/* Copyright 2018 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 node import ( "context" "fmt" "time" v1 "k8s.io/api/core/v1" nodev1 "k8s.io/api/node/v1" apierrors "k8s.io/apimachinery/pkg/api/errors" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/fields" "k8s.io/apimachinery/pkg/labels" types "k8s.io/apimachinery/pkg/types" "k8s.io/apimachinery/pkg/util/wait" "k8s.io/apimachinery/pkg/watch" "k8s.io/kubernetes/pkg/kubelet/events" runtimeclasstest "k8s.io/kubernetes/pkg/kubelet/runtimeclass/testing" "k8s.io/kubernetes/test/e2e/framework" e2eevents "k8s.io/kubernetes/test/e2e/framework/events" e2eruntimeclass "k8s.io/kubernetes/test/e2e/framework/node/runtimeclass" e2epod "k8s.io/kubernetes/test/e2e/framework/pod" e2eskipper "k8s.io/kubernetes/test/e2e/framework/skipper" "k8s.io/kubernetes/test/e2e/nodefeature" admissionapi "k8s.io/pod-security-admission/api" "github.com/onsi/ginkgo/v2" "github.com/onsi/gomega" ) var _ = SIGDescribe("RuntimeClass", func() { f := framework.NewDefaultFramework("runtimeclass") f.NamespacePodSecurityLevel = admissionapi.LevelPrivileged /* Release: v1.20 Testname: Pod with the non-existing RuntimeClass is rejected. Description: The Pod requesting the non-existing RuntimeClass must be rejected. */ framework.ConformanceIt("should reject a Pod requesting a non-existent RuntimeClass", f.WithNodeConformance(), func(ctx context.Context) { rcName := f.Namespace.Name + "-nonexistent" expectPodRejection(ctx, f, e2eruntimeclass.NewRuntimeClassPod(rcName)) }) // The test CANNOT be made a Conformance as it depends on a container runtime to have a specific handler not being installed. f.It("should reject a Pod requesting a RuntimeClass with an unconfigured handler", nodefeature.RuntimeHandler, func(ctx context.Context) { handler := f.Namespace.Name + "-handler" rcName := createRuntimeClass(ctx, f, "unconfigured-handler", handler, nil) ginkgo.DeferCleanup(deleteRuntimeClass, f, rcName) pod := e2epod.NewPodClient(f).Create(ctx, e2eruntimeclass.NewRuntimeClassPod(rcName)) eventSelector := fields.Set{ "involvedObject.kind": "Pod", "involvedObject.name": pod.Name, "involvedObject.namespace": f.Namespace.Name, "reason": events.FailedCreatePodSandBox, }.AsSelector().String() // Events are unreliable, don't depend on the event. It's used only to speed up the test. err := e2eevents.WaitTimeoutForEvent(ctx, f.ClientSet, f.Namespace.Name, eventSelector, handler, framework.PodEventTimeout) if err != nil { framework.Logf("Warning: did not get event about FailedCreatePodSandBox. Err: %v", err) } // Check the pod is still not running p, err := f.ClientSet.CoreV1().Pods(f.Namespace.Name).Get(ctx, pod.Name, metav1.GetOptions{}) framework.ExpectNoError(err, "could not re-read the pod after event (or timeout)") gomega.Expect(p.Status.Phase).To(gomega.Equal(v1.PodPending), "Pod phase isn't pending") }) // This test requires that the PreconfiguredRuntimeClassHandler has already been set up on nodes. // The test CANNOT be made a Conformance as it depends on a container runtime to have a specific handler installed and working. f.It("should run a Pod requesting a RuntimeClass with a configured handler", nodefeature.RuntimeHandler, func(ctx context.Context) { if err := e2eruntimeclass.NodeSupportsPreconfiguredRuntimeClassHandler(ctx, f); err != nil { e2eskipper.Skipf("Skipping test as node does not have E2E runtime class handler preconfigured in container runtime config: %v", err) } rcName := createRuntimeClass(ctx, f, "preconfigured-handler", e2eruntimeclass.PreconfiguredRuntimeClassHandler, nil) ginkgo.DeferCleanup(deleteRuntimeClass, f, rcName) pod := e2epod.NewPodClient(f).Create(ctx, e2eruntimeclass.NewRuntimeClassPod(rcName)) expectPodSuccess(ctx, f, pod) }) /* Release: v1.20 Testname: Can schedule a pod requesting existing RuntimeClass. Description: The Pod requesting the existing RuntimeClass must be scheduled. This test doesn't validate that the Pod will actually start because this functionality depends on container runtime and preconfigured handler. Runtime-specific functionality is not being tested here. */ framework.ConformanceIt("should schedule a Pod requesting a RuntimeClass without PodOverhead", f.WithNodeConformance(), func(ctx context.Context) { rcName := createRuntimeClass(ctx, f, "preconfigured-handler", e2eruntimeclass.PreconfiguredRuntimeClassHandler, nil) ginkgo.DeferCleanup(deleteRuntimeClass, f, rcName) pod := e2epod.NewPodClient(f).Create(ctx, e2eruntimeclass.NewRuntimeClassPod(rcName)) // there is only one pod in the namespace label := labels.SelectorFromSet(labels.Set(map[string]string{})) pods, err := e2epod.WaitForPodsWithLabelScheduled(ctx, f.ClientSet, f.Namespace.Name, label) framework.ExpectNoError(err, "Failed to schedule Pod with the RuntimeClass") gomega.Expect(pods.Items).To(gomega.HaveLen(1)) scheduledPod := &pods.Items[0] gomega.Expect(scheduledPod.Name).To(gomega.Equal(pod.Name)) // Overhead should not be set gomega.Expect(scheduledPod.Spec.Overhead).To(gomega.BeEmpty()) }) /* Release: v1.24 Testname: RuntimeClass Overhead field must be respected. Description: The Pod requesting the existing RuntimeClass must be scheduled. This test doesn't validate that the Pod will actually start because this functionality depends on container runtime and preconfigured handler. Runtime-specific functionality is not being tested here. */ framework.ConformanceIt("should schedule a Pod requesting a RuntimeClass and initialize its Overhead", f.WithNodeConformance(), func(ctx context.Context) { rcName := createRuntimeClass(ctx, f, "preconfigured-handler", e2eruntimeclass.PreconfiguredRuntimeClassHandler, &nodev1.Overhead{ PodFixed: v1.ResourceList{ v1.ResourceName(v1.ResourceCPU): resource.MustParse("10m"), v1.ResourceName(v1.ResourceMemory): resource.MustParse("1Mi"), }, }) ginkgo.DeferCleanup(deleteRuntimeClass, f, rcName) pod := e2epod.NewPodClient(f).Create(ctx, e2eruntimeclass.NewRuntimeClassPod(rcName)) // there is only one pod in the namespace label := labels.SelectorFromSet(labels.Set(map[string]string{})) pods, err := e2epod.WaitForPodsWithLabelScheduled(ctx, f.ClientSet, f.Namespace.Name, label) framework.ExpectNoError(err, "Failed to schedule Pod with the RuntimeClass") gomega.Expect(pods.Items).To(gomega.HaveLen(1)) scheduledPod := &pods.Items[0] gomega.Expect(scheduledPod.Name).To(gomega.Equal(pod.Name)) gomega.Expect(scheduledPod.Spec.Overhead[v1.ResourceCPU]).To(gomega.Equal(resource.MustParse("10m"))) gomega.Expect(scheduledPod.Spec.Overhead[v1.ResourceMemory]).To(gomega.Equal(resource.MustParse("1Mi"))) }) /* Release: v1.20 Testname: Pod with the deleted RuntimeClass is rejected. Description: Pod requesting the deleted RuntimeClass must be rejected. */ framework.ConformanceIt("should reject a Pod requesting a deleted RuntimeClass", f.WithNodeConformance(), func(ctx context.Context) { rcName := createRuntimeClass(ctx, f, "delete-me", "runc", nil) rcClient := f.ClientSet.NodeV1().RuntimeClasses() ginkgo.By("Deleting RuntimeClass "+rcName, func() { err := rcClient.Delete(ctx, rcName, metav1.DeleteOptions{}) framework.ExpectNoError(err, "failed to delete RuntimeClass %s", rcName) ginkgo.By("Waiting for the RuntimeClass to disappear") framework.ExpectNoError(wait.PollImmediate(framework.Poll, time.Minute, func() (bool, error) { _, err := rcClient.Get(ctx, rcName, metav1.GetOptions{}) if apierrors.IsNotFound(err) { return true, nil // done } if err != nil { return true, err // stop wait with error } return false, nil })) }) expectPodRejection(ctx, f, e2eruntimeclass.NewRuntimeClassPod(rcName)) }) /* Release: v1.20 Testname: RuntimeClass API Description: The node.k8s.io API group MUST exist in the /apis discovery document. The node.k8s.io/v1 API group/version MUST exist in the /apis/mode.k8s.io discovery document. The runtimeclasses resource MUST exist in the /apis/node.k8s.io/v1 discovery document. The runtimeclasses resource must support create, get, list, watch, update, patch, delete, and deletecollection. */ framework.ConformanceIt("should support RuntimeClasses API operations", func(ctx context.Context) { // Setup rcVersion := "v1" rcClient := f.ClientSet.NodeV1().RuntimeClasses() // This is a conformance test that must configure opaque handlers to validate CRUD operations. // Test should not use any existing handler like gVisor or runc // // All CRUD operations in this test are limited to the objects with the label test=f.UniqueName rc := runtimeclasstest.NewRuntimeClass(f.UniqueName+"-handler", f.UniqueName+"-conformance-runtime-class") rc.SetLabels(map[string]string{"test": f.UniqueName}) rc2 := runtimeclasstest.NewRuntimeClass(f.UniqueName+"-handler2", f.UniqueName+"-conformance-runtime-class2") rc2.SetLabels(map[string]string{"test": f.UniqueName}) rc3 := runtimeclasstest.NewRuntimeClass(f.UniqueName+"-handler3", f.UniqueName+"-conformance-runtime-class3") rc3.SetLabels(map[string]string{"test": f.UniqueName}) // Discovery ginkgo.By("getting /apis") { discoveryGroups, err := f.ClientSet.Discovery().ServerGroups() framework.ExpectNoError(err) found := false for _, group := range discoveryGroups.Groups { if group.Name == nodev1.GroupName { for _, version := range group.Versions { if version.Version == rcVersion { found = true break } } } } if !found { framework.Failf("expected RuntimeClass API group/version, got %#v", discoveryGroups.Groups) } } ginkgo.By("getting /apis/node.k8s.io") { group := &metav1.APIGroup{} err := f.ClientSet.Discovery().RESTClient().Get().AbsPath("/apis/node.k8s.io").Do(ctx).Into(group) framework.ExpectNoError(err) found := false for _, version := range group.Versions { if version.Version == rcVersion { found = true break } } if !found { framework.Failf("expected RuntimeClass API version, got %#v", group.Versions) } } ginkgo.By("getting /apis/node.k8s.io/" + rcVersion) { resources, err := f.ClientSet.Discovery().ServerResourcesForGroupVersion(nodev1.SchemeGroupVersion.String()) framework.ExpectNoError(err) found := false for _, resource := range resources.APIResources { switch resource.Name { case "runtimeclasses": found = true } } if !found { framework.Failf("expected runtimeclasses, got %#v", resources.APIResources) } } // Main resource create/read/update/watch operations ginkgo.By("creating") createdRC, err := rcClient.Create(ctx, rc, metav1.CreateOptions{}) framework.ExpectNoError(err) _, err = rcClient.Create(ctx, rc, metav1.CreateOptions{}) if !apierrors.IsAlreadyExists(err) { framework.Failf("expected 409, got %#v", err) } _, err = rcClient.Create(ctx, rc2, metav1.CreateOptions{}) framework.ExpectNoError(err) ginkgo.By("watching") framework.Logf("starting watch") rcWatch, err := rcClient.Watch(ctx, metav1.ListOptions{LabelSelector: "test=" + f.UniqueName}) framework.ExpectNoError(err) // added for a watch _, err = rcClient.Create(ctx, rc3, metav1.CreateOptions{}) framework.ExpectNoError(err) ginkgo.By("getting") gottenRC, err := rcClient.Get(ctx, rc.Name, metav1.GetOptions{}) framework.ExpectNoError(err) gomega.Expect(gottenRC.UID).To(gomega.Equal(createdRC.UID)) ginkgo.By("listing") rcs, err := rcClient.List(ctx, metav1.ListOptions{LabelSelector: "test=" + f.UniqueName}) framework.ExpectNoError(err) gomega.Expect(rcs.Items).To(gomega.HaveLen(3), "filtered list should have 3 items") ginkgo.By("patching") patchedRC, err := rcClient.Patch(ctx, createdRC.Name, types.MergePatchType, []byte(`{"metadata":{"annotations":{"patched":"true"}}}`), metav1.PatchOptions{}) framework.ExpectNoError(err) gomega.Expect(patchedRC.Annotations).To(gomega.HaveKeyWithValue("patched", "true"), "patched object should have the applied annotation") ginkgo.By("updating") csrToUpdate := patchedRC.DeepCopy() csrToUpdate.Annotations["updated"] = "true" updatedRC, err := rcClient.Update(ctx, csrToUpdate, metav1.UpdateOptions{}) framework.ExpectNoError(err) gomega.Expect(updatedRC.Annotations).To(gomega.HaveKeyWithValue("updated", "true"), "updated object should have the applied annotation") framework.Logf("waiting for watch events with expected annotations") for sawAdded, sawPatched, sawUpdated := false, false, false; !sawAdded && !sawPatched && !sawUpdated; { select { case evt, ok := <-rcWatch.ResultChan(): if !ok { framework.Fail("watch channel should not close") } if evt.Type == watch.Modified { watchedRC, isRC := evt.Object.(*nodev1.RuntimeClass) if !isRC { framework.Failf("expected RC, got %T", evt.Object) } if watchedRC.Annotations["patched"] == "true" { framework.Logf("saw patched annotations") sawPatched = true } else if watchedRC.Annotations["updated"] == "true" { framework.Logf("saw updated annotations") sawUpdated = true } else { framework.Logf("missing expected annotations, waiting: %#v", watchedRC.Annotations) } } else if evt.Type == watch.Added { _, isRC := evt.Object.(*nodev1.RuntimeClass) if !isRC { framework.Failf("expected RC, got %T", evt.Object) } sawAdded = true } case <-time.After(wait.ForeverTestTimeout): framework.Fail("timed out waiting for watch event") } } rcWatch.Stop() // main resource delete operations ginkgo.By("deleting") err = rcClient.Delete(ctx, createdRC.Name, metav1.DeleteOptions{}) framework.ExpectNoError(err) _, err = rcClient.Get(ctx, createdRC.Name, metav1.GetOptions{}) if !apierrors.IsNotFound(err) { framework.Failf("expected 404, got %#v", err) } rcs, err = rcClient.List(ctx, metav1.ListOptions{LabelSelector: "test=" + f.UniqueName}) framework.ExpectNoError(err) gomega.Expect(rcs.Items).To(gomega.HaveLen(2), "filtered list should have 2 items") ginkgo.By("deleting a collection") err = rcClient.DeleteCollection(ctx, metav1.DeleteOptions{}, metav1.ListOptions{LabelSelector: "test=" + f.UniqueName}) framework.ExpectNoError(err) rcs, err = rcClient.List(ctx, metav1.ListOptions{LabelSelector: "test=" + f.UniqueName}) framework.ExpectNoError(err) gomega.Expect(rcs.Items).To(gomega.BeEmpty(), "filtered list should have 0 items") }) }) func deleteRuntimeClass(ctx context.Context, f *framework.Framework, name string) { err := f.ClientSet.NodeV1().RuntimeClasses().Delete(ctx, name, metav1.DeleteOptions{}) framework.ExpectNoError(err, "failed to delete RuntimeClass resource") } // createRuntimeClass generates a RuntimeClass with the desired handler and a "namespaced" name, // synchronously creates it, and returns the generated name. func createRuntimeClass(ctx context.Context, f *framework.Framework, name, handler string, overhead *nodev1.Overhead) string { uniqueName := fmt.Sprintf("%s-%s", f.Namespace.Name, name) rc := runtimeclasstest.NewRuntimeClass(uniqueName, handler) rc.Overhead = overhead rc, err := f.ClientSet.NodeV1().RuntimeClasses().Create(ctx, rc, metav1.CreateOptions{}) framework.ExpectNoError(err, "failed to create RuntimeClass resource") return rc.GetName() } func expectPodRejection(ctx context.Context, f *framework.Framework, pod *v1.Pod) { _, err := f.ClientSet.CoreV1().Pods(f.Namespace.Name).Create(ctx, pod, metav1.CreateOptions{}) gomega.Expect(err).To(gomega.HaveOccurred(), "should be forbidden") if !apierrors.IsForbidden(err) { framework.Failf("expected forbidden error, got %#v", err) } } // expectPodSuccess waits for the given pod to terminate successfully. func expectPodSuccess(ctx context.Context, f *framework.Framework, pod *v1.Pod) { framework.ExpectNoError(e2epod.WaitForPodSuccessInNamespace( ctx, f.ClientSet, pod.Name, f.Namespace.Name)) }