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density.go
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density.go
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/*
Copyright 2018 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 windows
import (
"fmt"
"sort"
"sync"
"time"
v1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/uuid"
"k8s.io/apimachinery/pkg/watch"
"k8s.io/client-go/tools/cache"
"k8s.io/kubernetes/test/e2e/framework"
imageutils "k8s.io/kubernetes/test/utils/image"
"github.com/onsi/ginkgo"
"github.com/onsi/gomega"
)
var _ = SIGDescribe("[Feature:Windows] Density [Serial] [Slow]", func() {
f := framework.NewDefaultFramework("density-test-windows")
ginkgo.Context("create a batch of pods", func() {
// TODO(coufon): the values are generous, set more precise limits with benchmark data
// and add more tests
dTests := []densityTest{
{
podsNr: 10,
interval: 0 * time.Millisecond,
// percentile limit of single pod startup latency
podStartupLimits: framework.LatencyMetric{
Perc50: 30 * time.Second,
Perc90: 54 * time.Second,
Perc99: 59 * time.Second,
},
// upbound of startup latency of a batch of pods
podBatchStartupLimit: 10 * time.Minute,
},
}
for _, testArg := range dTests {
itArg := testArg
desc := fmt.Sprintf("latency/resource should be within limit when create %d pods with %v interval", itArg.podsNr, itArg.interval)
ginkgo.It(desc, func() {
itArg.createMethod = "batch"
runDensityBatchTest(f, itArg)
})
}
})
})
type densityTest struct {
// number of pods
podsNr int
// number of background pods
bgPodsNr int
// interval between creating pod (rate control)
interval time.Duration
// create pods in 'batch' or 'sequence'
createMethod string
// API QPS limit
APIQPSLimit int
// performance limits
cpuLimits framework.ContainersCPUSummary
memLimits framework.ResourceUsagePerContainer
podStartupLimits framework.LatencyMetric
podBatchStartupLimit time.Duration
}
// runDensityBatchTest runs the density batch pod creation test
func runDensityBatchTest(f *framework.Framework, testArg densityTest) (time.Duration, []framework.PodLatencyData) {
const (
podType = "density_test_pod"
)
var (
mutex = &sync.Mutex{}
watchTimes = make(map[string]metav1.Time, 0)
stopCh = make(chan struct{})
)
// create test pod data structure
pods := newDensityTestPods(testArg.podsNr, false, imageutils.GetPauseImageName(), podType)
// the controller watches the change of pod status
controller := newInformerWatchPod(f, mutex, watchTimes, podType)
go controller.Run(stopCh)
defer close(stopCh)
ginkgo.By("Creating a batch of pods")
// It returns a map['pod name']'creation time' containing the creation timestamps
createTimes := createBatchPodWithRateControl(f, pods, testArg.interval)
ginkgo.By("Waiting for all Pods to be observed by the watch...")
gomega.Eventually(func() bool {
return len(watchTimes) == testArg.podsNr
}, 10*time.Minute, 10*time.Second).Should(gomega.BeTrue())
if len(watchTimes) < testArg.podsNr {
framework.Failf("Timeout reached waiting for all Pods to be observed by the watch.")
}
// Analyze results
var (
firstCreate metav1.Time
lastRunning metav1.Time
init = true
e2eLags = make([]framework.PodLatencyData, 0)
)
for name, create := range createTimes {
watch, ok := watchTimes[name]
gomega.Expect(ok).To(gomega.Equal(true))
e2eLags = append(e2eLags,
framework.PodLatencyData{Name: name, Latency: watch.Time.Sub(create.Time)})
if !init {
if firstCreate.Time.After(create.Time) {
firstCreate = create
}
if lastRunning.Time.Before(watch.Time) {
lastRunning = watch
}
} else {
init = false
firstCreate, lastRunning = create, watch
}
}
sort.Sort(framework.LatencySlice(e2eLags))
batchLag := lastRunning.Time.Sub(firstCreate.Time)
deletePodsSync(f, pods)
return batchLag, e2eLags
}
// createBatchPodWithRateControl creates a batch of pods concurrently, uses one goroutine for each creation.
// between creations there is an interval for throughput control
func createBatchPodWithRateControl(f *framework.Framework, pods []*v1.Pod, interval time.Duration) map[string]metav1.Time {
createTimes := make(map[string]metav1.Time)
for _, pod := range pods {
createTimes[pod.ObjectMeta.Name] = metav1.Now()
go f.PodClient().Create(pod)
time.Sleep(interval)
}
return createTimes
}
// newInformerWatchPod creates an informer to check whether all pods are running.
func newInformerWatchPod(f *framework.Framework, mutex *sync.Mutex, watchTimes map[string]metav1.Time, podType string) cache.Controller {
ns := f.Namespace.Name
checkPodRunning := func(p *v1.Pod) {
mutex.Lock()
defer mutex.Unlock()
defer ginkgo.GinkgoRecover()
if p.Status.Phase == v1.PodRunning {
if _, found := watchTimes[p.Name]; !found {
watchTimes[p.Name] = metav1.Now()
}
}
}
_, controller := cache.NewInformer(
&cache.ListWatch{
ListFunc: func(options metav1.ListOptions) (runtime.Object, error) {
options.LabelSelector = labels.SelectorFromSet(labels.Set{"type": podType}).String()
obj, err := f.ClientSet.CoreV1().Pods(ns).List(options)
return runtime.Object(obj), err
},
WatchFunc: func(options metav1.ListOptions) (watch.Interface, error) {
options.LabelSelector = labels.SelectorFromSet(labels.Set{"type": podType}).String()
return f.ClientSet.CoreV1().Pods(ns).Watch(options)
},
},
&v1.Pod{},
0,
cache.ResourceEventHandlerFuncs{
AddFunc: func(obj interface{}) {
p, ok := obj.(*v1.Pod)
gomega.Expect(ok).To(gomega.Equal(true))
go checkPodRunning(p)
},
UpdateFunc: func(oldObj, newObj interface{}) {
p, ok := newObj.(*v1.Pod)
gomega.Expect(ok).To(gomega.Equal(true))
go checkPodRunning(p)
},
},
)
return controller
}
// newDensityTestPods creates a list of pods (specification) for test.
func newDensityTestPods(numPods int, volume bool, imageName, podType string) []*v1.Pod {
var pods []*v1.Pod
for i := 0; i < numPods; i++ {
podName := "test-" + string(uuid.NewUUID())
pod := v1.Pod{
ObjectMeta: metav1.ObjectMeta{
Name: podName,
Labels: map[string]string{
"type": podType,
"name": podName,
},
},
Spec: v1.PodSpec{
// Restart policy is always (default).
Containers: []v1.Container{
{
Image: imageName,
Name: podName,
},
},
NodeSelector: map[string]string{
"beta.kubernetes.io/os": "windows",
},
},
}
if volume {
pod.Spec.Containers[0].VolumeMounts = []v1.VolumeMount{
{MountPath: "/test-volume-mnt", Name: podName + "-volume"},
}
pod.Spec.Volumes = []v1.Volume{
{Name: podName + "-volume", VolumeSource: v1.VolumeSource{EmptyDir: &v1.EmptyDirVolumeSource{}}},
}
}
pods = append(pods, &pod)
}
return pods
}
// deletePodsSync deletes a list of pods and block until pods disappear.
func deletePodsSync(f *framework.Framework, pods []*v1.Pod) {
var wg sync.WaitGroup
for _, pod := range pods {
wg.Add(1)
go func(pod *v1.Pod) {
defer ginkgo.GinkgoRecover()
defer wg.Done()
err := f.PodClient().Delete(pod.ObjectMeta.Name, metav1.NewDeleteOptions(30))
gomega.Expect(err).NotTo(gomega.HaveOccurred())
gomega.Expect(framework.WaitForPodToDisappear(f.ClientSet, f.Namespace.Name, pod.ObjectMeta.Name, labels.Everything(),
30*time.Second, 10*time.Minute)).NotTo(gomega.HaveOccurred())
}(pod)
}
wg.Wait()
return
}