/* Copyright 2014 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 scheduler import ( "context" "errors" "fmt" "math" "reflect" "strconv" "testing" "time" "github.com/google/go-cmp/cmp" v1 "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/api/resource" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/types" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/apimachinery/pkg/util/wait" utilfeature "k8s.io/apiserver/pkg/util/feature" "k8s.io/client-go/informers" clientsetfake "k8s.io/client-go/kubernetes/fake" featuregatetesting "k8s.io/component-base/featuregate/testing" pvutil "k8s.io/kubernetes/pkg/controller/volume/persistentvolume/util" "k8s.io/kubernetes/pkg/features" schedulerapi "k8s.io/kubernetes/pkg/scheduler/apis/config" "k8s.io/kubernetes/pkg/scheduler/framework" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/defaultbinder" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/feature" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/noderesources" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/podtopologyspread" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/queuesort" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/selectorspread" "k8s.io/kubernetes/pkg/scheduler/framework/plugins/volumebinding" frameworkruntime "k8s.io/kubernetes/pkg/scheduler/framework/runtime" internalcache "k8s.io/kubernetes/pkg/scheduler/internal/cache" internalqueue "k8s.io/kubernetes/pkg/scheduler/internal/queue" st "k8s.io/kubernetes/pkg/scheduler/testing" schedutil "k8s.io/kubernetes/pkg/scheduler/util" ) var ( errPrioritize = fmt.Errorf("priority map encounters an error") ) type noPodsFilterPlugin struct{} // Name returns name of the plugin. func (pl *noPodsFilterPlugin) Name() string { return "NoPodsFilter" } // Filter invoked at the filter extension point. func (pl *noPodsFilterPlugin) Filter(_ context.Context, _ *framework.CycleState, pod *v1.Pod, nodeInfo *framework.NodeInfo) *framework.Status { if len(nodeInfo.Pods) == 0 { return nil } return framework.NewStatus(framework.Unschedulable, st.ErrReasonFake) } // NewNoPodsFilterPlugin initializes a noPodsFilterPlugin and returns it. func NewNoPodsFilterPlugin(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) { return &noPodsFilterPlugin{}, nil } type numericMapPlugin struct{} func newNumericMapPlugin() frameworkruntime.PluginFactory { return func(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) { return &numericMapPlugin{}, nil } } func (pl *numericMapPlugin) Name() string { return "NumericMap" } func (pl *numericMapPlugin) Score(_ context.Context, _ *framework.CycleState, _ *v1.Pod, nodeName string) (int64, *framework.Status) { score, err := strconv.Atoi(nodeName) if err != nil { return 0, framework.NewStatus(framework.Error, fmt.Sprintf("Error converting nodename to int: %+v", nodeName)) } return int64(score), nil } func (pl *numericMapPlugin) ScoreExtensions() framework.ScoreExtensions { return nil } type reverseNumericMapPlugin struct{} func newReverseNumericMapPlugin() frameworkruntime.PluginFactory { return func(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) { return &reverseNumericMapPlugin{}, nil } } func (pl *reverseNumericMapPlugin) Name() string { return "ReverseNumericMap" } func (pl *reverseNumericMapPlugin) Score(_ context.Context, _ *framework.CycleState, _ *v1.Pod, nodeName string) (int64, *framework.Status) { score, err := strconv.Atoi(nodeName) if err != nil { return 0, framework.NewStatus(framework.Error, fmt.Sprintf("Error converting nodename to int: %+v", nodeName)) } return int64(score), nil } func (pl *reverseNumericMapPlugin) ScoreExtensions() framework.ScoreExtensions { return pl } func (pl *reverseNumericMapPlugin) NormalizeScore(_ context.Context, _ *framework.CycleState, _ *v1.Pod, nodeScores framework.NodeScoreList) *framework.Status { var maxScore float64 minScore := math.MaxFloat64 for _, hostPriority := range nodeScores { maxScore = math.Max(maxScore, float64(hostPriority.Score)) minScore = math.Min(minScore, float64(hostPriority.Score)) } for i, hostPriority := range nodeScores { nodeScores[i] = framework.NodeScore{ Name: hostPriority.Name, Score: int64(maxScore + minScore - float64(hostPriority.Score)), } } return nil } type trueMapPlugin struct{} func newTrueMapPlugin() frameworkruntime.PluginFactory { return func(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) { return &trueMapPlugin{}, nil } } func (pl *trueMapPlugin) Name() string { return "TrueMap" } func (pl *trueMapPlugin) Score(_ context.Context, _ *framework.CycleState, _ *v1.Pod, _ string) (int64, *framework.Status) { return 1, nil } func (pl *trueMapPlugin) ScoreExtensions() framework.ScoreExtensions { return pl } func (pl *trueMapPlugin) NormalizeScore(_ context.Context, _ *framework.CycleState, _ *v1.Pod, nodeScores framework.NodeScoreList) *framework.Status { for _, host := range nodeScores { if host.Name == "" { return framework.NewStatus(framework.Error, "unexpected empty host name") } } return nil } type falseMapPlugin struct{} func newFalseMapPlugin() frameworkruntime.PluginFactory { return func(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) { return &falseMapPlugin{}, nil } } func (pl *falseMapPlugin) Name() string { return "FalseMap" } func (pl *falseMapPlugin) Score(_ context.Context, _ *framework.CycleState, _ *v1.Pod, _ string) (int64, *framework.Status) { return 0, framework.AsStatus(errPrioritize) } func (pl *falseMapPlugin) ScoreExtensions() framework.ScoreExtensions { return nil } var emptySnapshot = internalcache.NewEmptySnapshot() func makeNodeList(nodeNames []string) []*v1.Node { result := make([]*v1.Node, 0, len(nodeNames)) for _, nodeName := range nodeNames { result = append(result, &v1.Node{ObjectMeta: metav1.ObjectMeta{Name: nodeName}}) } return result } func TestSelectHost(t *testing.T) { scheduler := genericScheduler{} tests := []struct { name string list framework.NodeScoreList possibleHosts sets.String expectsErr bool }{ { name: "unique properly ordered scores", list: []framework.NodeScore{ {Name: "machine1.1", Score: 1}, {Name: "machine2.1", Score: 2}, }, possibleHosts: sets.NewString("machine2.1"), expectsErr: false, }, { name: "equal scores", list: []framework.NodeScore{ {Name: "machine1.1", Score: 1}, {Name: "machine1.2", Score: 2}, {Name: "machine1.3", Score: 2}, {Name: "machine2.1", Score: 2}, }, possibleHosts: sets.NewString("machine1.2", "machine1.3", "machine2.1"), expectsErr: false, }, { name: "out of order scores", list: []framework.NodeScore{ {Name: "machine1.1", Score: 3}, {Name: "machine1.2", Score: 3}, {Name: "machine2.1", Score: 2}, {Name: "machine3.1", Score: 1}, {Name: "machine1.3", Score: 3}, }, possibleHosts: sets.NewString("machine1.1", "machine1.2", "machine1.3"), expectsErr: false, }, { name: "empty priority list", list: []framework.NodeScore{}, possibleHosts: sets.NewString(), expectsErr: true, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { // increase the randomness for i := 0; i < 10; i++ { got, err := scheduler.selectHost(test.list) if test.expectsErr { if err == nil { t.Error("Unexpected non-error") } } else { if err != nil { t.Errorf("Unexpected error: %v", err) } if !test.possibleHosts.Has(got) { t.Errorf("got %s is not in the possible map %v", got, test.possibleHosts) } } } }) } } func TestFindNodesThatPassExtenders(t *testing.T) { tests := []struct { name string extenders []st.FakeExtender nodes []*v1.Node filteredNodesStatuses framework.NodeToStatusMap expectsErr bool expectedNodes []*v1.Node expectedStatuses framework.NodeToStatusMap }{ { name: "error", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{st.ErrorPredicateExtender}, }, }, nodes: makeNodeList([]string{"a"}), filteredNodesStatuses: make(framework.NodeToStatusMap), expectsErr: true, }, { name: "success", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{st.TruePredicateExtender}, }, }, nodes: makeNodeList([]string{"a"}), filteredNodesStatuses: make(framework.NodeToStatusMap), expectsErr: false, expectedNodes: makeNodeList([]string{"a"}), expectedStatuses: make(framework.NodeToStatusMap), }, { name: "unschedulable", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{func(pod *v1.Pod, node *v1.Node) *framework.Status { if node.Name == "a" { return framework.NewStatus(framework.Success) } return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name)) }}, }, }, nodes: makeNodeList([]string{"a", "b"}), filteredNodesStatuses: make(framework.NodeToStatusMap), expectsErr: false, expectedNodes: makeNodeList([]string{"a"}), expectedStatuses: framework.NodeToStatusMap{ "b": framework.NewStatus(framework.Unschedulable, fmt.Sprintf("FakeExtender: node %q failed", "b")), }, }, { name: "unschedulable and unresolvable", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{func(pod *v1.Pod, node *v1.Node) *framework.Status { if node.Name == "a" { return framework.NewStatus(framework.Success) } if node.Name == "b" { return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name)) } return framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("node %q is not allowed", node.Name)) }}, }, }, nodes: makeNodeList([]string{"a", "b", "c"}), filteredNodesStatuses: make(framework.NodeToStatusMap), expectsErr: false, expectedNodes: makeNodeList([]string{"a"}), expectedStatuses: framework.NodeToStatusMap{ "b": framework.NewStatus(framework.Unschedulable, fmt.Sprintf("FakeExtender: node %q failed", "b")), "c": framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("FakeExtender: node %q failed and unresolvable", "c")), }, }, { name: "extender may overwrite the statuses", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{func(pod *v1.Pod, node *v1.Node) *framework.Status { if node.Name == "a" { return framework.NewStatus(framework.Success) } if node.Name == "b" { return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name)) } return framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("node %q is not allowed", node.Name)) }}, }, }, nodes: makeNodeList([]string{"a", "b", "c"}), filteredNodesStatuses: framework.NodeToStatusMap{ "c": framework.NewStatus(framework.Unschedulable, fmt.Sprintf("FakeFilterPlugin: node %q failed", "c")), }, expectsErr: false, expectedNodes: makeNodeList([]string{"a"}), expectedStatuses: framework.NodeToStatusMap{ "b": framework.NewStatus(framework.Unschedulable, fmt.Sprintf("FakeExtender: node %q failed", "b")), "c": framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("FakeFilterPlugin: node %q failed", "c"), fmt.Sprintf("FakeExtender: node %q failed and unresolvable", "c")), }, }, { name: "multiple extenders", extenders: []st.FakeExtender{ { Predicates: []st.FitPredicate{func(pod *v1.Pod, node *v1.Node) *framework.Status { if node.Name == "a" { return framework.NewStatus(framework.Success) } if node.Name == "b" { return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name)) } return framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("node %q is not allowed", node.Name)) }}, }, { Predicates: []st.FitPredicate{func(pod *v1.Pod, node *v1.Node) *framework.Status { if node.Name == "a" { return framework.NewStatus(framework.Success) } return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name)) }}, }, }, nodes: makeNodeList([]string{"a", "b", "c"}), filteredNodesStatuses: make(framework.NodeToStatusMap), expectsErr: false, expectedNodes: makeNodeList([]string{"a"}), expectedStatuses: framework.NodeToStatusMap{ "b": framework.NewStatus(framework.Unschedulable, fmt.Sprintf("FakeExtender: node %q failed", "b")), "c": framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("FakeExtender: node %q failed and unresolvable", "c")), }, }, } cmpOpts := []cmp.Option{ cmp.Comparer(func(s1 framework.Status, s2 framework.Status) bool { return s1.Code() == s2.Code() && reflect.DeepEqual(s1.Reasons(), s2.Reasons()) }), } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { var extenders []framework.Extender for ii := range tt.extenders { extenders = append(extenders, &tt.extenders[ii]) } pod := &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "1", UID: types.UID("1")}} got, err := findNodesThatPassExtenders(extenders, pod, tt.nodes, tt.filteredNodesStatuses) if tt.expectsErr { if err == nil { t.Error("Unexpected non-error") } } else { if err != nil { t.Errorf("Unexpected error: %v", err) } if diff := cmp.Diff(tt.expectedNodes, got); diff != "" { t.Errorf("filtered nodes (-want,+got):\n%s", diff) } if diff := cmp.Diff(tt.expectedStatuses, tt.filteredNodesStatuses, cmpOpts...); diff != "" { t.Errorf("filtered statuses (-want,+got):\n%s", diff) } } }) } } func TestGenericScheduler(t *testing.T) { fts := feature.Features{} tests := []struct { name string registerPlugins []st.RegisterPluginFunc nodes []string pvcs []v1.PersistentVolumeClaim pod *v1.Pod pods []*v1.Pod expectedHosts sets.String wErr error }{ { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("FalseFilter", st.NewFalseFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, name: "test 1", wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, NumAllNodes: 2, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "machine1": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("FalseFilter"), "machine2": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("FalseFilter"), }, UnschedulablePlugins: sets.NewString("FalseFilter"), }, }, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore")}}, expectedHosts: sets.NewString("machine1", "machine2"), name: "test 2", wErr: nil, }, { // Fits on a machine where the pod ID matches the machine name registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("MatchFilter", st.NewMatchFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "machine2", UID: types.UID("machine2")}}, expectedHosts: sets.NewString("machine2"), name: "test 3", wErr: nil, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3", "2", "1"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore")}}, expectedHosts: sets.NewString("3"), name: "test 4", wErr: nil, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("MatchFilter", st.NewMatchFilterPlugin), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3", "2", "1"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, expectedHosts: sets.NewString("2"), name: "test 5", wErr: nil, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterScorePlugin("ReverseNumericMap", newReverseNumericMapPlugin(), 2), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3", "2", "1"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, expectedHosts: sets.NewString("1"), name: "test 6", wErr: nil, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterFilterPlugin("FalseFilter", st.NewFalseFilterPlugin), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3", "2", "1"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, name: "test 7", wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, NumAllNodes: 3, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "3": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("FalseFilter"), "2": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("FalseFilter"), "1": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("FalseFilter"), }, UnschedulablePlugins: sets.NewString("FalseFilter"), }, }, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("NoPodsFilter", NewNoPodsFilterPlugin), st.RegisterFilterPlugin("MatchFilter", st.NewMatchFilterPlugin), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, pods: []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}, Spec: v1.PodSpec{ NodeName: "2", }, Status: v1.PodStatus{ Phase: v1.PodRunning, }, }, }, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, nodes: []string{"1", "2"}, name: "test 8", wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2", UID: types.UID("2")}}, NumAllNodes: 2, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "1": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("MatchFilter"), "2": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("NoPodsFilter"), }, UnschedulablePlugins: sets.NewString("MatchFilter", "NoPodsFilter"), }, }, }, { // Pod with existing PVC registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPreFilterPlugin(volumebinding.Name, frameworkruntime.FactoryAdapter(fts, volumebinding.New)), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pvcs: []v1.PersistentVolumeClaim{ { ObjectMeta: metav1.ObjectMeta{Name: "existingPVC", UID: types.UID("existingPVC"), Namespace: v1.NamespaceDefault}, Spec: v1.PersistentVolumeClaimSpec{VolumeName: "existingPV"}, }, }, pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore"), Namespace: v1.NamespaceDefault}, Spec: v1.PodSpec{ Volumes: []v1.Volume{ { VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: "existingPVC", }, }, }, }, }, }, expectedHosts: sets.NewString("machine1", "machine2"), name: "existing PVC", wErr: nil, }, { // Pod with non existing PVC registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPreFilterPlugin(volumebinding.Name, frameworkruntime.FactoryAdapter(fts, volumebinding.New)), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore")}, Spec: v1.PodSpec{ Volumes: []v1.Volume{ { VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: "unknownPVC", }, }, }, }, }, }, name: "unknown PVC", wErr: &framework.FitError{ Pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore")}, Spec: v1.PodSpec{ Volumes: []v1.Volume{ { VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: "unknownPVC", }, }, }, }, }, }, NumAllNodes: 2, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "machine1": framework.NewStatus(framework.UnschedulableAndUnresolvable, `persistentvolumeclaim "unknownPVC" not found`).WithFailedPlugin(volumebinding.Name), "machine2": framework.NewStatus(framework.UnschedulableAndUnresolvable, `persistentvolumeclaim "unknownPVC" not found`).WithFailedPlugin(volumebinding.Name), }, UnschedulablePlugins: sets.NewString(volumebinding.Name), }, }, }, { // Pod with deleting PVC registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPreFilterPlugin(volumebinding.Name, frameworkruntime.FactoryAdapter(fts, volumebinding.New)), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pvcs: []v1.PersistentVolumeClaim{{ObjectMeta: metav1.ObjectMeta{Name: "existingPVC", UID: types.UID("existingPVC"), Namespace: v1.NamespaceDefault, DeletionTimestamp: &metav1.Time{}}}}, pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore"), Namespace: v1.NamespaceDefault}, Spec: v1.PodSpec{ Volumes: []v1.Volume{ { VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: "existingPVC", }, }, }, }, }, }, name: "deleted PVC", wErr: &framework.FitError{ Pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "ignore", UID: types.UID("ignore"), Namespace: v1.NamespaceDefault}, Spec: v1.PodSpec{ Volumes: []v1.Volume{ { VolumeSource: v1.VolumeSource{ PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{ ClaimName: "existingPVC", }, }, }, }, }, }, NumAllNodes: 2, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "machine1": framework.NewStatus(framework.UnschedulableAndUnresolvable, `persistentvolumeclaim "existingPVC" is being deleted`).WithFailedPlugin(volumebinding.Name), "machine2": framework.NewStatus(framework.UnschedulableAndUnresolvable, `persistentvolumeclaim "existingPVC" is being deleted`).WithFailedPlugin(volumebinding.Name), }, UnschedulablePlugins: sets.NewString(volumebinding.Name), }, }, }, { registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterScorePlugin("FalseMap", newFalseMapPlugin(), 1), st.RegisterScorePlugin("TrueMap", newTrueMapPlugin(), 2), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"2", "1"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "2"}}, name: "test error with priority map", wErr: fmt.Errorf("running Score plugins: %w", fmt.Errorf(`plugin "FalseMap" failed with: %w`, errPrioritize)), }, { name: "test podtopologyspread plugin - 2 nodes with maxskew=1", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPluginAsExtensions( podtopologyspread.Name, podtopologyspread.New, "PreFilter", "Filter", ), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2"}, pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "p", UID: types.UID("p"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ TopologySpreadConstraints: []v1.TopologySpreadConstraint{ { MaxSkew: 1, TopologyKey: "hostname", WhenUnsatisfiable: v1.DoNotSchedule, LabelSelector: &metav1.LabelSelector{ MatchExpressions: []metav1.LabelSelectorRequirement{ { Key: "foo", Operator: metav1.LabelSelectorOpExists, }, }, }, }, }, }, }, pods: []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{Name: "pod1", UID: types.UID("pod1"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ NodeName: "machine1", }, Status: v1.PodStatus{ Phase: v1.PodRunning, }, }, }, expectedHosts: sets.NewString("machine2"), wErr: nil, }, { name: "test podtopologyspread plugin - 3 nodes with maxskew=2", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPluginAsExtensions( podtopologyspread.Name, podtopologyspread.New, "PreFilter", "Filter", ), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"machine1", "machine2", "machine3"}, pod: &v1.Pod{ ObjectMeta: metav1.ObjectMeta{Name: "p", UID: types.UID("p"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ TopologySpreadConstraints: []v1.TopologySpreadConstraint{ { MaxSkew: 2, TopologyKey: "hostname", WhenUnsatisfiable: v1.DoNotSchedule, LabelSelector: &metav1.LabelSelector{ MatchExpressions: []metav1.LabelSelectorRequirement{ { Key: "foo", Operator: metav1.LabelSelectorOpExists, }, }, }, }, }, }, }, pods: []*v1.Pod{ { ObjectMeta: metav1.ObjectMeta{Name: "pod1a", UID: types.UID("pod1a"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ NodeName: "machine1", }, Status: v1.PodStatus{ Phase: v1.PodRunning, }, }, { ObjectMeta: metav1.ObjectMeta{Name: "pod1b", UID: types.UID("pod1b"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ NodeName: "machine1", }, Status: v1.PodStatus{ Phase: v1.PodRunning, }, }, { ObjectMeta: metav1.ObjectMeta{Name: "pod2", UID: types.UID("pod2"), Labels: map[string]string{"foo": ""}}, Spec: v1.PodSpec{ NodeName: "machine2", }, Status: v1.PodStatus{ Phase: v1.PodRunning, }, }, }, expectedHosts: sets.NewString("machine2", "machine3"), wErr: nil, }, { name: "test with filter plugin returning Unschedulable status", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin( "FakeFilter", st.NewFakeFilterPlugin(map[string]framework.Code{"3": framework.Unschedulable}), ), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-filter", UID: types.UID("test-filter")}}, expectedHosts: nil, wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-filter", UID: types.UID("test-filter")}}, NumAllNodes: 1, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "3": framework.NewStatus(framework.Unschedulable, "injecting failure for pod test-filter").WithFailedPlugin("FakeFilter"), }, UnschedulablePlugins: sets.NewString("FakeFilter"), }, }, }, { name: "test with filter plugin returning UnschedulableAndUnresolvable status", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin( "FakeFilter", st.NewFakeFilterPlugin(map[string]framework.Code{"3": framework.UnschedulableAndUnresolvable}), ), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"3"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-filter", UID: types.UID("test-filter")}}, expectedHosts: nil, wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-filter", UID: types.UID("test-filter")}}, NumAllNodes: 1, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "3": framework.NewStatus(framework.UnschedulableAndUnresolvable, "injecting failure for pod test-filter").WithFailedPlugin("FakeFilter"), }, UnschedulablePlugins: sets.NewString("FakeFilter"), }, }, }, { name: "test with partial failed filter plugin", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin( "FakeFilter", st.NewFakeFilterPlugin(map[string]framework.Code{"1": framework.Unschedulable}), ), st.RegisterScorePlugin("NumericMap", newNumericMapPlugin(), 1), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"1", "2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-filter", UID: types.UID("test-filter")}}, expectedHosts: nil, wErr: nil, }, { name: "test prefilter plugin returning Unschedulable status", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPreFilterPlugin( "FakePreFilter", st.NewFakePreFilterPlugin(framework.NewStatus(framework.UnschedulableAndUnresolvable, "injected unschedulable status")), ), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"1", "2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-prefilter", UID: types.UID("test-prefilter")}}, expectedHosts: nil, wErr: &framework.FitError{ Pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-prefilter", UID: types.UID("test-prefilter")}}, NumAllNodes: 2, Diagnosis: framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "1": framework.NewStatus(framework.UnschedulableAndUnresolvable, "injected unschedulable status").WithFailedPlugin("FakePreFilter"), "2": framework.NewStatus(framework.UnschedulableAndUnresolvable, "injected unschedulable status").WithFailedPlugin("FakePreFilter"), }, UnschedulablePlugins: sets.NewString("FakePreFilter"), }, }, }, { name: "test prefilter plugin returning error status", registerPlugins: []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterPreFilterPlugin( "FakePreFilter", st.NewFakePreFilterPlugin(framework.NewStatus(framework.Error, "injected error status")), ), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, nodes: []string{"1", "2"}, pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "test-prefilter", UID: types.UID("test-prefilter")}}, expectedHosts: nil, wErr: fmt.Errorf(`running PreFilter plugin "FakePreFilter": %w`, errors.New("injected error status")), }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { cache := internalcache.New(time.Duration(0), wait.NeverStop) for _, pod := range test.pods { cache.AddPod(pod) } var nodes []*v1.Node for _, name := range test.nodes { node := &v1.Node{ObjectMeta: metav1.ObjectMeta{Name: name, Labels: map[string]string{"hostname": name}}} nodes = append(nodes, node) cache.AddNode(node) } ctx := context.Background() cs := clientsetfake.NewSimpleClientset() informerFactory := informers.NewSharedInformerFactory(cs, 0) for _, pvc := range test.pvcs { metav1.SetMetaDataAnnotation(&pvc.ObjectMeta, pvutil.AnnBindCompleted, "true") cs.CoreV1().PersistentVolumeClaims(pvc.Namespace).Create(ctx, &pvc, metav1.CreateOptions{}) if pvName := pvc.Spec.VolumeName; pvName != "" { pv := v1.PersistentVolume{ObjectMeta: metav1.ObjectMeta{Name: pvName}} cs.CoreV1().PersistentVolumes().Create(ctx, &pv, metav1.CreateOptions{}) } } snapshot := internalcache.NewSnapshot(test.pods, nodes) fwk, err := st.NewFramework( test.registerPlugins, "", frameworkruntime.WithSnapshotSharedLister(snapshot), frameworkruntime.WithInformerFactory(informerFactory), frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(informerFactory.Core().V1().Pods().Lister())), ) if err != nil { t.Fatal(err) } scheduler := NewGenericScheduler( cache, snapshot, schedulerapi.DefaultPercentageOfNodesToScore, ) informerFactory.Start(ctx.Done()) informerFactory.WaitForCacheSync(ctx.Done()) result, err := scheduler.Schedule(ctx, nil, fwk, framework.NewCycleState(), test.pod) if err != test.wErr { gotFitErr, gotOK := err.(*framework.FitError) wantFitErr, wantOK := test.wErr.(*framework.FitError) if gotOK != wantOK { t.Errorf("Expected err to be FitError: %v, but got %v", wantOK, gotOK) } else if gotOK { if diff := cmp.Diff(gotFitErr, wantFitErr); diff != "" { t.Errorf("Unexpected fitErr: (-want, +got): %s", diff) } } } if test.expectedHosts != nil && !test.expectedHosts.Has(result.SuggestedHost) { t.Errorf("Expected: %s, got: %s", test.expectedHosts, result.SuggestedHost) } if test.wErr == nil && len(test.nodes) != result.EvaluatedNodes { t.Errorf("Expected EvaluatedNodes: %d, got: %d", len(test.nodes), result.EvaluatedNodes) } }) } } // makeScheduler makes a simple genericScheduler for testing. func makeScheduler(nodes []*v1.Node) *genericScheduler { cache := internalcache.New(time.Duration(0), wait.NeverStop) for _, n := range nodes { cache.AddNode(n) } s := NewGenericScheduler( cache, emptySnapshot, schedulerapi.DefaultPercentageOfNodesToScore) cache.UpdateSnapshot(s.(*genericScheduler).nodeInfoSnapshot) return s.(*genericScheduler) } func TestFindFitAllError(t *testing.T) { nodes := makeNodeList([]string{"3", "2", "1"}) scheduler := makeScheduler(nodes) fwk, err := st.NewFramework( []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterFilterPlugin("MatchFilter", st.NewMatchFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, "", frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(nil)), ) if err != nil { t.Fatal(err) } _, diagnosis, err := scheduler.findNodesThatFitPod(context.Background(), nil, fwk, framework.NewCycleState(), &v1.Pod{}) if err != nil { t.Errorf("unexpected error: %v", err) } expected := framework.Diagnosis{ NodeToStatusMap: framework.NodeToStatusMap{ "1": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("MatchFilter"), "2": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("MatchFilter"), "3": framework.NewStatus(framework.Unschedulable, st.ErrReasonFake).WithFailedPlugin("MatchFilter"), }, UnschedulablePlugins: sets.NewString("MatchFilter"), } if diff := cmp.Diff(diagnosis, expected); diff != "" { t.Errorf("Unexpected diagnosis: (-want, +got): %s", diff) } } func TestFindFitSomeError(t *testing.T) { nodes := makeNodeList([]string{"3", "2", "1"}) scheduler := makeScheduler(nodes) fwk, err := st.NewFramework( []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterFilterPlugin("MatchFilter", st.NewMatchFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, "", frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(nil)), ) if err != nil { t.Fatal(err) } pod := &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "1", UID: types.UID("1")}} _, diagnosis, err := scheduler.findNodesThatFitPod(context.Background(), nil, fwk, framework.NewCycleState(), pod) if err != nil { t.Errorf("unexpected error: %v", err) } if len(diagnosis.NodeToStatusMap) != len(nodes)-1 { t.Errorf("unexpected failed status map: %v", diagnosis.NodeToStatusMap) } if diff := cmp.Diff(sets.NewString("MatchFilter"), diagnosis.UnschedulablePlugins); diff != "" { t.Errorf("Unexpected unschedulablePlugins: (-want, +got): %s", diagnosis.UnschedulablePlugins) } for _, node := range nodes { if node.Name == pod.Name { continue } t.Run(node.Name, func(t *testing.T) { status, found := diagnosis.NodeToStatusMap[node.Name] if !found { t.Errorf("failed to find node %v in %v", node.Name, diagnosis.NodeToStatusMap) } reasons := status.Reasons() if len(reasons) != 1 || reasons[0] != st.ErrReasonFake { t.Errorf("unexpected failures: %v", reasons) } }) } } func TestFindFitPredicateCallCounts(t *testing.T) { tests := []struct { name string pod *v1.Pod expectedCount int32 }{ { name: "nominated pods have lower priority, predicate is called once", pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "1", UID: types.UID("1")}, Spec: v1.PodSpec{Priority: &highPriority}}, expectedCount: 1, }, { name: "nominated pods have higher priority, predicate is called twice", pod: &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "1", UID: types.UID("1")}, Spec: v1.PodSpec{Priority: &lowPriority}}, expectedCount: 2, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { nodes := makeNodeList([]string{"1"}) plugin := st.FakeFilterPlugin{} registerFakeFilterFunc := st.RegisterFilterPlugin( "FakeFilter", func(_ runtime.Object, fh framework.Handle) (framework.Plugin, error) { return &plugin, nil }, ) registerPlugins := []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), registerFakeFilterFunc, st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), } fwk, err := st.NewFramework( registerPlugins, "", frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(nil)), ) if err != nil { t.Fatal(err) } scheduler := makeScheduler(nodes) if err := scheduler.cache.UpdateSnapshot(scheduler.nodeInfoSnapshot); err != nil { t.Fatal(err) } fwk.AddNominatedPod(framework.NewPodInfo(&v1.Pod{ObjectMeta: metav1.ObjectMeta{UID: "nominated"}, Spec: v1.PodSpec{Priority: &midPriority}}), "1") _, _, err = scheduler.findNodesThatFitPod(context.Background(), nil, fwk, framework.NewCycleState(), test.pod) if err != nil { t.Errorf("unexpected error: %v", err) } if test.expectedCount != plugin.NumFilterCalled { t.Errorf("predicate was called %d times, expected is %d", plugin.NumFilterCalled, test.expectedCount) } }) } } func makeNode(node string, milliCPU, memory int64) *v1.Node { return &v1.Node{ ObjectMeta: metav1.ObjectMeta{Name: node}, Status: v1.NodeStatus{ Capacity: v1.ResourceList{ v1.ResourceCPU: *resource.NewMilliQuantity(milliCPU, resource.DecimalSI), v1.ResourceMemory: *resource.NewQuantity(memory, resource.BinarySI), "pods": *resource.NewQuantity(100, resource.DecimalSI), }, Allocatable: v1.ResourceList{ v1.ResourceCPU: *resource.NewMilliQuantity(milliCPU, resource.DecimalSI), v1.ResourceMemory: *resource.NewQuantity(memory, resource.BinarySI), "pods": *resource.NewQuantity(100, resource.DecimalSI), }, }, } } // The point of this test is to show that you: // - get the same priority for a zero-request pod as for a pod with the defaults requests, // both when the zero-request pod is already on the machine and when the zero-request pod // is the one being scheduled. // - don't get the same score no matter what we schedule. func TestZeroRequest(t *testing.T) { // A pod with no resources. We expect spreading to count it as having the default resources. noResources := v1.PodSpec{ Containers: []v1.Container{ {}, }, } noResources1 := noResources noResources1.NodeName = "machine1" // A pod with the same resources as a 0-request pod gets by default as its resources (for spreading). small := v1.PodSpec{ Containers: []v1.Container{ { Resources: v1.ResourceRequirements{ Requests: v1.ResourceList{ v1.ResourceCPU: resource.MustParse( strconv.FormatInt(schedutil.DefaultMilliCPURequest, 10) + "m"), v1.ResourceMemory: resource.MustParse( strconv.FormatInt(schedutil.DefaultMemoryRequest, 10)), }, }, }, }, } small2 := small small2.NodeName = "machine2" // A larger pod. large := v1.PodSpec{ Containers: []v1.Container{ { Resources: v1.ResourceRequirements{ Requests: v1.ResourceList{ v1.ResourceCPU: resource.MustParse( strconv.FormatInt(schedutil.DefaultMilliCPURequest*3, 10) + "m"), v1.ResourceMemory: resource.MustParse( strconv.FormatInt(schedutil.DefaultMemoryRequest*3, 10)), }, }, }, }, } large1 := large large1.NodeName = "machine1" large2 := large large2.NodeName = "machine2" tests := []struct { pod *v1.Pod pods []*v1.Pod nodes []*v1.Node name string expectedScore int64 }{ // The point of these next two tests is to show you get the same priority for a zero-request pod // as for a pod with the defaults requests, both when the zero-request pod is already on the machine // and when the zero-request pod is the one being scheduled. { pod: &v1.Pod{Spec: noResources}, nodes: []*v1.Node{makeNode("machine1", 1000, schedutil.DefaultMemoryRequest*10), makeNode("machine2", 1000, schedutil.DefaultMemoryRequest*10)}, name: "test priority of zero-request pod with machine with zero-request pod", pods: []*v1.Pod{ {Spec: large1}, {Spec: noResources1}, {Spec: large2}, {Spec: small2}, }, expectedScore: 250, }, { pod: &v1.Pod{Spec: small}, nodes: []*v1.Node{makeNode("machine1", 1000, schedutil.DefaultMemoryRequest*10), makeNode("machine2", 1000, schedutil.DefaultMemoryRequest*10)}, name: "test priority of nonzero-request pod with machine with zero-request pod", pods: []*v1.Pod{ {Spec: large1}, {Spec: noResources1}, {Spec: large2}, {Spec: small2}, }, expectedScore: 250, }, // The point of this test is to verify that we're not just getting the same score no matter what we schedule. { pod: &v1.Pod{Spec: large}, nodes: []*v1.Node{makeNode("machine1", 1000, schedutil.DefaultMemoryRequest*10), makeNode("machine2", 1000, schedutil.DefaultMemoryRequest*10)}, name: "test priority of larger pod with machine with zero-request pod", pods: []*v1.Pod{ {Spec: large1}, {Spec: noResources1}, {Spec: large2}, {Spec: small2}, }, expectedScore: 230, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { client := clientsetfake.NewSimpleClientset() informerFactory := informers.NewSharedInformerFactory(client, 0) snapshot := internalcache.NewSnapshot(test.pods, test.nodes) fts := feature.Features{} pluginRegistrations := []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterScorePlugin(noderesources.FitName, frameworkruntime.FactoryAdapter(fts, noderesources.NewFit), 1), st.RegisterScorePlugin(noderesources.BalancedAllocationName, frameworkruntime.FactoryAdapter(fts, noderesources.NewBalancedAllocation), 1), st.RegisterScorePlugin(selectorspread.Name, selectorspread.New, 1), st.RegisterPreScorePlugin(selectorspread.Name, selectorspread.New), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), } fwk, err := st.NewFramework( pluginRegistrations, "", frameworkruntime.WithInformerFactory(informerFactory), frameworkruntime.WithSnapshotSharedLister(snapshot), frameworkruntime.WithClientSet(client), frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(informerFactory.Core().V1().Pods().Lister())), ) if err != nil { t.Fatalf("error creating framework: %+v", err) } scheduler := NewGenericScheduler( nil, emptySnapshot, schedulerapi.DefaultPercentageOfNodesToScore).(*genericScheduler) scheduler.nodeInfoSnapshot = snapshot ctx := context.Background() state := framework.NewCycleState() _, _, err = scheduler.findNodesThatFitPod(ctx, nil, fwk, state, test.pod) if err != nil { t.Fatalf("error filtering nodes: %+v", err) } fwk.RunPreScorePlugins(ctx, state, test.pod, test.nodes) list, err := prioritizeNodes(ctx, nil, fwk, state, test.pod, test.nodes) if err != nil { t.Errorf("unexpected error: %v", err) } for _, hp := range list { if hp.Score != test.expectedScore { t.Errorf("expected %d for all priorities, got list %#v", test.expectedScore, list) } } }) } } var lowPriority, midPriority, highPriority = int32(0), int32(100), int32(1000) func TestNumFeasibleNodesToFind(t *testing.T) { tests := []struct { name string percentageOfNodesToScore int32 numAllNodes int32 wantNumNodes int32 }{ { name: "not set percentageOfNodesToScore and nodes number not more than 50", numAllNodes: 10, wantNumNodes: 10, }, { name: "set percentageOfNodesToScore and nodes number not more than 50", percentageOfNodesToScore: 40, numAllNodes: 10, wantNumNodes: 10, }, { name: "not set percentageOfNodesToScore and nodes number more than 50", numAllNodes: 1000, wantNumNodes: 420, }, { name: "set percentageOfNodesToScore and nodes number more than 50", percentageOfNodesToScore: 40, numAllNodes: 1000, wantNumNodes: 400, }, { name: "not set percentageOfNodesToScore and nodes number more than 50*125", numAllNodes: 6000, wantNumNodes: 300, }, { name: "set percentageOfNodesToScore and nodes number more than 50*125", percentageOfNodesToScore: 40, numAllNodes: 6000, wantNumNodes: 2400, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { g := &genericScheduler{ percentageOfNodesToScore: tt.percentageOfNodesToScore, } if gotNumNodes := g.numFeasibleNodesToFind(tt.numAllNodes); gotNumNodes != tt.wantNumNodes { t.Errorf("genericScheduler.numFeasibleNodesToFind() = %v, want %v", gotNumNodes, tt.wantNumNodes) } }) } } func TestFairEvaluationForNodes(t *testing.T) { numAllNodes := 500 nodeNames := make([]string, 0, numAllNodes) for i := 0; i < numAllNodes; i++ { nodeNames = append(nodeNames, strconv.Itoa(i)) } nodes := makeNodeList(nodeNames) g := makeScheduler(nodes) fwk, err := st.NewFramework( []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), st.RegisterFilterPlugin("TrueFilter", st.NewTrueFilterPlugin), st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), }, "", frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(nil)), ) if err != nil { t.Fatal(err) } // To make numAllNodes % nodesToFind != 0 g.percentageOfNodesToScore = 30 nodesToFind := int(g.numFeasibleNodesToFind(int32(numAllNodes))) // Iterating over all nodes more than twice for i := 0; i < 2*(numAllNodes/nodesToFind+1); i++ { nodesThatFit, _, err := g.findNodesThatFitPod(context.Background(), nil, fwk, framework.NewCycleState(), &v1.Pod{}) if err != nil { t.Errorf("unexpected error: %v", err) } if len(nodesThatFit) != nodesToFind { t.Errorf("got %d nodes filtered, want %d", len(nodesThatFit), nodesToFind) } if g.nextStartNodeIndex != (i+1)*nodesToFind%numAllNodes { t.Errorf("got %d lastProcessedNodeIndex, want %d", g.nextStartNodeIndex, (i+1)*nodesToFind%numAllNodes) } } } func TestPreferNominatedNodeFilterCallCounts(t *testing.T) { tests := []struct { name string feature bool pod *v1.Pod nodeReturnCodeMap map[string]framework.Code expectedCount int32 expectedPatchRequests int }{ { name: "Enable the feature, pod has the nominated node set, filter is called only once", feature: true, pod: st.MakePod().Name("p_with_nominated_node").UID("p").Priority(highPriority).NominatedNodeName("node1").Obj(), expectedCount: 1, }, { name: "Disable the feature, pod has the nominated node, filter is called for each node", feature: false, pod: st.MakePod().Name("p_with_nominated_node").UID("p").Priority(highPriority).NominatedNodeName("node1").Obj(), expectedCount: 3, }, { name: "pod without the nominated pod, filter is called for each node", feature: true, pod: st.MakePod().Name("p_without_nominated_node").UID("p").Priority(highPriority).Obj(), expectedCount: 3, }, { name: "nominated pod cannot pass the filter, filter is called for each node", feature: true, pod: st.MakePod().Name("p_with_nominated_node").UID("p").Priority(highPriority).NominatedNodeName("node1").Obj(), nodeReturnCodeMap: map[string]framework.Code{"node1": framework.Unschedulable}, expectedCount: 4, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { defer featuregatetesting.SetFeatureGateDuringTest(t, utilfeature.DefaultFeatureGate, features.PreferNominatedNode, test.feature)() // create three nodes in the cluster. nodes := makeNodeList([]string{"node1", "node2", "node3"}) client := clientsetfake.NewSimpleClientset(test.pod) informerFactory := informers.NewSharedInformerFactory(client, 0) cache := internalcache.New(time.Duration(0), wait.NeverStop) for _, n := range nodes { cache.AddNode(n) } plugin := st.FakeFilterPlugin{FailedNodeReturnCodeMap: test.nodeReturnCodeMap} registerFakeFilterFunc := st.RegisterFilterPlugin( "FakeFilter", func(_ runtime.Object, fh framework.Handle) (framework.Plugin, error) { return &plugin, nil }, ) registerPlugins := []st.RegisterPluginFunc{ st.RegisterQueueSortPlugin(queuesort.Name, queuesort.New), registerFakeFilterFunc, st.RegisterBindPlugin(defaultbinder.Name, defaultbinder.New), } fwk, err := st.NewFramework( registerPlugins, "", frameworkruntime.WithClientSet(client), frameworkruntime.WithPodNominator(internalqueue.NewPodNominator(informerFactory.Core().V1().Pods().Lister())), ) if err != nil { t.Fatal(err) } snapshot := internalcache.NewSnapshot(nil, nodes) scheduler := NewGenericScheduler( cache, snapshot, schedulerapi.DefaultPercentageOfNodesToScore).(*genericScheduler) _, _, err = scheduler.findNodesThatFitPod(context.Background(), nil, fwk, framework.NewCycleState(), test.pod) if err != nil { t.Errorf("unexpected error: %v", err) } if test.expectedCount != plugin.NumFilterCalled { t.Errorf("predicate was called %d times, expected is %d", plugin.NumFilterCalled, test.expectedCount) } }) } }