mirror of
https://github.com/ceph/ceph-csi.git
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955 lines
35 KiB
Go
955 lines
35 KiB
Go
/*
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Copyright 2015 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package scalability
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import (
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"fmt"
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"math"
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"os"
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"sort"
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"strconv"
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"sync"
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"time"
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"k8s.io/api/core/v1"
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"k8s.io/apimachinery/pkg/api/resource"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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"k8s.io/apimachinery/pkg/fields"
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"k8s.io/apimachinery/pkg/labels"
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"k8s.io/apimachinery/pkg/runtime"
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"k8s.io/apimachinery/pkg/runtime/schema"
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utiluuid "k8s.io/apimachinery/pkg/util/uuid"
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"k8s.io/apimachinery/pkg/watch"
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clientset "k8s.io/client-go/kubernetes"
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scaleclient "k8s.io/client-go/scale"
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"k8s.io/client-go/tools/cache"
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"k8s.io/client-go/util/workqueue"
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"k8s.io/kubernetes/pkg/apis/batch"
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api "k8s.io/kubernetes/pkg/apis/core"
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"k8s.io/kubernetes/pkg/apis/extensions"
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"k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset"
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"k8s.io/kubernetes/test/e2e/framework"
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"k8s.io/kubernetes/test/e2e/framework/timer"
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testutils "k8s.io/kubernetes/test/utils"
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imageutils "k8s.io/kubernetes/test/utils/image"
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. "github.com/onsi/ginkgo"
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. "github.com/onsi/gomega"
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)
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const (
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PodStartupLatencyThreshold = 5 * time.Second
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MinSaturationThreshold = 2 * time.Minute
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MinPodsPerSecondThroughput = 8
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DensityPollInterval = 10 * time.Second
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)
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// Maximum container failures this test tolerates before failing.
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var MaxContainerFailures = 0
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// Maximum no. of missing measurements related to pod-startup that the test tolerates.
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var MaxMissingPodStartupMeasurements = 0
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type DensityTestConfig struct {
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Configs []testutils.RunObjectConfig
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ClientSets []clientset.Interface
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InternalClientsets []internalclientset.Interface
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ScaleClients []scaleclient.ScalesGetter
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PollInterval time.Duration
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PodCount int
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// What kind of resource we want to create
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kind schema.GroupKind
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SecretConfigs []*testutils.SecretConfig
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ConfigMapConfigs []*testutils.ConfigMapConfig
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DaemonConfigs []*testutils.DaemonConfig
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}
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func (dtc *DensityTestConfig) runSecretConfigs(testPhase *timer.Phase) {
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defer testPhase.End()
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for _, sc := range dtc.SecretConfigs {
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sc.Run()
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}
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}
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func (dtc *DensityTestConfig) runConfigMapConfigs(testPhase *timer.Phase) {
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defer testPhase.End()
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for _, cmc := range dtc.ConfigMapConfigs {
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cmc.Run()
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}
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}
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func (dtc *DensityTestConfig) runDaemonConfigs(testPhase *timer.Phase) {
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defer testPhase.End()
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for _, dc := range dtc.DaemonConfigs {
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dc.Run()
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}
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}
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func (dtc *DensityTestConfig) deleteSecrets(testPhase *timer.Phase) {
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defer testPhase.End()
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for i := range dtc.SecretConfigs {
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dtc.SecretConfigs[i].Stop()
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}
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}
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func (dtc *DensityTestConfig) deleteConfigMaps(testPhase *timer.Phase) {
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defer testPhase.End()
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for i := range dtc.ConfigMapConfigs {
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dtc.ConfigMapConfigs[i].Stop()
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}
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}
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func (dtc *DensityTestConfig) deleteDaemonSets(numberOfClients int, testPhase *timer.Phase) {
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defer testPhase.End()
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for i := range dtc.DaemonConfigs {
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framework.ExpectNoError(framework.DeleteResourceAndWaitForGC(
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dtc.ClientSets[i%numberOfClients],
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extensions.Kind("DaemonSet"),
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dtc.DaemonConfigs[i].Namespace,
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dtc.DaemonConfigs[i].Name,
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))
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}
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}
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func density30AddonResourceVerifier(numNodes int) map[string]framework.ResourceConstraint {
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var apiserverMem uint64
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var controllerMem uint64
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var schedulerMem uint64
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apiserverCPU := math.MaxFloat32
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apiserverMem = math.MaxUint64
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controllerCPU := math.MaxFloat32
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controllerMem = math.MaxUint64
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schedulerCPU := math.MaxFloat32
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schedulerMem = math.MaxUint64
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framework.Logf("Setting resource constraints for provider: %s", framework.TestContext.Provider)
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if framework.ProviderIs("kubemark") {
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if numNodes <= 5 {
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apiserverCPU = 0.35
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apiserverMem = 150 * (1024 * 1024)
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controllerCPU = 0.15
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controllerMem = 100 * (1024 * 1024)
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schedulerCPU = 0.05
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schedulerMem = 50 * (1024 * 1024)
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} else if numNodes <= 100 {
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apiserverCPU = 1.5
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apiserverMem = 1500 * (1024 * 1024)
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controllerCPU = 0.5
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controllerMem = 500 * (1024 * 1024)
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schedulerCPU = 0.4
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schedulerMem = 180 * (1024 * 1024)
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} else if numNodes <= 500 {
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apiserverCPU = 3.5
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apiserverMem = 3400 * (1024 * 1024)
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controllerCPU = 1.3
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controllerMem = 1100 * (1024 * 1024)
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schedulerCPU = 1.5
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schedulerMem = 500 * (1024 * 1024)
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} else if numNodes <= 1000 {
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apiserverCPU = 5.5
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apiserverMem = 4000 * (1024 * 1024)
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controllerCPU = 3
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controllerMem = 2000 * (1024 * 1024)
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schedulerCPU = 1.5
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schedulerMem = 750 * (1024 * 1024)
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}
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} else {
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if numNodes <= 100 {
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apiserverCPU = 1.8
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apiserverMem = 1700 * (1024 * 1024)
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controllerCPU = 0.6
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controllerMem = 530 * (1024 * 1024)
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schedulerCPU = 0.4
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schedulerMem = 180 * (1024 * 1024)
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}
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}
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constraints := make(map[string]framework.ResourceConstraint)
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constraints["fluentd-elasticsearch"] = framework.ResourceConstraint{
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CPUConstraint: 0.2,
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MemoryConstraint: 250 * (1024 * 1024),
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}
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constraints["elasticsearch-logging"] = framework.ResourceConstraint{
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CPUConstraint: 2,
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// TODO: bring it down to 750MB again, when we lower Kubelet verbosity level. I.e. revert #19164
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MemoryConstraint: 5000 * (1024 * 1024),
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}
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constraints["heapster"] = framework.ResourceConstraint{
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CPUConstraint: 2,
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MemoryConstraint: 1800 * (1024 * 1024),
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}
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constraints["kibana-logging"] = framework.ResourceConstraint{
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CPUConstraint: 0.2,
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MemoryConstraint: 100 * (1024 * 1024),
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}
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constraints["kube-proxy"] = framework.ResourceConstraint{
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CPUConstraint: 0.15,
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MemoryConstraint: 100 * (1024 * 1024),
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}
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constraints["l7-lb-controller"] = framework.ResourceConstraint{
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CPUConstraint: 0.2 + 0.00015*float64(numNodes),
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MemoryConstraint: (75 + uint64(math.Ceil(0.8*float64(numNodes)))) * (1024 * 1024),
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}
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constraints["influxdb"] = framework.ResourceConstraint{
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CPUConstraint: 2,
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MemoryConstraint: 500 * (1024 * 1024),
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}
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constraints["kube-apiserver"] = framework.ResourceConstraint{
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CPUConstraint: apiserverCPU,
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MemoryConstraint: apiserverMem,
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}
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constraints["kube-controller-manager"] = framework.ResourceConstraint{
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CPUConstraint: controllerCPU,
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MemoryConstraint: controllerMem,
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}
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constraints["kube-scheduler"] = framework.ResourceConstraint{
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CPUConstraint: schedulerCPU,
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MemoryConstraint: schedulerMem,
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}
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return constraints
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}
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func computeAverage(sample []float64) float64 {
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sum := 0.0
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for _, value := range sample {
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sum += value
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}
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return sum / float64(len(sample))
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}
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func computeQuantile(sample []float64, quantile float64) float64 {
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Expect(sort.Float64sAreSorted(sample)).To(Equal(true))
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Expect(quantile >= 0.0 && quantile <= 1.0).To(Equal(true))
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index := int(quantile*float64(len(sample))) - 1
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if index < 0 {
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return math.NaN()
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}
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return sample[index]
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}
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func logPodStartupStatus(
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c clientset.Interface,
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expectedPods int,
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observedLabels map[string]string,
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period time.Duration,
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scheduleThroughputs *[]float64,
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stopCh chan struct{}) {
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label := labels.SelectorFromSet(labels.Set(observedLabels))
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podStore, err := testutils.NewPodStore(c, metav1.NamespaceAll, label, fields.Everything())
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framework.ExpectNoError(err)
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defer podStore.Stop()
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ticker := time.NewTicker(period)
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startupStatus := testutils.ComputeRCStartupStatus(podStore.List(), expectedPods)
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lastScheduledCount := startupStatus.Scheduled
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defer ticker.Stop()
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for {
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select {
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case <-ticker.C:
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case <-stopCh:
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return
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}
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// Log status of the pods.
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startupStatus := testutils.ComputeRCStartupStatus(podStore.List(), expectedPods)
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framework.Logf(startupStatus.String("Density"))
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// Compute scheduling throughput for the latest time period.
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throughput := float64(startupStatus.Scheduled-lastScheduledCount) / float64(period/time.Second)
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*scheduleThroughputs = append(*scheduleThroughputs, throughput)
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lastScheduledCount = startupStatus.Scheduled
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}
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}
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// runDensityTest will perform a density test and return the time it took for
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// all pods to start
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func runDensityTest(dtc DensityTestConfig, testPhaseDurations *timer.TestPhaseTimer, scheduleThroughputs *[]float64) time.Duration {
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defer GinkgoRecover()
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// Create all secrets, configmaps and daemons.
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dtc.runSecretConfigs(testPhaseDurations.StartPhase(250, "secrets creation"))
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dtc.runConfigMapConfigs(testPhaseDurations.StartPhase(260, "configmaps creation"))
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dtc.runDaemonConfigs(testPhaseDurations.StartPhase(270, "daemonsets creation"))
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replicationCtrlStartupPhase := testPhaseDurations.StartPhase(300, "saturation pods creation")
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defer replicationCtrlStartupPhase.End()
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// Start all replication controllers.
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startTime := time.Now()
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wg := sync.WaitGroup{}
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wg.Add(len(dtc.Configs))
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for i := range dtc.Configs {
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config := dtc.Configs[i]
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go func() {
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defer GinkgoRecover()
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// Call wg.Done() in defer to avoid blocking whole test
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// in case of error from RunRC.
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defer wg.Done()
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framework.ExpectNoError(config.Run())
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}()
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}
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logStopCh := make(chan struct{})
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go logPodStartupStatus(dtc.ClientSets[0], dtc.PodCount, map[string]string{"type": "densityPod"}, dtc.PollInterval, scheduleThroughputs, logStopCh)
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wg.Wait()
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startupTime := time.Since(startTime)
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close(logStopCh)
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framework.Logf("E2E startup time for %d pods: %v", dtc.PodCount, startupTime)
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framework.Logf("Throughput (pods/s) during cluster saturation phase: %v", float32(dtc.PodCount)/float32(startupTime/time.Second))
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replicationCtrlStartupPhase.End()
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printPodAllocationPhase := testPhaseDurations.StartPhase(400, "printing pod allocation")
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defer printPodAllocationPhase.End()
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// Print some data about Pod to Node allocation
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By("Printing Pod to Node allocation data")
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podList, err := dtc.ClientSets[0].CoreV1().Pods(metav1.NamespaceAll).List(metav1.ListOptions{})
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framework.ExpectNoError(err)
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pausePodAllocation := make(map[string]int)
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systemPodAllocation := make(map[string][]string)
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for _, pod := range podList.Items {
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if pod.Namespace == metav1.NamespaceSystem {
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systemPodAllocation[pod.Spec.NodeName] = append(systemPodAllocation[pod.Spec.NodeName], pod.Name)
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} else {
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pausePodAllocation[pod.Spec.NodeName]++
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}
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}
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nodeNames := make([]string, 0)
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for k := range pausePodAllocation {
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nodeNames = append(nodeNames, k)
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}
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sort.Strings(nodeNames)
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for _, node := range nodeNames {
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framework.Logf("%v: %v pause pods, system pods: %v", node, pausePodAllocation[node], systemPodAllocation[node])
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}
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defer printPodAllocationPhase.End()
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return startupTime
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}
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func cleanupDensityTest(dtc DensityTestConfig, testPhaseDurations *timer.TestPhaseTimer) {
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defer GinkgoRecover()
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podCleanupPhase := testPhaseDurations.StartPhase(900, "latency pods deletion")
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defer podCleanupPhase.End()
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By("Deleting created Collections")
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numberOfClients := len(dtc.ClientSets)
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// We explicitly delete all pods to have API calls necessary for deletion accounted in metrics.
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for i := range dtc.Configs {
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name := dtc.Configs[i].GetName()
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namespace := dtc.Configs[i].GetNamespace()
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kind := dtc.Configs[i].GetKind()
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By(fmt.Sprintf("Cleaning up only the %v, garbage collector will clean up the pods", kind))
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err := framework.DeleteResourceAndWaitForGC(dtc.ClientSets[i%numberOfClients], kind, namespace, name)
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framework.ExpectNoError(err)
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}
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podCleanupPhase.End()
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dtc.deleteSecrets(testPhaseDurations.StartPhase(910, "secrets deletion"))
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dtc.deleteConfigMaps(testPhaseDurations.StartPhase(920, "configmaps deletion"))
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dtc.deleteDaemonSets(numberOfClients, testPhaseDurations.StartPhase(930, "daemonsets deletion"))
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}
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// This test suite can take a long time to run, and can affect or be affected by other tests.
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// So by default it is added to the ginkgo.skip list (see driver.go).
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// To run this suite you must explicitly ask for it by setting the
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// -t/--test flag or ginkgo.focus flag.
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// IMPORTANT: This test is designed to work on large (>= 100 Nodes) clusters. For smaller ones
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// results will not be representative for control-plane performance as we'll start hitting
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// limits on Docker's concurrent container startup.
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var _ = SIGDescribe("Density", func() {
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var c clientset.Interface
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var nodeCount int
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var additionalPodsPrefix string
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var ns string
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var uuid string
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var e2eStartupTime time.Duration
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var totalPods int
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var nodeCpuCapacity int64
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var nodeMemCapacity int64
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var nodes *v1.NodeList
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var scheduleThroughputs []float64
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testCaseBaseName := "density"
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missingMeasurements := 0
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var testPhaseDurations *timer.TestPhaseTimer
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var profileGathererStopCh chan struct{}
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// Gathers data prior to framework namespace teardown
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AfterEach(func() {
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// Stop apiserver CPU profile gatherer and gather memory allocations profile.
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close(profileGathererStopCh)
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wg := sync.WaitGroup{}
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wg.Add(1)
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framework.GatherApiserverMemoryProfile(&wg, "density")
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wg.Wait()
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saturationThreshold := time.Duration((totalPods / MinPodsPerSecondThroughput)) * time.Second
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if saturationThreshold < MinSaturationThreshold {
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saturationThreshold = MinSaturationThreshold
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}
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Expect(e2eStartupTime).NotTo(BeNumerically(">", saturationThreshold))
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saturationData := framework.SaturationTime{
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TimeToSaturate: e2eStartupTime,
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NumberOfNodes: nodeCount,
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NumberOfPods: totalPods,
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Throughput: float32(totalPods) / float32(e2eStartupTime/time.Second),
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}
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framework.Logf("Cluster saturation time: %s", framework.PrettyPrintJSON(saturationData))
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summaries := make([]framework.TestDataSummary, 0, 2)
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// Verify latency metrics.
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highLatencyRequests, metrics, err := framework.HighLatencyRequests(c, nodeCount)
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framework.ExpectNoError(err)
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if err == nil {
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summaries = append(summaries, metrics)
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}
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// Verify scheduler metrics.
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latency, err := framework.VerifySchedulerLatency(c)
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framework.ExpectNoError(err)
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if err == nil {
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// Compute avg and quantiles of throughput (excluding last element, that's usually an outlier).
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sampleSize := len(scheduleThroughputs)
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if sampleSize > 1 {
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scheduleThroughputs = scheduleThroughputs[:sampleSize-1]
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sort.Float64s(scheduleThroughputs)
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latency.ThroughputAverage = computeAverage(scheduleThroughputs)
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latency.ThroughputPerc50 = computeQuantile(scheduleThroughputs, 0.5)
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latency.ThroughputPerc90 = computeQuantile(scheduleThroughputs, 0.9)
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latency.ThroughputPerc99 = computeQuantile(scheduleThroughputs, 0.99)
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}
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summaries = append(summaries, latency)
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}
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summaries = append(summaries, testPhaseDurations)
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framework.PrintSummaries(summaries, testCaseBaseName)
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// Fail if there were some high-latency requests.
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Expect(highLatencyRequests).NotTo(BeNumerically(">", 0), "There should be no high-latency requests")
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// Fail if more than the allowed threshold of measurements were missing in the latencyTest.
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Expect(missingMeasurements <= MaxMissingPodStartupMeasurements).To(Equal(true))
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})
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options := framework.FrameworkOptions{
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ClientQPS: 50.0,
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ClientBurst: 100,
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}
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// Explicitly put here, to delete namespace at the end of the test
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// (after measuring latency metrics, etc.).
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f := framework.NewFramework(testCaseBaseName, options, nil)
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f.NamespaceDeletionTimeout = time.Hour
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BeforeEach(func() {
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c = f.ClientSet
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ns = f.Namespace.Name
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testPhaseDurations = timer.NewTestPhaseTimer()
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_, nodes = framework.GetMasterAndWorkerNodesOrDie(c)
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nodeCount = len(nodes.Items)
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Expect(nodeCount).NotTo(BeZero())
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nodeCpuCapacity = nodes.Items[0].Status.Allocatable.Cpu().MilliValue()
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nodeMemCapacity = nodes.Items[0].Status.Allocatable.Memory().Value()
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// Terminating a namespace (deleting the remaining objects from it - which
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// generally means events) can affect the current run. Thus we wait for all
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// terminating namespace to be finally deleted before starting this test.
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err := framework.CheckTestingNSDeletedExcept(c, ns)
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framework.ExpectNoError(err)
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uuid = string(utiluuid.NewUUID())
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|
|
framework.ExpectNoError(framework.ResetSchedulerMetrics(c))
|
|
framework.ExpectNoError(framework.ResetMetrics(c))
|
|
framework.ExpectNoError(os.Mkdir(fmt.Sprintf(framework.TestContext.OutputDir+"/%s", uuid), 0777))
|
|
|
|
framework.Logf("Listing nodes for easy debugging:\n")
|
|
for _, node := range nodes.Items {
|
|
var internalIP, externalIP string
|
|
for _, address := range node.Status.Addresses {
|
|
if address.Type == v1.NodeInternalIP {
|
|
internalIP = address.Address
|
|
}
|
|
if address.Type == v1.NodeExternalIP {
|
|
externalIP = address.Address
|
|
}
|
|
}
|
|
framework.Logf("Name: %v, clusterIP: %v, externalIP: %v", node.ObjectMeta.Name, internalIP, externalIP)
|
|
}
|
|
|
|
// Start apiserver CPU profile gatherer with frequency based on cluster size.
|
|
profileGatheringDelay := time.Duration(5+nodeCount/100) * time.Minute
|
|
profileGathererStopCh = framework.StartApiserverCPUProfileGatherer(profileGatheringDelay)
|
|
})
|
|
|
|
type Density struct {
|
|
// Controls if e2e latency tests should be run (they are slow)
|
|
runLatencyTest bool
|
|
podsPerNode int
|
|
// Controls how often the apiserver is polled for pods
|
|
interval time.Duration
|
|
// What kind of resource we should be creating. Default: ReplicationController
|
|
kind schema.GroupKind
|
|
secretsPerPod int
|
|
configMapsPerPod int
|
|
daemonsPerNode int
|
|
quotas bool
|
|
}
|
|
|
|
densityTests := []Density{
|
|
// TODO: Expose runLatencyTest as ginkgo flag.
|
|
{podsPerNode: 3, runLatencyTest: false, kind: api.Kind("ReplicationController")},
|
|
{podsPerNode: 30, runLatencyTest: true, kind: api.Kind("ReplicationController")},
|
|
{podsPerNode: 50, runLatencyTest: false, kind: api.Kind("ReplicationController")},
|
|
{podsPerNode: 95, runLatencyTest: true, kind: api.Kind("ReplicationController")},
|
|
{podsPerNode: 100, runLatencyTest: false, kind: api.Kind("ReplicationController")},
|
|
// Tests for other resource types:
|
|
{podsPerNode: 30, runLatencyTest: true, kind: extensions.Kind("Deployment")},
|
|
{podsPerNode: 30, runLatencyTest: true, kind: batch.Kind("Job")},
|
|
// Test scheduling when daemons are preset
|
|
{podsPerNode: 30, runLatencyTest: true, kind: api.Kind("ReplicationController"), daemonsPerNode: 2},
|
|
// Test with secrets
|
|
{podsPerNode: 30, runLatencyTest: true, kind: extensions.Kind("Deployment"), secretsPerPod: 2},
|
|
// Test with configmaps
|
|
{podsPerNode: 30, runLatencyTest: true, kind: extensions.Kind("Deployment"), configMapsPerPod: 2},
|
|
// Test with quotas
|
|
{podsPerNode: 30, runLatencyTest: true, kind: api.Kind("ReplicationController"), quotas: true},
|
|
}
|
|
|
|
isCanonical := func(test *Density) bool {
|
|
return test.kind == api.Kind("ReplicationController") && test.daemonsPerNode == 0 && test.secretsPerPod == 0 && test.configMapsPerPod == 0 && !test.quotas
|
|
}
|
|
|
|
for _, testArg := range densityTests {
|
|
feature := "ManualPerformance"
|
|
switch testArg.podsPerNode {
|
|
case 30:
|
|
if isCanonical(&testArg) {
|
|
feature = "Performance"
|
|
}
|
|
case 95:
|
|
feature = "HighDensityPerformance"
|
|
}
|
|
|
|
name := fmt.Sprintf("[Feature:%s] should allow starting %d pods per node using %v with %v secrets, %v configmaps and %v daemons",
|
|
feature,
|
|
testArg.podsPerNode,
|
|
testArg.kind,
|
|
testArg.secretsPerPod,
|
|
testArg.configMapsPerPod,
|
|
testArg.daemonsPerNode,
|
|
)
|
|
if testArg.quotas {
|
|
name += " with quotas"
|
|
}
|
|
itArg := testArg
|
|
It(name, func() {
|
|
nodePrepPhase := testPhaseDurations.StartPhase(100, "node preparation")
|
|
defer nodePrepPhase.End()
|
|
nodePreparer := framework.NewE2ETestNodePreparer(
|
|
f.ClientSet,
|
|
[]testutils.CountToStrategy{{Count: nodeCount, Strategy: &testutils.TrivialNodePrepareStrategy{}}},
|
|
)
|
|
framework.ExpectNoError(nodePreparer.PrepareNodes())
|
|
defer nodePreparer.CleanupNodes()
|
|
|
|
podsPerNode := itArg.podsPerNode
|
|
if podsPerNode == 30 {
|
|
f.AddonResourceConstraints = func() map[string]framework.ResourceConstraint { return density30AddonResourceVerifier(nodeCount) }()
|
|
}
|
|
totalPods = (podsPerNode - itArg.daemonsPerNode) * nodeCount
|
|
fileHndl, err := os.Create(fmt.Sprintf(framework.TestContext.OutputDir+"/%s/pod_states.csv", uuid))
|
|
framework.ExpectNoError(err)
|
|
defer fileHndl.Close()
|
|
nodePrepPhase.End()
|
|
|
|
// nodeCountPerNamespace and CreateNamespaces are defined in load.go
|
|
numberOfCollections := (nodeCount + nodeCountPerNamespace - 1) / nodeCountPerNamespace
|
|
namespaces, err := CreateNamespaces(f, numberOfCollections, fmt.Sprintf("density-%v", testArg.podsPerNode), testPhaseDurations.StartPhase(200, "namespace creation"))
|
|
framework.ExpectNoError(err)
|
|
if itArg.quotas {
|
|
framework.ExpectNoError(CreateQuotas(f, namespaces, totalPods+nodeCount, testPhaseDurations.StartPhase(210, "quota creation")))
|
|
}
|
|
|
|
configs := make([]testutils.RunObjectConfig, numberOfCollections)
|
|
secretConfigs := make([]*testutils.SecretConfig, 0, numberOfCollections*itArg.secretsPerPod)
|
|
configMapConfigs := make([]*testutils.ConfigMapConfig, 0, numberOfCollections*itArg.configMapsPerPod)
|
|
// Since all RCs are created at the same time, timeout for each config
|
|
// has to assume that it will be run at the very end.
|
|
podThroughput := 20
|
|
timeout := time.Duration(totalPods/podThroughput)*time.Second + 3*time.Minute
|
|
// createClients is defined in load.go
|
|
clients, internalClients, scalesClients, err := createClients(numberOfCollections)
|
|
for i := 0; i < numberOfCollections; i++ {
|
|
nsName := namespaces[i].Name
|
|
secretNames := []string{}
|
|
for j := 0; j < itArg.secretsPerPod; j++ {
|
|
secretName := fmt.Sprintf("density-secret-%v-%v", i, j)
|
|
secretConfigs = append(secretConfigs, &testutils.SecretConfig{
|
|
Content: map[string]string{"foo": "bar"},
|
|
Client: clients[i],
|
|
Name: secretName,
|
|
Namespace: nsName,
|
|
LogFunc: framework.Logf,
|
|
})
|
|
secretNames = append(secretNames, secretName)
|
|
}
|
|
configMapNames := []string{}
|
|
for j := 0; j < itArg.configMapsPerPod; j++ {
|
|
configMapName := fmt.Sprintf("density-configmap-%v-%v", i, j)
|
|
configMapConfigs = append(configMapConfigs, &testutils.ConfigMapConfig{
|
|
Content: map[string]string{"foo": "bar"},
|
|
Client: clients[i],
|
|
Name: configMapName,
|
|
Namespace: nsName,
|
|
LogFunc: framework.Logf,
|
|
})
|
|
configMapNames = append(configMapNames, configMapName)
|
|
}
|
|
name := fmt.Sprintf("density%v-%v-%v", totalPods, i, uuid)
|
|
baseConfig := &testutils.RCConfig{
|
|
Client: clients[i],
|
|
InternalClient: internalClients[i],
|
|
ScalesGetter: scalesClients[i],
|
|
Image: imageutils.GetPauseImageName(),
|
|
Name: name,
|
|
Namespace: nsName,
|
|
Labels: map[string]string{"type": "densityPod"},
|
|
PollInterval: DensityPollInterval,
|
|
Timeout: timeout,
|
|
PodStatusFile: fileHndl,
|
|
Replicas: (totalPods + numberOfCollections - 1) / numberOfCollections,
|
|
CpuRequest: nodeCpuCapacity / 100,
|
|
MemRequest: nodeMemCapacity / 100,
|
|
MaxContainerFailures: &MaxContainerFailures,
|
|
Silent: true,
|
|
LogFunc: framework.Logf,
|
|
SecretNames: secretNames,
|
|
ConfigMapNames: configMapNames,
|
|
}
|
|
switch itArg.kind {
|
|
case api.Kind("ReplicationController"):
|
|
configs[i] = baseConfig
|
|
case extensions.Kind("ReplicaSet"):
|
|
configs[i] = &testutils.ReplicaSetConfig{RCConfig: *baseConfig}
|
|
case extensions.Kind("Deployment"):
|
|
configs[i] = &testutils.DeploymentConfig{RCConfig: *baseConfig}
|
|
case batch.Kind("Job"):
|
|
configs[i] = &testutils.JobConfig{RCConfig: *baseConfig}
|
|
default:
|
|
framework.Failf("Unsupported kind: %v", itArg.kind)
|
|
}
|
|
}
|
|
|
|
// Single client is running out of http2 connections in delete phase, hence we need more.
|
|
clients, internalClients, scalesClients, err = createClients(2)
|
|
|
|
dConfig := DensityTestConfig{
|
|
ClientSets: clients,
|
|
InternalClientsets: internalClients,
|
|
ScaleClients: scalesClients,
|
|
Configs: configs,
|
|
PodCount: totalPods,
|
|
PollInterval: DensityPollInterval,
|
|
kind: itArg.kind,
|
|
SecretConfigs: secretConfigs,
|
|
ConfigMapConfigs: configMapConfigs,
|
|
}
|
|
|
|
for i := 0; i < itArg.daemonsPerNode; i++ {
|
|
dConfig.DaemonConfigs = append(dConfig.DaemonConfigs,
|
|
&testutils.DaemonConfig{
|
|
Client: f.ClientSet,
|
|
Name: fmt.Sprintf("density-daemon-%v", i),
|
|
Namespace: f.Namespace.Name,
|
|
LogFunc: framework.Logf,
|
|
})
|
|
}
|
|
e2eStartupTime = runDensityTest(dConfig, testPhaseDurations, &scheduleThroughputs)
|
|
if itArg.runLatencyTest {
|
|
By("Scheduling additional Pods to measure startup latencies")
|
|
|
|
createTimes := make(map[string]metav1.Time, 0)
|
|
nodeNames := make(map[string]string, 0)
|
|
scheduleTimes := make(map[string]metav1.Time, 0)
|
|
runTimes := make(map[string]metav1.Time, 0)
|
|
watchTimes := make(map[string]metav1.Time, 0)
|
|
|
|
var mutex sync.Mutex
|
|
checkPod := func(p *v1.Pod) {
|
|
mutex.Lock()
|
|
defer mutex.Unlock()
|
|
defer GinkgoRecover()
|
|
|
|
if p.Status.Phase == v1.PodRunning {
|
|
if _, found := watchTimes[p.Name]; !found {
|
|
watchTimes[p.Name] = metav1.Now()
|
|
createTimes[p.Name] = p.CreationTimestamp
|
|
nodeNames[p.Name] = p.Spec.NodeName
|
|
var startTime metav1.Time
|
|
for _, cs := range p.Status.ContainerStatuses {
|
|
if cs.State.Running != nil {
|
|
if startTime.Before(&cs.State.Running.StartedAt) {
|
|
startTime = cs.State.Running.StartedAt
|
|
}
|
|
}
|
|
}
|
|
if startTime != metav1.NewTime(time.Time{}) {
|
|
runTimes[p.Name] = startTime
|
|
} else {
|
|
framework.Failf("Pod %v is reported to be running, but none of its containers is", p.Name)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
additionalPodsPrefix = "density-latency-pod"
|
|
stopCh := make(chan struct{})
|
|
|
|
latencyPodStores := make([]cache.Store, len(namespaces))
|
|
for i := 0; i < len(namespaces); i++ {
|
|
nsName := namespaces[i].Name
|
|
latencyPodsStore, controller := cache.NewInformer(
|
|
&cache.ListWatch{
|
|
ListFunc: func(options metav1.ListOptions) (runtime.Object, error) {
|
|
options.LabelSelector = labels.SelectorFromSet(labels.Set{"type": additionalPodsPrefix}).String()
|
|
obj, err := c.CoreV1().Pods(nsName).List(options)
|
|
return runtime.Object(obj), err
|
|
},
|
|
WatchFunc: func(options metav1.ListOptions) (watch.Interface, error) {
|
|
options.LabelSelector = labels.SelectorFromSet(labels.Set{"type": additionalPodsPrefix}).String()
|
|
return c.CoreV1().Pods(nsName).Watch(options)
|
|
},
|
|
},
|
|
&v1.Pod{},
|
|
0,
|
|
cache.ResourceEventHandlerFuncs{
|
|
AddFunc: func(obj interface{}) {
|
|
p, ok := obj.(*v1.Pod)
|
|
if !ok {
|
|
framework.Logf("Failed to cast observed object to *v1.Pod.")
|
|
}
|
|
Expect(ok).To(Equal(true))
|
|
go checkPod(p)
|
|
},
|
|
UpdateFunc: func(oldObj, newObj interface{}) {
|
|
p, ok := newObj.(*v1.Pod)
|
|
if !ok {
|
|
framework.Logf("Failed to cast observed object to *v1.Pod.")
|
|
}
|
|
Expect(ok).To(Equal(true))
|
|
go checkPod(p)
|
|
},
|
|
},
|
|
)
|
|
latencyPodStores[i] = latencyPodsStore
|
|
|
|
go controller.Run(stopCh)
|
|
}
|
|
|
|
// Create some additional pods with throughput ~5 pods/sec.
|
|
latencyPodStartupPhase := testPhaseDurations.StartPhase(800, "latency pods creation")
|
|
defer latencyPodStartupPhase.End()
|
|
var wg sync.WaitGroup
|
|
wg.Add(nodeCount)
|
|
// Explicitly set requests here.
|
|
// Thanks to it we trigger increasing priority function by scheduling
|
|
// a pod to a node, which in turn will result in spreading latency pods
|
|
// more evenly between nodes.
|
|
cpuRequest := *resource.NewMilliQuantity(nodeCpuCapacity/5, resource.DecimalSI)
|
|
memRequest := *resource.NewQuantity(nodeMemCapacity/5, resource.DecimalSI)
|
|
if podsPerNode > 30 {
|
|
// This is to make them schedulable on high-density tests
|
|
// (e.g. 100 pods/node kubemark).
|
|
cpuRequest = *resource.NewMilliQuantity(0, resource.DecimalSI)
|
|
memRequest = *resource.NewQuantity(0, resource.DecimalSI)
|
|
}
|
|
rcNameToNsMap := map[string]string{}
|
|
for i := 1; i <= nodeCount; i++ {
|
|
name := additionalPodsPrefix + "-" + strconv.Itoa(i)
|
|
nsName := namespaces[i%len(namespaces)].Name
|
|
rcNameToNsMap[name] = nsName
|
|
go createRunningPodFromRC(&wg, c, name, nsName, imageutils.GetPauseImageName(), additionalPodsPrefix, cpuRequest, memRequest)
|
|
time.Sleep(200 * time.Millisecond)
|
|
}
|
|
wg.Wait()
|
|
latencyPodStartupPhase.End()
|
|
|
|
latencyMeasurementPhase := testPhaseDurations.StartPhase(810, "pod startup latencies measurement")
|
|
defer latencyMeasurementPhase.End()
|
|
By("Waiting for all Pods begin observed by the watch...")
|
|
waitTimeout := 10 * time.Minute
|
|
for start := time.Now(); len(watchTimes) < nodeCount; time.Sleep(10 * time.Second) {
|
|
if time.Since(start) < waitTimeout {
|
|
framework.Failf("Timeout reached waiting for all Pods being observed by the watch.")
|
|
}
|
|
}
|
|
close(stopCh)
|
|
|
|
nodeToLatencyPods := make(map[string]int)
|
|
for i := range latencyPodStores {
|
|
for _, item := range latencyPodStores[i].List() {
|
|
pod := item.(*v1.Pod)
|
|
nodeToLatencyPods[pod.Spec.NodeName]++
|
|
}
|
|
for node, count := range nodeToLatencyPods {
|
|
if count > 1 {
|
|
framework.Logf("%d latency pods scheduled on %s", count, node)
|
|
}
|
|
}
|
|
}
|
|
|
|
for i := 0; i < len(namespaces); i++ {
|
|
nsName := namespaces[i].Name
|
|
selector := fields.Set{
|
|
"involvedObject.kind": "Pod",
|
|
"involvedObject.namespace": nsName,
|
|
"source": v1.DefaultSchedulerName,
|
|
}.AsSelector().String()
|
|
options := metav1.ListOptions{FieldSelector: selector}
|
|
schedEvents, err := c.CoreV1().Events(nsName).List(options)
|
|
framework.ExpectNoError(err)
|
|
for k := range createTimes {
|
|
for _, event := range schedEvents.Items {
|
|
if event.InvolvedObject.Name == k {
|
|
scheduleTimes[k] = event.FirstTimestamp
|
|
break
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
scheduleLag := make([]framework.PodLatencyData, 0)
|
|
startupLag := make([]framework.PodLatencyData, 0)
|
|
watchLag := make([]framework.PodLatencyData, 0)
|
|
schedToWatchLag := make([]framework.PodLatencyData, 0)
|
|
e2eLag := make([]framework.PodLatencyData, 0)
|
|
|
|
for name, create := range createTimes {
|
|
sched, ok := scheduleTimes[name]
|
|
if !ok {
|
|
framework.Logf("Failed to find schedule time for %v", name)
|
|
missingMeasurements++
|
|
}
|
|
run, ok := runTimes[name]
|
|
if !ok {
|
|
framework.Logf("Failed to find run time for %v", name)
|
|
missingMeasurements++
|
|
}
|
|
watch, ok := watchTimes[name]
|
|
if !ok {
|
|
framework.Logf("Failed to find watch time for %v", name)
|
|
missingMeasurements++
|
|
}
|
|
node, ok := nodeNames[name]
|
|
if !ok {
|
|
framework.Logf("Failed to find node for %v", name)
|
|
missingMeasurements++
|
|
}
|
|
|
|
scheduleLag = append(scheduleLag, framework.PodLatencyData{Name: name, Node: node, Latency: sched.Time.Sub(create.Time)})
|
|
startupLag = append(startupLag, framework.PodLatencyData{Name: name, Node: node, Latency: run.Time.Sub(sched.Time)})
|
|
watchLag = append(watchLag, framework.PodLatencyData{Name: name, Node: node, Latency: watch.Time.Sub(run.Time)})
|
|
schedToWatchLag = append(schedToWatchLag, framework.PodLatencyData{Name: name, Node: node, Latency: watch.Time.Sub(sched.Time)})
|
|
e2eLag = append(e2eLag, framework.PodLatencyData{Name: name, Node: node, Latency: watch.Time.Sub(create.Time)})
|
|
}
|
|
|
|
sort.Sort(framework.LatencySlice(scheduleLag))
|
|
sort.Sort(framework.LatencySlice(startupLag))
|
|
sort.Sort(framework.LatencySlice(watchLag))
|
|
sort.Sort(framework.LatencySlice(schedToWatchLag))
|
|
sort.Sort(framework.LatencySlice(e2eLag))
|
|
|
|
framework.PrintLatencies(scheduleLag, "worst create-to-schedule latencies")
|
|
framework.PrintLatencies(startupLag, "worst schedule-to-run latencies")
|
|
framework.PrintLatencies(watchLag, "worst run-to-watch latencies")
|
|
framework.PrintLatencies(schedToWatchLag, "worst schedule-to-watch latencies")
|
|
framework.PrintLatencies(e2eLag, "worst e2e latencies")
|
|
|
|
// Capture latency metrics related to pod-startup.
|
|
podStartupLatency := &framework.PodStartupLatency{
|
|
CreateToScheduleLatency: framework.ExtractLatencyMetrics(scheduleLag),
|
|
ScheduleToRunLatency: framework.ExtractLatencyMetrics(startupLag),
|
|
RunToWatchLatency: framework.ExtractLatencyMetrics(watchLag),
|
|
ScheduleToWatchLatency: framework.ExtractLatencyMetrics(schedToWatchLag),
|
|
E2ELatency: framework.ExtractLatencyMetrics(e2eLag),
|
|
}
|
|
f.TestSummaries = append(f.TestSummaries, podStartupLatency)
|
|
|
|
// Test whether e2e pod startup time is acceptable.
|
|
podStartupLatencyThreshold := framework.LatencyMetric{
|
|
Perc50: PodStartupLatencyThreshold,
|
|
Perc90: PodStartupLatencyThreshold,
|
|
Perc99: PodStartupLatencyThreshold,
|
|
}
|
|
framework.ExpectNoError(framework.VerifyLatencyWithinThreshold(podStartupLatencyThreshold, podStartupLatency.E2ELatency, "pod startup"))
|
|
|
|
framework.LogSuspiciousLatency(startupLag, e2eLag, nodeCount, c)
|
|
latencyMeasurementPhase.End()
|
|
|
|
By("Removing additional replication controllers")
|
|
podDeletionPhase := testPhaseDurations.StartPhase(820, "latency pods deletion")
|
|
defer podDeletionPhase.End()
|
|
deleteRC := func(i int) {
|
|
defer GinkgoRecover()
|
|
name := additionalPodsPrefix + "-" + strconv.Itoa(i+1)
|
|
framework.ExpectNoError(framework.DeleteRCAndWaitForGC(c, rcNameToNsMap[name], name))
|
|
}
|
|
workqueue.Parallelize(25, nodeCount, deleteRC)
|
|
podDeletionPhase.End()
|
|
}
|
|
cleanupDensityTest(dConfig, testPhaseDurations)
|
|
})
|
|
}
|
|
})
|
|
|
|
func createRunningPodFromRC(wg *sync.WaitGroup, c clientset.Interface, name, ns, image, podType string, cpuRequest, memRequest resource.Quantity) {
|
|
defer GinkgoRecover()
|
|
defer wg.Done()
|
|
labels := map[string]string{
|
|
"type": podType,
|
|
"name": name,
|
|
}
|
|
rc := &v1.ReplicationController{
|
|
ObjectMeta: metav1.ObjectMeta{
|
|
Name: name,
|
|
Labels: labels,
|
|
},
|
|
Spec: v1.ReplicationControllerSpec{
|
|
Replicas: func(i int) *int32 { x := int32(i); return &x }(1),
|
|
Selector: labels,
|
|
Template: &v1.PodTemplateSpec{
|
|
ObjectMeta: metav1.ObjectMeta{
|
|
Labels: labels,
|
|
},
|
|
Spec: v1.PodSpec{
|
|
Containers: []v1.Container{
|
|
{
|
|
Name: name,
|
|
Image: image,
|
|
Resources: v1.ResourceRequirements{
|
|
Requests: v1.ResourceList{
|
|
v1.ResourceCPU: cpuRequest,
|
|
v1.ResourceMemory: memRequest,
|
|
},
|
|
},
|
|
},
|
|
},
|
|
DNSPolicy: v1.DNSDefault,
|
|
},
|
|
},
|
|
},
|
|
}
|
|
framework.ExpectNoError(testutils.CreateRCWithRetries(c, ns, rc))
|
|
framework.ExpectNoError(framework.WaitForControlledPodsRunning(c, ns, name, api.Kind("ReplicationController")))
|
|
framework.Logf("Found pod '%s' running", name)
|
|
}
|