kubernetes preemption_test 源码
kubernetes preemption_test 代码
文件路径:/pkg/kubelet/preemption/preemption_test.go
/*
Copyright 2017 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package preemption
import (
"fmt"
"testing"
v1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/client-go/tools/record"
kubeapi "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/scheduling"
)
const (
clusterCritical = "cluster-critical"
nodeCritical = "node-critical"
bestEffort = "bestEffort"
burstable = "burstable"
highRequestBurstable = "high-request-burstable"
guaranteed = "guaranteed"
highRequestGuaranteed = "high-request-guaranteed"
tinyBurstable = "tiny"
maxPods = 110
)
type fakePodKiller struct {
killedPods []*v1.Pod
errDuringPodKilling bool
}
func newFakePodKiller(errPodKilling bool) *fakePodKiller {
return &fakePodKiller{killedPods: []*v1.Pod{}, errDuringPodKilling: errPodKilling}
}
func (f *fakePodKiller) clear() {
f.killedPods = []*v1.Pod{}
}
func (f *fakePodKiller) getKilledPods() []*v1.Pod {
return f.killedPods
}
func (f *fakePodKiller) killPodNow(pod *v1.Pod, evict bool, gracePeriodOverride *int64, fn func(status *v1.PodStatus)) error {
if f.errDuringPodKilling {
f.killedPods = []*v1.Pod{}
return fmt.Errorf("problem killing pod %v", pod)
}
f.killedPods = append(f.killedPods, pod)
return nil
}
type fakePodProvider struct {
pods []*v1.Pod
}
func newFakePodProvider() *fakePodProvider {
return &fakePodProvider{pods: []*v1.Pod{}}
}
func (f *fakePodProvider) setPods(pods []*v1.Pod) {
f.pods = pods
}
func (f *fakePodProvider) getPods() []*v1.Pod {
return f.pods
}
func getTestCriticalPodAdmissionHandler(podProvider *fakePodProvider, podKiller *fakePodKiller) *CriticalPodAdmissionHandler {
return &CriticalPodAdmissionHandler{
getPodsFunc: podProvider.getPods,
killPodFunc: podKiller.killPodNow,
recorder: &record.FakeRecorder{},
}
}
func TestEvictPodsToFreeRequestsWithError(t *testing.T) {
type testRun struct {
testName string
inputPods []*v1.Pod
insufficientResources admissionRequirementList
expectErr bool
expectedOutput []*v1.Pod
}
podProvider := newFakePodProvider()
podKiller := newFakePodKiller(true)
criticalPodAdmissionHandler := getTestCriticalPodAdmissionHandler(podProvider, podKiller)
allPods := getTestPods()
runs := []testRun{
{
testName: "multiple pods eviction error",
inputPods: []*v1.Pod{
allPods[clusterCritical], allPods[bestEffort], allPods[burstable], allPods[highRequestBurstable],
allPods[guaranteed], allPods[highRequestGuaranteed]},
insufficientResources: getAdmissionRequirementList(0, 550, 0),
expectErr: false,
expectedOutput: nil,
},
}
for _, r := range runs {
podProvider.setPods(r.inputPods)
outErr := criticalPodAdmissionHandler.evictPodsToFreeRequests(allPods[clusterCritical], r.insufficientResources)
outputPods := podKiller.getKilledPods()
if !r.expectErr && outErr != nil {
t.Errorf("evictPodsToFreeRequests returned an unexpected error during the %s test. Err: %v", r.testName, outErr)
} else if r.expectErr && outErr == nil {
t.Errorf("evictPodsToFreeRequests expected an error but returned a successful output=%v during the %s test.", outputPods, r.testName)
} else if !podListEqual(r.expectedOutput, outputPods) {
t.Errorf("evictPodsToFreeRequests expected %v but got %v during the %s test.", r.expectedOutput, outputPods, r.testName)
}
podKiller.clear()
}
}
func TestEvictPodsToFreeRequests(t *testing.T) {
type testRun struct {
testName string
inputPods []*v1.Pod
insufficientResources admissionRequirementList
expectErr bool
expectedOutput []*v1.Pod
}
podProvider := newFakePodProvider()
podKiller := newFakePodKiller(false)
criticalPodAdmissionHandler := getTestCriticalPodAdmissionHandler(podProvider, podKiller)
allPods := getTestPods()
runs := []testRun{
{
testName: "critical pods cannot be preempted",
inputPods: []*v1.Pod{allPods[clusterCritical]},
insufficientResources: getAdmissionRequirementList(0, 0, 1),
expectErr: true,
expectedOutput: nil,
},
{
testName: "best effort pods are not preempted when attempting to free resources",
inputPods: []*v1.Pod{allPods[bestEffort]},
insufficientResources: getAdmissionRequirementList(0, 1, 0),
expectErr: true,
expectedOutput: nil,
},
{
testName: "multiple pods evicted",
inputPods: []*v1.Pod{
allPods[clusterCritical], allPods[bestEffort], allPods[burstable], allPods[highRequestBurstable],
allPods[guaranteed], allPods[highRequestGuaranteed]},
insufficientResources: getAdmissionRequirementList(0, 550, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[highRequestBurstable], allPods[highRequestGuaranteed]},
},
}
for _, r := range runs {
podProvider.setPods(r.inputPods)
outErr := criticalPodAdmissionHandler.evictPodsToFreeRequests(allPods[clusterCritical], r.insufficientResources)
outputPods := podKiller.getKilledPods()
if !r.expectErr && outErr != nil {
t.Errorf("evictPodsToFreeRequests returned an unexpected error during the %s test. Err: %v", r.testName, outErr)
} else if r.expectErr && outErr == nil {
t.Errorf("evictPodsToFreeRequests expected an error but returned a successful output=%v during the %s test.", outputPods, r.testName)
} else if !podListEqual(r.expectedOutput, outputPods) {
t.Errorf("evictPodsToFreeRequests expected %v but got %v during the %s test.", r.expectedOutput, outputPods, r.testName)
}
podKiller.clear()
}
}
func BenchmarkGetPodsToPreempt(t *testing.B) {
allPods := getTestPods()
inputPods := []*v1.Pod{}
for i := 0; i < maxPods; i++ {
inputPods = append(inputPods, allPods[tinyBurstable])
}
for n := 0; n < t.N; n++ {
getPodsToPreempt(allPods[bestEffort], inputPods, admissionRequirementList([]*admissionRequirement{
{
resourceName: v1.ResourceCPU,
quantity: parseCPUToInt64("110m"),
}}))
}
}
func TestGetPodsToPreempt(t *testing.T) {
type testRun struct {
testName string
preemptor *v1.Pod
inputPods []*v1.Pod
insufficientResources admissionRequirementList
expectErr bool
expectedOutput []*v1.Pod
}
allPods := getTestPods()
runs := []testRun{
{
testName: "no requirements",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{},
insufficientResources: getAdmissionRequirementList(0, 0, 0),
expectErr: false,
expectedOutput: []*v1.Pod{},
},
{
testName: "no pods",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{},
insufficientResources: getAdmissionRequirementList(0, 0, 1),
expectErr: true,
expectedOutput: nil,
},
{
testName: "equal pods and resources requirements",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[burstable]},
insufficientResources: getAdmissionRequirementList(100, 100, 1),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[burstable]},
},
{
testName: "higher requirements than pod requests",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[burstable]},
insufficientResources: getAdmissionRequirementList(200, 200, 2),
expectErr: true,
expectedOutput: nil,
},
{
testName: "choose between bestEffort and burstable",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[burstable], allPods[bestEffort]},
insufficientResources: getAdmissionRequirementList(0, 0, 1),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[bestEffort]},
},
{
testName: "choose between burstable and guaranteed",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[burstable], allPods[guaranteed]},
insufficientResources: getAdmissionRequirementList(0, 0, 1),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[burstable]},
},
{
testName: "choose lower request burstable if it meets requirements",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[bestEffort], allPods[highRequestBurstable], allPods[burstable]},
insufficientResources: getAdmissionRequirementList(100, 100, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[burstable]},
},
{
testName: "choose higher request burstable if lower does not meet requirements",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[bestEffort], allPods[burstable], allPods[highRequestBurstable]},
insufficientResources: getAdmissionRequirementList(150, 150, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[highRequestBurstable]},
},
{
testName: "multiple pods required",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[bestEffort], allPods[burstable], allPods[highRequestBurstable], allPods[guaranteed], allPods[highRequestGuaranteed]},
insufficientResources: getAdmissionRequirementList(350, 350, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[burstable], allPods[highRequestBurstable]},
},
{
testName: "evict guaranteed when we have to, and dont evict the extra burstable",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[bestEffort], allPods[burstable], allPods[highRequestBurstable], allPods[guaranteed], allPods[highRequestGuaranteed]},
insufficientResources: getAdmissionRequirementList(0, 550, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[highRequestBurstable], allPods[highRequestGuaranteed]},
},
{
testName: "evict cluster critical pod for node critical pod",
preemptor: allPods[nodeCritical],
inputPods: []*v1.Pod{allPods[clusterCritical]},
insufficientResources: getAdmissionRequirementList(100, 0, 0),
expectErr: false,
expectedOutput: []*v1.Pod{allPods[clusterCritical]},
},
{
testName: "can not evict node critical pod for cluster critical pod",
preemptor: allPods[clusterCritical],
inputPods: []*v1.Pod{allPods[nodeCritical]},
insufficientResources: getAdmissionRequirementList(100, 0, 0),
expectErr: true,
expectedOutput: nil,
},
}
for _, r := range runs {
outputPods, outErr := getPodsToPreempt(r.preemptor, r.inputPods, r.insufficientResources)
if !r.expectErr && outErr != nil {
t.Errorf("getPodsToPreempt returned an unexpected error during the %s test. Err: %v", r.testName, outErr)
} else if r.expectErr && outErr == nil {
t.Errorf("getPodsToPreempt expected an error but returned a successful output=%v during the %s test.", outputPods, r.testName)
} else if !podListEqual(r.expectedOutput, outputPods) {
t.Errorf("getPodsToPreempt expected %v but got %v during the %s test.", r.expectedOutput, outputPods, r.testName)
}
}
}
func TestAdmissionRequirementsDistance(t *testing.T) {
type testRun struct {
testName string
requirements admissionRequirementList
inputPod *v1.Pod
expectedOutput float64
}
allPods := getTestPods()
runs := []testRun{
{
testName: "no requirements",
requirements: getAdmissionRequirementList(0, 0, 0),
inputPod: allPods[burstable],
expectedOutput: 0,
},
{
testName: "no requests, some requirements",
requirements: getAdmissionRequirementList(100, 100, 1),
inputPod: allPods[bestEffort],
expectedOutput: 2,
},
{
testName: "equal requests and requirements",
requirements: getAdmissionRequirementList(100, 100, 1),
inputPod: allPods[burstable],
expectedOutput: 0,
},
{
testName: "higher requests than requirements",
requirements: getAdmissionRequirementList(50, 50, 0),
inputPod: allPods[burstable],
expectedOutput: 0,
},
}
for _, run := range runs {
output := run.requirements.distance(run.inputPod)
if output != run.expectedOutput {
t.Errorf("expected: %f, got: %f for %s test", run.expectedOutput, output, run.testName)
}
}
}
func TestAdmissionRequirementsSubtract(t *testing.T) {
type testRun struct {
testName string
initial admissionRequirementList
inputPod *v1.Pod
expectedOutput admissionRequirementList
}
allPods := getTestPods()
runs := []testRun{
{
testName: "subtract a pod from no requirements",
initial: getAdmissionRequirementList(0, 0, 0),
inputPod: allPods[burstable],
expectedOutput: getAdmissionRequirementList(0, 0, 0),
},
{
testName: "subtract no requests from some requirements",
initial: getAdmissionRequirementList(100, 100, 1),
inputPod: allPods[bestEffort],
expectedOutput: getAdmissionRequirementList(100, 100, 0),
},
{
testName: "equal requests and requirements",
initial: getAdmissionRequirementList(100, 100, 1),
inputPod: allPods[burstable],
expectedOutput: getAdmissionRequirementList(0, 0, 0),
},
{
testName: "subtract higher requests than requirements",
initial: getAdmissionRequirementList(50, 50, 0),
inputPod: allPods[burstable],
expectedOutput: getAdmissionRequirementList(0, 0, 0),
},
{
testName: "subtract lower requests than requirements",
initial: getAdmissionRequirementList(200, 200, 1),
inputPod: allPods[burstable],
expectedOutput: getAdmissionRequirementList(100, 100, 0),
},
}
for _, run := range runs {
output := run.initial.subtract(run.inputPod)
if !admissionRequirementListEqual(output, run.expectedOutput) {
t.Errorf("expected: %s, got: %s for %s test", run.expectedOutput.toString(), output.toString(), run.testName)
}
}
}
func getTestPods() map[string]*v1.Pod {
allPods := map[string]*v1.Pod{
tinyBurstable: getPodWithResources(tinyBurstable, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("1m"),
v1.ResourceMemory: resource.MustParse("1Mi"),
},
}),
bestEffort: getPodWithResources(bestEffort, v1.ResourceRequirements{}),
clusterCritical: getPodWithResources(clusterCritical, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("100m"),
v1.ResourceMemory: resource.MustParse("100Mi"),
},
}),
nodeCritical: getPodWithResources(nodeCritical, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("100m"),
v1.ResourceMemory: resource.MustParse("100Mi"),
},
}),
burstable: getPodWithResources(burstable, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("100m"),
v1.ResourceMemory: resource.MustParse("100Mi"),
},
}),
guaranteed: getPodWithResources(guaranteed, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("100m"),
v1.ResourceMemory: resource.MustParse("100Mi"),
},
Limits: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("100m"),
v1.ResourceMemory: resource.MustParse("100Mi"),
},
}),
highRequestBurstable: getPodWithResources(highRequestBurstable, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("300m"),
v1.ResourceMemory: resource.MustParse("300Mi"),
},
}),
highRequestGuaranteed: getPodWithResources(highRequestGuaranteed, v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("300m"),
v1.ResourceMemory: resource.MustParse("300Mi"),
},
Limits: v1.ResourceList{
v1.ResourceCPU: resource.MustParse("300m"),
v1.ResourceMemory: resource.MustParse("300Mi"),
},
}),
}
allPods[clusterCritical].Namespace = kubeapi.NamespaceSystem
allPods[clusterCritical].Spec.PriorityClassName = scheduling.SystemClusterCritical
clusterPriority := scheduling.SystemCriticalPriority
allPods[clusterCritical].Spec.Priority = &clusterPriority
allPods[nodeCritical].Namespace = kubeapi.NamespaceSystem
allPods[nodeCritical].Spec.PriorityClassName = scheduling.SystemNodeCritical
nodePriority := scheduling.SystemCriticalPriority + 100
allPods[nodeCritical].Spec.Priority = &nodePriority
return allPods
}
func getPodWithResources(name string, requests v1.ResourceRequirements) *v1.Pod {
return &v1.Pod{
ObjectMeta: metav1.ObjectMeta{
GenerateName: name,
Annotations: map[string]string{},
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{
Name: fmt.Sprintf("%s-container", name),
Resources: requests,
},
},
},
}
}
func parseCPUToInt64(res string) int64 {
r := resource.MustParse(res)
return (&r).MilliValue()
}
func parseNonCpuResourceToInt64(res string) int64 {
r := resource.MustParse(res)
return (&r).Value()
}
func getAdmissionRequirementList(cpu, memory, pods int) admissionRequirementList {
reqs := []*admissionRequirement{}
if cpu > 0 {
reqs = append(reqs, &admissionRequirement{
resourceName: v1.ResourceCPU,
quantity: parseCPUToInt64(fmt.Sprintf("%dm", cpu)),
})
}
if memory > 0 {
reqs = append(reqs, &admissionRequirement{
resourceName: v1.ResourceMemory,
quantity: parseNonCpuResourceToInt64(fmt.Sprintf("%dMi", memory)),
})
}
if pods > 0 {
reqs = append(reqs, &admissionRequirement{
resourceName: v1.ResourcePods,
quantity: int64(pods),
})
}
return admissionRequirementList(reqs)
}
// this checks if the lists contents contain all of the same elements.
// this is not correct if there are duplicate pods in the list.
// for example: podListEqual([a, a, b], [a, b, b]) will return true
func admissionRequirementListEqual(list1 admissionRequirementList, list2 admissionRequirementList) bool {
if len(list1) != len(list2) {
return false
}
for _, a := range list1 {
contains := false
for _, b := range list2 {
if a.resourceName == b.resourceName && a.quantity == b.quantity {
contains = true
}
}
if !contains {
return false
}
}
return true
}
// podListEqual checks if the lists contents contain all of the same elements.
func podListEqual(list1 []*v1.Pod, list2 []*v1.Pod) bool {
if len(list1) != len(list2) {
return false
}
m := map[*v1.Pod]int{}
for _, val := range list1 {
m[val] = m[val] + 1
}
for _, val := range list2 {
m[val] = m[val] - 1
}
for _, v := range m {
if v != 0 {
return false
}
}
return true
}
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