/* Copyright 2016 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 podautoscaler import ( "fmt" "math" "testing" "time" autoscalingv2 "k8s.io/api/autoscaling/v2beta2" "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/api/meta/testrestmapper" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/runtime/schema" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/client-go/informers" "k8s.io/client-go/kubernetes/fake" core "k8s.io/client-go/testing" "k8s.io/kubernetes/pkg/api/legacyscheme" "k8s.io/kubernetes/pkg/controller" metricsclient "k8s.io/kubernetes/pkg/controller/podautoscaler/metrics" cmapi "k8s.io/metrics/pkg/apis/custom_metrics/v1beta2" emapi "k8s.io/metrics/pkg/apis/external_metrics/v1beta1" metricsapi "k8s.io/metrics/pkg/apis/metrics/v1beta1" metricsfake "k8s.io/metrics/pkg/client/clientset/versioned/fake" cmfake "k8s.io/metrics/pkg/client/custom_metrics/fake" emfake "k8s.io/metrics/pkg/client/external_metrics/fake" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) type resourceInfo struct { name v1.ResourceName requests []resource.Quantity levels []int64 // only applies to pod names returned from "heapster" podNames []string targetUtilization int32 expectedUtilization int32 expectedValue int64 } type metricType int const ( objectMetric metricType = iota externalMetric externalPerPodMetric podMetric ) type metricInfo struct { name string levels []int64 singleObject *autoscalingv2.CrossVersionObjectReference selector *metav1.LabelSelector metricType metricType targetUtilization int64 perPodTargetUtilization int64 expectedUtilization int64 } type replicaCalcTestCase struct { currentReplicas int32 expectedReplicas int32 expectedError error timestamp time.Time resource *resourceInfo metric *metricInfo metricLabelSelector labels.Selector podReadiness []v1.ConditionStatus podStartTime []metav1.Time podPhase []v1.PodPhase podDeletionTimestamp []bool } const ( testNamespace = "test-namespace" podNamePrefix = "test-pod" numContainersPerPod = 2 ) func (tc *replicaCalcTestCase) prepareTestClientSet() *fake.Clientset { fakeClient := &fake.Clientset{} fakeClient.AddReactor("list", "pods", func(action core.Action) (handled bool, ret runtime.Object, err error) { obj := &v1.PodList{} podsCount := int(tc.currentReplicas) // Failed pods are not included in tc.currentReplicas if tc.podPhase != nil && len(tc.podPhase) > podsCount { podsCount = len(tc.podPhase) } for i := 0; i < podsCount; i++ { podReadiness := v1.ConditionTrue if tc.podReadiness != nil && i < len(tc.podReadiness) { podReadiness = tc.podReadiness[i] } var podStartTime metav1.Time if tc.podStartTime != nil { podStartTime = tc.podStartTime[i] } podPhase := v1.PodRunning if tc.podPhase != nil { podPhase = tc.podPhase[i] } podDeletionTimestamp := false if tc.podDeletionTimestamp != nil { podDeletionTimestamp = tc.podDeletionTimestamp[i] } podName := fmt.Sprintf("%s-%d", podNamePrefix, i) pod := v1.Pod{ Status: v1.PodStatus{ Phase: podPhase, StartTime: &podStartTime, Conditions: []v1.PodCondition{ { Type: v1.PodReady, Status: podReadiness, }, }, }, ObjectMeta: metav1.ObjectMeta{ Name: podName, Namespace: testNamespace, Labels: map[string]string{ "name": podNamePrefix, }, }, Spec: v1.PodSpec{ Containers: []v1.Container{{}, {}}, }, } if podDeletionTimestamp { pod.DeletionTimestamp = &metav1.Time{Time: time.Now()} } if tc.resource != nil && i < len(tc.resource.requests) { pod.Spec.Containers[0].Resources = v1.ResourceRequirements{ Requests: v1.ResourceList{ tc.resource.name: tc.resource.requests[i], }, } pod.Spec.Containers[1].Resources = v1.ResourceRequirements{ Requests: v1.ResourceList{ tc.resource.name: tc.resource.requests[i], }, } } obj.Items = append(obj.Items, pod) } return true, obj, nil }) return fakeClient } func (tc *replicaCalcTestCase) prepareTestMetricsClient() *metricsfake.Clientset { fakeMetricsClient := &metricsfake.Clientset{} // NB: we have to sound like Gollum due to gengo's inability to handle already-plural resource names fakeMetricsClient.AddReactor("list", "pods", func(action core.Action) (handled bool, ret runtime.Object, err error) { if tc.resource != nil { metrics := &metricsapi.PodMetricsList{} for i, resValue := range tc.resource.levels { podName := fmt.Sprintf("%s-%d", podNamePrefix, i) if len(tc.resource.podNames) > i { podName = tc.resource.podNames[i] } // NB: the list reactor actually does label selector filtering for us, // so we have to make sure our results match the label selector podMetric := metricsapi.PodMetrics{ ObjectMeta: metav1.ObjectMeta{ Name: podName, Namespace: testNamespace, Labels: map[string]string{"name": podNamePrefix}, }, Timestamp: metav1.Time{Time: tc.timestamp}, Window: metav1.Duration{Duration: time.Minute}, Containers: make([]metricsapi.ContainerMetrics, numContainersPerPod), } for i := 0; i < numContainersPerPod; i++ { podMetric.Containers[i] = metricsapi.ContainerMetrics{ Name: fmt.Sprintf("container%v", i), Usage: v1.ResourceList{ v1.ResourceName(tc.resource.name): *resource.NewMilliQuantity( int64(resValue), resource.DecimalSI), }, } } metrics.Items = append(metrics.Items, podMetric) } return true, metrics, nil } return true, nil, fmt.Errorf("no pod resource metrics specified in test client") }) return fakeMetricsClient } func (tc *replicaCalcTestCase) prepareTestCMClient(t *testing.T) *cmfake.FakeCustomMetricsClient { fakeCMClient := &cmfake.FakeCustomMetricsClient{} fakeCMClient.AddReactor("get", "*", func(action core.Action) (handled bool, ret runtime.Object, err error) { getForAction, wasGetFor := action.(cmfake.GetForAction) if !wasGetFor { return true, nil, fmt.Errorf("expected a get-for action, got %v instead", action) } if tc.metric == nil { return true, nil, fmt.Errorf("no custom metrics specified in test client") } assert.Equal(t, tc.metric.name, getForAction.GetMetricName(), "the metric requested should have matched the one specified") if getForAction.GetName() == "*" { metrics := cmapi.MetricValueList{} // multiple objects assert.Equal(t, "pods", getForAction.GetResource().Resource, "the type of object that we requested multiple metrics for should have been pods") for i, level := range tc.metric.levels { podMetric := cmapi.MetricValue{ DescribedObject: v1.ObjectReference{ Kind: "Pod", Name: fmt.Sprintf("%s-%d", podNamePrefix, i), Namespace: testNamespace, }, Timestamp: metav1.Time{Time: tc.timestamp}, Metric: cmapi.MetricIdentifier{ Name: tc.metric.name, }, Value: *resource.NewMilliQuantity(level, resource.DecimalSI), } metrics.Items = append(metrics.Items, podMetric) } return true, &metrics, nil } name := getForAction.GetName() mapper := testrestmapper.TestOnlyStaticRESTMapper(legacyscheme.Scheme) metrics := &cmapi.MetricValueList{} assert.NotNil(t, tc.metric.singleObject, "should have only requested a single-object metric when calling GetObjectMetricReplicas") gk := schema.FromAPIVersionAndKind(tc.metric.singleObject.APIVersion, tc.metric.singleObject.Kind).GroupKind() mapping, err := mapper.RESTMapping(gk) if err != nil { return true, nil, fmt.Errorf("unable to get mapping for %s: %v", gk.String(), err) } groupResource := mapping.Resource.GroupResource() assert.Equal(t, groupResource.String(), getForAction.GetResource().Resource, "should have requested metrics for the resource matching the GroupKind passed in") assert.Equal(t, tc.metric.singleObject.Name, name, "should have requested metrics for the object matching the name passed in") metrics.Items = []cmapi.MetricValue{ { DescribedObject: v1.ObjectReference{ Kind: tc.metric.singleObject.Kind, APIVersion: tc.metric.singleObject.APIVersion, Name: name, }, Timestamp: metav1.Time{Time: tc.timestamp}, Metric: cmapi.MetricIdentifier{ Name: tc.metric.name, }, Value: *resource.NewMilliQuantity(int64(tc.metric.levels[0]), resource.DecimalSI), }, } return true, metrics, nil }) return fakeCMClient } func (tc *replicaCalcTestCase) prepareTestEMClient(t *testing.T) *emfake.FakeExternalMetricsClient { fakeEMClient := &emfake.FakeExternalMetricsClient{} fakeEMClient.AddReactor("list", "*", func(action core.Action) (handled bool, ret runtime.Object, err error) { listAction, wasList := action.(core.ListAction) if !wasList { return true, nil, fmt.Errorf("expected a list-for action, got %v instead", action) } if tc.metric == nil { return true, nil, fmt.Errorf("no external metrics specified in test client") } assert.Equal(t, tc.metric.name, listAction.GetResource().Resource, "the metric requested should have matched the one specified") selector, err := metav1.LabelSelectorAsSelector(tc.metric.selector) if err != nil { return true, nil, fmt.Errorf("failed to convert label selector specified in test client") } assert.Equal(t, selector, listAction.GetListRestrictions().Labels, "the metric selector should have matched the one specified") metrics := emapi.ExternalMetricValueList{} for _, level := range tc.metric.levels { metric := emapi.ExternalMetricValue{ Timestamp: metav1.Time{Time: tc.timestamp}, MetricName: tc.metric.name, Value: *resource.NewMilliQuantity(level, resource.DecimalSI), } metrics.Items = append(metrics.Items, metric) } return true, &metrics, nil }) return fakeEMClient } func (tc *replicaCalcTestCase) prepareTestClient(t *testing.T) (*fake.Clientset, *metricsfake.Clientset, *cmfake.FakeCustomMetricsClient, *emfake.FakeExternalMetricsClient) { fakeClient := tc.prepareTestClientSet() fakeMetricsClient := tc.prepareTestMetricsClient() fakeCMClient := tc.prepareTestCMClient(t) fakeEMClient := tc.prepareTestEMClient(t) return fakeClient, fakeMetricsClient, fakeCMClient, fakeEMClient } func (tc *replicaCalcTestCase) runTest(t *testing.T) { testClient, testMetricsClient, testCMClient, testEMClient := tc.prepareTestClient(t) metricsClient := metricsclient.NewRESTMetricsClient(testMetricsClient.MetricsV1beta1(), testCMClient, testEMClient) informerFactory := informers.NewSharedInformerFactory(testClient, controller.NoResyncPeriodFunc()) informer := informerFactory.Core().V1().Pods() replicaCalc := NewReplicaCalculator(metricsClient, informer.Lister(), defaultTestingTolerance, defaultTestingCpuInitializationPeriod, defaultTestingDelayOfInitialReadinessStatus) stop := make(chan struct{}) defer close(stop) informerFactory.Start(stop) if !controller.WaitForCacheSync("HPA", stop, informer.Informer().HasSynced) { return } selector, err := metav1.LabelSelectorAsSelector(&metav1.LabelSelector{ MatchLabels: map[string]string{"name": podNamePrefix}, }) if err != nil { require.Nil(t, err, "something went horribly wrong...") } if tc.resource != nil { outReplicas, outUtilization, outRawValue, outTimestamp, err := replicaCalc.GetResourceReplicas(tc.currentReplicas, tc.resource.targetUtilization, tc.resource.name, testNamespace, selector) if tc.expectedError != nil { require.Error(t, err, "there should be an error calculating the replica count") assert.Contains(t, err.Error(), tc.expectedError.Error(), "the error message should have contained the expected error message") return } require.NoError(t, err, "there should not have been an error calculating the replica count") assert.Equal(t, tc.expectedReplicas, outReplicas, "replicas should be as expected") assert.Equal(t, tc.resource.expectedUtilization, outUtilization, "utilization should be as expected") assert.Equal(t, tc.resource.expectedValue, outRawValue, "raw value should be as expected") assert.True(t, tc.timestamp.Equal(outTimestamp), "timestamp should be as expected") return } var outReplicas int32 var outUtilization int64 var outTimestamp time.Time switch tc.metric.metricType { case objectMetric: if tc.metric.singleObject == nil { t.Fatal("Metric specified as objectMetric but metric.singleObject is nil.") } outReplicas, outUtilization, outTimestamp, err = replicaCalc.GetObjectMetricReplicas(tc.currentReplicas, tc.metric.targetUtilization, tc.metric.name, testNamespace, tc.metric.singleObject, selector, nil) case externalMetric: if tc.metric.selector == nil { t.Fatal("Metric specified as externalMetric but metric.selector is nil.") } if tc.metric.targetUtilization <= 0 { t.Fatalf("Metric specified as externalMetric but metric.targetUtilization is %d which is <=0.", tc.metric.targetUtilization) } outReplicas, outUtilization, outTimestamp, err = replicaCalc.GetExternalMetricReplicas(tc.currentReplicas, tc.metric.targetUtilization, tc.metric.name, testNamespace, tc.metric.selector, selector) case externalPerPodMetric: if tc.metric.selector == nil { t.Fatal("Metric specified as externalPerPodMetric but metric.selector is nil.") } if tc.metric.perPodTargetUtilization <= 0 { t.Fatalf("Metric specified as externalPerPodMetric but metric.perPodTargetUtilization is %d which is <=0.", tc.metric.perPodTargetUtilization) } outReplicas, outUtilization, outTimestamp, err = replicaCalc.GetExternalPerPodMetricReplicas(tc.currentReplicas, tc.metric.perPodTargetUtilization, tc.metric.name, testNamespace, tc.metric.selector) case podMetric: outReplicas, outUtilization, outTimestamp, err = replicaCalc.GetMetricReplicas(tc.currentReplicas, tc.metric.targetUtilization, tc.metric.name, testNamespace, selector, nil) default: t.Fatalf("Unknown metric type: %d", tc.metric.metricType) } if tc.expectedError != nil { require.Error(t, err, "there should be an error calculating the replica count") assert.Contains(t, err.Error(), tc.expectedError.Error(), "the error message should have contained the expected error message") return } require.NoError(t, err, "there should not have been an error calculating the replica count") assert.Equal(t, tc.expectedReplicas, outReplicas, "replicas should be as expected") assert.Equal(t, tc.metric.expectedUtilization, outUtilization, "utilization should be as expected") assert.True(t, tc.timestamp.Equal(outTimestamp), "timestamp should be as expected") } func TestReplicaCalcDisjointResourcesMetrics(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 1, expectedError: fmt.Errorf("no metrics returned matched known pods"), resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0")}, levels: []int64{100}, podNames: []string{"an-older-pod-name"}, targetUtilization: 100, }, } tc.runTest(t) } func TestReplicaCalcScaleUp(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 5, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{300, 500, 700}, targetUtilization: 30, expectedUtilization: 50, expectedValue: numContainersPerPod * 500, }, } tc.runTest(t) } func TestReplicaCalcScaleUpUnreadyLessScale(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionTrue}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{300, 500, 700}, targetUtilization: 30, expectedUtilization: 60, expectedValue: numContainersPerPod * 600, }, } tc.runTest(t) } func TestReplicaCalcScaleUpHotCpuLessScale(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, podStartTime: []metav1.Time{hotCpuCreationTime(), coolCpuCreationTime(), coolCpuCreationTime()}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{300, 500, 700}, targetUtilization: 30, expectedUtilization: 60, expectedValue: numContainersPerPod * 600, }, } tc.runTest(t) } func TestReplicaCalcScaleUpUnreadyNoScale(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{400, 500, 700}, targetUtilization: 30, expectedUtilization: 40, expectedValue: numContainersPerPod * 400, }, } tc.runTest(t) } func TestReplicaCalcScaleHotCpuNoScale(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, podStartTime: []metav1.Time{coolCpuCreationTime(), hotCpuCreationTime(), hotCpuCreationTime()}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{400, 500, 700}, targetUtilization: 30, expectedUtilization: 40, expectedValue: numContainersPerPod * 400, }, } tc.runTest(t) } func TestReplicaCalcScaleUpIgnoresFailedPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 2, expectedReplicas: 4, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, podPhase: []v1.PodPhase{v1.PodRunning, v1.PodRunning, v1.PodFailed, v1.PodFailed}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{500, 700}, targetUtilization: 30, expectedUtilization: 60, expectedValue: numContainersPerPod * 600, }, } tc.runTest(t) } func TestReplicaCalcScaleUpIgnoresDeletionPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 2, expectedReplicas: 4, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, podPhase: []v1.PodPhase{v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning}, podDeletionTimestamp: []bool{false, false, true, true}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{500, 700}, targetUtilization: 30, expectedUtilization: 60, expectedValue: numContainersPerPod * 600, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCM(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, metric: &metricInfo{ name: "qps", levels: []int64{20000, 10000, 30000}, targetUtilization: 15000, expectedUtilization: 20000, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMUnreadyHotCpuNoLessScale(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 6, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse}, podStartTime: []metav1.Time{coolCpuCreationTime(), coolCpuCreationTime(), hotCpuCreationTime()}, metric: &metricInfo{ name: "qps", levels: []int64{50000, 10000, 30000}, targetUtilization: 15000, expectedUtilization: 30000, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMUnreadyHotCpuScaleWouldScaleDown(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 7, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionFalse}, podStartTime: []metav1.Time{hotCpuCreationTime(), coolCpuCreationTime(), hotCpuCreationTime()}, metric: &metricInfo{ name: "qps", levels: []int64{50000, 15000, 30000}, targetUtilization: 15000, expectedUtilization: 31666, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMObject(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, metric: &metricInfo{ name: "qps", levels: []int64{20000}, targetUtilization: 15000, expectedUtilization: 20000, singleObject: &autoscalingv2.CrossVersionObjectReference{ Kind: "Deployment", APIVersion: "extensions/v1beta1", Name: "some-deployment", }, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMObjectIgnoresUnreadyPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 5, // If we did not ignore unready pods, we'd expect 15 replicas. podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionFalse}, metric: &metricInfo{ name: "qps", levels: []int64{50000}, targetUtilization: 10000, expectedUtilization: 50000, singleObject: &autoscalingv2.CrossVersionObjectReference{ Kind: "Deployment", APIVersion: "extensions/v1beta1", Name: "some-deployment", }, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 1, expectedReplicas: 2, metric: &metricInfo{ name: "qps", levels: []int64{8600}, targetUtilization: 4400, expectedUtilization: 8600, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMExternalIgnoresUnreadyPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 2, // Would expect 6 if we didn't ignore unready pods podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionFalse}, metric: &metricInfo{ name: "qps", levels: []int64{8600}, targetUtilization: 4400, expectedUtilization: 8600, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpCMExternalNoLabels(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 1, expectedReplicas: 2, metric: &metricInfo{ name: "qps", levels: []int64{8600}, targetUtilization: 4400, expectedUtilization: 8600, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleUpPerPodCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, metric: &metricInfo{ name: "qps", levels: []int64{8600}, perPodTargetUtilization: 2150, expectedUtilization: 2867, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalPerPodMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleDown(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 300, 500, 250, 250}, targetUtilization: 50, expectedUtilization: 28, expectedValue: numContainersPerPod * 280, }, } tc.runTest(t) } func TestReplicaCalcScaleDownCM(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{12000, 12000, 12000, 12000, 12000}, targetUtilization: 20000, expectedUtilization: 12000, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleDownCMObject(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{12000}, targetUtilization: 20000, expectedUtilization: 12000, singleObject: &autoscalingv2.CrossVersionObjectReference{ Kind: "Deployment", APIVersion: "extensions/v1beta1", Name: "some-deployment", }, }, } tc.runTest(t) } func TestReplicaCalcScaleDownCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{8600}, targetUtilization: 14334, expectedUtilization: 8600, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleDownPerPodCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{8600}, perPodTargetUtilization: 2867, expectedUtilization: 1720, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalPerPodMetric, }, } tc.runTest(t) } func TestReplicaCalcScaleDownIncludeUnreadyPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 2, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 300, 500, 250, 250}, targetUtilization: 50, expectedUtilization: 30, expectedValue: numContainersPerPod * 300, }, } tc.runTest(t) } func TestReplicaCalcScaleDownIgnoreHotCpuPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 2, podStartTime: []metav1.Time{coolCpuCreationTime(), coolCpuCreationTime(), coolCpuCreationTime(), hotCpuCreationTime(), hotCpuCreationTime()}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 300, 500, 250, 250}, targetUtilization: 50, expectedUtilization: 30, expectedValue: numContainersPerPod * 300, }, } tc.runTest(t) } func TestReplicaCalcScaleDownIgnoresFailedPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, podPhase: []v1.PodPhase{v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodFailed, v1.PodFailed}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 300, 500, 250, 250}, targetUtilization: 50, expectedUtilization: 28, expectedValue: numContainersPerPod * 280, }, } tc.runTest(t) } func TestReplicaCalcScaleDownIgnoresDeletionPods(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 5, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionFalse, v1.ConditionFalse}, podPhase: []v1.PodPhase{v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning, v1.PodRunning}, podDeletionTimestamp: []bool{false, false, false, false, false, true, true}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 300, 500, 250, 250}, targetUtilization: 50, expectedUtilization: 28, expectedValue: numContainersPerPod * 280, }, } tc.runTest(t) } func TestReplicaCalcTolerance(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("0.9"), resource.MustParse("1.0"), resource.MustParse("1.1")}, levels: []int64{1010, 1030, 1020}, targetUtilization: 100, expectedUtilization: 102, expectedValue: numContainersPerPod * 1020, }, } tc.runTest(t) } func TestReplicaCalcToleranceCM(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{20000, 21000, 21000}, targetUtilization: 20000, expectedUtilization: 20666, metricType: podMetric, }, } tc.runTest(t) } func TestReplicaCalcToleranceCMObject(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{20666}, targetUtilization: 20000, expectedUtilization: 20666, singleObject: &autoscalingv2.CrossVersionObjectReference{ Kind: "Deployment", APIVersion: "extensions/v1beta1", Name: "some-deployment", }, }, } tc.runTest(t) } func TestReplicaCalcToleranceCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{8600}, targetUtilization: 8888, expectedUtilization: 8600, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalMetric, }, } tc.runTest(t) } func TestReplicaCalcTolerancePerPodCMExternal(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, metric: &metricInfo{ name: "qps", levels: []int64{8600}, perPodTargetUtilization: 2900, expectedUtilization: 2867, selector: &metav1.LabelSelector{MatchLabels: map[string]string{"label": "value"}}, metricType: externalPerPodMetric, }, } tc.runTest(t) } func TestReplicaCalcSuperfluousMetrics(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 4, expectedReplicas: 24, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{4000, 9500, 3000, 7000, 3200, 2000}, targetUtilization: 100, expectedUtilization: 587, expectedValue: numContainersPerPod * 5875, }, } tc.runTest(t) } func TestReplicaCalcMissingMetrics(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 4, expectedReplicas: 3, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{400, 95}, targetUtilization: 100, expectedUtilization: 24, expectedValue: 495, // numContainersPerPod * 247, for sufficiently large values of 247 }, } tc.runTest(t) } func TestReplicaCalcEmptyMetrics(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 4, expectedError: fmt.Errorf("unable to get metrics for resource cpu: no metrics returned from resource metrics API"), resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{}, targetUtilization: 100, }, } tc.runTest(t) } func TestReplicaCalcEmptyCPURequest(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 1, expectedError: fmt.Errorf("missing request for"), resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{}, levels: []int64{200}, targetUtilization: 100, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsNoChangeEq(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 2, expectedReplicas: 2, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{1000}, targetUtilization: 100, expectedUtilization: 100, expectedValue: numContainersPerPod * 1000, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsNoChangeGt(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 2, expectedReplicas: 2, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{1900}, targetUtilization: 100, expectedUtilization: 190, expectedValue: numContainersPerPod * 1900, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsNoChangeLt(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 2, expectedReplicas: 2, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{600}, targetUtilization: 100, expectedUtilization: 60, expectedValue: numContainersPerPod * 600, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsUnreadyChange(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionTrue}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 450}, targetUtilization: 50, expectedUtilization: 45, expectedValue: numContainersPerPod * 450, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsHotCpuNoChange(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 3, podStartTime: []metav1.Time{hotCpuCreationTime(), coolCpuCreationTime(), coolCpuCreationTime()}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 450}, targetUtilization: 50, expectedUtilization: 45, expectedValue: numContainersPerPod * 450, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsUnreadyScaleUp(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionTrue}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 2000}, targetUtilization: 50, expectedUtilization: 200, expectedValue: numContainersPerPod * 2000, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsHotCpuScaleUp(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 3, expectedReplicas: 4, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionTrue}, podStartTime: []metav1.Time{hotCpuCreationTime(), coolCpuCreationTime(), coolCpuCreationTime()}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 2000}, targetUtilization: 50, expectedUtilization: 200, expectedValue: numContainersPerPod * 2000, }, } tc.runTest(t) } func TestReplicaCalcMissingMetricsUnreadyScaleDown(t *testing.T) { tc := replicaCalcTestCase{ currentReplicas: 4, expectedReplicas: 3, podReadiness: []v1.ConditionStatus{v1.ConditionFalse, v1.ConditionTrue, v1.ConditionTrue, v1.ConditionTrue}, resource: &resourceInfo{ name: v1.ResourceCPU, requests: []resource.Quantity{resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0"), resource.MustParse("1.0")}, levels: []int64{100, 100, 100}, targetUtilization: 50, expectedUtilization: 10, expectedValue: numContainersPerPod * 100, }, } tc.runTest(t) } // TestComputedToleranceAlgImplementation is a regression test which // back-calculates a minimal percentage for downscaling based on a small percentage // increase in pod utilization which is calibrated against the tolerance value. func TestReplicaCalcComputedToleranceAlgImplementation(t *testing.T) { startPods := int32(10) // 150 mCPU per pod. totalUsedCPUOfAllPods := int64(startPods * 150) // Each pod starts out asking for 2X what is really needed. // This means we will have a 50% ratio of used/requested totalRequestedCPUOfAllPods := int32(2 * totalUsedCPUOfAllPods) requestedToUsed := float64(totalRequestedCPUOfAllPods / int32(totalUsedCPUOfAllPods)) // Spread the amount we ask over 10 pods. We can add some jitter later in reportedLevels. perPodRequested := totalRequestedCPUOfAllPods / startPods // Force a minimal scaling event by satisfying (tolerance < 1 - resourcesUsedRatio). target := math.Abs(1/(requestedToUsed*(1-defaultTestingTolerance))) + .01 finalCPUPercentTarget := int32(target * 100) resourcesUsedRatio := float64(totalUsedCPUOfAllPods) / float64(float64(totalRequestedCPUOfAllPods)*target) // i.e. .60 * 20 -> scaled down expectation. finalPods := int32(math.Ceil(resourcesUsedRatio * float64(startPods))) // To breach tolerance we will create a utilization ratio difference of tolerance to usageRatioToleranceValue) tc := replicaCalcTestCase{ currentReplicas: startPods, expectedReplicas: finalPods, resource: &resourceInfo{ name: v1.ResourceCPU, levels: []int64{ totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, totalUsedCPUOfAllPods / 10, }, requests: []resource.Quantity{ resource.MustParse(fmt.Sprint(perPodRequested+100) + "m"), resource.MustParse(fmt.Sprint(perPodRequested-100) + "m"), resource.MustParse(fmt.Sprint(perPodRequested+10) + "m"), resource.MustParse(fmt.Sprint(perPodRequested-10) + "m"), resource.MustParse(fmt.Sprint(perPodRequested+2) + "m"), resource.MustParse(fmt.Sprint(perPodRequested-2) + "m"), resource.MustParse(fmt.Sprint(perPodRequested+1) + "m"), resource.MustParse(fmt.Sprint(perPodRequested-1) + "m"), resource.MustParse(fmt.Sprint(perPodRequested) + "m"), resource.MustParse(fmt.Sprint(perPodRequested) + "m"), }, targetUtilization: finalCPUPercentTarget, expectedUtilization: int32(totalUsedCPUOfAllPods*100) / totalRequestedCPUOfAllPods, expectedValue: numContainersPerPod * totalUsedCPUOfAllPods / 10, }, } tc.runTest(t) // Reuse the data structure above, now testing "unscaling". // Now, we test that no scaling happens if we are in a very close margin to the tolerance target = math.Abs(1/(requestedToUsed*(1-defaultTestingTolerance))) + .004 finalCPUPercentTarget = int32(target * 100) tc.resource.targetUtilization = finalCPUPercentTarget tc.currentReplicas = startPods tc.expectedReplicas = startPods tc.runTest(t) } func TestGroupPods(t *testing.T) { tests := []struct { name string pods []*v1.Pod metrics metricsclient.PodMetricsInfo resource v1.ResourceName expectReadyPodCount int expectIgnoredPods sets.String expectMissingPods sets.String }{ { "void", []*v1.Pod{}, metricsclient.PodMetricsInfo{}, v1.ResourceCPU, 0, sets.NewString(), sets.NewString(), }, { "count in a ready pod - memory", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "bentham", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, }, }, }, metricsclient.PodMetricsInfo{ "bentham": metricsclient.PodMetric{Value: 1, Timestamp: time.Now(), Window: time.Minute}, }, v1.ResourceMemory, 1, sets.NewString(), sets.NewString(), }, { "ignore a pod without ready condition - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "lucretius", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now(), }, }, }, }, metricsclient.PodMetricsInfo{ "lucretius": metricsclient.PodMetric{Value: 1}, }, v1.ResourceCPU, 0, sets.NewString("lucretius"), sets.NewString(), }, { "count in a ready pod with fresh metrics during initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "bentham", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-1 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-30 * time.Second)}, Status: v1.ConditionTrue, }, }, }, }, }, metricsclient.PodMetricsInfo{ "bentham": metricsclient.PodMetric{Value: 1, Timestamp: time.Now(), Window: 30 * time.Second}, }, v1.ResourceCPU, 1, sets.NewString(), sets.NewString(), }, { "ignore a ready pod without fresh metrics during initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "bentham", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-1 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-30 * time.Second)}, Status: v1.ConditionTrue, }, }, }, }, }, metricsclient.PodMetricsInfo{ "bentham": metricsclient.PodMetric{Value: 1, Timestamp: time.Now(), Window: 60 * time.Second}, }, v1.ResourceCPU, 0, sets.NewString("bentham"), sets.NewString(), }, { "ignore an unready pod during initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "lucretius", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-10 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-9*time.Minute - 54*time.Second)}, Status: v1.ConditionFalse, }, }, }, }, }, metricsclient.PodMetricsInfo{ "lucretius": metricsclient.PodMetric{Value: 1}, }, v1.ResourceCPU, 0, sets.NewString("lucretius"), sets.NewString(), }, { "count in a ready pod without fresh metrics after initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "bentham", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-3 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-3 * time.Minute)}, Status: v1.ConditionTrue, }, }, }, }, }, metricsclient.PodMetricsInfo{ "bentham": metricsclient.PodMetric{Value: 1, Timestamp: time.Now().Add(-2 * time.Minute), Window: time.Minute}, }, v1.ResourceCPU, 1, sets.NewString(), sets.NewString(), }, { "count in an unready pod that was ready after initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "lucretius", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-10 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-9 * time.Minute)}, Status: v1.ConditionFalse, }, }, }, }, }, metricsclient.PodMetricsInfo{ "lucretius": metricsclient.PodMetric{Value: 1}, }, v1.ResourceCPU, 1, sets.NewString(), sets.NewString(), }, { "ignore pod that has never been ready after initialization period - CPU", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "lucretius", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-10 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-9*time.Minute - 50*time.Second)}, Status: v1.ConditionFalse, }, }, }, }, }, metricsclient.PodMetricsInfo{ "lucretius": metricsclient.PodMetric{Value: 1}, }, v1.ResourceCPU, 1, sets.NewString(), sets.NewString(), }, { "a missing pod", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "epicurus", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-3 * time.Minute), }, }, }, }, metricsclient.PodMetricsInfo{}, v1.ResourceCPU, 0, sets.NewString(), sets.NewString("epicurus"), }, { "several pods", []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{ Name: "lucretius", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now(), }, }, }, { ObjectMeta: metav1.ObjectMeta{ Name: "niccolo", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-3 * time.Minute), }, Conditions: []v1.PodCondition{ { Type: v1.PodReady, LastTransitionTime: metav1.Time{Time: time.Now().Add(-3 * time.Minute)}, Status: v1.ConditionTrue, }, }, }, }, { ObjectMeta: metav1.ObjectMeta{ Name: "epicurus", }, Status: v1.PodStatus{ Phase: v1.PodSucceeded, StartTime: &metav1.Time{ Time: time.Now().Add(-3 * time.Minute), }, }, }, }, metricsclient.PodMetricsInfo{ "lucretius": metricsclient.PodMetric{Value: 1}, "niccolo": metricsclient.PodMetric{Value: 1}, }, v1.ResourceCPU, 1, sets.NewString("lucretius"), sets.NewString("epicurus"), }, } for _, tc := range tests { readyPodCount, ignoredPods, missingPods := groupPods(tc.pods, tc.metrics, tc.resource, defaultTestingCpuInitializationPeriod, defaultTestingDelayOfInitialReadinessStatus) if readyPodCount != tc.expectReadyPodCount { t.Errorf("%s got readyPodCount %d, expected %d", tc.name, readyPodCount, tc.expectReadyPodCount) } if !ignoredPods.Equal(tc.expectIgnoredPods) { t.Errorf("%s got unreadyPods %v, expected %v", tc.name, ignoredPods, tc.expectIgnoredPods) } if !missingPods.Equal(tc.expectMissingPods) { t.Errorf("%s got missingPods %v, expected %v", tc.name, missingPods, tc.expectMissingPods) } } } // TODO: add more tests