/* Copyright 2015 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 e2e import ( "fmt" mathrand "math/rand" "os/exec" "strings" "time" "google.golang.org/api/googleapi" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/awserr" "github.com/aws/aws-sdk-go/aws/session" "github.com/aws/aws-sdk-go/service/ec2" . "github.com/onsi/ginkgo" . "github.com/onsi/gomega" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/types" "k8s.io/kubernetes/pkg/api" "k8s.io/kubernetes/pkg/api/resource" "k8s.io/kubernetes/pkg/api/v1" v1core "k8s.io/kubernetes/pkg/client/clientset_generated/clientset/typed/core/v1" awscloud "k8s.io/kubernetes/pkg/cloudprovider/providers/aws" gcecloud "k8s.io/kubernetes/pkg/cloudprovider/providers/gce" "k8s.io/kubernetes/pkg/util/uuid" "k8s.io/kubernetes/test/e2e/framework" ) const ( gcePDDetachTimeout = 10 * time.Minute gcePDDetachPollTime = 10 * time.Second nodeStatusTimeout = 1 * time.Minute nodeStatusPollTime = 1 * time.Second gcePDRetryTimeout = 5 * time.Minute gcePDRetryPollTime = 5 * time.Second maxReadRetry = 3 ) var _ = framework.KubeDescribe("Pod Disks", func() { var ( podClient v1core.PodInterface nodeClient v1core.NodeInterface host0Name types.NodeName host1Name types.NodeName nodes *v1.NodeList ) f := framework.NewDefaultFramework("pod-disks") BeforeEach(func() { framework.SkipUnlessNodeCountIsAtLeast(2) podClient = f.ClientSet.Core().Pods(f.Namespace.Name) nodeClient = f.ClientSet.Core().Nodes() nodes = framework.GetReadySchedulableNodesOrDie(f.ClientSet) Expect(len(nodes.Items)).To(BeNumerically(">=", 2), "Requires at least 2 nodes") host0Name = types.NodeName(nodes.Items[0].ObjectMeta.Name) host1Name = types.NodeName(nodes.Items[1].ObjectMeta.Name) mathrand.Seed(time.Now().UTC().UnixNano()) }) It("should schedule a pod w/ a RW PD, ungracefully remove it, then schedule it on another host [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke", "aws") By("creating PD") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD") host0Pod := testPDPod([]string{diskName}, host0Name, false /* readOnly */, 1 /* numContainers */) host1Pod := testPDPod([]string{diskName}, host1Name, false /* readOnly */, 1 /* numContainers */) containerName := "mycontainer" defer func() { // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. By("cleaning up PD-RW test environment") podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)) podClient.Delete(host1Pod.Name, v1.NewDeleteOptions(0)) detachAndDeletePDs(diskName, []types.NodeName{host0Name, host1Name}) }() By("submitting host0Pod to kubernetes") _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0Pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) testFile := "/testpd1/tracker" testFileContents := fmt.Sprintf("%v", mathrand.Int()) framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFile, testFileContents)) framework.Logf("Wrote value: %v", testFileContents) // Verify that disk shows up for in node 1's VolumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, true /* shouldExist */)) By("deleting host0Pod") // Delete pod with 0 grace period framework.ExpectNoError(podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)), "Failed to delete host0Pod") By("submitting host1Pod to kubernetes") _, err = podClient.Create(host1Pod) framework.ExpectNoError(err, "Failed to create host1Pod") framework.ExpectNoError(f.WaitForPodRunningSlow(host1Pod.Name)) v, err := f.ReadFileViaContainer(host1Pod.Name, containerName, testFile) framework.ExpectNoError(err) framework.Logf("Read value: %v", v) Expect(strings.TrimSpace(v)).To(Equal(strings.TrimSpace(testFileContents))) // Verify that disk is removed from node 1's VolumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, false /* shouldExist */)) By("deleting host1Pod") framework.ExpectNoError(podClient.Delete(host1Pod.Name, v1.NewDeleteOptions(0)), "Failed to delete host1Pod") By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(diskName, host0Name) waitForPDDetach(diskName, host1Name) return }) It("Should schedule a pod w/ a RW PD, gracefully remove it, then schedule it on another host [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke", "aws") By("creating PD") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD") host0Pod := testPDPod([]string{diskName}, host0Name, false /* readOnly */, 1 /* numContainers */) host1Pod := testPDPod([]string{diskName}, host1Name, false /* readOnly */, 1 /* numContainers */) containerName := "mycontainer" defer func() { // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. By("cleaning up PD-RW test environment") podClient.Delete(host0Pod.Name, &v1.DeleteOptions{}) podClient.Delete(host1Pod.Name, &v1.DeleteOptions{}) detachAndDeletePDs(diskName, []types.NodeName{host0Name, host1Name}) }() By("submitting host0Pod to kubernetes") _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0Pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) testFile := "/testpd1/tracker" testFileContents := fmt.Sprintf("%v", mathrand.Int()) framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFile, testFileContents)) framework.Logf("Wrote value: %v", testFileContents) // Verify that disk shows up for in node 1's VolumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, true /* shouldExist */)) By("deleting host0Pod") // Delete pod with default grace period 30s framework.ExpectNoError(podClient.Delete(host0Pod.Name, &v1.DeleteOptions{}), "Failed to delete host0Pod") By("submitting host1Pod to kubernetes") _, err = podClient.Create(host1Pod) framework.ExpectNoError(err, "Failed to create host1Pod") framework.ExpectNoError(f.WaitForPodRunningSlow(host1Pod.Name)) v, err := f.ReadFileViaContainer(host1Pod.Name, containerName, testFile) framework.ExpectNoError(err) framework.Logf("Read value: %v", v) Expect(strings.TrimSpace(v)).To(Equal(strings.TrimSpace(testFileContents))) // Verify that disk is removed from node 1's VolumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, false /* shouldExist */)) By("deleting host1Pod") framework.ExpectNoError(podClient.Delete(host1Pod.Name, &v1.DeleteOptions{}), "Failed to delete host1Pod") By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(diskName, host0Name) waitForPDDetach(diskName, host1Name) return }) It("should schedule a pod w/ a readonly PD on two hosts, then remove both ungracefully. [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke") By("creating PD") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD") rwPod := testPDPod([]string{diskName}, host0Name, false /* readOnly */, 1 /* numContainers */) host0ROPod := testPDPod([]string{diskName}, host0Name, true /* readOnly */, 1 /* numContainers */) host1ROPod := testPDPod([]string{diskName}, host1Name, true /* readOnly */, 1 /* numContainers */) defer func() { By("cleaning up PD-RO test environment") // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. podClient.Delete(rwPod.Name, v1.NewDeleteOptions(0)) podClient.Delete(host0ROPod.Name, v1.NewDeleteOptions(0)) podClient.Delete(host1ROPod.Name, v1.NewDeleteOptions(0)) detachAndDeletePDs(diskName, []types.NodeName{host0Name, host1Name}) }() By("submitting rwPod to ensure PD is formatted") _, err = podClient.Create(rwPod) framework.ExpectNoError(err, "Failed to create rwPod") framework.ExpectNoError(f.WaitForPodRunningSlow(rwPod.Name)) // Delete pod with 0 grace period framework.ExpectNoError(podClient.Delete(rwPod.Name, v1.NewDeleteOptions(0)), "Failed to delete host0Pod") framework.ExpectNoError(waitForPDDetach(diskName, host0Name)) By("submitting host0ROPod to kubernetes") _, err = podClient.Create(host0ROPod) framework.ExpectNoError(err, "Failed to create host0ROPod") By("submitting host1ROPod to kubernetes") _, err = podClient.Create(host1ROPod) framework.ExpectNoError(err, "Failed to create host1ROPod") framework.ExpectNoError(f.WaitForPodRunningSlow(host0ROPod.Name)) framework.ExpectNoError(f.WaitForPodRunningSlow(host1ROPod.Name)) By("deleting host0ROPod") framework.ExpectNoError(podClient.Delete(host0ROPod.Name, v1.NewDeleteOptions(0)), "Failed to delete host0ROPod") By("deleting host1ROPod") framework.ExpectNoError(podClient.Delete(host1ROPod.Name, v1.NewDeleteOptions(0)), "Failed to delete host1ROPod") By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(diskName, host0Name) waitForPDDetach(diskName, host1Name) }) It("Should schedule a pod w/ a readonly PD on two hosts, then remove both gracefully. [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke") By("creating PD") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD") rwPod := testPDPod([]string{diskName}, host0Name, false /* readOnly */, 1 /* numContainers */) host0ROPod := testPDPod([]string{diskName}, host0Name, true /* readOnly */, 1 /* numContainers */) host1ROPod := testPDPod([]string{diskName}, host1Name, true /* readOnly */, 1 /* numContainers */) defer func() { By("cleaning up PD-RO test environment") // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. podClient.Delete(rwPod.Name, &v1.DeleteOptions{}) podClient.Delete(host0ROPod.Name, &v1.DeleteOptions{}) podClient.Delete(host1ROPod.Name, &v1.DeleteOptions{}) detachAndDeletePDs(diskName, []types.NodeName{host0Name, host1Name}) }() By("submitting rwPod to ensure PD is formatted") _, err = podClient.Create(rwPod) framework.ExpectNoError(err, "Failed to create rwPod") framework.ExpectNoError(f.WaitForPodRunningSlow(rwPod.Name)) // Delete pod with default grace period 30s framework.ExpectNoError(podClient.Delete(rwPod.Name, &v1.DeleteOptions{}), "Failed to delete host0Pod") framework.ExpectNoError(waitForPDDetach(diskName, host0Name)) By("submitting host0ROPod to kubernetes") _, err = podClient.Create(host0ROPod) framework.ExpectNoError(err, "Failed to create host0ROPod") By("submitting host1ROPod to kubernetes") _, err = podClient.Create(host1ROPod) framework.ExpectNoError(err, "Failed to create host1ROPod") framework.ExpectNoError(f.WaitForPodRunningSlow(host0ROPod.Name)) framework.ExpectNoError(f.WaitForPodRunningSlow(host1ROPod.Name)) By("deleting host0ROPod") framework.ExpectNoError(podClient.Delete(host0ROPod.Name, &v1.DeleteOptions{}), "Failed to delete host0ROPod") By("deleting host1ROPod") framework.ExpectNoError(podClient.Delete(host1ROPod.Name, &v1.DeleteOptions{}), "Failed to delete host1ROPod") By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(diskName, host0Name) waitForPDDetach(diskName, host1Name) }) It("should schedule a pod w/ a RW PD shared between multiple containers, write to PD, delete pod, verify contents, and repeat in rapid succession [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke", "aws") By("creating PD") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD") numContainers := 4 var host0Pod *v1.Pod defer func() { By("cleaning up PD-RW test environment") // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. if host0Pod != nil { podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)) } detachAndDeletePDs(diskName, []types.NodeName{host0Name}) }() fileAndContentToVerify := make(map[string]string) for i := 0; i < 3; i++ { framework.Logf("PD Read/Writer Iteration #%v", i) By("submitting host0Pod to kubernetes") host0Pod = testPDPod([]string{diskName}, host0Name, false /* readOnly */, numContainers) _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0Pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) // randomly select a container and read/verify pd contents from it containerName := fmt.Sprintf("mycontainer%v", mathrand.Intn(numContainers)+1) verifyPDContentsViaContainer(f, host0Pod.Name, containerName, fileAndContentToVerify) // Randomly select a container to write a file to PD from containerName = fmt.Sprintf("mycontainer%v", mathrand.Intn(numContainers)+1) testFile := fmt.Sprintf("/testpd1/tracker%v", i) testFileContents := fmt.Sprintf("%v", mathrand.Int()) fileAndContentToVerify[testFile] = testFileContents framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFile, testFileContents)) framework.Logf("Wrote value: \"%v\" to PD %q from pod %q container %q", testFileContents, diskName, host0Pod.Name, containerName) // Randomly select a container and read/verify pd contents from it containerName = fmt.Sprintf("mycontainer%v", mathrand.Intn(numContainers)+1) verifyPDContentsViaContainer(f, host0Pod.Name, containerName, fileAndContentToVerify) By("deleting host0Pod") framework.ExpectNoError(podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)), "Failed to delete host0Pod") } By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(diskName, host0Name) }) It("should schedule a pod w/two RW PDs both mounted to one container, write to PD, verify contents, delete pod, recreate pod, verify contents, and repeat in rapid succession [Slow] [Volume]", func() { framework.SkipUnlessProviderIs("gce", "gke", "aws") By("creating PD1") disk1Name, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD1") By("creating PD2") disk2Name, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating PD2") var host0Pod *v1.Pod defer func() { By("cleaning up PD-RW test environment") // Teardown pods, PD. Ignore errors. // Teardown should do nothing unless test failed. if host0Pod != nil { podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)) } detachAndDeletePDs(disk1Name, []types.NodeName{host0Name}) detachAndDeletePDs(disk2Name, []types.NodeName{host0Name}) }() containerName := "mycontainer" fileAndContentToVerify := make(map[string]string) for i := 0; i < 3; i++ { framework.Logf("PD Read/Writer Iteration #%v", i) By("submitting host0Pod to kubernetes") host0Pod = testPDPod([]string{disk1Name, disk2Name}, host0Name, false /* readOnly */, 1 /* numContainers */) _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0Pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) // Read/verify pd contents for both disks from container verifyPDContentsViaContainer(f, host0Pod.Name, containerName, fileAndContentToVerify) // Write a file to both PDs from container testFilePD1 := fmt.Sprintf("/testpd1/tracker%v", i) testFilePD2 := fmt.Sprintf("/testpd2/tracker%v", i) testFilePD1Contents := fmt.Sprintf("%v", mathrand.Int()) testFilePD2Contents := fmt.Sprintf("%v", mathrand.Int()) fileAndContentToVerify[testFilePD1] = testFilePD1Contents fileAndContentToVerify[testFilePD2] = testFilePD2Contents framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFilePD1, testFilePD1Contents)) framework.Logf("Wrote value: \"%v\" to PD1 (%q) from pod %q container %q", testFilePD1Contents, disk1Name, host0Pod.Name, containerName) framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFilePD2, testFilePD2Contents)) framework.Logf("Wrote value: \"%v\" to PD2 (%q) from pod %q container %q", testFilePD2Contents, disk2Name, host0Pod.Name, containerName) // Read/verify pd contents for both disks from container verifyPDContentsViaContainer(f, host0Pod.Name, containerName, fileAndContentToVerify) By("deleting host0Pod") framework.ExpectNoError(podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)), "Failed to delete host0Pod") } By("Test completed successfully, waiting for PD to safely detach") waitForPDDetach(disk1Name, host0Name) waitForPDDetach(disk2Name, host0Name) }) It("should be able to detach from a node which was deleted [Slow] [Disruptive] [Volume]", func() { framework.SkipUnlessProviderIs("gce") initialGroupSize, err := GroupSize(framework.TestContext.CloudConfig.NodeInstanceGroup) framework.ExpectNoError(err, "Error getting group size") By("Creating a pd") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating a pd") host0Pod := testPDPod([]string{diskName}, host0Name, false, 1) containerName := "mycontainer" defer func() { By("Cleaning up PD-RW test env") podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)) detachAndDeletePDs(diskName, []types.NodeName{host0Name}) }() By("submitting host0Pod to kubernetes") _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) testFile := "/testpd1/tracker" testFileContents := fmt.Sprintf("%v", mathrand.Int()) framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFile, testFileContents)) framework.Logf("Wrote value: %v", testFileContents) // Verify that disk shows up in node 0's volumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, true /* should exist*/)) output, err := exec.Command("gcloud", "compute", "instances", "list").CombinedOutput() framework.ExpectNoError(err, fmt.Sprintf("Unable to get list of node instances %v", err)) Expect(true, strings.Contains(string(output), string(host0Name))) By("deleting host0") output, err = exec.Command("gcloud", "compute", "instances", "delete", string(host0Name), "--project="+framework.TestContext.CloudConfig.ProjectID, "--zone="+framework.TestContext.CloudConfig.Zone).CombinedOutput() framework.ExpectNoError(err, fmt.Sprintf("Failed to delete host0pod: %v", err)) output, err = exec.Command("gcloud", "compute", "instances", "list").CombinedOutput() framework.ExpectNoError(err, fmt.Sprintf("Unable to get list of node instances %v", err)) Expect(false, strings.Contains(string(output), string(host0Name))) // The disk should be detached from host0 on it's deletion By("Waiting for pd to detach from host0") waitForPDDetach(diskName, host0Name) framework.ExpectNoError(WaitForGroupSize(framework.TestContext.CloudConfig.NodeInstanceGroup, int32(initialGroupSize)), "Unable to get back the cluster to inital size") return }) It("should be able to detach from a node whose api object was deleted [Slow] [Disruptive] [Volume]", func() { framework.SkipUnlessProviderIs("gce") initialGroupSize, err := GroupSize(framework.TestContext.CloudConfig.NodeInstanceGroup) framework.ExpectNoError(err, "Error getting group size") By("Creating a pd") diskName, err := createPDWithRetry() framework.ExpectNoError(err, "Error creating a pd") host0Pod := testPDPod([]string{diskName}, host0Name, false, 1) originalCount := len(nodes.Items) containerName := "mycontainer" nodeToDelete := &nodes.Items[0] defer func() error { By("Cleaning up PD-RW test env") detachAndDeletePDs(diskName, []types.NodeName{host0Name}) nodeToDelete.ObjectMeta.SetResourceVersion("0") // need to set the resource version or else the Create() fails _, err := nodeClient.Create(nodeToDelete) framework.ExpectNoError(err, "Unable to re-create the deleted node") framework.ExpectNoError(WaitForGroupSize(framework.TestContext.CloudConfig.NodeInstanceGroup, int32(initialGroupSize)), "Unable to get the node group back to the original size") framework.WaitForNodeToBeReady(f.ClientSet, nodeToDelete.Name, nodeStatusTimeout) if len(nodes.Items) != originalCount { return fmt.Errorf("The node count is not back to original count") } return nil }() By("submitting host0Pod to kubernetes") _, err = podClient.Create(host0Pod) framework.ExpectNoError(err, fmt.Sprintf("Failed to create host0pod: %v", err)) framework.ExpectNoError(f.WaitForPodRunningSlow(host0Pod.Name)) testFile := "/testpd1/tracker" testFileContents := fmt.Sprintf("%v", mathrand.Int()) framework.ExpectNoError(f.WriteFileViaContainer(host0Pod.Name, containerName, testFile, testFileContents)) framework.Logf("Wrote value: %v", testFileContents) // Verify that disk shows up in node 0's volumeInUse list framework.ExpectNoError(waitForPDInVolumesInUse(nodeClient, diskName, host0Name, nodeStatusTimeout, true /* should exist*/)) By("deleting api object of host0") framework.ExpectNoError(nodeClient.Delete(string(host0Name), v1.NewDeleteOptions(0)), "Unable to delete host0") By("deleting host0pod") framework.ExpectNoError(podClient.Delete(host0Pod.Name, v1.NewDeleteOptions(0)), "Unable to delete host0Pod") // The disk should be detached from host0 on its deletion By("Waiting for pd to detach from host0") framework.ExpectNoError(waitForPDDetach(diskName, host0Name), "Timed out waiting for detach pd") }) }) func createPDWithRetry() (string, error) { newDiskName := "" var err error for start := time.Now(); time.Since(start) < gcePDRetryTimeout; time.Sleep(gcePDRetryPollTime) { if newDiskName, err = createPD(); err != nil { framework.Logf("Couldn't create a new PD. Sleeping 5 seconds (%v)", err) continue } framework.Logf("Successfully created a new PD: %q.", newDiskName) break } return newDiskName, err } func deletePDWithRetry(diskName string) { var err error for start := time.Now(); time.Since(start) < gcePDRetryTimeout; time.Sleep(gcePDRetryPollTime) { if err = deletePD(diskName); err != nil { framework.Logf("Couldn't delete PD %q. Sleeping 5 seconds (%v)", diskName, err) continue } framework.Logf("Successfully deleted PD %q.", diskName) break } framework.ExpectNoError(err, "Error deleting PD") } func verifyPDContentsViaContainer(f *framework.Framework, podName, containerName string, fileAndContentToVerify map[string]string) { for filePath, expectedContents := range fileAndContentToVerify { var value string // Add a retry to avoid temporal failure in reading the content for i := 0; i < maxReadRetry; i++ { v, err := f.ReadFileViaContainer(podName, containerName, filePath) value = v if err != nil { framework.Logf("Error reading file: %v", err) } framework.ExpectNoError(err) framework.Logf("Read file %q with content: %v (iteration %d)", filePath, v, i) if strings.TrimSpace(v) != strings.TrimSpace(expectedContents) { framework.Logf("Warning: read content <%q> does not match execpted content <%q>.", v, expectedContents) size, err := f.CheckFileSizeViaContainer(podName, containerName, filePath) if err != nil { framework.Logf("Error checking file size: %v", err) } framework.Logf("Check file %q size: %q", filePath, size) } else { break } } Expect(strings.TrimSpace(value)).To(Equal(strings.TrimSpace(expectedContents))) } } func createPD() (string, error) { if framework.TestContext.Provider == "gce" || framework.TestContext.Provider == "gke" { pdName := fmt.Sprintf("%s-%s", framework.TestContext.Prefix, string(uuid.NewUUID())) gceCloud, err := getGCECloud() if err != nil { return "", err } tags := map[string]string{} err = gceCloud.CreateDisk(pdName, gcecloud.DiskTypeSSD, framework.TestContext.CloudConfig.Zone, 10 /* sizeGb */, tags) if err != nil { return "", err } return pdName, nil } else if framework.TestContext.Provider == "aws" { client := ec2.New(session.New()) request := &ec2.CreateVolumeInput{} request.AvailabilityZone = aws.String(cloudConfig.Zone) request.Size = aws.Int64(10) request.VolumeType = aws.String(awscloud.DefaultVolumeType) response, err := client.CreateVolume(request) if err != nil { return "", err } az := aws.StringValue(response.AvailabilityZone) awsID := aws.StringValue(response.VolumeId) volumeName := "aws://" + az + "/" + awsID return volumeName, nil } else { return "", fmt.Errorf("Provider does not support volume creation") } } func deletePD(pdName string) error { if framework.TestContext.Provider == "gce" || framework.TestContext.Provider == "gke" { gceCloud, err := getGCECloud() if err != nil { return err } err = gceCloud.DeleteDisk(pdName) if err != nil { if gerr, ok := err.(*googleapi.Error); ok && len(gerr.Errors) > 0 && gerr.Errors[0].Reason == "notFound" { // PD already exists, ignore error. return nil } framework.Logf("Error deleting PD %q: %v", pdName, err) } return err } else if framework.TestContext.Provider == "aws" { client := ec2.New(session.New()) tokens := strings.Split(pdName, "/") awsVolumeID := tokens[len(tokens)-1] request := &ec2.DeleteVolumeInput{VolumeId: aws.String(awsVolumeID)} _, err := client.DeleteVolume(request) if err != nil { if awsError, ok := err.(awserr.Error); ok && awsError.Code() == "InvalidVolume.NotFound" { framework.Logf("Volume deletion implicitly succeeded because volume %q does not exist.", pdName) } else { return fmt.Errorf("error deleting EBS volumes: %v", err) } } return nil } else { return fmt.Errorf("Provider does not support volume deletion") } } func detachPD(nodeName types.NodeName, pdName string) error { if framework.TestContext.Provider == "gce" || framework.TestContext.Provider == "gke" { gceCloud, err := getGCECloud() if err != nil { return err } err = gceCloud.DetachDisk(pdName, nodeName) if err != nil { if gerr, ok := err.(*googleapi.Error); ok && strings.Contains(gerr.Message, "Invalid value for field 'disk'") { // PD already detached, ignore error. return nil } framework.Logf("Error detaching PD %q: %v", pdName, err) } return err } else if framework.TestContext.Provider == "aws" { client := ec2.New(session.New()) tokens := strings.Split(pdName, "/") awsVolumeID := tokens[len(tokens)-1] request := ec2.DetachVolumeInput{ VolumeId: aws.String(awsVolumeID), } _, err := client.DetachVolume(&request) if err != nil { return fmt.Errorf("error detaching EBS volume: %v", err) } return nil } else { return fmt.Errorf("Provider does not support volume detaching") } } func testPDPod(diskNames []string, targetNode types.NodeName, readOnly bool, numContainers int) *v1.Pod { containers := make([]v1.Container, numContainers) for i := range containers { containers[i].Name = "mycontainer" if numContainers > 1 { containers[i].Name = fmt.Sprintf("mycontainer%v", i+1) } containers[i].Image = "gcr.io/google_containers/busybox:1.24" containers[i].Command = []string{"sleep", "6000"} containers[i].VolumeMounts = make([]v1.VolumeMount, len(diskNames)) for k := range diskNames { containers[i].VolumeMounts[k].Name = fmt.Sprintf("testpd%v", k+1) containers[i].VolumeMounts[k].MountPath = fmt.Sprintf("/testpd%v", k+1) } containers[i].Resources.Limits = v1.ResourceList{} containers[i].Resources.Limits[v1.ResourceCPU] = *resource.NewQuantity(int64(0), resource.DecimalSI) } pod := &v1.Pod{ TypeMeta: metav1.TypeMeta{ Kind: "Pod", APIVersion: api.Registry.GroupOrDie(v1.GroupName).GroupVersion.String(), }, ObjectMeta: v1.ObjectMeta{ Name: "pd-test-" + string(uuid.NewUUID()), }, Spec: v1.PodSpec{ Containers: containers, NodeName: string(targetNode), }, } if framework.TestContext.Provider == "gce" || framework.TestContext.Provider == "gke" { pod.Spec.Volumes = make([]v1.Volume, len(diskNames)) for k, diskName := range diskNames { pod.Spec.Volumes[k].Name = fmt.Sprintf("testpd%v", k+1) pod.Spec.Volumes[k].VolumeSource = v1.VolumeSource{ GCEPersistentDisk: &v1.GCEPersistentDiskVolumeSource{ PDName: diskName, FSType: "ext4", ReadOnly: readOnly, }, } } } else if framework.TestContext.Provider == "aws" { pod.Spec.Volumes = make([]v1.Volume, len(diskNames)) for k, diskName := range diskNames { pod.Spec.Volumes[k].Name = fmt.Sprintf("testpd%v", k+1) pod.Spec.Volumes[k].VolumeSource = v1.VolumeSource{ AWSElasticBlockStore: &v1.AWSElasticBlockStoreVolumeSource{ VolumeID: diskName, FSType: "ext4", ReadOnly: readOnly, }, } } } else { panic("Unknown provider: " + framework.TestContext.Provider) } return pod } // Waits for specified PD to to detach from specified hostName func waitForPDDetach(diskName string, nodeName types.NodeName) error { if framework.TestContext.Provider == "gce" || framework.TestContext.Provider == "gke" { framework.Logf("Waiting for GCE PD %q to detach from node %q.", diskName, nodeName) gceCloud, err := getGCECloud() if err != nil { return err } for start := time.Now(); time.Since(start) < gcePDDetachTimeout; time.Sleep(gcePDDetachPollTime) { diskAttached, err := gceCloud.DiskIsAttached(diskName, nodeName) if err != nil { framework.Logf("Error waiting for PD %q to detach from node %q. 'DiskIsAttached(...)' failed with %v", diskName, nodeName, err) return err } if !diskAttached { // Specified disk does not appear to be attached to specified node framework.Logf("GCE PD %q appears to have successfully detached from %q.", diskName, nodeName) return nil } framework.Logf("Waiting for GCE PD %q to detach from %q.", diskName, nodeName) } return fmt.Errorf("Gave up waiting for GCE PD %q to detach from %q after %v", diskName, nodeName, gcePDDetachTimeout) } return nil } func getGCECloud() (*gcecloud.GCECloud, error) { gceCloud, ok := framework.TestContext.CloudConfig.Provider.(*gcecloud.GCECloud) if !ok { return nil, fmt.Errorf("failed to convert CloudConfig.Provider to GCECloud: %#v", framework.TestContext.CloudConfig.Provider) } return gceCloud, nil } func detachAndDeletePDs(diskName string, hosts []types.NodeName) { for _, host := range hosts { framework.Logf("Detaching GCE PD %q from node %q.", diskName, host) detachPD(host, diskName) By(fmt.Sprintf("Waiting for PD %q to detach from %q", diskName, host)) waitForPDDetach(diskName, host) } By(fmt.Sprintf("Deleting PD %q", diskName)) deletePDWithRetry(diskName) } func waitForPDInVolumesInUse( nodeClient v1core.NodeInterface, diskName string, nodeName types.NodeName, timeout time.Duration, shouldExist bool) error { logStr := "to contain" if !shouldExist { logStr = "to NOT contain" } framework.Logf( "Waiting for node %s's VolumesInUse Status %s PD %q", nodeName, logStr, diskName) for start := time.Now(); time.Since(start) < timeout; time.Sleep(nodeStatusPollTime) { nodeObj, err := nodeClient.Get(string(nodeName), metav1.GetOptions{}) if err != nil || nodeObj == nil { framework.Logf( "Failed to fetch node object %q from API server. err=%v", nodeName, err) continue } exists := false for _, volumeInUse := range nodeObj.Status.VolumesInUse { volumeInUseStr := string(volumeInUse) if strings.Contains(volumeInUseStr, diskName) { if shouldExist { framework.Logf( "Found PD %q in node %q's VolumesInUse Status: %q", diskName, nodeName, volumeInUseStr) return nil } exists = true } } if !shouldExist && !exists { framework.Logf( "Verified PD %q does not exist in node %q's VolumesInUse Status.", diskName, nodeName) return nil } } return fmt.Errorf( "Timed out waiting for node %s VolumesInUse Status %s diskName %q", nodeName, logStr, diskName) }