package e2e import ( "context" "crypto/md5" //nolint:gosec // hash generation "encoding/base64" "encoding/json" "errors" "fmt" "io/ioutil" "regexp" "strconv" "strings" "sync" "time" snapapi "github.com/kubernetes-csi/external-snapshotter/client/v4/apis/volumesnapshot/v1" batch "k8s.io/api/batch/v1" v1 "k8s.io/api/core/v1" scv1 "k8s.io/api/storage/v1" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/fields" "k8s.io/apimachinery/pkg/util/wait" utilyaml "k8s.io/apimachinery/pkg/util/yaml" "k8s.io/client-go/kubernetes" "k8s.io/kubernetes/test/e2e/framework" e2elog "k8s.io/kubernetes/test/e2e/framework/log" ) /* #nosec:G101, values not credentials, just a reference to the location.*/ const ( defaultNs = "default" defaultSCName = "" rookToolBoxPodLabel = "app=rook-ceph-tools" rbdMountOptions = "mountOptions" retainPolicy = v1.PersistentVolumeReclaimRetain // deletePolicy is the default policy in E2E. deletePolicy = v1.PersistentVolumeReclaimDelete // Default key and label for Listoptions. appKey = "app" appLabel = "write-data-in-pod" noError = "" ) var ( // cli flags. deployTimeout int deployCephFS bool deployRBD bool testCephFS bool testRBD bool helmTest bool upgradeTesting bool upgradeVersion string cephCSINamespace string rookNamespace string radosNamespace string ns string poll = 2 * time.Second ) func initResources() { ns = fmt.Sprintf("--namespace=%v", cephCSINamespace) } func getMons(ns string, c kubernetes.Interface) ([]string, error) { opt := metav1.ListOptions{ LabelSelector: "app=rook-ceph-mon", } services := make([]string, 0) var svcList *v1.ServiceList t := time.Duration(deployTimeout) * time.Minute err := wait.PollImmediate(poll, t, func() (bool, error) { var svcErr error svcList, svcErr = c.CoreV1().Services(ns).List(context.TODO(), opt) if svcErr != nil { if isRetryableAPIError(svcErr) { return false, nil } return false, fmt.Errorf("failed to list Services in namespace %q: %w", ns, svcErr) } return true, nil }) if err != nil { return services, fmt.Errorf("could not get Services: %w", err) } for i := range svcList.Items { s := fmt.Sprintf( "%s.%s.svc.cluster.local:%d", svcList.Items[i].Name, svcList.Items[i].Namespace, svcList.Items[i].Spec.Ports[0].Port) services = append(services, s) } return services, nil } func getMonsHash(mons string) string { return fmt.Sprintf("%x", md5.Sum([]byte(mons))) //nolint:gosec // hash generation } func getStorageClass(path string) (scv1.StorageClass, error) { sc := scv1.StorageClass{} err := unmarshal(path, &sc) return sc, err } func getSecret(path string) (v1.Secret, error) { sc := v1.Secret{} err := unmarshal(path, &sc) // discard corruptInputError if err != nil { var b64cie base64.CorruptInputError if !errors.As(err, &b64cie) { return sc, err } } return sc, nil } func deleteResource(scPath string) error { data, err := replaceNamespaceInTemplate(scPath) if err != nil { e2elog.Logf("failed to read content from %s %v", scPath, err) } err = retryKubectlInput(cephCSINamespace, kubectlDelete, data, deployTimeout) if err != nil { e2elog.Logf("failed to delete %s %v", scPath, err) } return err } func unmarshal(fileName string, obj interface{}) error { f, err := ioutil.ReadFile(fileName) if err != nil { return err } data, err := utilyaml.ToJSON(f) if err != nil { return err } err = json.Unmarshal(data, obj) return err } // createPVCAndApp creates pvc and pod // if name is not empty same will be set as pvc and app name. func createPVCAndApp( name string, f *framework.Framework, pvc *v1.PersistentVolumeClaim, app *v1.Pod, pvcTimeout int) error { if name != "" { pvc.Name = name app.Name = name app.Spec.Volumes[0].PersistentVolumeClaim.ClaimName = name } err := createPVCAndvalidatePV(f.ClientSet, pvc, pvcTimeout) if err != nil { return err } err = createApp(f.ClientSet, app, deployTimeout) return err } // deletePVCAndApp delete pvc and pod // if name is not empty same will be set as pvc and app name. func deletePVCAndApp(name string, f *framework.Framework, pvc *v1.PersistentVolumeClaim, app *v1.Pod) error { if name != "" { pvc.Name = name app.Name = name app.Spec.Volumes[0].PersistentVolumeClaim.ClaimName = name } err := deletePod(app.Name, app.Namespace, f.ClientSet, deployTimeout) if err != nil { return err } err = deletePVCAndValidatePV(f.ClientSet, pvc, deployTimeout) return err } func createPVCAndAppBinding( pvcPath, appPath string, f *framework.Framework, pvcTimeout int) (*v1.PersistentVolumeClaim, *v1.Pod, error) { pvc, err := loadPVC(pvcPath) if err != nil { return nil, nil, err } pvc.Namespace = f.UniqueName app, err := loadApp(appPath) if err != nil { return nil, nil, err } app.Namespace = f.UniqueName err = createPVCAndApp("", f, pvc, app, pvcTimeout) if err != nil { return nil, nil, err } return pvc, app, nil } func validatePVCAndAppBinding(pvcPath, appPath string, f *framework.Framework) error { pvc, app, err := createPVCAndAppBinding(pvcPath, appPath, f, deployTimeout) if err != nil { return err } err = deletePVCAndApp("", f, pvc, app) return err } func getMountType(appName, appNamespace, mountPath string, f *framework.Framework) (string, error) { opt := metav1.ListOptions{ FieldSelector: fields.OneTermEqualSelector("metadata.name", appName).String(), } cmd := fmt.Sprintf("lsblk -o TYPE,MOUNTPOINT | grep '%s' | awk '{print $1}'", mountPath) stdOut, stdErr, err := execCommandInPod(f, cmd, appNamespace, &opt) if err != nil { return "", err } if stdErr != "" { return strings.TrimSpace(stdOut), fmt.Errorf(stdErr) } return strings.TrimSpace(stdOut), nil } func validateNormalUserPVCAccess(pvcPath string, f *framework.Framework) error { pvc, err := loadPVC(pvcPath) if err != nil { return err } pvc.Namespace = f.UniqueName pvc.Name = f.UniqueName err = createPVCAndvalidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { return err } var user int64 = 2000 app := &v1.Pod{ TypeMeta: metav1.TypeMeta{ Kind: "Pod", APIVersion: "v1", }, ObjectMeta: metav1.ObjectMeta{ Name: "pod-run-as-non-root", Namespace: f.UniqueName, Labels: map[string]string{ "app": "pod-run-as-non-root", }, }, Spec: v1.PodSpec{ Containers: []v1.Container{ { Name: "write-pod", Image: "quay.io/centos/centos:latest", Command: []string{"/bin/sleep", "999999"}, SecurityContext: &v1.SecurityContext{ RunAsUser: &user, }, VolumeMounts: []v1.VolumeMount{ { MountPath: "/target", Name: "target", }, }, }, }, Volumes: []v1.Volume{ { Name: "target", VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: pvc.Name, ReadOnly: false, }, }, }, }, }, } err = createApp(f.ClientSet, app, deployTimeout) if err != nil { return err } opt := metav1.ListOptions{ LabelSelector: "app=pod-run-as-non-root", } _, stdErr, err := execCommandInPod(f, "echo testing > /target/testing", app.Namespace, &opt) if err != nil { return fmt.Errorf("failed to exec command in pod: %w", err) } if stdErr != "" { return fmt.Errorf("failed to touch a file as non-root user %v", stdErr) } // metrics for BlockMode was added in Kubernetes 1.22 isBlockMode := false if pvc.Spec.VolumeMode != nil { isBlockMode = (*pvc.Spec.VolumeMode == v1.PersistentVolumeBlock) } if !isBlockMode || k8sVersionGreaterEquals(f.ClientSet, 1, 22) { err = getMetricsForPVC(f, pvc, deployTimeout) if err != nil { return err } } err = deletePod(app.Name, app.Namespace, f.ClientSet, deployTimeout) if err != nil { return err } err = deletePVCAndValidatePV(f.ClientSet, pvc, deployTimeout) return err } // writeDataInPod fill zero content to a file in the provided POD volume. func writeDataInPod(app *v1.Pod, opt *metav1.ListOptions, f *framework.Framework) error { app.Namespace = f.UniqueName err := createApp(f.ClientSet, app, deployTimeout) if err != nil { return err } // write data to PVC. The idea here is to fill some content in the file // instead of filling and reverifying the md5sum/data integrity filePath := app.Spec.Containers[0].VolumeMounts[0].MountPath + "/test" // While writing more data we are encountering issues in E2E timeout, so keeping it low for now _, writeErr, err := execCommandInPod( f, fmt.Sprintf("dd if=/dev/zero of=%s bs=1M count=10 status=none", filePath), app.Namespace, opt) if err != nil { return err } if writeErr != "" { err = fmt.Errorf("failed to write data %v", writeErr) } return err } func checkDataPersist(pvcPath, appPath string, f *framework.Framework) error { data := "checking data persist" pvc, err := loadPVC(pvcPath) if err != nil { return err } pvc.Namespace = f.UniqueName app, err := loadApp(appPath) if err != nil { return err } app.Labels = map[string]string{"app": "validate-data"} app.Namespace = f.UniqueName err = createPVCAndApp("", f, pvc, app, deployTimeout) if err != nil { return err } opt := metav1.ListOptions{ LabelSelector: "app=validate-data", } // write data to PVC filePath := app.Spec.Containers[0].VolumeMounts[0].MountPath + "/test" _, stdErr, err := execCommandInPod(f, fmt.Sprintf("echo %s > %s", data, filePath), app.Namespace, &opt) if err != nil { return fmt.Errorf("failed to exec command in pod: %w", err) } if stdErr != "" { return fmt.Errorf("failed to write data to a file %v", stdErr) } // delete app err = deletePod(app.Name, app.Namespace, f.ClientSet, deployTimeout) if err != nil { return err } // recreate app and check data persist err = createApp(f.ClientSet, app, deployTimeout) if err != nil { return err } persistData, stdErr, err := execCommandInPod(f, fmt.Sprintf("cat %s", filePath), app.Namespace, &opt) if err != nil { return err } if stdErr != "" { return fmt.Errorf("failed to get file content %v", stdErr) } if !strings.Contains(persistData, data) { return fmt.Errorf("data not persistent expected data %s received data %s ", data, persistData) } err = deletePVCAndApp("", f, pvc, app) return err } func pvcDeleteWhenPoolNotFound(pvcPath string, cephFS bool, f *framework.Framework) error { pvc, err := loadPVC(pvcPath) if err != nil { return err } pvc.Namespace = f.UniqueName err = createPVCAndvalidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { return err } if cephFS { err = deleteBackingCephFSVolume(f, pvc) if err != nil { return err } // delete cephFS filesystem err = deletePool("myfs", cephFS, f) if err != nil { return err } } else { err = deleteBackingRBDImage(f, pvc) if err != nil { return err } // delete rbd pool err = deletePool(defaultRBDPool, cephFS, f) if err != nil { return err } } err = deletePVCAndValidatePV(f.ClientSet, pvc, deployTimeout) return err } func checkMountOptions(pvcPath, appPath string, f *framework.Framework, mountFlags []string) error { pvc, err := loadPVC(pvcPath) if err != nil { return err } pvc.Namespace = f.UniqueName app, err := loadApp(appPath) if err != nil { return err } app.Labels = map[string]string{"app": "validate-mount-opt"} app.Namespace = f.UniqueName err = createPVCAndApp("", f, pvc, app, deployTimeout) if err != nil { return err } opt := metav1.ListOptions{ LabelSelector: "app=validate-mount-opt", } cmd := fmt.Sprintf("mount |grep %s", app.Spec.Containers[0].VolumeMounts[0].MountPath) data, stdErr, err := execCommandInPod(f, cmd, app.Namespace, &opt) if err != nil { return err } if stdErr != "" { return fmt.Errorf("failed to get mount point %v", stdErr) } for _, f := range mountFlags { if !strings.Contains(data, f) { return fmt.Errorf("mount option %s not found in %s", f, data) } } err = deletePVCAndApp("", f, pvc, app) return err } func addTopologyDomainsToDSYaml(template, labels string) string { return strings.ReplaceAll(template, "# - \"--domainlabels=failure-domain/region,failure-domain/zone\"", "- \"--domainlabels="+labels+"\"") } func oneReplicaDeployYaml(template string) string { re := regexp.MustCompile(`(\s+replicas:) \d+`) return re.ReplaceAllString(template, `$1 1`) } func enableTopologyInTemplate(data string) string { return strings.ReplaceAll(data, "--feature-gates=Topology=false", "--feature-gates=Topology=true") } func writeDataAndCalChecksum(app *v1.Pod, opt *metav1.ListOptions, f *framework.Framework) (string, error) { filePath := app.Spec.Containers[0].VolumeMounts[0].MountPath + "/test" // write data in PVC err := writeDataInPod(app, opt, f) if err != nil { e2elog.Logf("failed to write data in the pod with error %v", err) return "", err } checkSum, err := calculateSHA512sum(f, app, filePath, opt) if err != nil { e2elog.Logf("failed to calculate checksum with error %v", err) return checkSum, err } err = deletePod(app.Name, app.Namespace, f.ClientSet, deployTimeout) if err != nil { e2elog.Failf("failed to delete pod with error %v", err) } return checkSum, nil } // nolint:gocyclo,gocognit,nestif,cyclop // reduce complexity func validatePVCClone( totalCount int, sourcePvcPath, sourceAppPath, clonePvcPath, clonePvcAppPath string, kms kmsConfig, validatePVC validateFunc, f *framework.Framework) { var wg sync.WaitGroup wgErrs := make([]error, totalCount) chErrs := make([]error, totalCount) pvc, err := loadPVC(sourcePvcPath) if err != nil { e2elog.Failf("failed to load PVC with error %v", err) } label := make(map[string]string) pvc.Namespace = f.UniqueName err = createPVCAndvalidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { e2elog.Failf("failed to create PVC with error %v", err) } app, err := loadApp(sourceAppPath) if err != nil { e2elog.Failf("failed to load app with error %v", err) } label[appKey] = appLabel app.Namespace = f.UniqueName app.Spec.Volumes[0].PersistentVolumeClaim.ClaimName = pvc.Name app.Labels = label opt := metav1.ListOptions{ LabelSelector: fmt.Sprintf("%s=%s", appKey, label[appKey]), } checkSum := "" pvc, err = f.ClientSet.CoreV1(). PersistentVolumeClaims(pvc.Namespace). Get(context.TODO(), pvc.Name, metav1.GetOptions{}) if err != nil { e2elog.Failf("failed to get pvc %v", err) } if *pvc.Spec.VolumeMode == v1.PersistentVolumeFilesystem { checkSum, err = writeDataAndCalChecksum(app, &opt, f) if err != nil { e2elog.Failf("failed to calculate checksum with error %v", err) } } // validate created backend rbd images validateRBDImageCount(f, 1, defaultRBDPool) pvcClone, err := loadPVC(clonePvcPath) if err != nil { e2elog.Failf("failed to load PVC with error %v", err) } pvcClone.Spec.DataSource.Name = pvc.Name pvcClone.Namespace = f.UniqueName appClone, err := loadApp(clonePvcAppPath) if err != nil { e2elog.Failf("failed to load application with error %v", err) } appClone.Namespace = f.UniqueName wg.Add(totalCount) // create clone and bind it to an app for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) label := make(map[string]string) label[appKey] = name a.Labels = label opt := metav1.ListOptions{ LabelSelector: fmt.Sprintf("%s=%s", appKey, label[appKey]), } wgErrs[n] = createPVCAndApp(name, f, &p, &a, deployTimeout) if wgErrs[n] == nil && kms != noKMS { if kms.canGetPassphrase() { imageData, sErr := getImageInfoFromPVC(p.Namespace, name, f) if sErr != nil { wgErrs[n] = fmt.Errorf( "failed to get image info for %s namespace=%s volumehandle=%s error=%w", name, p.Namespace, imageData.csiVolumeHandle, sErr) } else { // check new passphrase created stdOut, stdErr := kms.getPassphrase(f, imageData.csiVolumeHandle) if stdOut != "" { e2elog.Logf("successfully read the passphrase from vault: %s", stdOut) } if stdErr != "" { wgErrs[n] = fmt.Errorf("failed to read passphrase from vault: %s", stdErr) } } } } if *pvc.Spec.VolumeMode == v1.PersistentVolumeFilesystem && wgErrs[n] == nil { filePath := a.Spec.Containers[0].VolumeMounts[0].MountPath + "/test" var checkSumClone string e2elog.Logf("Calculating checksum clone for filepath %s", filePath) checkSumClone, chErrs[n] = calculateSHA512sum(f, &a, filePath, &opt) e2elog.Logf("checksum for clone is %s", checkSumClone) if chErrs[n] != nil { e2elog.Logf("Failed calculating checksum clone %s", chErrs[n]) } if checkSumClone != checkSum { e2elog.Logf("checksum didn't match. checksum=%s and checksumclone=%s", checkSum, checkSumClone) } } if wgErrs[n] == nil && validatePVC != nil && kms != noKMS { wgErrs[n] = validatePVC(f, &p, &a) } wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() failed := 0 for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to create PVC (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("creating PVCs failed, %d errors were logged", failed) } for i, err := range chErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to calculate checksum (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("calculating checksum failed, %d errors were logged", failed) } // total images in cluster is 1 parent rbd image+ total // temporary clone+ total clones totalCloneCount := totalCount + totalCount + 1 validateRBDImageCount(f, totalCloneCount, defaultRBDPool) // delete parent pvc err = deletePVCAndValidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { e2elog.Failf("failed to delete PVC with error %v", err) } totalCloneCount = totalCount + totalCount validateRBDImageCount(f, totalCloneCount, defaultRBDPool) wg.Add(totalCount) // delete clone and app for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) p.Spec.DataSource.Name = name var imageData imageInfoFromPVC var sErr error if kms != noKMS { if kms.canGetPassphrase() { imageData, sErr = getImageInfoFromPVC(p.Namespace, name, f) if sErr != nil { wgErrs[n] = fmt.Errorf( "failed to get image info for %s namespace=%s volumehandle=%s error=%w", name, p.Namespace, imageData.csiVolumeHandle, sErr) } } } if wgErrs[n] == nil { wgErrs[n] = deletePVCAndApp(name, f, &p, &a) if wgErrs[n] == nil && kms != noKMS { if kms.canGetPassphrase() { // check passphrase deleted stdOut, _ := kms.getPassphrase(f, imageData.csiVolumeHandle) if stdOut != "" { wgErrs[n] = fmt.Errorf("passphrase found in vault while should be deleted: %s", stdOut) } } if wgErrs[n] == nil && kms.canVerifyKeyDestroyed() { destroyed, msg := kms.verifyKeyDestroyed(f, imageData.csiVolumeHandle) if !destroyed { wgErrs[n] = fmt.Errorf("passphrased was not destroyed: %s", msg) } } } } wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to delete PVC and application (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("deleting PVCs and applications failed, %d errors were logged", failed) } validateRBDImageCount(f, 0, defaultRBDPool) } // nolint:gocyclo,gocognit,nestif,cyclop // reduce complexity func validatePVCSnapshot( totalCount int, pvcPath, appPath, snapshotPath, pvcClonePath, appClonePath string, kms kmsConfig, f *framework.Framework) { var wg sync.WaitGroup wgErrs := make([]error, totalCount) chErrs := make([]error, totalCount) err := createRBDSnapshotClass(f) if err != nil { e2elog.Failf("failed to create storageclass with error %v", err) } defer func() { err = deleteRBDSnapshotClass() if err != nil { e2elog.Failf("failed to delete VolumeSnapshotClass: %v", err) } }() pvc, err := loadPVC(pvcPath) if err != nil { e2elog.Failf("failed to load PVC with error %v", err) } label := make(map[string]string) pvc.Namespace = f.UniqueName err = createPVCAndvalidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { e2elog.Failf("failed to create PVC with error %v", err) } app, err := loadApp(appPath) if err != nil { e2elog.Failf("failed to load app with error %v", err) } // write data in PVC label[appKey] = appLabel app.Namespace = f.UniqueName app.Labels = label opt := metav1.ListOptions{ LabelSelector: fmt.Sprintf("%s=%s", appKey, label[appKey]), } app.Spec.Volumes[0].PersistentVolumeClaim.ClaimName = pvc.Name checkSum, err := writeDataAndCalChecksum(app, &opt, f) if err != nil { e2elog.Failf("failed to calculate checksum with error %v", err) } validateRBDImageCount(f, 1, defaultRBDPool) snap := getSnapshot(snapshotPath) snap.Namespace = f.UniqueName snap.Spec.Source.PersistentVolumeClaimName = &pvc.Name wg.Add(totalCount) // create snapshot for i := 0; i < totalCount; i++ { go func(n int, s snapapi.VolumeSnapshot) { s.Name = fmt.Sprintf("%s%d", f.UniqueName, n) wgErrs[n] = createSnapshot(&s, deployTimeout) if wgErrs[n] == nil && kms != noKMS { if kms.canGetPassphrase() { content, sErr := getVolumeSnapshotContent(s.Namespace, s.Name) if sErr != nil { wgErrs[n] = fmt.Errorf( "failed to get snapshotcontent for %s in namespace %s with error: %w", s.Name, s.Namespace, sErr) } else { // check new passphrase created _, stdErr := kms.getPassphrase(f, *content.Status.SnapshotHandle) if stdErr != "" { wgErrs[n] = fmt.Errorf("failed to read passphrase from vault: %s", stdErr) } } } } wg.Done() }(i, snap) } wg.Wait() failed := 0 for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to create snapshot (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("creating snapshots failed, %d errors were logged", failed) } // total images in cluster is 1 parent rbd image+ total snaps validateRBDImageCount(f, totalCount+1, defaultRBDPool) pvcClone, err := loadPVC(pvcClonePath) if err != nil { e2elog.Failf("failed to load PVC with error %v", err) } appClone, err := loadApp(appClonePath) if err != nil { e2elog.Failf("failed to load application with error %v", err) } pvcClone.Namespace = f.UniqueName appClone.Namespace = f.UniqueName pvcClone.Spec.DataSource.Name = fmt.Sprintf("%s%d", f.UniqueName, 0) // create multiple PVC from same snapshot wg.Add(totalCount) for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) label := make(map[string]string) label[appKey] = name a.Labels = label opt := metav1.ListOptions{ LabelSelector: fmt.Sprintf("%s=%s", appKey, label[appKey]), } wgErrs[n] = createPVCAndApp(name, f, &p, &a, deployTimeout) if wgErrs[n] == nil { filePath := a.Spec.Containers[0].VolumeMounts[0].MountPath + "/test" var checkSumClone string e2elog.Logf("calculating checksum clone for filepath %s", filePath) checkSumClone, chErrs[n] = calculateSHA512sum(f, &a, filePath, &opt) e2elog.Logf("checksum value for the clone is %s with pod name %s", checkSumClone, name) if chErrs[n] != nil { e2elog.Logf("failed to calculte checksum for clone with error %s", chErrs[n]) } if checkSumClone != checkSum { e2elog.Logf( "checksum value didn't match. checksum=%s and checksumclone=%s", checkSum, checkSumClone) } } if wgErrs[n] == nil && kms != noKMS { wgErrs[n] = isEncryptedPVC(f, &p, &a) } wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to create PVC and application (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("creating PVCs and applications failed, %d errors were logged", failed) } for i, err := range chErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to calculate checksum (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("calculating checksum failed, %d errors were logged", failed) } // total images in cluster is 1 parent rbd image+ total // snaps+ total clones totalCloneCount := totalCount + totalCount + 1 validateRBDImageCount(f, totalCloneCount, defaultRBDPool) wg.Add(totalCount) // delete clone and app for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) p.Spec.DataSource.Name = name wgErrs[n] = deletePVCAndApp(name, f, &p, &a) wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to delete PVC and application (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("deleting PVCs and applications failed, %d errors were logged", failed) } // total images in cluster is 1 parent rbd image+ total // snaps validateRBDImageCount(f, totalCount+1, defaultRBDPool) // create clones from different snapshots and bind it to an // app wg.Add(totalCount) for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) p.Spec.DataSource.Name = name wgErrs[n] = createPVCAndApp(name, f, &p, &a, deployTimeout) wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to create PVC and application (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("creating PVCs and applications failed, %d errors were logged", failed) } // total images in cluster is 1 parent rbd image+ total // snaps+ total clones totalCloneCount = totalCount + totalCount + 1 validateRBDImageCount(f, totalCloneCount, defaultRBDPool) // delete parent pvc err = deletePVCAndValidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { e2elog.Failf("failed to delete PVC with error %v", err) } // total images in cluster is total snaps+ total clones totalSnapCount := totalCount + totalCount validateRBDImageCount(f, totalSnapCount, defaultRBDPool) wg.Add(totalCount) // delete snapshot for i := 0; i < totalCount; i++ { go func(n int, s snapapi.VolumeSnapshot) { s.Name = fmt.Sprintf("%s%d", f.UniqueName, n) content := &snapapi.VolumeSnapshotContent{} var err error if kms != noKMS { if kms.canGetPassphrase() { content, err = getVolumeSnapshotContent(s.Namespace, s.Name) if err != nil { wgErrs[n] = fmt.Errorf( "failed to get snapshotcontent for %s in namespace %s with error: %w", s.Name, s.Namespace, err) } } } if wgErrs[n] == nil { wgErrs[n] = deleteSnapshot(&s, deployTimeout) if wgErrs[n] == nil && kms != noKMS { if kms.canGetPassphrase() { // check passphrase deleted stdOut, _ := kms.getPassphrase(f, *content.Status.SnapshotHandle) if stdOut != "" { wgErrs[n] = fmt.Errorf("passphrase found in vault while should be deleted: %s", stdOut) } } if wgErrs[n] == nil && kms.canVerifyKeyDestroyed() { destroyed, msg := kms.verifyKeyDestroyed(f, *content.Status.SnapshotHandle) if !destroyed { wgErrs[n] = fmt.Errorf("passphrased was not destroyed: %s", msg) } } } } wg.Done() }(i, snap) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to delete snapshot (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("deleting snapshots failed, %d errors were logged", failed) } validateRBDImageCount(f, totalCount, defaultRBDPool) wg.Add(totalCount) // delete clone and app for i := 0; i < totalCount; i++ { go func(n int, p v1.PersistentVolumeClaim, a v1.Pod) { name := fmt.Sprintf("%s%d", f.UniqueName, n) p.Spec.DataSource.Name = name wgErrs[n] = deletePVCAndApp(name, f, &p, &a) wg.Done() }(i, *pvcClone, *appClone) } wg.Wait() for i, err := range wgErrs { if err != nil { // not using Failf() as it aborts the test and does not log other errors e2elog.Logf("failed to delete PVC and application (%s%d): %v", f.UniqueName, i, err) failed++ } } if failed != 0 { e2elog.Failf("deleting PVCs and applications failed, %d errors were logged", failed) } // validate created backend rbd images validateRBDImageCount(f, 0, defaultRBDPool) } // validateController simulates the required operations to validate the // controller. // Controller will generates the omap data when the PV is created. // for that we need to do below operations // Create PVC with Retain policy // Store the PVC and PV kubernetes objects so that we can create static // binding between PVC-PV // Delete the omap data created for PVC // Create the static PVC and PV and let controller regenerate the omap // Mount the PVC to application (NodeStage/NodePublish should work) // Resize the PVC // Delete the Application and PVC. func validateController( f *framework.Framework, pvcPath, appPath, scPath string, scOptions, scParams map[string]string) error { size := "1Gi" poolName := defaultRBDPool expandSize := "10Gi" var err error // create storageclass with retain err = createRBDStorageClass(f.ClientSet, f, defaultSCName, scOptions, scParams, retainPolicy) if err != nil { return fmt.Errorf("failed to create storageclass: %w", err) } // create pvc pvc, err := loadPVC(pvcPath) if err != nil { return fmt.Errorf("failed to load PVC: %w", err) } resizePvc := pvc.DeepCopy() resizePvc.Namespace = f.UniqueName pvc.Spec.Resources.Requests[v1.ResourceStorage] = resource.MustParse(size) pvc.Namespace = f.UniqueName err = createPVCAndvalidatePV(f.ClientSet, pvc, deployTimeout) if err != nil { return fmt.Errorf("failed to create PVC: %w", err) } // get pvc and pv object pvc, pv, err := getPVCAndPV(f.ClientSet, pvc.Name, pvc.Namespace) if err != nil { return fmt.Errorf("failed to get PVC: %w", err) } // Recreate storageclass with delete policy err = deleteResource(scPath) if err != nil { return fmt.Errorf("failed to delete storageclass: %w", err) } err = createRBDStorageClass(f.ClientSet, f, defaultSCName, scOptions, scParams, deletePolicy) if err != nil { return fmt.Errorf("failed to create storageclass: %w", err) } // delete omap data err = deleteJournalInfoInPool(f, pvc, poolName) if err != nil { return err } // delete pvc and pv err = deletePVCAndPV(f.ClientSet, pvc, pv, deployTimeout) if err != nil { return fmt.Errorf("failed to delete PVC or PV: %w", err) } // create pvc and pv with application pv.Spec.ClaimRef = nil pv.Spec.PersistentVolumeReclaimPolicy = deletePolicy // unset the resource version as should not be set on objects to be created pvc.ResourceVersion = "" pv.ResourceVersion = "" err = createPVCAndPV(f.ClientSet, pvc, pv) if err != nil { e2elog.Failf("failed to create PVC or PV: %v", err) } // bind PVC to application app, err := loadApp(appPath) if err != nil { return err } app.Labels = map[string]string{"app": "resize-pvc"} app.Namespace = f.UniqueName opt := metav1.ListOptions{ LabelSelector: "app=resize-pvc", } err = createApp(f.ClientSet, app, deployTimeout) if err != nil { return err } if scParams["encrypted"] == strconv.FormatBool(true) { // check encryption err = isEncryptedPVC(f, resizePvc, app) if err != nil { return err } } else { // resize PVC err = expandPVCSize(f.ClientSet, resizePvc, expandSize, deployTimeout) if err != nil { return err } switch *pvc.Spec.VolumeMode { case v1.PersistentVolumeFilesystem: err = checkDirSize(app, f, &opt, expandSize) if err != nil { return err } case v1.PersistentVolumeBlock: err = checkDeviceSize(app, f, &opt, expandSize) if err != nil { return err } } } // delete pvc and storageclass err = deletePVCAndApp("", f, resizePvc, app) if err != nil { return err } return deleteResource(rbdExamplePath + "storageclass.yaml") } // k8sVersionGreaterEquals checks the ServerVersion of the Kubernetes cluster // and compares it to the major.minor version passed. In case the version of // the cluster is equal or higher to major.minor, `true` is returned, `false` // otherwise. // // If fetching the ServerVersion of the Kubernetes cluster fails, the calling // test case is marked as `FAILED` and gets aborted. // // nolint:unparam // currently major is always 1, this can change in the future func k8sVersionGreaterEquals(c kubernetes.Interface, major, minor int) bool { v, err := c.Discovery().ServerVersion() if err != nil { e2elog.Failf("failed to get server version with error %v", err) // Failf() marks the case as failure, and returns from the // Go-routine that runs the case. This function will not have a // return value. } maj := fmt.Sprintf("%d", major) min := fmt.Sprintf("%d", minor) return (v.Major > maj) || (v.Major == maj && v.Minor >= min) } // waitForJobCompletion polls the status of the given job and waits until the // jobs has succeeded or until the timeout is hit. func waitForJobCompletion(c kubernetes.Interface, ns, job string, timeout int) error { t := time.Duration(timeout) * time.Minute start := time.Now() e2elog.Logf("waiting for Job %s/%s to be in state %q", ns, job, batch.JobComplete) return wait.PollImmediate(poll, t, func() (bool, error) { j, err := c.BatchV1().Jobs(ns).Get(context.TODO(), job, metav1.GetOptions{}) if err != nil { if isRetryableAPIError(err) { return false, nil } return false, fmt.Errorf("failed to get Job: %w", err) } if j.Status.CompletionTime != nil { // Job has successfully completed return true, nil } e2elog.Logf( "Job %s/%s has not completed yet (%d seconds elapsed)", ns, job, int(time.Since(start).Seconds())) return false, nil }) } // kubectlAction is used to tell retryKubectlInput() what action needs to be // done. type kubectlAction string const ( // kubectlCreate tells retryKubectlInput() to run "create". kubectlCreate = kubectlAction("create") // kubectlDelete tells retryKubectlInput() to run "delete". kubectlDelete = kubectlAction("delete") ) // String returns the string format of the kubectlAction, this is automatically // used when formatting strings with %s or %q. func (ka kubectlAction) String() string { return string(ka) } // retryKubectlInput takes a namespace and action telling kubectl what to do, // it then feeds data through stdin to the process. This function retries until // no error occurred, or the timeout passed. func retryKubectlInput(namespace string, action kubectlAction, data string, t int, args ...string) error { timeout := time.Duration(t) * time.Minute e2elog.Logf("waiting for kubectl (%s -f args %s) to finish", action, args) start := time.Now() return wait.PollImmediate(poll, timeout, func() (bool, error) { cmd := []string{} if len(args) != 0 { cmd = append(cmd, strings.Join(args, "")) } cmd = append(cmd, []string{string(action), "-f", "-"}...) _, err := framework.RunKubectlInput(namespace, data, cmd...) if err != nil { if isRetryableAPIError(err) { return false, nil } if isAlreadyExistsCLIError(err) { return true, nil } e2elog.Logf( "will run kubectl (%s) args (%s) again (%d seconds elapsed)", action, args, int(time.Since(start).Seconds())) return false, fmt.Errorf("failed to run kubectl: %w", err) } return true, nil }) } // retryKubectlFile takes a namespace and action telling kubectl what to do // with the passed filename and arguments. This function retries until no error // occurred, or the timeout passed. func retryKubectlFile(namespace string, action kubectlAction, filename string, t int, args ...string) error { timeout := time.Duration(t) * time.Minute e2elog.Logf("waiting for kubectl (%s -f %q args %s) to finish", action, filename, args) start := time.Now() return wait.PollImmediate(poll, timeout, func() (bool, error) { cmd := []string{} if len(args) != 0 { cmd = append(cmd, strings.Join(args, "")) } cmd = append(cmd, []string{string(action), "-f", filename}...) _, err := framework.RunKubectl(namespace, cmd...) if err != nil { if isRetryableAPIError(err) { return false, nil } if isAlreadyExistsCLIError(err) { return true, nil } e2elog.Logf( "will run kubectl (%s -f %q args %s) again (%d seconds elapsed)", action, filename, args, int(time.Since(start).Seconds())) return false, fmt.Errorf("failed to run kubectl: %w", err) } return true, nil }) } // retryKubectlArgs takes a namespace and action telling kubectl what to do // with the passed arguments. This function retries until no error occurred, or // the timeout passed. func retryKubectlArgs(namespace string, action kubectlAction, t int, args ...string) error { timeout := time.Duration(t) * time.Minute args = append([]string{string(action)}, args...) e2elog.Logf("waiting for kubectl (%s args) to finish", args) start := time.Now() return wait.PollImmediate(poll, timeout, func() (bool, error) { _, err := framework.RunKubectl(namespace, args...) if err != nil { if isRetryableAPIError(err) { return false, nil } if isAlreadyExistsCLIError(err) { return true, nil } e2elog.Logf( "will run kubectl (%s) again (%d seconds elapsed)", args, int(time.Since(start).Seconds())) return false, fmt.Errorf("failed to run kubectl: %w", err) } return true, nil }) }