/* 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 autoscaling import ( "context" "fmt" "strconv" "sync" "time" autoscalingv1 "k8s.io/api/autoscaling/v1" autoscalingv2 "k8s.io/api/autoscaling/v2" v1 "k8s.io/api/core/v1" apiextensionsv1 "k8s.io/apiextensions-apiserver/pkg/apis/apiextensions/v1" crdclientset "k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset" "k8s.io/apiextensions-apiserver/test/integration/fixtures" "k8s.io/apimachinery/pkg/api/meta" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/apis/meta/v1/unstructured" "k8s.io/apimachinery/pkg/runtime/schema" "k8s.io/apimachinery/pkg/util/intstr" "k8s.io/apimachinery/pkg/util/wait" "k8s.io/client-go/dynamic" clientset "k8s.io/client-go/kubernetes" scaleclient "k8s.io/client-go/scale" "k8s.io/kubernetes/test/e2e/framework" e2edebug "k8s.io/kubernetes/test/e2e/framework/debug" e2ekubectl "k8s.io/kubernetes/test/e2e/framework/kubectl" e2erc "k8s.io/kubernetes/test/e2e/framework/rc" e2eresource "k8s.io/kubernetes/test/e2e/framework/resource" e2eservice "k8s.io/kubernetes/test/e2e/framework/service" testutils "k8s.io/kubernetes/test/utils" utilpointer "k8s.io/utils/pointer" "github.com/onsi/ginkgo/v2" imageutils "k8s.io/kubernetes/test/utils/image" ) const ( dynamicConsumptionTimeInSeconds = 30 dynamicRequestSizeInMillicores = 100 dynamicRequestSizeInMegabytes = 100 dynamicRequestSizeCustomMetric = 10 port = 80 targetPort = 8080 sidecarTargetPort = 8081 timeoutRC = 120 * time.Second startServiceTimeout = time.Minute startServiceInterval = 5 * time.Second rcIsNil = "ERROR: replicationController = nil" deploymentIsNil = "ERROR: deployment = nil" rsIsNil = "ERROR: replicaset = nil" crdIsNil = "ERROR: CRD = nil" invalidKind = "ERROR: invalid workload kind for resource consumer" customMetricName = "QPS" serviceInitializationTimeout = 2 * time.Minute serviceInitializationInterval = 15 * time.Second megabytes = 1024 * 1024 crdVersion = "v1" crdKind = "TestCRD" crdGroup = "autoscalinge2e.example.com" crdName = "testcrd" crdNamePlural = "testcrds" ) var ( resourceConsumerImage = imageutils.GetE2EImage(imageutils.ResourceConsumer) ) var ( // KindRC is the GVK for ReplicationController KindRC = schema.GroupVersionKind{Version: "v1", Kind: "ReplicationController"} // KindDeployment is the GVK for Deployment KindDeployment = schema.GroupVersionKind{Group: "apps", Version: "v1beta2", Kind: "Deployment"} // KindReplicaSet is the GVK for ReplicaSet KindReplicaSet = schema.GroupVersionKind{Group: "apps", Version: "v1beta2", Kind: "ReplicaSet"} // KindCRD is the GVK for CRD for test purposes KindCRD = schema.GroupVersionKind{Group: crdGroup, Version: crdVersion, Kind: crdKind} ) // ScalingDirection identifies the scale direction for HPA Behavior. type ScalingDirection int const ( DirectionUnknown ScalingDirection = iota ScaleUpDirection ScaleDownDirection ) /* ResourceConsumer is a tool for testing. It helps to create a specified usage of CPU or memory. Typical use case: rc.ConsumeCPU(600) // ... check your assumption here rc.ConsumeCPU(300) // ... check your assumption here */ type ResourceConsumer struct { name string controllerName string kind schema.GroupVersionKind nsName string clientSet clientset.Interface apiExtensionClient crdclientset.Interface dynamicClient dynamic.Interface resourceClient dynamic.ResourceInterface scaleClient scaleclient.ScalesGetter cpu chan int mem chan int customMetric chan int stopCPU chan int stopMem chan int stopCustomMetric chan int stopWaitGroup sync.WaitGroup consumptionTimeInSeconds int sleepTime time.Duration requestSizeInMillicores int requestSizeInMegabytes int requestSizeCustomMetric int sidecarStatus SidecarStatusType sidecarType SidecarWorkloadType } // NewDynamicResourceConsumer is a wrapper to create a new dynamic ResourceConsumer func NewDynamicResourceConsumer(name, nsName string, kind schema.GroupVersionKind, replicas, initCPUTotal, initMemoryTotal, initCustomMetric int, cpuLimit, memLimit int64, clientset clientset.Interface, scaleClient scaleclient.ScalesGetter, enableSidecar SidecarStatusType, sidecarType SidecarWorkloadType) *ResourceConsumer { return newResourceConsumer(name, nsName, kind, replicas, initCPUTotal, initMemoryTotal, initCustomMetric, dynamicConsumptionTimeInSeconds, dynamicRequestSizeInMillicores, dynamicRequestSizeInMegabytes, dynamicRequestSizeCustomMetric, cpuLimit, memLimit, clientset, scaleClient, nil, nil, enableSidecar, sidecarType) } // getSidecarContainer returns sidecar container func getSidecarContainer(name string, cpuLimit, memLimit int64) v1.Container { container := v1.Container{ Name: name + "-sidecar", Image: resourceConsumerImage, Command: []string{"/consumer", "-port=8081"}, Ports: []v1.ContainerPort{{ContainerPort: 80}}, } if cpuLimit > 0 || memLimit > 0 { container.Resources.Limits = v1.ResourceList{} container.Resources.Requests = v1.ResourceList{} } if cpuLimit > 0 { container.Resources.Limits[v1.ResourceCPU] = *resource.NewMilliQuantity(cpuLimit, resource.DecimalSI) container.Resources.Requests[v1.ResourceCPU] = *resource.NewMilliQuantity(cpuLimit, resource.DecimalSI) } if memLimit > 0 { container.Resources.Limits[v1.ResourceMemory] = *resource.NewQuantity(memLimit*megabytes, resource.DecimalSI) container.Resources.Requests[v1.ResourceMemory] = *resource.NewQuantity(memLimit*megabytes, resource.DecimalSI) } return container } /* NewResourceConsumer creates new ResourceConsumer initCPUTotal argument is in millicores initMemoryTotal argument is in megabytes memLimit argument is in megabytes, memLimit is a maximum amount of memory that can be consumed by a single pod cpuLimit argument is in millicores, cpuLimit is a maximum amount of cpu that can be consumed by a single pod */ func newResourceConsumer(name, nsName string, kind schema.GroupVersionKind, replicas, initCPUTotal, initMemoryTotal, initCustomMetric, consumptionTimeInSeconds, requestSizeInMillicores, requestSizeInMegabytes int, requestSizeCustomMetric int, cpuLimit, memLimit int64, clientset clientset.Interface, scaleClient scaleclient.ScalesGetter, podAnnotations, serviceAnnotations map[string]string, sidecarStatus SidecarStatusType, sidecarType SidecarWorkloadType) *ResourceConsumer { if podAnnotations == nil { podAnnotations = make(map[string]string) } if serviceAnnotations == nil { serviceAnnotations = make(map[string]string) } var additionalContainers []v1.Container if sidecarStatus == Enable { sidecarContainer := getSidecarContainer(name, cpuLimit, memLimit) additionalContainers = append(additionalContainers, sidecarContainer) } config, err := framework.LoadConfig() framework.ExpectNoError(err) apiExtensionClient, err := crdclientset.NewForConfig(config) framework.ExpectNoError(err) dynamicClient, err := dynamic.NewForConfig(config) framework.ExpectNoError(err) resourceClient := dynamicClient.Resource(schema.GroupVersionResource{Group: crdGroup, Version: crdVersion, Resource: crdNamePlural}).Namespace(nsName) runServiceAndWorkloadForResourceConsumer(clientset, resourceClient, apiExtensionClient, nsName, name, kind, replicas, cpuLimit, memLimit, podAnnotations, serviceAnnotations, additionalContainers) controllerName := name + "-ctrl" // If sidecar is enabled and busy, run service and consumer for sidecar if sidecarStatus == Enable && sidecarType == Busy { runServiceAndSidecarForResourceConsumer(clientset, nsName, name, kind, replicas, serviceAnnotations) controllerName = name + "-sidecar-ctrl" } rc := &ResourceConsumer{ name: name, controllerName: controllerName, kind: kind, nsName: nsName, clientSet: clientset, apiExtensionClient: apiExtensionClient, scaleClient: scaleClient, resourceClient: resourceClient, dynamicClient: dynamicClient, cpu: make(chan int), mem: make(chan int), customMetric: make(chan int), stopCPU: make(chan int), stopMem: make(chan int), stopCustomMetric: make(chan int), consumptionTimeInSeconds: consumptionTimeInSeconds, sleepTime: time.Duration(consumptionTimeInSeconds) * time.Second, requestSizeInMillicores: requestSizeInMillicores, requestSizeInMegabytes: requestSizeInMegabytes, requestSizeCustomMetric: requestSizeCustomMetric, sidecarType: sidecarType, sidecarStatus: sidecarStatus, } go rc.makeConsumeCPURequests() rc.ConsumeCPU(initCPUTotal) go rc.makeConsumeMemRequests() rc.ConsumeMem(initMemoryTotal) go rc.makeConsumeCustomMetric() rc.ConsumeCustomMetric(initCustomMetric) return rc } // ConsumeCPU consumes given number of CPU func (rc *ResourceConsumer) ConsumeCPU(millicores int) { framework.Logf("RC %s: consume %v millicores in total", rc.name, millicores) rc.cpu <- millicores } // ConsumeMem consumes given number of Mem func (rc *ResourceConsumer) ConsumeMem(megabytes int) { framework.Logf("RC %s: consume %v MB in total", rc.name, megabytes) rc.mem <- megabytes } // ConsumeCustomMetric consumes given number of custom metric func (rc *ResourceConsumer) ConsumeCustomMetric(amount int) { framework.Logf("RC %s: consume custom metric %v in total", rc.name, amount) rc.customMetric <- amount } func (rc *ResourceConsumer) makeConsumeCPURequests() { defer ginkgo.GinkgoRecover() rc.stopWaitGroup.Add(1) defer rc.stopWaitGroup.Done() tick := time.After(time.Duration(0)) millicores := 0 for { select { case millicores = <-rc.cpu: if millicores != 0 { framework.Logf("RC %s: setting consumption to %v millicores in total", rc.name, millicores) } else { framework.Logf("RC %s: disabling CPU consumption", rc.name) } case <-tick: if millicores != 0 { framework.Logf("RC %s: sending request to consume %d millicores", rc.name, millicores) rc.sendConsumeCPURequest(millicores) } tick = time.After(rc.sleepTime) case <-rc.stopCPU: framework.Logf("RC %s: stopping CPU consumer", rc.name) return } } } func (rc *ResourceConsumer) makeConsumeMemRequests() { defer ginkgo.GinkgoRecover() rc.stopWaitGroup.Add(1) defer rc.stopWaitGroup.Done() tick := time.After(time.Duration(0)) megabytes := 0 for { select { case megabytes = <-rc.mem: if megabytes != 0 { framework.Logf("RC %s: setting consumption to %v MB in total", rc.name, megabytes) } else { framework.Logf("RC %s: disabling mem consumption", rc.name) } case <-tick: if megabytes != 0 { framework.Logf("RC %s: sending request to consume %d MB", rc.name, megabytes) rc.sendConsumeMemRequest(megabytes) } tick = time.After(rc.sleepTime) case <-rc.stopMem: framework.Logf("RC %s: stopping mem consumer", rc.name) return } } } func (rc *ResourceConsumer) makeConsumeCustomMetric() { defer ginkgo.GinkgoRecover() rc.stopWaitGroup.Add(1) defer rc.stopWaitGroup.Done() tick := time.After(time.Duration(0)) delta := 0 for { select { case delta = <-rc.customMetric: if delta != 0 { framework.Logf("RC %s: setting bump of metric %s to %d in total", rc.name, customMetricName, delta) } else { framework.Logf("RC %s: disabling consumption of custom metric %s", rc.name, customMetricName) } case <-tick: if delta != 0 { framework.Logf("RC %s: sending request to consume %d of custom metric %s", rc.name, delta, customMetricName) rc.sendConsumeCustomMetric(delta) } tick = time.After(rc.sleepTime) case <-rc.stopCustomMetric: framework.Logf("RC %s: stopping metric consumer", rc.name) return } } } func (rc *ResourceConsumer) sendConsumeCPURequest(millicores int) { ctx, cancel := context.WithTimeout(context.Background(), framework.SingleCallTimeout) defer cancel() err := wait.PollImmediate(serviceInitializationInterval, serviceInitializationTimeout, func() (bool, error) { proxyRequest, err := e2eservice.GetServicesProxyRequest(rc.clientSet, rc.clientSet.CoreV1().RESTClient().Post()) framework.ExpectNoError(err) req := proxyRequest.Namespace(rc.nsName). Name(rc.controllerName). Suffix("ConsumeCPU"). Param("millicores", strconv.Itoa(millicores)). Param("durationSec", strconv.Itoa(rc.consumptionTimeInSeconds)). Param("requestSizeMillicores", strconv.Itoa(rc.requestSizeInMillicores)) framework.Logf("ConsumeCPU URL: %v", *req.URL()) _, err = req.DoRaw(ctx) if err != nil { framework.Logf("ConsumeCPU failure: %v", err) return false, nil } return true, nil }) framework.ExpectNoError(err) } // sendConsumeMemRequest sends POST request for memory consumption func (rc *ResourceConsumer) sendConsumeMemRequest(megabytes int) { ctx, cancel := context.WithTimeout(context.Background(), framework.SingleCallTimeout) defer cancel() err := wait.PollImmediate(serviceInitializationInterval, serviceInitializationTimeout, func() (bool, error) { proxyRequest, err := e2eservice.GetServicesProxyRequest(rc.clientSet, rc.clientSet.CoreV1().RESTClient().Post()) framework.ExpectNoError(err) req := proxyRequest.Namespace(rc.nsName). Name(rc.controllerName). Suffix("ConsumeMem"). Param("megabytes", strconv.Itoa(megabytes)). Param("durationSec", strconv.Itoa(rc.consumptionTimeInSeconds)). Param("requestSizeMegabytes", strconv.Itoa(rc.requestSizeInMegabytes)) framework.Logf("ConsumeMem URL: %v", *req.URL()) _, err = req.DoRaw(ctx) if err != nil { framework.Logf("ConsumeMem failure: %v", err) return false, nil } return true, nil }) framework.ExpectNoError(err) } // sendConsumeCustomMetric sends POST request for custom metric consumption func (rc *ResourceConsumer) sendConsumeCustomMetric(delta int) { ctx, cancel := context.WithTimeout(context.Background(), framework.SingleCallTimeout) defer cancel() err := wait.PollImmediate(serviceInitializationInterval, serviceInitializationTimeout, func() (bool, error) { proxyRequest, err := e2eservice.GetServicesProxyRequest(rc.clientSet, rc.clientSet.CoreV1().RESTClient().Post()) framework.ExpectNoError(err) req := proxyRequest.Namespace(rc.nsName). Name(rc.controllerName). Suffix("BumpMetric"). Param("metric", customMetricName). Param("delta", strconv.Itoa(delta)). Param("durationSec", strconv.Itoa(rc.consumptionTimeInSeconds)). Param("requestSizeMetrics", strconv.Itoa(rc.requestSizeCustomMetric)) framework.Logf("ConsumeCustomMetric URL: %v", *req.URL()) _, err = req.DoRaw(ctx) if err != nil { framework.Logf("ConsumeCustomMetric failure: %v", err) return false, nil } return true, nil }) framework.ExpectNoError(err) } // GetReplicas get the replicas func (rc *ResourceConsumer) GetReplicas() int { switch rc.kind { case KindRC: replicationController, err := rc.clientSet.CoreV1().ReplicationControllers(rc.nsName).Get(context.TODO(), rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) if replicationController == nil { framework.Failf(rcIsNil) } return int(replicationController.Status.ReadyReplicas) case KindDeployment: deployment, err := rc.clientSet.AppsV1().Deployments(rc.nsName).Get(context.TODO(), rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) if deployment == nil { framework.Failf(deploymentIsNil) } return int(deployment.Status.ReadyReplicas) case KindReplicaSet: rs, err := rc.clientSet.AppsV1().ReplicaSets(rc.nsName).Get(context.TODO(), rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) if rs == nil { framework.Failf(rsIsNil) } return int(rs.Status.ReadyReplicas) case KindCRD: deployment, err := rc.clientSet.AppsV1().Deployments(rc.nsName).Get(context.TODO(), rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) if deployment == nil { framework.Failf(deploymentIsNil) } deploymentReplicas := int64(deployment.Status.ReadyReplicas) scale, err := rc.scaleClient.Scales(rc.nsName).Get(context.TODO(), schema.GroupResource{Group: crdGroup, Resource: crdNamePlural}, rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) crdInstance, err := rc.resourceClient.Get(context.TODO(), rc.name, metav1.GetOptions{}) framework.ExpectNoError(err) // Update custom resource's status.replicas with child Deployment's current number of ready replicas. framework.ExpectNoError(unstructured.SetNestedField(crdInstance.Object, deploymentReplicas, "status", "replicas")) _, err = rc.resourceClient.Update(context.TODO(), crdInstance, metav1.UpdateOptions{}) framework.ExpectNoError(err) return int(scale.Spec.Replicas) default: framework.Failf(invalidKind) } return 0 } // GetHpa get the corresponding horizontalPodAutoscaler object func (rc *ResourceConsumer) GetHpa(name string) (*autoscalingv1.HorizontalPodAutoscaler, error) { return rc.clientSet.AutoscalingV1().HorizontalPodAutoscalers(rc.nsName).Get(context.TODO(), name, metav1.GetOptions{}) } // WaitForReplicas wait for the desired replicas func (rc *ResourceConsumer) WaitForReplicas(desiredReplicas int, duration time.Duration) { interval := 20 * time.Second err := wait.PollImmediate(interval, duration, func() (bool, error) { replicas := rc.GetReplicas() framework.Logf("waiting for %d replicas (current: %d)", desiredReplicas, replicas) return replicas == desiredReplicas, nil // Expected number of replicas found. Exit. }) framework.ExpectNoErrorWithOffset(1, err, "timeout waiting %v for %d replicas", duration, desiredReplicas) } // EnsureDesiredReplicasInRange ensure the replicas is in a desired range func (rc *ResourceConsumer) EnsureDesiredReplicasInRange(minDesiredReplicas, maxDesiredReplicas int, duration time.Duration, hpaName string) { interval := 10 * time.Second err := wait.PollImmediate(interval, duration, func() (bool, error) { replicas := rc.GetReplicas() framework.Logf("expecting there to be in [%d, %d] replicas (are: %d)", minDesiredReplicas, maxDesiredReplicas, replicas) as, err := rc.GetHpa(hpaName) if err != nil { framework.Logf("Error getting HPA: %s", err) } else { framework.Logf("HPA status: %+v", as.Status) } if replicas < minDesiredReplicas { return false, fmt.Errorf("number of replicas below target") } else if replicas > maxDesiredReplicas { return false, fmt.Errorf("number of replicas above target") } else { return false, nil // Expected number of replicas found. Continue polling until timeout. } }) // The call above always returns an error, but if it is timeout, it's OK (condition satisfied all the time). if err == wait.ErrWaitTimeout { framework.Logf("Number of replicas was stable over %v", duration) return } framework.ExpectNoErrorWithOffset(1, err) } // Pause stops background goroutines responsible for consuming resources. func (rc *ResourceConsumer) Pause() { ginkgo.By(fmt.Sprintf("HPA pausing RC %s", rc.name)) rc.stopCPU <- 0 rc.stopMem <- 0 rc.stopCustomMetric <- 0 rc.stopWaitGroup.Wait() } // Resume starts background goroutines responsible for consuming resources. func (rc *ResourceConsumer) Resume() { ginkgo.By(fmt.Sprintf("HPA resuming RC %s", rc.name)) go rc.makeConsumeCPURequests() go rc.makeConsumeMemRequests() go rc.makeConsumeCustomMetric() } // CleanUp clean up the background goroutines responsible for consuming resources. func (rc *ResourceConsumer) CleanUp() { ginkgo.By(fmt.Sprintf("Removing consuming RC %s", rc.name)) close(rc.stopCPU) close(rc.stopMem) close(rc.stopCustomMetric) rc.stopWaitGroup.Wait() // Wait some time to ensure all child goroutines are finished. time.Sleep(10 * time.Second) kind := rc.kind.GroupKind() if kind.Kind == crdKind { gvr := schema.GroupVersionResource{Group: crdGroup, Version: crdVersion, Resource: crdNamePlural} framework.ExpectNoError(e2eresource.DeleteCustomResourceAndWaitForGC(rc.clientSet, rc.dynamicClient, rc.scaleClient, gvr, rc.nsName, rc.name)) } else { framework.ExpectNoError(e2eresource.DeleteResourceAndWaitForGC(rc.clientSet, kind, rc.nsName, rc.name)) } framework.ExpectNoError(rc.clientSet.CoreV1().Services(rc.nsName).Delete(context.TODO(), rc.name, metav1.DeleteOptions{})) framework.ExpectNoError(e2eresource.DeleteResourceAndWaitForGC(rc.clientSet, schema.GroupKind{Kind: "ReplicationController"}, rc.nsName, rc.controllerName)) framework.ExpectNoError(rc.clientSet.CoreV1().Services(rc.nsName).Delete(context.TODO(), rc.name+"-ctrl", metav1.DeleteOptions{})) // Cleanup sidecar related resources if rc.sidecarStatus == Enable && rc.sidecarType == Busy { framework.ExpectNoError(rc.clientSet.CoreV1().Services(rc.nsName).Delete(context.TODO(), rc.name+"-sidecar", metav1.DeleteOptions{})) framework.ExpectNoError(rc.clientSet.CoreV1().Services(rc.nsName).Delete(context.TODO(), rc.name+"-sidecar-ctrl", metav1.DeleteOptions{})) } } func createService(c clientset.Interface, name, ns string, annotations, selectors map[string]string, port int32, targetPort int) (*v1.Service, error) { return c.CoreV1().Services(ns).Create(context.TODO(), &v1.Service{ ObjectMeta: metav1.ObjectMeta{ Name: name, Annotations: annotations, }, Spec: v1.ServiceSpec{ Ports: []v1.ServicePort{{ Port: port, TargetPort: intstr.FromInt(targetPort), }}, Selector: selectors, }, }, metav1.CreateOptions{}) } // runServiceAndSidecarForResourceConsumer creates service and runs resource consumer for sidecar container func runServiceAndSidecarForResourceConsumer(c clientset.Interface, ns, name string, kind schema.GroupVersionKind, replicas int, serviceAnnotations map[string]string) { ginkgo.By(fmt.Sprintf("Running consuming RC sidecar %s via %s with %v replicas", name, kind, replicas)) sidecarName := name + "-sidecar" serviceSelectors := map[string]string{ "name": name, } _, err := createService(c, sidecarName, ns, serviceAnnotations, serviceSelectors, port, sidecarTargetPort) framework.ExpectNoError(err) ginkgo.By(fmt.Sprintf("Running controller for sidecar")) controllerName := sidecarName + "-ctrl" _, err = createService(c, controllerName, ns, map[string]string{}, map[string]string{"name": controllerName}, port, targetPort) framework.ExpectNoError(err) dnsClusterFirst := v1.DNSClusterFirst controllerRcConfig := testutils.RCConfig{ Client: c, Image: imageutils.GetE2EImage(imageutils.Agnhost), Name: controllerName, Namespace: ns, Timeout: timeoutRC, Replicas: 1, Command: []string{"/agnhost", "resource-consumer-controller", "--consumer-service-name=" + sidecarName, "--consumer-service-namespace=" + ns, "--consumer-port=80"}, DNSPolicy: &dnsClusterFirst, } framework.ExpectNoError(e2erc.RunRC(controllerRcConfig)) // Wait for endpoints to propagate for the controller service. framework.ExpectNoError(framework.WaitForServiceEndpointsNum( c, ns, controllerName, 1, startServiceInterval, startServiceTimeout)) } func runServiceAndWorkloadForResourceConsumer(c clientset.Interface, resourceClient dynamic.ResourceInterface, apiExtensionClient crdclientset.Interface, ns, name string, kind schema.GroupVersionKind, replicas int, cpuLimitMillis, memLimitMb int64, podAnnotations, serviceAnnotations map[string]string, additionalContainers []v1.Container) { ginkgo.By(fmt.Sprintf("Running consuming RC %s via %s with %v replicas", name, kind, replicas)) _, err := createService(c, name, ns, serviceAnnotations, map[string]string{"name": name}, port, targetPort) framework.ExpectNoError(err) rcConfig := testutils.RCConfig{ Client: c, Image: resourceConsumerImage, Name: name, Namespace: ns, Timeout: timeoutRC, Replicas: replicas, CpuRequest: cpuLimitMillis, CpuLimit: cpuLimitMillis, MemRequest: memLimitMb * 1024 * 1024, // MemLimit is in bytes MemLimit: memLimitMb * 1024 * 1024, Annotations: podAnnotations, AdditionalContainers: additionalContainers, } dpConfig := testutils.DeploymentConfig{ RCConfig: rcConfig, } dpConfig.NodeDumpFunc = e2edebug.DumpNodeDebugInfo dpConfig.ContainerDumpFunc = e2ekubectl.LogFailedContainers switch kind { case KindRC: framework.ExpectNoError(e2erc.RunRC(rcConfig)) case KindDeployment: ginkgo.By(fmt.Sprintf("Creating deployment %s in namespace %s", dpConfig.Name, dpConfig.Namespace)) framework.ExpectNoError(testutils.RunDeployment(dpConfig)) case KindReplicaSet: rsConfig := testutils.ReplicaSetConfig{ RCConfig: rcConfig, } ginkgo.By(fmt.Sprintf("Creating replicaset %s in namespace %s", rsConfig.Name, rsConfig.Namespace)) framework.ExpectNoError(runReplicaSet(rsConfig)) case KindCRD: crd := CreateCustomResourceDefinition(apiExtensionClient) crdInstance, err := CreateCustomSubresourceInstance(ns, name, resourceClient, crd) framework.ExpectNoError(err) ginkgo.By(fmt.Sprintf("Creating deployment %s backing CRD in namespace %s", dpConfig.Name, dpConfig.Namespace)) framework.ExpectNoError(testutils.RunDeployment(dpConfig)) deployment, err := c.AppsV1().Deployments(dpConfig.Namespace).Get(context.TODO(), dpConfig.Name, metav1.GetOptions{}) framework.ExpectNoError(err) deployment.SetOwnerReferences([]metav1.OwnerReference{{ APIVersion: kind.GroupVersion().String(), Kind: crdKind, Name: name, UID: crdInstance.GetUID(), }}) _, err = c.AppsV1().Deployments(dpConfig.Namespace).Update(context.TODO(), deployment, metav1.UpdateOptions{}) framework.ExpectNoError(err) default: framework.Failf(invalidKind) } ginkgo.By(fmt.Sprintf("Running controller")) controllerName := name + "-ctrl" _, err = createService(c, controllerName, ns, map[string]string{}, map[string]string{"name": controllerName}, port, targetPort) framework.ExpectNoError(err) dnsClusterFirst := v1.DNSClusterFirst controllerRcConfig := testutils.RCConfig{ Client: c, Image: imageutils.GetE2EImage(imageutils.Agnhost), Name: controllerName, Namespace: ns, Timeout: timeoutRC, Replicas: 1, Command: []string{"/agnhost", "resource-consumer-controller", "--consumer-service-name=" + name, "--consumer-service-namespace=" + ns, "--consumer-port=80"}, DNSPolicy: &dnsClusterFirst, } framework.ExpectNoError(e2erc.RunRC(controllerRcConfig)) // Wait for endpoints to propagate for the controller service. framework.ExpectNoError(framework.WaitForServiceEndpointsNum( c, ns, controllerName, 1, startServiceInterval, startServiceTimeout)) } func CreateHorizontalPodAutoscaler(rc *ResourceConsumer, targetRef autoscalingv2.CrossVersionObjectReference, namespace string, metrics []autoscalingv2.MetricSpec, resourceType v1.ResourceName, metricTargetType autoscalingv2.MetricTargetType, metricTargetValue, minReplicas, maxReplicas int32) *autoscalingv2.HorizontalPodAutoscaler { hpa := &autoscalingv2.HorizontalPodAutoscaler{ ObjectMeta: metav1.ObjectMeta{ Name: targetRef.Name, Namespace: namespace, }, Spec: autoscalingv2.HorizontalPodAutoscalerSpec{ ScaleTargetRef: targetRef, MinReplicas: &minReplicas, MaxReplicas: maxReplicas, Metrics: metrics, }, } hpa, errHPA := rc.clientSet.AutoscalingV2().HorizontalPodAutoscalers(namespace).Create(context.TODO(), hpa, metav1.CreateOptions{}) framework.ExpectNoError(errHPA) return hpa } func CreateResourceHorizontalPodAutoscaler(rc *ResourceConsumer, resourceType v1.ResourceName, metricTargetType autoscalingv2.MetricTargetType, metricTargetValue, minReplicas, maxReplicas int32) *autoscalingv2.HorizontalPodAutoscaler { targetRef := autoscalingv2.CrossVersionObjectReference{ APIVersion: rc.kind.GroupVersion().String(), Kind: rc.kind.Kind, Name: rc.name, } metrics := []autoscalingv2.MetricSpec{ { Type: autoscalingv2.ResourceMetricSourceType, Resource: &autoscalingv2.ResourceMetricSource{ Name: resourceType, Target: CreateMetricTargetWithType(resourceType, metricTargetType, metricTargetValue), }, }, } return CreateHorizontalPodAutoscaler(rc, targetRef, rc.nsName, metrics, resourceType, metricTargetType, metricTargetValue, minReplicas, maxReplicas) } func CreateCPUResourceHorizontalPodAutoscaler(rc *ResourceConsumer, cpu, minReplicas, maxReplicas int32) *autoscalingv2.HorizontalPodAutoscaler { return CreateResourceHorizontalPodAutoscaler(rc, v1.ResourceCPU, autoscalingv2.UtilizationMetricType, cpu, minReplicas, maxReplicas) } // DeleteHorizontalPodAutoscaler delete the horizontalPodAutoscaler for consuming resources. func DeleteHorizontalPodAutoscaler(rc *ResourceConsumer, autoscalerName string) { rc.clientSet.AutoscalingV1().HorizontalPodAutoscalers(rc.nsName).Delete(context.TODO(), autoscalerName, metav1.DeleteOptions{}) } // runReplicaSet launches (and verifies correctness) of a replicaset. func runReplicaSet(config testutils.ReplicaSetConfig) error { ginkgo.By(fmt.Sprintf("creating replicaset %s in namespace %s", config.Name, config.Namespace)) config.NodeDumpFunc = e2edebug.DumpNodeDebugInfo config.ContainerDumpFunc = e2ekubectl.LogFailedContainers return testutils.RunReplicaSet(config) } func CreateContainerResourceHorizontalPodAutoscaler(rc *ResourceConsumer, resourceType v1.ResourceName, metricTargetType autoscalingv2.MetricTargetType, metricTargetValue, minReplicas, maxReplicas int32) *autoscalingv2.HorizontalPodAutoscaler { targetRef := autoscalingv2.CrossVersionObjectReference{ APIVersion: rc.kind.GroupVersion().String(), Kind: rc.kind.Kind, Name: rc.name, } metrics := []autoscalingv2.MetricSpec{ { Type: autoscalingv2.ContainerResourceMetricSourceType, ContainerResource: &autoscalingv2.ContainerResourceMetricSource{ Name: resourceType, Container: rc.name, Target: CreateMetricTargetWithType(resourceType, metricTargetType, metricTargetValue), }, }, } return CreateHorizontalPodAutoscaler(rc, targetRef, rc.nsName, metrics, resourceType, metricTargetType, metricTargetValue, minReplicas, maxReplicas) } // DeleteContainerResourceHPA delete the horizontalPodAutoscaler for consuming resources. func DeleteContainerResourceHPA(rc *ResourceConsumer, autoscalerName string) { rc.clientSet.AutoscalingV2().HorizontalPodAutoscalers(rc.nsName).Delete(context.TODO(), autoscalerName, metav1.DeleteOptions{}) } func CreateMetricTargetWithType(resourceType v1.ResourceName, targetType autoscalingv2.MetricTargetType, targetValue int32) autoscalingv2.MetricTarget { var metricTarget autoscalingv2.MetricTarget if targetType == autoscalingv2.UtilizationMetricType { metricTarget = autoscalingv2.MetricTarget{ Type: targetType, AverageUtilization: &targetValue, } } else if targetType == autoscalingv2.AverageValueMetricType { var averageValue *resource.Quantity if resourceType == v1.ResourceCPU { averageValue = resource.NewMilliQuantity(int64(targetValue), resource.DecimalSI) } else { averageValue = resource.NewQuantity(int64(targetValue*megabytes), resource.DecimalSI) } metricTarget = autoscalingv2.MetricTarget{ Type: targetType, AverageValue: averageValue, } } return metricTarget } func CreateCPUHorizontalPodAutoscalerWithBehavior(rc *ResourceConsumer, cpu int32, minReplicas int32, maxRepl int32, behavior *autoscalingv2.HorizontalPodAutoscalerBehavior) *autoscalingv2.HorizontalPodAutoscaler { hpa := &autoscalingv2.HorizontalPodAutoscaler{ ObjectMeta: metav1.ObjectMeta{ Name: rc.name, Namespace: rc.nsName, }, Spec: autoscalingv2.HorizontalPodAutoscalerSpec{ ScaleTargetRef: autoscalingv2.CrossVersionObjectReference{ APIVersion: rc.kind.GroupVersion().String(), Kind: rc.kind.Kind, Name: rc.name, }, MinReplicas: &minReplicas, MaxReplicas: maxRepl, Metrics: []autoscalingv2.MetricSpec{ { Type: autoscalingv2.ResourceMetricSourceType, Resource: &autoscalingv2.ResourceMetricSource{ Name: v1.ResourceCPU, Target: autoscalingv2.MetricTarget{ Type: autoscalingv2.UtilizationMetricType, AverageUtilization: &cpu, }, }, }, }, Behavior: behavior, }, } hpa, errHPA := rc.clientSet.AutoscalingV2().HorizontalPodAutoscalers(rc.nsName).Create(context.TODO(), hpa, metav1.CreateOptions{}) framework.ExpectNoError(errHPA) return hpa } func HPABehaviorWithScaleUpAndDownRules(scaleUpRule, scaleDownRule *autoscalingv2.HPAScalingRules) *autoscalingv2.HorizontalPodAutoscalerBehavior { return &autoscalingv2.HorizontalPodAutoscalerBehavior{ ScaleUp: scaleUpRule, ScaleDown: scaleDownRule, } } func HPABehaviorWithScalingRuleInDirection(scalingDirection ScalingDirection, rule *autoscalingv2.HPAScalingRules) *autoscalingv2.HorizontalPodAutoscalerBehavior { var scaleUpRule, scaleDownRule *autoscalingv2.HPAScalingRules if scalingDirection == ScaleUpDirection { scaleUpRule = rule } if scalingDirection == ScaleDownDirection { scaleDownRule = rule } return HPABehaviorWithScaleUpAndDownRules(scaleUpRule, scaleDownRule) } func HPAScalingRuleWithStabilizationWindow(stabilizationDuration int32) *autoscalingv2.HPAScalingRules { return &autoscalingv2.HPAScalingRules{ StabilizationWindowSeconds: &stabilizationDuration, } } func HPAScalingRuleWithPolicyDisabled() *autoscalingv2.HPAScalingRules { disabledPolicy := autoscalingv2.DisabledPolicySelect return &autoscalingv2.HPAScalingRules{ SelectPolicy: &disabledPolicy, } } func HPAScalingRuleWithScalingPolicy(policyType autoscalingv2.HPAScalingPolicyType, value, periodSeconds int32) *autoscalingv2.HPAScalingRules { stabilizationWindowDisabledDuration := int32(0) selectPolicy := autoscalingv2.MaxChangePolicySelect return &autoscalingv2.HPAScalingRules{ Policies: []autoscalingv2.HPAScalingPolicy{ { Type: policyType, Value: value, PeriodSeconds: periodSeconds, }, }, SelectPolicy: &selectPolicy, StabilizationWindowSeconds: &stabilizationWindowDisabledDuration, } } func HPABehaviorWithStabilizationWindows(upscaleStabilization, downscaleStabilization time.Duration) *autoscalingv2.HorizontalPodAutoscalerBehavior { scaleUpRule := HPAScalingRuleWithStabilizationWindow(int32(upscaleStabilization.Seconds())) scaleDownRule := HPAScalingRuleWithStabilizationWindow(int32(downscaleStabilization.Seconds())) return HPABehaviorWithScaleUpAndDownRules(scaleUpRule, scaleDownRule) } func HPABehaviorWithScaleDisabled(scalingDirection ScalingDirection) *autoscalingv2.HorizontalPodAutoscalerBehavior { scalingRule := HPAScalingRuleWithPolicyDisabled() return HPABehaviorWithScalingRuleInDirection(scalingDirection, scalingRule) } func HPABehaviorWithScaleLimitedByNumberOfPods(scalingDirection ScalingDirection, numberOfPods, periodSeconds int32) *autoscalingv2.HorizontalPodAutoscalerBehavior { scalingRule := HPAScalingRuleWithScalingPolicy(autoscalingv2.PodsScalingPolicy, numberOfPods, periodSeconds) return HPABehaviorWithScalingRuleInDirection(scalingDirection, scalingRule) } func HPABehaviorWithScaleLimitedByPercentage(scalingDirection ScalingDirection, percentage, periodSeconds int32) *autoscalingv2.HorizontalPodAutoscalerBehavior { scalingRule := HPAScalingRuleWithScalingPolicy(autoscalingv2.PercentScalingPolicy, percentage, periodSeconds) return HPABehaviorWithScalingRuleInDirection(scalingDirection, scalingRule) } func DeleteHPAWithBehavior(rc *ResourceConsumer, autoscalerName string) { rc.clientSet.AutoscalingV2().HorizontalPodAutoscalers(rc.nsName).Delete(context.TODO(), autoscalerName, metav1.DeleteOptions{}) } // SidecarStatusType type for sidecar status type SidecarStatusType bool const ( Enable SidecarStatusType = true Disable SidecarStatusType = false ) // SidecarWorkloadType type of the sidecar type SidecarWorkloadType string const ( Busy SidecarWorkloadType = "Busy" Idle SidecarWorkloadType = "Idle" ) func CreateCustomResourceDefinition(c crdclientset.Interface) *apiextensionsv1.CustomResourceDefinition { crdSchema := &apiextensionsv1.CustomResourceDefinition{ ObjectMeta: metav1.ObjectMeta{Name: crdNamePlural + "." + crdGroup}, Spec: apiextensionsv1.CustomResourceDefinitionSpec{ Group: crdGroup, Scope: apiextensionsv1.ResourceScope("Namespaced"), Names: apiextensionsv1.CustomResourceDefinitionNames{ Plural: crdNamePlural, Singular: crdName, Kind: crdKind, ListKind: "TestCRDList", }, Versions: []apiextensionsv1.CustomResourceDefinitionVersion{{ Name: crdVersion, Served: true, Storage: true, Schema: fixtures.AllowAllSchema(), Subresources: &apiextensionsv1.CustomResourceSubresources{ Scale: &apiextensionsv1.CustomResourceSubresourceScale{ SpecReplicasPath: ".spec.replicas", StatusReplicasPath: ".status.replicas", LabelSelectorPath: utilpointer.String(".status.selector"), }, }, }}, }, Status: apiextensionsv1.CustomResourceDefinitionStatus{}, } // Create Custom Resource Definition if it's not present. crd, err := c.ApiextensionsV1().CustomResourceDefinitions().Get(context.TODO(), crdSchema.Name, metav1.GetOptions{}) if err != nil { crd, err = c.ApiextensionsV1().CustomResourceDefinitions().Create(context.TODO(), crdSchema, metav1.CreateOptions{}) framework.ExpectNoError(err) // Wait until just created CRD appears in discovery. err = wait.PollImmediate(500*time.Millisecond, 30*time.Second, func() (bool, error) { return ExistsInDiscovery(crd, c, "v1") }) framework.ExpectNoError(err) ginkgo.By(fmt.Sprintf("Successfully created Custom Resource Definition: %v", crd)) } return crd } func ExistsInDiscovery(crd *apiextensionsv1.CustomResourceDefinition, apiExtensionsClient crdclientset.Interface, version string) (bool, error) { groupResource, err := apiExtensionsClient.Discovery().ServerResourcesForGroupVersion(crd.Spec.Group + "/" + version) if err != nil { return false, err } for _, g := range groupResource.APIResources { if g.Name == crd.Spec.Names.Plural { return true, nil } } return false, nil } func CreateCustomSubresourceInstance(namespace, name string, client dynamic.ResourceInterface, definition *apiextensionsv1.CustomResourceDefinition) (*unstructured.Unstructured, error) { instance := &unstructured.Unstructured{ Object: map[string]interface{}{ "apiVersion": crdGroup + "/" + crdVersion, "kind": crdKind, "metadata": map[string]interface{}{ "namespace": namespace, "name": name, }, "spec": map[string]interface{}{ "num": int64(1), "replicas": int64(1), }, "status": map[string]interface{}{ "replicas": int64(1), "selector": "name=" + name, }, }, } instance, err := client.Create(context.TODO(), instance, metav1.CreateOptions{}) if err != nil { framework.Logf("%#v", instance) return nil, err } createdObjectMeta, err := meta.Accessor(instance) if err != nil { return nil, fmt.Errorf("Error while creating object meta: %v", err) } if len(createdObjectMeta.GetUID()) == 0 { return nil, fmt.Errorf("Missing UUID: %v", instance) } ginkgo.By(fmt.Sprintf("Successfully created instance of CRD of kind %v: %v", definition.Kind, instance)) return instance, nil }