { ID: "1111", Name: "/k8s_foo_qux_new_1234_42", }, { ID: "2222", Name: "/k8s_bar_qux_new_1234_42", }, } fakeDocker.SetFakeRunningContainers(containers) fakeDocker.InjectError("stop", fmt.Errorf("sample error")) if err := manager.KillContainerInPod(kubecontainer.ContainerID{}, &pod.Spec.Containers[0], pod, "test kill container with error.", nil); err == nil { t.Errorf("expected error, found nil") } } func TestIsAExitError(t *testing.T) { var err error err = &dockerExitError{nil} _, ok := err.(uexec.ExitError) if !ok { t.Error("couldn't cast dockerExitError to exec.ExitError") } } func generatePodInfraContainerHash(pod *v1.Pod) uint64 { var ports []v1.ContainerPort if pod.Spec.SecurityContext == nil || !pod.Spec.HostNetwork { for _, container := range pod.Spec.Containers { ports = append(ports, container.Ports...) } } container := &v1.Container{ Name: PodInfraContainerName, Image: "", Ports: ports, ImagePullPolicy: podInfraContainerImagePullPolicy, } return kubecontainer.HashContainerLegacy(container) } // runSyncPod is a helper function to retrieve the running pods from the fake // docker client and runs SyncPod for the given pod. func runSyncPod(t *testing.T, dm *DockerManager, fakeDocker *FakeDockerClient, pod *v1.Pod, backOff *flowcontrol.Backoff, expectErr bool) kubecontainer.PodSyncResult { podStatus, err := dm.GetPodStatus(pod.UID, pod.Name, pod.Namespace) if err != nil { t.Errorf("unexpected error: %v", err) } fakeDocker.ClearCalls() if backOff == nil { backOff = flowcontrol.NewBackOff(time.Second, time.Minute) } // v1.PodStatus is not used in SyncPod now, pass in an empty one. result := dm.SyncPod(pod, v1.PodStatus{}, podStatus, []v1.Secret{}, backOff) err = result.Error() if err != nil && !expectErr { t.Errorf("unexpected error: %v", err) } else if err == nil && expectErr { t.Errorf("expected error didn't occur") } return result } func TestSyncPodCreateNetAndContainer(t *testing.T) { dm, fakeDocker := newTestDockerManager() dm.podInfraContainerImage = "pod_infra_image" pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar"}, }, }) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create pod infra container. "create", "start", "inspect_container", "inspect_container", // Create container. "create", "start", "inspect_container", }) fakeDocker.Lock() found := false for _, c := range fakeDocker.RunningContainerList { if c.Image == "pod_infra_image" && strings.HasPrefix(c.Names[0], "/k8s_POD") { found = true break } } if !found { t.Errorf("Custom pod infra container not found: %v", fakeDocker.RunningContainerList) } fakeDocker.Unlock() assert.NoError(t, fakeDocker.AssertCreatedByNameWithOrder([]string{"POD", "bar"})) } func TestSyncPodCreatesNetAndContainerPullsImage(t *testing.T) { dm, fakeDocker := newTestDockerManagerWithRealImageManager() dm.podInfraContainerImage = "foo/infra_image:v1" pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar", Image: "foo/something:v0", ImagePullPolicy: "IfNotPresent"}, }, }) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create pod infra container. "inspect_image", "pull", "inspect_image", "create", "start", "inspect_container", "inspect_container", // Create container. "inspect_image", "pull", "inspect_image", "create", "start", "inspect_container", }) assert.NoError(t, fakeDocker.AssertImagesPulled([]string{"foo/infra_image:v1", "foo/something:v0"})) assert.NoError(t, fakeDocker.AssertCreatedByNameWithOrder([]string{"POD", "bar"})) } func TestSyncPodWithPodInfraCreatesContainer(t *testing.T) { dm, fakeDocker := newTestDockerManager() pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar"}, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{{ ID: "9876", // Pod infra container. Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create container. "create", "start", "inspect_container", }) assert.NoError(t, fakeDocker.AssertCreatedByName([]string{"bar"})) } func TestSyncPodDeletesWithNoPodInfraContainer(t *testing.T) { dm, fakeDocker := newTestDockerManager() pod := makePod("foo1", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar1"}, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{{ ID: "1234", Name: "/k8s_bar1_foo1_new_12345678_0", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Kill the container since pod infra container is not running. "stop", // Create pod infra container. "create", "start", "inspect_container", "inspect_container", // Create container. "create", "start", "inspect_container", }) assert.NoError(t, fakeDocker.AssertStopped([]string{"1234"})) } func TestSyncPodDeletesDuplicate(t *testing.T) { dm, fakeDocker := newTestDockerManager() pod := makePod("bar", &v1.PodSpec{ Containers: []v1.Container{ {Name: "foo"}, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{ { ID: "1234", Name: "/k8s_foo_bar_new_12345678_1111", }, { ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_bar_new_12345678_2222", }, { ID: "4567", Name: "/k8s_foo_bar_new_12345678_3333", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Kill the duplicated container. "stop", }) // Expect one of the duplicates to be killed. if len(fakeDocker.Stopped) != 1 || (fakeDocker.Stopped[0] != "1234" && fakeDocker.Stopped[0] != "4567") { t.Errorf("Wrong containers were stopped: %v", fakeDocker.Stopped) } } func TestSyncPodBadHash(t *testing.T) { dm, fakeDocker := newTestDockerManager() pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar"}, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{ { ID: "1234", Name: "/k8s_bar.1234_foo_new_12345678_42", }, { ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_42", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Kill and restart the bad hash container. "stop", "create", "start", "inspect_container", }) if err := fakeDocker.AssertStopped([]string{"1234"}); err != nil { t.Errorf("%v", err) } } func TestSyncPodsUnhealthy(t *testing.T) { const ( unhealthyContainerID = "1234" infraContainerID = "9876" ) dm, fakeDocker := newTestDockerManager() pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{{Name: "unhealthy"}}, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{ { ID: unhealthyContainerID, Name: "/k8s_unhealthy_foo_new_12345678_42", }, { ID: infraContainerID, Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_42", }}) dm.livenessManager.Set(kubecontainer.DockerID(unhealthyContainerID).ContainerID(), proberesults.Failure, pod) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Kill the unhealthy container. "stop", // Restart the unhealthy container. "create", "start", "inspect_container", }) if err := fakeDocker.AssertStopped([]string{unhealthyContainerID}); err != nil { t.Errorf("%v", err) } } func TestSyncPodsDoesNothing(t *testing.T) { dm, fakeDocker := newTestDockerManager() container := v1.Container{Name: "bar"} pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ container, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{ { ID: "1234", Name: "/k8s_bar." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&container), 16) + "_foo_new_12345678_0", }, { ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{}) } func TestSyncPodWithRestartPolicy(t *testing.T) { dm, fakeDocker := newTestDockerManager() containers := []v1.Container{ {Name: "succeeded"}, {Name: "failed"}, } pod := makePod("foo", &v1.PodSpec{ Containers: containers, }) dockerContainers := []*FakeContainer{ { ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", StartedAt: time.Now(), Running: true, }, { ID: "1234", Name: "/k8s_succeeded." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&containers[0]), 16) + "_foo_new_12345678_0", ExitCode: 0, StartedAt: time.Now(), FinishedAt: time.Now(), }, { ID: "5678", Name: "/k8s_failed." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&containers[1]), 16) + "_foo_new_12345678_0", ExitCode: 42, StartedAt: time.Now(), FinishedAt: time.Now(), }} tests := []struct { policy v1.RestartPolicy calls []string created []string stopped []string }{ { v1.RestartPolicyAlways, []string{ // Restart both containers. "create", "start", "inspect_container", "create", "start", "inspect_container", }, []string{"succeeded", "failed"}, []string{}, }, { v1.RestartPolicyOnFailure, []string{ // Restart the failed container. "create", "start", "inspect_container", }, []string{"failed"}, []string{}, }, { v1.RestartPolicyNever, []string{ // Check the pod infra container. "inspect_container", "inspect_container", // Stop the last pod infra container. "stop", }, []string{}, []string{"9876"}, }, } for i, tt := range tests { fakeDocker.SetFakeContainers(dockerContainers) pod.Spec.RestartPolicy = tt.policy runSyncPod(t, dm, fakeDocker, pod, nil, false) // 'stop' is because the pod infra container is killed when no container is running. verifyCalls(t, fakeDocker, tt.calls) if err := fakeDocker.AssertCreatedByName(tt.created); err != nil { t.Errorf("case [%d]: %v", i, err) } if err := fakeDocker.AssertStopped(tt.stopped); err != nil { t.Errorf("case [%d]: %v", i, err) } } } func TestSyncPodBackoff(t *testing.T) { var fakeClock = clock.NewFakeClock(time.Now()) startTime := fakeClock.Now() dm, fakeDocker := newTestDockerManager() containers := []v1.Container{ {Name: "good"}, {Name: "bad"}, } pod := makePod("podfoo", &v1.PodSpec{ Containers: containers, }) stableId := "k8s_bad." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&containers[1]), 16) + "_podfoo_new_12345678" dockerContainers := []*FakeContainer{ { ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_podfoo_new_12345678_0", StartedAt: startTime, Running: true, }, { ID: "1234", Name: "/k8s_good." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&containers[0]), 16) + "_podfoo_new_12345678_0", StartedAt: startTime, Running: true, }, { ID: "5678", Name: "/k8s_bad." + strconv.FormatUint(kubecontainer.HashContainerLegacy(&containers[1]), 16) + "_podfoo_new_12345678_0", ExitCode: 42, StartedAt: startTime, FinishedAt: fakeClock.Now(), }, } startCalls := []string{"create", "start", "inspect_container"} backOffCalls := []string{} startResult := &kubecontainer.SyncResult{Action: kubecontainer.StartContainer, Target: "bad", Error: nil, Message: ""} backoffResult := &kubecontainer.SyncResult{Action: kubecontainer.StartContainer, Target: "bad", Error: kubecontainer.ErrCrashLoopBackOff, Message: ""} tests := []struct { tick int backoff int killDelay int result []string expectErr bool }{ {1, 1, 1, startCalls, false}, {2, 2, 2, startCalls, false}, {3, 2, 3, backOffCalls, true}, {4, 4, 4, startCalls, false}, {5, 4, 5, backOffCalls, true}, {6, 4, 6, backOffCalls, true}, {7, 4, 7, backOffCalls, true}, {8, 8, 129, startCalls, false}, {130, 1, 0, startCalls, false}, } backOff := flowcontrol.NewBackOff(time.Second, time.Minute) backOff.Clock = fakeClock for _, c := range tests { fakeDocker.SetFakeContainers(dockerContainers) fakeClock.SetTime(startTime.Add(time.Duration(c.tick) * time.Second)) result := runSyncPod(t, dm, fakeDocker, pod, backOff, c.expectErr) verifyCalls(t, fakeDocker, c.result) // Verify whether the correct sync pod result is generated if c.expectErr { verifySyncResults(t, []*kubecontainer.SyncResult{backoffResult}, result) } else { verifySyncResults(t, []*kubecontainer.SyncResult{startResult}, result) } if backOff.Get(stableId) != time.Duration(c.backoff)*time.Second { t.Errorf("At tick %s expected backoff=%s got=%s", time.Duration(c.tick)*time.Second, time.Duration(c.backoff)*time.Second, backOff.Get(stableId)) } if len(fakeDocker.Created) > 0 { // pretend kill the container fakeDocker.Created = nil dockerContainers[2].FinishedAt = startTime.Add(time.Duration(c.killDelay) * time.Second) } } } func TestGetRestartCount(t *testing.T) { dm, fakeDocker := newTestDockerManager() containerName := "bar" pod := *makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: containerName}, }, RestartPolicy: "Always", }) pod.Status = v1.PodStatus{ ContainerStatuses: []v1.ContainerStatus{ { Name: containerName, RestartCount: 3, }, }, } // Helper function for verifying the restart count. verifyRestartCount := func(pod *v1.Pod, expectedCount int) { runSyncPod(t, dm, fakeDocker, pod, nil, false) status, err := dm.GetPodStatus(pod.UID, pod.Name, pod.Namespace) if err != nil { t.Fatalf("unexpected error %v", err) } cs := status.FindContainerStatusByName(containerName) if cs == nil { t.Fatalf("Can't find status for container %q", containerName) } restartCount := cs.RestartCount if restartCount != expectedCount { t.Errorf("expected %d restart count, got %d", expectedCount, restartCount) } } killOneContainer := func(pod *v1.Pod) { status, err := dm.GetPodStatus(pod.UID, pod.Name, pod.Namespace) if err != nil { t.Fatalf("unexpected error %v", err) } cs := status.FindContainerStatusByName(containerName) if cs == nil { t.Fatalf("Can't find status for container %q", containerName) } dm.KillContainerInPod(cs.ID, &pod.Spec.Containers[0], pod, "test container restart count.", nil) } // Container "bar" starts the first time. // TODO: container lists are expected to be sorted reversely by time. // We should fix FakeDockerClient to sort the list before returning. // (randome-liu) Just partially sorted now. verifyRestartCount(&pod, 0) killOneContainer(&pod) // Poor container "bar" has been killed, and should be restarted with restart count 1 verifyRestartCount(&pod, 1) killOneContainer(&pod) // Poor container "bar" has been killed again, and should be restarted with restart count 2 verifyRestartCount(&pod, 2) killOneContainer(&pod) // Poor container "bar" has been killed again ang again, and should be restarted with restart count 3 verifyRestartCount(&pod, 3) // The oldest container has been garbage collected exitedContainers := fakeDocker.ExitedContainerList fakeDocker.ExitedContainerList = exitedContainers[:len(exitedContainers)-1] verifyRestartCount(&pod, 3) // The last two oldest containers have been garbage collected fakeDocker.ExitedContainerList = exitedContainers[:len(exitedContainers)-2] verifyRestartCount(&pod, 3) // All exited containers have been garbage collected, restart count should be got from old api pod status fakeDocker.ExitedContainerList = []dockertypes.Container{} verifyRestartCount(&pod, 3) killOneContainer(&pod) // Poor container "bar" has been killed again ang again and again, and should be restarted with restart count 4 verifyRestartCount(&pod, 4) } func TestGetTerminationMessagePath(t *testing.T) { dm, fakeDocker := newTestDockerManager() containers := []v1.Container{ { Name: "bar", TerminationMessagePath: "/dev/somepath", }, } pod := makePod("foo", &v1.PodSpec{ Containers: containers, }) runSyncPod(t, dm, fakeDocker, pod, nil, false) containerList := fakeDocker.RunningContainerList if len(containerList) != 2 { // One for infra container, one for container "bar" t.Fatalf("unexpected container list length %d", len(containerList)) } inspectResult, err := fakeDocker.InspectContainer(containerList[0].ID) if err != nil { t.Fatalf("unexpected inspect error: %v", err) } containerInfo := getContainerInfoFromLabel(inspectResult.Config.Labels) terminationMessagePath := containerInfo.TerminationMessagePath if terminationMessagePath != containers[0].TerminationMessagePath { t.Errorf("expected termination message path %s, got %s", containers[0].TerminationMessagePath, terminationMessagePath) } } func TestSyncPodWithPodInfraCreatesContainerCallsHandler(t *testing.T) { fakeHTTPClient := &fakeHTTP{} dm, fakeDocker := newTestDockerManagerWithHTTPClient(fakeHTTPClient) pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ { Name: "bar", Lifecycle: &v1.Lifecycle{ PostStart: &v1.Handler{ HTTPGet: &v1.HTTPGetAction{ Host: "foo", Port: intstr.FromInt(8080), Path: "bar", }, }, }, }, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{{ ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", }}) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create container. "create", "start", "inspect_container", }) assert.NoError(t, fakeDocker.AssertCreatedByName([]string{"bar"})) if fakeHTTPClient.url != "http://foo:8080/bar" { t.Errorf("unexpected handler: %q", fakeHTTPClient.url) } } func TestSyncPodEventHandlerFails(t *testing.T) { // Simulate HTTP failure. fakeHTTPClient := &fakeHTTP{err: fmt.Errorf("test error")} dm, fakeDocker := newTestDockerManagerWithHTTPClient(fakeHTTPClient) pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar", Lifecycle: &v1.Lifecycle{ PostStart: &v1.Handler{ HTTPGet: &v1.HTTPGetAction{ Host: "does.no.exist", Port: intstr.FromInt(8080), Path: "bar", }, }, }, }, }, }) fakeDocker.SetFakeRunningContainers([]*FakeContainer{{ ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", }}) runSyncPod(t, dm, fakeDocker, pod, nil, true) verifyCalls(t, fakeDocker, []string{ // Create the container. "create", "start", // Kill the container since event handler fails. "stop", }) assert.NoError(t, fakeDocker.AssertStoppedByName([]string{"bar"})) } type fakeReadWriteCloser struct{} func (*fakeReadWriteCloser) Read([]byte) (int, error) { return 0, nil } func (*fakeReadWriteCloser) Write([]byte) (int, error) { return 0, nil } func (*fakeReadWriteCloser) Close() error { return nil } func TestPortForwardNoSuchContainer(t *testing.T) { dm, _ := newTestDockerManager() podName, podNamespace := "podName", "podNamespace" err := dm.PortForward( &kubecontainer.Pod{ ID: "podID", Name: podName, Namespace: podNamespace, Containers: nil, }, 5000, // need a valid io.ReadWriteCloser here &fakeReadWriteCloser{}, ) if err == nil { t.Fatal("unexpected non-error") } expectedErr := noPodInfraContainerError(podName, podNamespace) if !reflect.DeepEqual(err, expectedErr) { t.Fatalf("expected %v, but saw %v", expectedErr, err) } } func TestSyncPodWithTerminationLog(t *testing.T) { dm, fakeDocker := newTestDockerManager() // Set test pod container directory. testPodContainerDir := "test/pod/container/dir" dm.runtimeHelper.(*containertest.FakeRuntimeHelper).PodContainerDir = testPodContainerDir container := v1.Container{ Name: "bar", TerminationMessagePath: "/dev/somepath", } pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ container, }, }) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create pod infra container. "create", "start", "inspect_container", "inspect_container", // Create container. "create", "start", "inspect_container", }) defer os.Remove(testPodContainerDir) assert.NoError(t, fakeDocker.AssertCreatedByNameWithOrder([]string{"POD", "bar"})) newContainer, err := fakeDocker.InspectContainer(fakeDocker.Created[1]) if err != nil { t.Fatalf("unexpected error %v", err) } parts := strings.Split(newContainer.HostConfig.Binds[0], ":") if !matchString(t, testPodContainerDir+"/[a-f0-9]", parts[0]) { t.Errorf("unexpected host path: %s", parts[0]) } if parts[1] != "/dev/somepath" { t.Errorf("unexpected container path: %s", parts[1]) } } func TestSyncPodWithHostNetwork(t *testing.T) { dm, fakeDocker := newTestDockerManager() pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar"}, }, HostNetwork: true, }) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create pod infra container. "create", "start", "inspect_container", // Create container. "create", "start", "inspect_container", }) assert.NoError(t, fakeDocker.AssertCreatedByNameWithOrder([]string{"POD", "bar"})) newContainer, err := fakeDocker.InspectContainer(fakeDocker.Created[1]) if err != nil { t.Fatalf("unexpected error %v", err) } utsMode := newContainer.HostConfig.UTSMode if utsMode != "host" { t.Errorf("Pod with host network must have \"host\" utsMode, actual: \"%v\"", utsMode) } } func TestVerifyNonRoot(t *testing.T) { dm, fakeDocker := newTestDockerManager() // setup test cases. var rootUid int64 = 0 var nonRootUid int64 = 1 tests := map[string]struct { container *v1.Container inspectImage *dockertypes.ImageInspect expectedError string }{ // success cases "non-root runAsUser": { container: &v1.Container{ Image: "foobar", SecurityContext: &v1.SecurityContext{ RunAsUser: &nonRootUid, }, }, }, "numeric non-root image user": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ ID: "foobar", Config: &dockercontainer.Config{ User: "1", }, }, }, "numeric non-root image user with gid": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ ID: "foobar", Config: &dockercontainer.Config{ User: "1:2", }, }, }, // failure cases "root runAsUser": { container: &v1.Container{ Image: "foobar", SecurityContext: &v1.SecurityContext{ RunAsUser: &rootUid, }, }, expectedError: "container's runAsUser breaks non-root policy", }, "non-numeric image user": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ ID: "foobar", Config: &dockercontainer.Config{ User: "foo", }, }, expectedError: "non-numeric user", }, "numeric root image user": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ ID: "foobar", Config: &dockercontainer.Config{ User: "0", }, }, expectedError: "container has no runAsUser and image will run as root", }, "numeric root image user with gid": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ ID: "foobar", Config: &dockercontainer.Config{ User: "0:1", }, }, expectedError: "container has no runAsUser and image will run as root", }, "nil image in inspect": { container: &v1.Container{Image: "foobar"}, inspectImage: nil, expectedError: ImageNotFoundError{"foobar"}.Error(), }, "nil config in image inspect": { container: &v1.Container{Image: "foobar"}, inspectImage: &dockertypes.ImageInspect{ID: "foobar"}, expectedError: "unable to inspect image", }, } for k, v := range tests { fakeDocker.ResetImages() if v.inspectImage != nil { fakeDocker.InjectImageInspects([]dockertypes.ImageInspect{*v.inspectImage}) } err := dm.verifyNonRoot(v.container) if v.expectedError == "" && err != nil { t.Errorf("case[%q]: unexpected error: %v", k, err) } if v.expectedError != "" && !strings.Contains(err.Error(), v.expectedError) { t.Errorf("case[%q]: expected: %q, got: %q", k, v.expectedError, err.Error()) } } } func TestGetUserFromImageUser(t *testing.T) { tests := map[string]struct { input string expect string }{ "no gid": { input: "0", expect: "0", }, "uid/gid": { input: "0:1", expect: "0", }, "empty input": { input: "", expect: "", }, "multiple spearators": { input: "1:2:3", expect: "1", }, "root username": { input: "root:root", expect: "root", }, "username": { input: "test:test", expect: "test", }, } for k, v := range tests { actual := GetUserFromImageUser(v.input) if actual != v.expect { t.Errorf("%s failed. Expected %s but got %s", k, v.expect, actual) } } } func TestGetPidMode(t *testing.T) { // test false pod := &v1.Pod{} pidMode := getPidMode(pod) if pidMode != "" { t.Errorf("expected empty pid mode for pod but got %v", pidMode) } // test true pod.Spec.SecurityContext = &v1.PodSecurityContext{} pod.Spec.HostPID = true pidMode = getPidMode(pod) if pidMode != "host" { t.Errorf("expected host pid mode for pod but got %v", pidMode) } } func TestGetIPCMode(t *testing.T) { // test false pod := &v1.Pod{} ipcMode := getIPCMode(pod) if ipcMode != "" { t.Errorf("expected empty ipc mode for pod but got %v", ipcMode) } // test true pod.Spec.SecurityContext = &v1.PodSecurityContext{} pod.Spec.HostIPC = true ipcMode = getIPCMode(pod) if ipcMode != "host" { t.Errorf("expected host ipc mode for pod but got %v", ipcMode) } } func TestSyncPodWithPullPolicy(t *testing.T) { dm, fakeDocker := newTestDockerManagerWithRealImageManager() fakeDocker.InjectImages([]dockertypes.Image{{ID: "foo/existing_one:v1"}, {ID: "foo/want:latest"}}) dm.podInfraContainerImage = "foo/infra_image:v1" pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar", Image: "foo/pull_always_image:v1", ImagePullPolicy: v1.PullAlways}, {Name: "bar2", Image: "foo/pull_if_not_present_image:v1", ImagePullPolicy: v1.PullIfNotPresent}, {Name: "bar3", Image: "foo/existing_one:v1", ImagePullPolicy: v1.PullIfNotPresent}, {Name: "bar4", Image: "foo/want:latest", ImagePullPolicy: v1.PullIfNotPresent}, {Name: "bar5", Image: "foo/pull_never_image:v1", ImagePullPolicy: v1.PullNever}, }, }) expectedResults := []*kubecontainer.SyncResult{ //Sync result for infra container {kubecontainer.StartContainer, PodInfraContainerName, nil, ""}, {kubecontainer.SetupNetwork, kubecontainer.GetPodFullName(pod), nil, ""}, //Sync result for user containers {kubecontainer.StartContainer, "bar", nil, ""}, {kubecontainer.StartContainer, "bar2", nil, ""}, {kubecontainer.StartContainer, "bar3", nil, ""}, {kubecontainer.StartContainer, "bar4", nil, ""}, {kubecontainer.StartContainer, "bar5", images.ErrImageNeverPull, "Container image \"foo/pull_never_image:v1\" is not present with pull policy of Never"}, } result := runSyncPod(t, dm, fakeDocker, pod, nil, true) verifySyncResults(t, expectedResults, result) assert.NoError(t, fakeDocker.AssertImagesPulled([]string{"foo/infra_image:v1", "foo/pull_always_image:v1", "foo/pull_if_not_present_image:v1"})) fakeDocker.Lock() defer fakeDocker.Unlock() if len(fakeDocker.Created) != 5 { t.Errorf("unexpected containers created %v", fakeDocker.Created) } } // This test only covers SyncPod with PullImageFailure, CreateContainerFailure and StartContainerFailure. // There are still quite a few failure cases not covered. // TODO(random-liu): Better way to test the SyncPod failures. func TestSyncPodWithFailure(t *testing.T) { pod := makePod("foo", nil) tests := map[string]struct { container v1.Container dockerError map[string]error expected []*kubecontainer.SyncResult }{ "PullImageFailure": { v1.Container{Name: "bar", Image: "foo/real_image:v1", ImagePullPolicy: v1.PullAlways}, map[string]error{"pull": fmt.Errorf("can't pull image")}, []*kubecontainer.SyncResult{{kubecontainer.StartContainer, "bar", images.ErrImagePull, "can't pull image"}}, }, "CreateContainerFailure": { v1.Container{Name: "bar", Image: "foo/already_present:v2"}, map[string]error{"create": fmt.Errorf("can't create container")}, []*kubecontainer.SyncResult{{kubecontainer.StartContainer, "bar", kubecontainer.ErrRunContainer, "can't create container"}}, }, "StartContainerFailure": { v1.Container{Name: "bar", Image: "foo/already_present:v2"}, map[string]error{"start": fmt.Errorf("can't start container")}, []*kubecontainer.SyncResult{{kubecontainer.StartContainer, "bar", kubecontainer.ErrRunContainer, "can't start container"}}, }, } for _, test := range tests { dm, fakeDocker := newTestDockerManagerWithRealImageManager() fakeDocker.InjectImages([]dockertypes.Image{{ID: test.container.Image}}) // Pretend that the pod infra container has already been created, so that // we can run the user containers. fakeDocker.SetFakeRunningContainers([]*FakeContainer{{ ID: "9876", Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_0", }}) fakeDocker.InjectErrors(test.dockerError) pod.Spec.Containers = []v1.Container{test.container} result := runSyncPod(t, dm, fakeDocker, pod, nil, true) verifySyncResults(t, test.expected, result) } } // Verify whether all the expected results appear exactly only once in real result. func verifySyncResults(t *testing.T, expectedResults []*kubecontainer.SyncResult, realResult kubecontainer.PodSyncResult) { if len(expectedResults) != len(realResult.SyncResults) { t.Errorf("expected sync result number %d, got %d", len(expectedResults), len(realResult.SyncResults)) for _, r := range expectedResults { t.Errorf("expected result: %#v", r) } for _, r := range realResult.SyncResults { t.Errorf("real result: %+v", r) } return } // The container start order is not fixed, because SyncPod() uses a map to store the containers to start. // Here we should make sure each expected result appears only once in the real result. for _, expectR := range expectedResults { found := 0 for _, realR := range realResult.SyncResults { // For the same action of the same container, the result should be the same if realR.Target == expectR.Target && realR.Action == expectR.Action { // We use Contains() here because the message format may be changed, but at least we should // make sure that the expected message is contained. if realR.Error != expectR.Error || !strings.Contains(realR.Message, expectR.Message) { t.Errorf("expected sync result %#v, got %+v", expectR, realR) } found++ } } if found == 0 { t.Errorf("not found expected result %#v", expectR) } if found > 1 { t.Errorf("got %d duplicate expected result %#v", found, expectR) } } } func TestGetDockerOptSeparator(t *testing.T) { dm110, _ := newTestDockerManagerWithVersion("1.10.1", "1.22") dm111, _ := newTestDockerManagerWithVersion("1.11.0", "1.23") sep, err := dm110.getDockerOptSeparator() require.NoError(t, err, "error getting docker opt separator for 1.10.1") assert.Equal(t, SecurityOptSeparatorOld, sep, "security opt separator for docker 1.10") sep, err = dm111.getDockerOptSeparator() require.NoError(t, err, "error getting docker opt separator for 1.11.1") assert.Equal(t, SecurityOptSeparatorNew, sep, "security opt separator for docker 1.11") } func TestFmtDockerOpts(t *testing.T) { secOpts := []dockerOpt{{"seccomp", "unconfined", ""}} opts := FmtDockerOpts(secOpts, ':') assert.Len(t, opts, 1) assert.Contains(t, opts, "seccomp:unconfined", "Docker 1.10") opts = FmtDockerOpts(secOpts, '=') assert.Len(t, opts, 1) assert.Contains(t, opts, "seccomp=unconfined", "Docker 1.11") } func TestCheckVersionCompatibility(t *testing.T) { type test struct { version string compatible bool } tests := []test{ // Minimum apiversion {minimumDockerAPIVersion, true}, // Invalid apiversion {"invalid_api_version", false}, // Older apiversion {"1.0.0", false}, // Newer apiversion // NOTE(random-liu): We need to bump up the newer apiversion, // if docker apiversion really reaches "9.9.9" someday. But I // really doubt whether the test could live that long. {"9.9.9", true}, } for i, tt := range tests { testCase := fmt.Sprintf("test case #%d test version %q", i, tt.version) dm, fakeDocker := newTestDockerManagerWithVersion("", tt.version) err := dm.checkVersionCompatibility() assert.Equal(t, tt.compatible, err == nil, testCase) if tt.compatible == true { // Get docker version error fakeDocker.InjectError("version", fmt.Errorf("injected version error")) err := dm.checkVersionCompatibility() assert.NotNil(t, err, testCase+" version error check") } } } func expectEvent(recorder *record.FakeRecorder, eventType, reason, msg string) error { expected := fmt.Sprintf("%s %s %s", eventType, reason, msg) var events []string // Drain the event channel. for { select { case event := <-recorder.Events: if event == expected { return nil } events = append(events, event) default: // No more events! return fmt.Errorf("Event %q not found in [%s]", expected, strings.Join(events, ", ")) } } } func TestNewDockerVersion(t *testing.T) { cases := []struct { value string out string err bool }{ {value: "1", err: true}, {value: "1.8", err: true}, {value: "1.8.1", out: "1.8.1"}, {value: "1.8.1-fc21.other", out: "1.8.1-fc21.other"}, {value: "1.8.1-beta.12", out: "1.8.1-beta.12"}, } for _, test := range cases { v, err := newDockerVersion(test.value) switch { case err != nil && test.err: continue case (err != nil) != test.err: t.Errorf("error for %q: expected %t, got %v", test.value, test.err, err) continue } if v.String() != test.out { t.Errorf("unexpected parsed version %q for %q", v, test.value) } } } func TestDockerVersionComparison(t *testing.T) { v, err := newDockerVersion("1.10.3") assert.NoError(t, err) for i, test := range []struct { version string compare int err bool }{ {version: "1.9.2", compare: 1}, {version: "1.9.2-rc2", compare: 1}, {version: "1.10.3", compare: 0}, {version: "1.10.3-rc3", compare: 1}, {version: "1.10.4", compare: -1}, {version: "1.10.4-rc1", compare: -1}, {version: "1.11.1", compare: -1}, {version: "1.11.1-rc4", compare: -1}, {version: "invalid", err: true}, } { testCase := fmt.Sprintf("test case #%d test version %q", i, test.version) res, err := v.Compare(test.version) assert.Equal(t, test.err, err != nil, testCase) if !test.err { assert.Equal(t, test.compare, res, testCase) } } } func TestVersion(t *testing.T) { expectedVersion := "1.8.1" expectedAPIVersion := "1.20" dm, _ := newTestDockerManagerWithVersion(expectedVersion, expectedAPIVersion) version, err := dm.Version() if err != nil { t.Errorf("got error while getting docker server version - %v", err) } if e, a := expectedVersion, version.String(); e != a { t.Errorf("expect docker server version %q, got %q", e, a) } apiVersion, err := dm.APIVersion() if err != nil { t.Errorf("got error while getting docker api version - %v", err) } if e, a := expectedAPIVersion, apiVersion.String(); e != a { t.Errorf("expect docker api version %q, got %q", e, a) } } func TestGetPodStatusNoSuchContainer(t *testing.T) { const ( noSuchContainerID = "nosuchcontainer" infraContainerID = "9876" ) dm, fakeDocker := newTestDockerManager() pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{{Name: "nosuchcontainer"}}, }) fakeDocker.SetFakeContainers([]*FakeContainer{ { ID: noSuchContainerID, Name: "/k8s_nosuchcontainer_foo_new_12345678_42", ExitCode: 0, StartedAt: time.Now(), FinishedAt: time.Now(), Running: false, }, { ID: infraContainerID, Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_42", ExitCode: 0, StartedAt: time.Now(), FinishedAt: time.Now(), Running: false, }, }) fakeDocker.InjectErrors(map[string]error{"inspect_container": fmt.Errorf("Error: No such container: %s", noSuchContainerID)}) runSyncPod(t, dm, fakeDocker, pod, nil, false) // Verify that we will try to start new contrainers even if the inspections // failed. verifyCalls(t, fakeDocker, []string{ // Inspect dead infra container for possible network teardown "inspect_container", // Start a new infra container. "create", "start", "inspect_container", "inspect_container", // Start a new container. "create", "start", "inspect_container", }) } func TestSyncPodDeadInfraContainerTeardown(t *testing.T) { const ( noSuchContainerID = "nosuchcontainer" infraContainerID = "9876" ) dm, fakeDocker := newTestDockerManager() dm.podInfraContainerImage = "pod_infra_image" ctrl := gomock.NewController(t) defer ctrl.Finish() fnp := nettest.NewMockNetworkPlugin(ctrl) dm.network = network.NewPluginManager(fnp) pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{{Name: noSuchContainerID}}, }) fakeDocker.SetFakeContainers([]*FakeContainer{ { ID: infraContainerID, Name: "/k8s_POD." + strconv.FormatUint(generatePodInfraContainerHash(pod), 16) + "_foo_new_12345678_42", ExitCode: 0, StartedAt: time.Now(), FinishedAt: time.Now(), Running: false, }, }) // Can be called multiple times due to GetPodStatus fnp.EXPECT().Name().Return("someNetworkPlugin").AnyTimes() fnp.EXPECT().TearDownPod("new", "foo", gomock.Any()).Return(nil) fnp.EXPECT().GetPodNetworkStatus("new", "foo", gomock.Any()).Return(&network.PodNetworkStatus{IP: net.ParseIP("1.1.1.1")}, nil).AnyTimes() fnp.EXPECT().SetUpPod("new", "foo", gomock.Any()).Return(nil) runSyncPod(t, dm, fakeDocker, pod, nil, false) // Verify that we will try to start new contrainers even if the inspections // failed. verifyCalls(t, fakeDocker, []string{ // Inspect dead infra container for possible network teardown "inspect_container", // Start a new infra container. "create", "start", "inspect_container", "inspect_container", // Start a new container. "create", "start", "inspect_container", }) } func TestPruneInitContainers(t *testing.T) { dm, fake := newTestDockerManager() pod := makePod("", &v1.PodSpec{ InitContainers: []v1.Container{ {Name: "init1"}, {Name: "init2"}, }, }) status := &kubecontainer.PodStatus{ ContainerStatuses: []*kubecontainer.ContainerStatus{ {Name: "init2", ID: kubecontainer.ContainerID{ID: "init2-new-1"}, State: kubecontainer.ContainerStateExited}, {Name: "init1", ID: kubecontainer.ContainerID{ID: "init1-new-1"}, State: kubecontainer.ContainerStateExited}, {Name: "init1", ID: kubecontainer.ContainerID{ID: "init1-new-2"}, State: kubecontainer.ContainerStateExited}, {Name: "init1", ID: kubecontainer.ContainerID{ID: "init1-old-1"}, State: kubecontainer.ContainerStateExited}, {Name: "init2", ID: kubecontainer.ContainerID{ID: "init2-old-1"}, State: kubecontainer.ContainerStateExited}, }, } fake.ExitedContainerList = []dockertypes.Container{ {ID: "init1-new-1"}, {ID: "init1-new-2"}, {ID: "init1-old-1"}, {ID: "init2-new-1"}, {ID: "init2-old-1"}, } keep := map[kubecontainer.DockerID]int{} dm.pruneInitContainersBeforeStart(pod, status, keep) sort.Sort(sort.StringSlice(fake.Removed)) if !reflect.DeepEqual([]string{"init1-new-2", "init1-old-1", "init2-old-1"}, fake.Removed) { t.Fatal(fake.Removed) } } func TestSyncPodGetsPodIPFromNetworkPlugin(t *testing.T) { const ( containerID = "123" infraContainerID = "9876" fakePodIP = "10.10.10.10" ) dm, fakeDocker := newTestDockerManager() dm.podInfraContainerImage = "pod_infra_image" ctrl := gomock.NewController(t) defer ctrl.Finish() fnp := nettest.NewMockNetworkPlugin(ctrl) dm.network = network.NewPluginManager(fnp) pod := makePod("foo", &v1.PodSpec{ Containers: []v1.Container{ {Name: "bar"}, }, }) // Can be called multiple times due to GetPodStatus fnp.EXPECT().Name().Return("someNetworkPlugin").AnyTimes() fnp.EXPECT().GetPodNetworkStatus("new", "foo", gomock.Any()).Return(&network.PodNetworkStatus{IP: net.ParseIP(fakePodIP)}, nil).AnyTimes() fnp.EXPECT().SetUpPod("new", "foo", gomock.Any()).Return(nil) runSyncPod(t, dm, fakeDocker, pod, nil, false) verifyCalls(t, fakeDocker, []string{ // Create pod infra container. "create", "start", "inspect_container", "inspect_container", // Create container. "create", "start", "inspect_container", }) } // only test conditions "if inspect == nil || inspect.Config == nil || inspect.Config.Labels == nil" now func TestContainerAndPodFromLabels(t *testing.T) { tests := []struct { inspect *dockertypes.ContainerJSON expectedError error }{ { inspect: nil, expectedError: errNoPodOnContainer, }, { inspect: &dockertypes.ContainerJSON{}, expectedError: errNoPodOnContainer, }, { inspect: &dockertypes.ContainerJSON{ Config: &dockercontainer.Config{ Hostname: "foo", }, }, expectedError: errNoPodOnContainer, }, } for k, v := range tests { pod, container, err := containerAndPodFromLabels(v.inspect) if pod != nil || container != nil || err != v.expectedError { t.Errorf("case[%q]: expected: nil, nil, %v, got: %v, %v, %v", k, v.expectedError, pod, container, err) } } } func makePod(name string, spec *v1.PodSpec) *v1.Pod { if spec == nil { spec = &v1.PodSpec{Containers: []v1.Container{{Name: "foo"}, {Name: "bar"}}} } pod := &v1.Pod{ ObjectMeta: metav1.ObjectMeta{ UID: "12345678", Name: name, Namespace: "new", }, Spec: *spec, } return pod }