/* Copyright 2017 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 vsphere import ( "fmt" "os" "strconv" . "github.com/onsi/ginkgo" . "github.com/onsi/gomega" "k8s.io/api/core/v1" storageV1 "k8s.io/api/storage/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" k8stypes "k8s.io/apimachinery/pkg/types" clientset "k8s.io/client-go/kubernetes" "k8s.io/kubernetes/pkg/cloudprovider/providers/vsphere" "k8s.io/kubernetes/test/e2e/framework" "k8s.io/kubernetes/test/e2e/storage/utils" ) /* Perform vsphere volume life cycle management at scale based on user configurable value for number of volumes. The following actions will be performed as part of this test. 1. Create Storage Classes of 4 Categories (Default, SC with Non Default Datastore, SC with SPBM Policy, SC with VSAN Storage Capalibilies.) 2. Read VCP_SCALE_VOLUME_COUNT, VCP_SCALE_INSTANCES, VCP_SCALE_VOLUMES_PER_POD, VSPHERE_SPBM_POLICY_NAME, VSPHERE_DATASTORE from System Environment. 3. Launch VCP_SCALE_INSTANCES goroutine for creating VCP_SCALE_VOLUME_COUNT volumes. Each goroutine is responsible for create/attach of VCP_SCALE_VOLUME_COUNT/VCP_SCALE_INSTANCES volumes. 4. Read VCP_SCALE_VOLUMES_PER_POD from System Environment. Each pod will be have VCP_SCALE_VOLUMES_PER_POD attached to it. 5. Once all the go routines are completed, we delete all the pods and volumes. */ const ( NodeLabelKey = "vsphere_e2e_label" ) // NodeSelector holds type NodeSelector struct { labelKey string labelValue string } var _ = utils.SIGDescribe("vcp at scale [Feature:vsphere] ", func() { f := framework.NewDefaultFramework("vcp-at-scale") var ( client clientset.Interface namespace string nodeSelectorList []*NodeSelector volumeCount int numberOfInstances int volumesPerPod int nodeVolumeMapChan chan map[string][]string nodes *v1.NodeList policyName string datastoreName string scNames = []string{storageclass1, storageclass2, storageclass3, storageclass4} err error ) BeforeEach(func() { framework.SkipUnlessProviderIs("vsphere") client = f.ClientSet namespace = f.Namespace.Name nodeVolumeMapChan = make(chan map[string][]string) // Read the environment variables volumeCountStr := os.Getenv("VCP_SCALE_VOLUME_COUNT") Expect(volumeCountStr).NotTo(BeEmpty(), "ENV VCP_SCALE_VOLUME_COUNT is not set") volumeCount, err = strconv.Atoi(volumeCountStr) Expect(err).NotTo(HaveOccurred(), "Error Parsing VCP_SCALE_VOLUME_COUNT") volumesPerPodStr := os.Getenv("VCP_SCALE_VOLUME_PER_POD") Expect(volumesPerPodStr).NotTo(BeEmpty(), "ENV VCP_SCALE_VOLUME_PER_POD is not set") volumesPerPod, err = strconv.Atoi(volumesPerPodStr) Expect(err).NotTo(HaveOccurred(), "Error Parsing VCP_SCALE_VOLUME_PER_POD") numberOfInstancesStr := os.Getenv("VCP_SCALE_INSTANCES") Expect(numberOfInstancesStr).NotTo(BeEmpty(), "ENV VCP_SCALE_INSTANCES is not set") numberOfInstances, err = strconv.Atoi(numberOfInstancesStr) Expect(err).NotTo(HaveOccurred(), "Error Parsing VCP_SCALE_INSTANCES") Expect(numberOfInstances > 5).NotTo(BeTrue(), "Maximum allowed instances are 5") Expect(numberOfInstances > volumeCount).NotTo(BeTrue(), "Number of instances should be less than the total volume count") policyName = os.Getenv("VSPHERE_SPBM_POLICY_NAME") datastoreName = os.Getenv("VSPHERE_DATASTORE") Expect(policyName).NotTo(BeEmpty(), "ENV VSPHERE_SPBM_POLICY_NAME is not set") Expect(datastoreName).NotTo(BeEmpty(), "ENV VSPHERE_DATASTORE is not set") nodes = framework.GetReadySchedulableNodesOrDie(client) if len(nodes.Items) < 2 { framework.Skipf("Requires at least %d nodes (not %d)", 2, len(nodes.Items)) } // Verify volume count specified by the user can be satisfied if volumeCount > volumesPerNode*len(nodes.Items) { framework.Skipf("Cannot attach %d volumes to %d nodes. Maximum volumes that can be attached on %d nodes is %d", volumeCount, len(nodes.Items), len(nodes.Items), volumesPerNode*len(nodes.Items)) } nodeSelectorList = createNodeLabels(client, namespace, nodes) }) /* Remove labels from all the nodes */ framework.AddCleanupAction(func() { // Cleanup actions will be called even when the tests are skipped and leaves namespace unset. if len(namespace) > 0 { for _, node := range nodes.Items { framework.RemoveLabelOffNode(client, node.Name, NodeLabelKey) } } }) It("vsphere scale tests", func() { var pvcClaimList []string nodeVolumeMap := make(map[k8stypes.NodeName][]string) // Volumes will be provisioned with each different types of Storage Class scArrays := make([]*storageV1.StorageClass, len(scNames)) for index, scname := range scNames { // Create vSphere Storage Class By(fmt.Sprintf("Creating Storage Class : %q", scname)) var sc *storageV1.StorageClass scParams := make(map[string]string) var err error switch scname { case storageclass1: scParams = nil case storageclass2: scParams[Policy_HostFailuresToTolerate] = "1" case storageclass3: scParams[SpbmStoragePolicy] = policyName case storageclass4: scParams[Datastore] = datastoreName } sc, err = client.StorageV1().StorageClasses().Create(getVSphereStorageClassSpec(scname, scParams)) Expect(sc).NotTo(BeNil(), "Storage class is empty") Expect(err).NotTo(HaveOccurred(), "Failed to create storage class") defer client.StorageV1().StorageClasses().Delete(scname, nil) scArrays[index] = sc } vsp, err := getVSphere(client) Expect(err).NotTo(HaveOccurred()) volumeCountPerInstance := volumeCount / numberOfInstances for instanceCount := 0; instanceCount < numberOfInstances; instanceCount++ { if instanceCount == numberOfInstances-1 { volumeCountPerInstance = volumeCount } volumeCount = volumeCount - volumeCountPerInstance go VolumeCreateAndAttach(client, namespace, scArrays, volumeCountPerInstance, volumesPerPod, nodeSelectorList, nodeVolumeMapChan, vsp) } // Get the list of all volumes attached to each node from the go routines by reading the data from the channel for instanceCount := 0; instanceCount < numberOfInstances; instanceCount++ { for node, volumeList := range <-nodeVolumeMapChan { nodeVolumeMap[k8stypes.NodeName(node)] = append(nodeVolumeMap[k8stypes.NodeName(node)], volumeList...) } } podList, err := client.CoreV1().Pods(namespace).List(metav1.ListOptions{}) for _, pod := range podList.Items { pvcClaimList = append(pvcClaimList, getClaimsForPod(&pod, volumesPerPod)...) By("Deleting pod") err = framework.DeletePodWithWait(f, client, &pod) Expect(err).NotTo(HaveOccurred()) } By("Waiting for volumes to be detached from the node") err = waitForVSphereDisksToDetach(client, vsp, nodeVolumeMap) Expect(err).NotTo(HaveOccurred()) for _, pvcClaim := range pvcClaimList { err = framework.DeletePersistentVolumeClaim(client, pvcClaim, namespace) Expect(err).NotTo(HaveOccurred()) } }) }) // Get PVC claims for the pod func getClaimsForPod(pod *v1.Pod, volumesPerPod int) []string { pvcClaimList := make([]string, volumesPerPod) for i, volumespec := range pod.Spec.Volumes { if volumespec.PersistentVolumeClaim != nil { pvcClaimList[i] = volumespec.PersistentVolumeClaim.ClaimName } } return pvcClaimList } // VolumeCreateAndAttach peforms create and attach operations of vSphere persistent volumes at scale func VolumeCreateAndAttach(client clientset.Interface, namespace string, sc []*storageV1.StorageClass, volumeCountPerInstance int, volumesPerPod int, nodeSelectorList []*NodeSelector, nodeVolumeMapChan chan map[string][]string, vsp *vsphere.VSphere) { defer GinkgoRecover() nodeVolumeMap := make(map[string][]string) nodeSelectorIndex := 0 for index := 0; index < volumeCountPerInstance; index = index + volumesPerPod { if (volumeCountPerInstance - index) < volumesPerPod { volumesPerPod = volumeCountPerInstance - index } pvclaims := make([]*v1.PersistentVolumeClaim, volumesPerPod) for i := 0; i < volumesPerPod; i++ { By("Creating PVC using the Storage Class") pvclaim, err := framework.CreatePVC(client, namespace, getVSphereClaimSpecWithStorageClassAnnotation(namespace, "2Gi", sc[index%len(sc)])) Expect(err).NotTo(HaveOccurred()) pvclaims[i] = pvclaim } By("Waiting for claim to be in bound phase") persistentvolumes, err := framework.WaitForPVClaimBoundPhase(client, pvclaims, framework.ClaimProvisionTimeout) Expect(err).NotTo(HaveOccurred()) By("Creating pod to attach PV to the node") nodeSelector := nodeSelectorList[nodeSelectorIndex%len(nodeSelectorList)] // Create pod to attach Volume to Node pod, err := framework.CreatePod(client, namespace, map[string]string{nodeSelector.labelKey: nodeSelector.labelValue}, pvclaims, false, "") Expect(err).NotTo(HaveOccurred()) for _, pv := range persistentvolumes { nodeVolumeMap[pod.Spec.NodeName] = append(nodeVolumeMap[pod.Spec.NodeName], pv.Spec.VsphereVolume.VolumePath) } By("Verify the volume is accessible and available in the pod") verifyVSphereVolumesAccessible(client, pod, persistentvolumes, vsp) nodeSelectorIndex++ } nodeVolumeMapChan <- nodeVolumeMap close(nodeVolumeMapChan) } func createNodeLabels(client clientset.Interface, namespace string, nodes *v1.NodeList) []*NodeSelector { var nodeSelectorList []*NodeSelector for i, node := range nodes.Items { labelVal := "vsphere_e2e_" + strconv.Itoa(i) nodeSelector := &NodeSelector{ labelKey: NodeLabelKey, labelValue: labelVal, } nodeSelectorList = append(nodeSelectorList, nodeSelector) framework.AddOrUpdateLabelOnNode(client, node.Name, NodeLabelKey, labelVal) } return nodeSelectorList }