/* 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 simulator import ( "fmt" "testing" "time" apiv1 "k8s.io/api/core/v1" policyv1 "k8s.io/api/policy/v1beta1" "k8s.io/autoscaler/cluster-autoscaler/utils/drain" . "k8s.io/autoscaler/cluster-autoscaler/utils/test" "k8s.io/kubernetes/pkg/kubelet/types" schedulernodeinfo "k8s.io/kubernetes/pkg/scheduler/nodeinfo" "github.com/stretchr/testify/assert" ) func TestUtilization(t *testing.T) { gpuLabel := GetGPULabel() pod := BuildTestPod("p1", 100, 200000) pod2 := BuildTestPod("p2", -1, -1) nodeInfo := schedulernodeinfo.NewNodeInfo(pod, pod, pod2) node := BuildTestNode("node1", 2000, 2000000) SetNodeReadyState(node, true, time.Time{}) utilInfo, err := CalculateUtilization(node, nodeInfo, false, false, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 2.0/10, utilInfo.Utilization, 0.01) node2 := BuildTestNode("node1", 2000, -1) _, err = CalculateUtilization(node2, nodeInfo, false, false, gpuLabel) assert.Error(t, err) daemonSetPod3 := BuildTestPod("p3", 100, 200000) daemonSetPod3.OwnerReferences = GenerateOwnerReferences("ds", "DaemonSet", "apps/v1", "") daemonSetPod4 := BuildTestPod("p4", 100, 200000) daemonSetPod4.OwnerReferences = GenerateOwnerReferences("ds", "CustomDaemonSet", "crd/v1", "") daemonSetPod4.Annotations = map[string]string{"cluster-autoscaler.kubernetes.io/daemonset-pod": "true"} nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod, pod2, daemonSetPod3, daemonSetPod4) utilInfo, err = CalculateUtilization(node, nodeInfo, true, false, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 2.0/10, utilInfo.Utilization, 0.01) nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod2, daemonSetPod3) utilInfo, err = CalculateUtilization(node, nodeInfo, false, false, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 2.0/10, utilInfo.Utilization, 0.01) mirrorPod4 := BuildTestPod("p4", 100, 200000) mirrorPod4.Annotations = map[string]string{ types.ConfigMirrorAnnotationKey: "", } nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod, pod2, mirrorPod4) utilInfo, err = CalculateUtilization(node, nodeInfo, false, true, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 2.0/10, utilInfo.Utilization, 0.01) nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod2, mirrorPod4) utilInfo, err = CalculateUtilization(node, nodeInfo, false, false, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 2.0/10, utilInfo.Utilization, 0.01) gpuNode := BuildTestNode("gpu_node", 2000, 2000000) AddGpusToNode(gpuNode, 1) gpuPod := BuildTestPod("gpu_pod", 100, 200000) RequestGpuForPod(gpuPod, 1) TolerateGpuForPod(gpuPod) nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod, gpuPod) utilInfo, err = CalculateUtilization(gpuNode, nodeInfo, false, false, gpuLabel) assert.NoError(t, err) assert.InEpsilon(t, 1/1, utilInfo.Utilization, 0.01) // Node with Unready GPU gpuNode = BuildTestNode("gpu_node", 2000, 2000000) AddGpuLabelToNode(gpuNode) nodeInfo = schedulernodeinfo.NewNodeInfo(pod, pod) utilInfo, err = CalculateUtilization(gpuNode, nodeInfo, false, false, gpuLabel) assert.NoError(t, err) assert.Zero(t, utilInfo.Utilization) } func TestFindPlaceAllOk(t *testing.T) { node1 := BuildTestNode("n1", 1000, 2000000) SetNodeReadyState(node1, true, time.Time{}) node2 := BuildTestNode("n2", 1000, 2000000) SetNodeReadyState(node2, true, time.Time{}) pod1 := BuildTestPod("p1", 300, 500000) pod1.Spec.NodeName = "n1" new1 := BuildTestPod("p2", 600, 500000) new2 := BuildTestPod("p3", 500, 500000) oldHints := make(map[string]string) newHints := make(map[string]string) tracker := NewUsageTracker() clusterSnapshot := NewBasicClusterSnapshot() predicateChecker, err := NewTestPredicateChecker() assert.NoError(t, err) InitializeClusterSnapshotOrDie(t, clusterSnapshot, []*apiv1.Node{node1, node2}, []*apiv1.Pod{pod1}) err = findPlaceFor( "x", []*apiv1.Pod{new1, new2}, []*apiv1.Node{node1, node2}, clusterSnapshot, predicateChecker, oldHints, newHints, tracker, time.Now()) assert.Len(t, newHints, 2) assert.Contains(t, newHints, new1.Namespace+"/"+new1.Name) assert.Contains(t, newHints, new2.Namespace+"/"+new2.Name) assert.NoError(t, err) } func TestFindPlaceAllBas(t *testing.T) { nodebad := BuildTestNode("nbad", 1000, 2000000) node1 := BuildTestNode("n1", 1000, 2000000) SetNodeReadyState(node1, true, time.Time{}) node2 := BuildTestNode("n2", 1000, 2000000) SetNodeReadyState(node2, true, time.Time{}) pod1 := BuildTestPod("p1", 300, 500000) pod1.Spec.NodeName = "n1" new1 := BuildTestPod("p2", 600, 500000) new2 := BuildTestPod("p3", 500, 500000) new3 := BuildTestPod("p4", 700, 500000) oldHints := make(map[string]string) newHints := make(map[string]string) tracker := NewUsageTracker() clusterSnapshot := NewBasicClusterSnapshot() predicateChecker, err := NewTestPredicateChecker() assert.NoError(t, err) InitializeClusterSnapshotOrDie(t, clusterSnapshot, []*apiv1.Node{node1, node2}, []*apiv1.Pod{pod1}) err = findPlaceFor( "nbad", []*apiv1.Pod{new1, new2, new3}, []*apiv1.Node{nodebad, node1, node2}, clusterSnapshot, predicateChecker, oldHints, newHints, tracker, time.Now()) assert.Error(t, err) assert.True(t, len(newHints) == 2) assert.Contains(t, newHints, new1.Namespace+"/"+new1.Name) assert.Contains(t, newHints, new2.Namespace+"/"+new2.Name) } func TestFindNone(t *testing.T) { node1 := BuildTestNode("n1", 1000, 2000000) SetNodeReadyState(node1, true, time.Time{}) node2 := BuildTestNode("n2", 1000, 2000000) SetNodeReadyState(node2, true, time.Time{}) pod1 := BuildTestPod("p1", 300, 500000) pod1.Spec.NodeName = "n1" clusterSnapshot := NewBasicClusterSnapshot() predicateChecker, err := NewTestPredicateChecker() assert.NoError(t, err) InitializeClusterSnapshotOrDie(t, clusterSnapshot, []*apiv1.Node{node1, node2}, []*apiv1.Pod{pod1}) err = findPlaceFor( "x", []*apiv1.Pod{}, []*apiv1.Node{node1, node2}, clusterSnapshot, predicateChecker, make(map[string]string), make(map[string]string), NewUsageTracker(), time.Now()) assert.NoError(t, err) } func TestShuffleNodes(t *testing.T) { nodes := []*apiv1.Node{ BuildTestNode("n1", 0, 0), BuildTestNode("n2", 0, 0), BuildTestNode("n3", 0, 0)} gotPermutation := false for i := 0; i < 10000; i++ { shuffled := shuffleNodes(nodes) if shuffled[0].Name == "n2" && shuffled[1].Name == "n3" && shuffled[2].Name == "n1" { gotPermutation = true break } } assert.True(t, gotPermutation) } func TestFindEmptyNodes(t *testing.T) { pod1 := BuildTestPod("p1", 300, 500000) pod1.Spec.NodeName = "n1" pod2 := BuildTestPod("p2", 300, 500000) pod2.Spec.NodeName = "n2" pod2.Annotations = map[string]string{ types.ConfigMirrorAnnotationKey: "", } node1 := BuildTestNode("n1", 1000, 2000000) node2 := BuildTestNode("n2", 1000, 2000000) node3 := BuildTestNode("n3", 1000, 2000000) node4 := BuildTestNode("n4", 1000, 2000000) SetNodeReadyState(node1, true, time.Time{}) SetNodeReadyState(node2, true, time.Time{}) SetNodeReadyState(node3, true, time.Time{}) SetNodeReadyState(node4, true, time.Time{}) emptyNodes := FindEmptyNodesToRemove([]*apiv1.Node{node1, node2, node3, node4}, []*apiv1.Pod{pod1, pod2}) assert.Equal(t, []*apiv1.Node{node2, node3, node4}, emptyNodes) } type findNodesToRemoveTestConfig struct { name string pods []*apiv1.Pod candidates []*apiv1.Node allNodes []*apiv1.Node toRemove []NodeToBeRemoved unremovable []*UnremovableNode } func TestFindNodesToRemove(t *testing.T) { emptyNode := BuildTestNode("n1", 1000, 2000000) // two small pods backed by ReplicaSet drainableNode := BuildTestNode("n2", 1000, 2000000) // one small pod, not backed by anything nonDrainableNode := BuildTestNode("n3", 1000, 2000000) // one very large pod fullNode := BuildTestNode("n4", 1000, 2000000) SetNodeReadyState(emptyNode, true, time.Time{}) SetNodeReadyState(drainableNode, true, time.Time{}) SetNodeReadyState(nonDrainableNode, true, time.Time{}) SetNodeReadyState(fullNode, true, time.Time{}) ownerRefs := GenerateOwnerReferences("rs", "ReplicaSet", "extensions/v1beta1", "") pod1 := BuildTestPod("p1", 100, 100000) pod1.OwnerReferences = ownerRefs pod1.Spec.NodeName = "n2" pod2 := BuildTestPod("p2", 100, 100000) pod2.OwnerReferences = ownerRefs pod2.Spec.NodeName = "n2" pod3 := BuildTestPod("p3", 100, 100000) pod3.Spec.NodeName = "n3" pod4 := BuildTestPod("p4", 1000, 100000) pod4.Spec.NodeName = "n4" emptyNodeToRemove := NodeToBeRemoved{ Node: emptyNode, PodsToReschedule: []*apiv1.Pod{}, } drainableNodeToRemove := NodeToBeRemoved{ Node: drainableNode, PodsToReschedule: []*apiv1.Pod{pod1, pod2}, } clusterSnapshot := NewBasicClusterSnapshot() predicateChecker, err := NewTestPredicateChecker() assert.NoError(t, err) tracker := NewUsageTracker() tests := []findNodesToRemoveTestConfig{ // just an empty node, should be removed { name: "just an empty node, should be removed", pods: []*apiv1.Pod{}, candidates: []*apiv1.Node{emptyNode}, allNodes: []*apiv1.Node{emptyNode}, toRemove: []NodeToBeRemoved{emptyNodeToRemove}, unremovable: []*UnremovableNode{}, }, // just a drainable node, but nowhere for pods to go to { name: "just a drainable node, but nowhere for pods to go to", pods: []*apiv1.Pod{pod1, pod2}, candidates: []*apiv1.Node{drainableNode}, allNodes: []*apiv1.Node{drainableNode}, toRemove: []NodeToBeRemoved{}, unremovable: []*UnremovableNode{{Node: drainableNode, Reason: NoPlaceToMovePods}}, }, // drainable node, and a mostly empty node that can take its pods { name: "drainable node, and a mostly empty node that can take its pods", pods: []*apiv1.Pod{pod1, pod2, pod3}, candidates: []*apiv1.Node{drainableNode, nonDrainableNode}, allNodes: []*apiv1.Node{drainableNode, nonDrainableNode}, toRemove: []NodeToBeRemoved{drainableNodeToRemove}, unremovable: []*UnremovableNode{{Node: nonDrainableNode, Reason: BlockedByPod, BlockingPod: &drain.BlockingPod{Pod: pod3, Reason: drain.NotReplicated}}}, }, // drainable node, and a full node that cannot fit anymore pods { name: "drainable node, and a full node that cannot fit anymore pods", pods: []*apiv1.Pod{pod1, pod2, pod4}, candidates: []*apiv1.Node{drainableNode}, allNodes: []*apiv1.Node{drainableNode, fullNode}, toRemove: []NodeToBeRemoved{}, unremovable: []*UnremovableNode{{Node: drainableNode, Reason: NoPlaceToMovePods}}, }, // 4 nodes, 1 empty, 1 drainable { name: "4 nodes, 1 empty, 1 drainable", pods: []*apiv1.Pod{pod1, pod2, pod3, pod4}, candidates: []*apiv1.Node{emptyNode, drainableNode}, allNodes: []*apiv1.Node{emptyNode, drainableNode, fullNode, nonDrainableNode}, toRemove: []NodeToBeRemoved{emptyNodeToRemove, drainableNodeToRemove}, unremovable: []*UnremovableNode{}, }, } for _, test := range tests { InitializeClusterSnapshotOrDie(t, clusterSnapshot, test.allNodes, test.pods) toRemove, unremovable, _, err := FindNodesToRemove( test.candidates, test.allNodes, test.pods, nil, clusterSnapshot, predicateChecker, len(test.allNodes), true, map[string]string{}, tracker, time.Now(), []*policyv1.PodDisruptionBudget{}) assert.NoError(t, err) fmt.Printf("Test scenario: %s, found len(toRemove)=%v, expected len(test.toRemove)=%v\n", test.name, len(toRemove), len(test.toRemove)) assert.Equal(t, toRemove, test.toRemove) assert.Equal(t, unremovable, test.unremovable) } }