ceph-csi/vendor/k8s.io/kubernetes/pkg/kubelet/kubelet_test.go

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/*
Copyright 2014 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package kubelet
import (
"fmt"
"io/ioutil"
"os"
"sort"
"testing"
"time"
cadvisorapi "github.com/google/cadvisor/info/v1"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/clock"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/apimachinery/pkg/util/wait"
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utilfeature "k8s.io/apiserver/pkg/util/feature"
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"k8s.io/client-go/kubernetes/fake"
"k8s.io/client-go/tools/record"
"k8s.io/client-go/util/flowcontrol"
"k8s.io/kubernetes/pkg/capabilities"
cadvisortest "k8s.io/kubernetes/pkg/kubelet/cadvisor/testing"
"k8s.io/kubernetes/pkg/kubelet/cm"
"k8s.io/kubernetes/pkg/kubelet/config"
"k8s.io/kubernetes/pkg/kubelet/configmap"
kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
containertest "k8s.io/kubernetes/pkg/kubelet/container/testing"
"k8s.io/kubernetes/pkg/kubelet/eviction"
"k8s.io/kubernetes/pkg/kubelet/images"
"k8s.io/kubernetes/pkg/kubelet/lifecycle"
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"k8s.io/kubernetes/pkg/kubelet/logs"
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"k8s.io/kubernetes/pkg/kubelet/network/dns"
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"k8s.io/kubernetes/pkg/kubelet/pleg"
kubepod "k8s.io/kubernetes/pkg/kubelet/pod"
podtest "k8s.io/kubernetes/pkg/kubelet/pod/testing"
proberesults "k8s.io/kubernetes/pkg/kubelet/prober/results"
probetest "k8s.io/kubernetes/pkg/kubelet/prober/testing"
"k8s.io/kubernetes/pkg/kubelet/secret"
serverstats "k8s.io/kubernetes/pkg/kubelet/server/stats"
"k8s.io/kubernetes/pkg/kubelet/stats"
"k8s.io/kubernetes/pkg/kubelet/status"
statustest "k8s.io/kubernetes/pkg/kubelet/status/testing"
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"k8s.io/kubernetes/pkg/kubelet/token"
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kubetypes "k8s.io/kubernetes/pkg/kubelet/types"
"k8s.io/kubernetes/pkg/kubelet/util/queue"
kubeletvolume "k8s.io/kubernetes/pkg/kubelet/volumemanager"
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schedulercache "k8s.io/kubernetes/pkg/scheduler/cache"
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"k8s.io/kubernetes/pkg/util/mount"
"k8s.io/kubernetes/pkg/volume"
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"k8s.io/kubernetes/pkg/volume/awsebs"
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"k8s.io/kubernetes/pkg/volume/azure_dd"
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"k8s.io/kubernetes/pkg/volume/gcepd"
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_ "k8s.io/kubernetes/pkg/volume/host_path"
volumetest "k8s.io/kubernetes/pkg/volume/testing"
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"k8s.io/kubernetes/pkg/volume/util"
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)
func init() {
utilruntime.ReallyCrash = true
}
const (
testKubeletHostname = "127.0.0.1"
testKubeletHostIP = "127.0.0.1"
// TODO(harry) any global place for these two?
// Reasonable size range of all container images. 90%ile of images on dockerhub drops into this range.
minImgSize int64 = 23 * 1024 * 1024
maxImgSize int64 = 1000 * 1024 * 1024
)
// fakeImageGCManager is a fake image gc manager for testing. It will return image
// list from fake runtime directly instead of caching it.
type fakeImageGCManager struct {
fakeImageService kubecontainer.ImageService
images.ImageGCManager
}
func (f *fakeImageGCManager) GetImageList() ([]kubecontainer.Image, error) {
return f.fakeImageService.ListImages()
}
type TestKubelet struct {
kubelet *Kubelet
fakeRuntime *containertest.FakeRuntime
fakeKubeClient *fake.Clientset
fakeMirrorClient *podtest.FakeMirrorClient
fakeClock *clock.FakeClock
mounter mount.Interface
volumePlugin *volumetest.FakeVolumePlugin
}
func (tk *TestKubelet) Cleanup() {
if tk.kubelet != nil {
os.RemoveAll(tk.kubelet.rootDirectory)
}
}
// newTestKubelet returns test kubelet with two images.
func newTestKubelet(t *testing.T, controllerAttachDetachEnabled bool) *TestKubelet {
imageList := []kubecontainer.Image{
{
ID: "abc",
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RepoTags: []string{"k8s.gcr.io:v1", "k8s.gcr.io:v2"},
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Size: 123,
},
{
ID: "efg",
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RepoTags: []string{"k8s.gcr.io:v3", "k8s.gcr.io:v4"},
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Size: 456,
},
}
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return newTestKubeletWithImageList(t, imageList, controllerAttachDetachEnabled, true /*initFakeVolumePlugin*/)
}
func newTestKubeletWithoutFakeVolumePlugin(t *testing.T, controllerAttachDetachEnabled bool) *TestKubelet {
imageList := []kubecontainer.Image{
{
ID: "abc",
RepoTags: []string{"k8s.gcr.io:v1", "k8s.gcr.io:v2"},
Size: 123,
},
{
ID: "efg",
RepoTags: []string{"k8s.gcr.io:v3", "k8s.gcr.io:v4"},
Size: 456,
},
}
return newTestKubeletWithImageList(t, imageList, controllerAttachDetachEnabled, false /*initFakeVolumePlugin*/)
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}
func newTestKubeletWithImageList(
t *testing.T,
imageList []kubecontainer.Image,
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controllerAttachDetachEnabled bool,
initFakeVolumePlugin bool) *TestKubelet {
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fakeRuntime := &containertest.FakeRuntime{}
fakeRuntime.RuntimeType = "test"
fakeRuntime.VersionInfo = "1.5.0"
fakeRuntime.ImageList = imageList
// Set ready conditions by default.
fakeRuntime.RuntimeStatus = &kubecontainer.RuntimeStatus{
Conditions: []kubecontainer.RuntimeCondition{
{Type: "RuntimeReady", Status: true},
{Type: "NetworkReady", Status: true},
},
}
fakeRecorder := &record.FakeRecorder{}
fakeKubeClient := &fake.Clientset{}
kubelet := &Kubelet{}
kubelet.recorder = fakeRecorder
kubelet.kubeClient = fakeKubeClient
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kubelet.heartbeatClient = fakeKubeClient
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kubelet.os = &containertest.FakeOS{}
kubelet.mounter = &mount.FakeMounter{}
kubelet.hostname = testKubeletHostname
kubelet.nodeName = types.NodeName(testKubeletHostname)
kubelet.runtimeState = newRuntimeState(maxWaitForContainerRuntime)
kubelet.runtimeState.setNetworkState(nil)
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if tempDir, err := ioutil.TempDir("", "kubelet_test."); err != nil {
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t.Fatalf("can't make a temp rootdir: %v", err)
} else {
kubelet.rootDirectory = tempDir
}
if err := os.MkdirAll(kubelet.rootDirectory, 0750); err != nil {
t.Fatalf("can't mkdir(%q): %v", kubelet.rootDirectory, err)
}
kubelet.sourcesReady = config.NewSourcesReady(func(_ sets.String) bool { return true })
kubelet.masterServiceNamespace = metav1.NamespaceDefault
kubelet.serviceLister = testServiceLister{}
kubelet.nodeInfo = testNodeInfo{
nodes: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: string(kubelet.nodeName),
},
Status: v1.NodeStatus{
Conditions: []v1.NodeCondition{
{
Type: v1.NodeReady,
Status: v1.ConditionTrue,
Reason: "Ready",
Message: "Node ready",
},
},
Addresses: []v1.NodeAddress{
{
Type: v1.NodeInternalIP,
Address: testKubeletHostIP,
},
},
},
},
},
}
kubelet.recorder = fakeRecorder
if err := kubelet.setupDataDirs(); err != nil {
t.Fatalf("can't initialize kubelet data dirs: %v", err)
}
kubelet.daemonEndpoints = &v1.NodeDaemonEndpoints{}
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kubelet.cadvisor = &cadvisortest.Fake{}
machineInfo, _ := kubelet.cadvisor.MachineInfo()
kubelet.machineInfo = machineInfo
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fakeMirrorClient := podtest.NewFakeMirrorClient()
secretManager := secret.NewSimpleSecretManager(kubelet.kubeClient)
kubelet.secretManager = secretManager
configMapManager := configmap.NewSimpleConfigMapManager(kubelet.kubeClient)
kubelet.configMapManager = configMapManager
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kubelet.podManager = kubepod.NewBasicPodManager(fakeMirrorClient, kubelet.secretManager, kubelet.configMapManager, podtest.NewMockCheckpointManager())
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kubelet.statusManager = status.NewManager(fakeKubeClient, kubelet.podManager, &statustest.FakePodDeletionSafetyProvider{})
kubelet.containerRuntime = fakeRuntime
kubelet.runtimeCache = containertest.NewFakeRuntimeCache(kubelet.containerRuntime)
kubelet.reasonCache = NewReasonCache()
kubelet.podCache = containertest.NewFakeCache(kubelet.containerRuntime)
kubelet.podWorkers = &fakePodWorkers{
syncPodFn: kubelet.syncPod,
cache: kubelet.podCache,
t: t,
}
kubelet.probeManager = probetest.FakeManager{}
kubelet.livenessManager = proberesults.NewManager()
kubelet.containerManager = cm.NewStubContainerManager()
fakeNodeRef := &v1.ObjectReference{
Kind: "Node",
Name: testKubeletHostname,
UID: types.UID(testKubeletHostname),
Namespace: "",
}
volumeStatsAggPeriod := time.Second * 10
kubelet.resourceAnalyzer = serverstats.NewResourceAnalyzer(kubelet, volumeStatsAggPeriod)
kubelet.StatsProvider = stats.NewCadvisorStatsProvider(
kubelet.cadvisor,
kubelet.resourceAnalyzer,
kubelet.podManager,
kubelet.runtimeCache,
fakeRuntime)
fakeImageGCPolicy := images.ImageGCPolicy{
HighThresholdPercent: 90,
LowThresholdPercent: 80,
}
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imageGCManager, err := images.NewImageGCManager(fakeRuntime, kubelet.StatsProvider, fakeRecorder, fakeNodeRef, fakeImageGCPolicy, "")
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assert.NoError(t, err)
kubelet.imageManager = &fakeImageGCManager{
fakeImageService: fakeRuntime,
ImageGCManager: imageGCManager,
}
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kubelet.containerLogManager = logs.NewStubContainerLogManager()
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containerGCPolicy := kubecontainer.ContainerGCPolicy{
MinAge: time.Duration(0),
MaxPerPodContainer: 1,
MaxContainers: -1,
}
containerGC, err := kubecontainer.NewContainerGC(fakeRuntime, containerGCPolicy, kubelet.sourcesReady)
assert.NoError(t, err)
kubelet.containerGC = containerGC
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fakeClock := clock.NewFakeClock(time.Now())
kubelet.backOff = flowcontrol.NewBackOff(time.Second, time.Minute)
kubelet.backOff.Clock = fakeClock
kubelet.podKillingCh = make(chan *kubecontainer.PodPair, 20)
kubelet.resyncInterval = 10 * time.Second
kubelet.workQueue = queue.NewBasicWorkQueue(fakeClock)
// Relist period does not affect the tests.
kubelet.pleg = pleg.NewGenericPLEG(fakeRuntime, 100, time.Hour, nil, clock.RealClock{})
kubelet.clock = fakeClock
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string(kubelet.nodeName),
UID: types.UID(kubelet.nodeName),
Namespace: "",
}
// setup eviction manager
evictionManager, evictionAdmitHandler := eviction.NewManager(kubelet.resourceAnalyzer, eviction.Config{}, killPodNow(kubelet.podWorkers, fakeRecorder), kubelet.imageManager, kubelet.containerGC, fakeRecorder, nodeRef, kubelet.clock)
kubelet.evictionManager = evictionManager
kubelet.admitHandlers.AddPodAdmitHandler(evictionAdmitHandler)
// Add this as cleanup predicate pod admitter
kubelet.admitHandlers.AddPodAdmitHandler(lifecycle.NewPredicateAdmitHandler(kubelet.getNodeAnyWay, lifecycle.NewAdmissionFailureHandlerStub(), kubelet.containerManager.UpdatePluginResources))
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allPlugins := []volume.VolumePlugin{}
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plug := &volumetest.FakeVolumePlugin{PluginName: "fake", Host: nil}
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if initFakeVolumePlugin {
allPlugins = append(allPlugins, plug)
} else {
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allPlugins = append(allPlugins, awsebs.ProbeVolumePlugins()...)
allPlugins = append(allPlugins, gcepd.ProbeVolumePlugins()...)
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allPlugins = append(allPlugins, azure_dd.ProbeVolumePlugins()...)
}
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var prober volume.DynamicPluginProber // TODO (#51147) inject mock
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kubelet.volumePluginMgr, err =
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NewInitializedVolumePluginMgr(kubelet, kubelet.secretManager, kubelet.configMapManager, token.NewManager(kubelet.kubeClient), allPlugins, prober)
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require.NoError(t, err, "Failed to initialize VolumePluginMgr")
kubelet.mounter = &mount.FakeMounter{}
kubelet.volumeManager = kubeletvolume.NewVolumeManager(
controllerAttachDetachEnabled,
kubelet.nodeName,
kubelet.podManager,
kubelet.statusManager,
fakeKubeClient,
kubelet.volumePluginMgr,
fakeRuntime,
kubelet.mounter,
kubelet.getPodsDir(),
kubelet.recorder,
false, /* experimentalCheckNodeCapabilitiesBeforeMount*/
false /* keepTerminatedPodVolumes */)
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kubelet.setNodeStatusFuncs = kubelet.defaultNodeStatusFuncs()
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// enable active deadline handler
activeDeadlineHandler, err := newActiveDeadlineHandler(kubelet.statusManager, kubelet.recorder, kubelet.clock)
require.NoError(t, err, "Can't initialize active deadline handler")
kubelet.AddPodSyncLoopHandler(activeDeadlineHandler)
kubelet.AddPodSyncHandler(activeDeadlineHandler)
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return &TestKubelet{kubelet, fakeRuntime, fakeKubeClient, fakeMirrorClient, fakeClock, nil, plug}
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}
func newTestPods(count int) []*v1.Pod {
pods := make([]*v1.Pod, count)
for i := 0; i < count; i++ {
pods[i] = &v1.Pod{
Spec: v1.PodSpec{
HostNetwork: true,
},
ObjectMeta: metav1.ObjectMeta{
UID: types.UID(10000 + i),
Name: fmt.Sprintf("pod%d", i),
},
}
}
return pods
}
func TestSyncLoopAbort(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
kubelet.runtimeState.setRuntimeSync(time.Now())
// The syncLoop waits on time.After(resyncInterval), set it really big so that we don't race for
// the channel close
kubelet.resyncInterval = time.Second * 30
ch := make(chan kubetypes.PodUpdate)
close(ch)
// sanity check (also prevent this test from hanging in the next step)
ok := kubelet.syncLoopIteration(ch, kubelet, make(chan time.Time), make(chan time.Time), make(chan *pleg.PodLifecycleEvent, 1))
require.False(t, ok, "Expected syncLoopIteration to return !ok since update chan was closed")
// this should terminate immediately; if it hangs then the syncLoopIteration isn't aborting properly
kubelet.syncLoop(ch, kubelet)
}
func TestSyncPodsStartPod(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
fakeRuntime := testKubelet.fakeRuntime
pods := []*v1.Pod{
podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "bar"},
},
}),
}
kubelet.podManager.SetPods(pods)
kubelet.HandlePodSyncs(pods)
fakeRuntime.AssertStartedPods([]string{string(pods[0].UID)})
}
func TestSyncPodsDeletesWhenSourcesAreReady(t *testing.T) {
ready := false
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
fakeRuntime := testKubelet.fakeRuntime
kubelet := testKubelet.kubelet
kubelet.sourcesReady = config.NewSourcesReady(func(_ sets.String) bool { return ready })
fakeRuntime.PodList = []*containertest.FakePod{
{Pod: &kubecontainer.Pod{
ID: "12345678",
Name: "foo",
Namespace: "new",
Containers: []*kubecontainer.Container{
{Name: "bar"},
},
}},
}
kubelet.HandlePodCleanups()
// Sources are not ready yet. Don't remove any pods.
fakeRuntime.AssertKilledPods([]string{})
ready = true
kubelet.HandlePodCleanups()
// Sources are ready. Remove unwanted pods.
fakeRuntime.AssertKilledPods([]string{"12345678"})
}
type testNodeInfo struct {
nodes []*v1.Node
}
func (ls testNodeInfo) GetNodeInfo(id string) (*v1.Node, error) {
for _, node := range ls.nodes {
if node.Name == id {
return node, nil
}
}
return nil, fmt.Errorf("Node with name: %s does not exist", id)
}
func checkPodStatus(t *testing.T, kl *Kubelet, pod *v1.Pod, phase v1.PodPhase) {
status, found := kl.statusManager.GetPodStatus(pod.UID)
require.True(t, found, "Status of pod %q is not found in the status map", pod.UID)
require.Equal(t, phase, status.Phase)
}
// Tests that we handle port conflicts correctly by setting the failed status in status map.
func TestHandlePortConflicts(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
kl.nodeInfo = testNodeInfo{nodes: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{Name: string(kl.nodeName)},
Status: v1.NodeStatus{
Allocatable: v1.ResourceList{
v1.ResourcePods: *resource.NewQuantity(110, resource.DecimalSI),
},
},
},
}}
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recorder := record.NewFakeRecorder(20)
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string("testNode"),
UID: types.UID("testNode"),
Namespace: "",
}
testClusterDNSDomain := "TEST"
kl.dnsConfigurer = dns.NewConfigurer(recorder, nodeRef, nil, nil, testClusterDNSDomain, "")
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spec := v1.PodSpec{NodeName: string(kl.nodeName), Containers: []v1.Container{{Ports: []v1.ContainerPort{{HostPort: 80}}}}}
pods := []*v1.Pod{
podWithUIDNameNsSpec("123456789", "newpod", "foo", spec),
podWithUIDNameNsSpec("987654321", "oldpod", "foo", spec),
}
// Make sure the Pods are in the reverse order of creation time.
pods[1].CreationTimestamp = metav1.NewTime(time.Now())
pods[0].CreationTimestamp = metav1.NewTime(time.Now().Add(1 * time.Second))
// The newer pod should be rejected.
notfittingPod := pods[0]
fittingPod := pods[1]
kl.HandlePodAdditions(pods)
// Check pod status stored in the status map.
checkPodStatus(t, kl, notfittingPod, v1.PodFailed)
checkPodStatus(t, kl, fittingPod, v1.PodPending)
}
// Tests that we handle host name conflicts correctly by setting the failed status in status map.
func TestHandleHostNameConflicts(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
kl.nodeInfo = testNodeInfo{nodes: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{Name: "127.0.0.1"},
Status: v1.NodeStatus{
Allocatable: v1.ResourceList{
v1.ResourcePods: *resource.NewQuantity(110, resource.DecimalSI),
},
},
},
}}
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recorder := record.NewFakeRecorder(20)
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string("testNode"),
UID: types.UID("testNode"),
Namespace: "",
}
testClusterDNSDomain := "TEST"
kl.dnsConfigurer = dns.NewConfigurer(recorder, nodeRef, nil, nil, testClusterDNSDomain, "")
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// default NodeName in test is 127.0.0.1
pods := []*v1.Pod{
podWithUIDNameNsSpec("123456789", "notfittingpod", "foo", v1.PodSpec{NodeName: "127.0.0.2"}),
podWithUIDNameNsSpec("987654321", "fittingpod", "foo", v1.PodSpec{NodeName: "127.0.0.1"}),
}
notfittingPod := pods[0]
fittingPod := pods[1]
kl.HandlePodAdditions(pods)
// Check pod status stored in the status map.
checkPodStatus(t, kl, notfittingPod, v1.PodFailed)
checkPodStatus(t, kl, fittingPod, v1.PodPending)
}
// Tests that we handle not matching labels selector correctly by setting the failed status in status map.
func TestHandleNodeSelector(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
nodes := []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{Name: testKubeletHostname, Labels: map[string]string{"key": "B"}},
Status: v1.NodeStatus{
Allocatable: v1.ResourceList{
v1.ResourcePods: *resource.NewQuantity(110, resource.DecimalSI),
},
},
},
}
kl.nodeInfo = testNodeInfo{nodes: nodes}
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recorder := record.NewFakeRecorder(20)
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string("testNode"),
UID: types.UID("testNode"),
Namespace: "",
}
testClusterDNSDomain := "TEST"
kl.dnsConfigurer = dns.NewConfigurer(recorder, nodeRef, nil, nil, testClusterDNSDomain, "")
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pods := []*v1.Pod{
podWithUIDNameNsSpec("123456789", "podA", "foo", v1.PodSpec{NodeSelector: map[string]string{"key": "A"}}),
podWithUIDNameNsSpec("987654321", "podB", "foo", v1.PodSpec{NodeSelector: map[string]string{"key": "B"}}),
}
// The first pod should be rejected.
notfittingPod := pods[0]
fittingPod := pods[1]
kl.HandlePodAdditions(pods)
// Check pod status stored in the status map.
checkPodStatus(t, kl, notfittingPod, v1.PodFailed)
checkPodStatus(t, kl, fittingPod, v1.PodPending)
}
// Tests that we handle exceeded resources correctly by setting the failed status in status map.
func TestHandleMemExceeded(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
nodes := []*v1.Node{
{ObjectMeta: metav1.ObjectMeta{Name: testKubeletHostname},
Status: v1.NodeStatus{Capacity: v1.ResourceList{}, Allocatable: v1.ResourceList{
v1.ResourceCPU: *resource.NewMilliQuantity(10, resource.DecimalSI),
v1.ResourceMemory: *resource.NewQuantity(100, resource.BinarySI),
v1.ResourcePods: *resource.NewQuantity(40, resource.DecimalSI),
}}},
}
kl.nodeInfo = testNodeInfo{nodes: nodes}
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recorder := record.NewFakeRecorder(20)
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string("testNode"),
UID: types.UID("testNode"),
Namespace: "",
}
testClusterDNSDomain := "TEST"
kl.dnsConfigurer = dns.NewConfigurer(recorder, nodeRef, nil, nil, testClusterDNSDomain, "")
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spec := v1.PodSpec{NodeName: string(kl.nodeName),
Containers: []v1.Container{{Resources: v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceMemory: resource.MustParse("90"),
},
}}},
}
pods := []*v1.Pod{
podWithUIDNameNsSpec("123456789", "newpod", "foo", spec),
podWithUIDNameNsSpec("987654321", "oldpod", "foo", spec),
}
// Make sure the Pods are in the reverse order of creation time.
pods[1].CreationTimestamp = metav1.NewTime(time.Now())
pods[0].CreationTimestamp = metav1.NewTime(time.Now().Add(1 * time.Second))
// The newer pod should be rejected.
notfittingPod := pods[0]
fittingPod := pods[1]
kl.HandlePodAdditions(pods)
// Check pod status stored in the status map.
checkPodStatus(t, kl, notfittingPod, v1.PodFailed)
checkPodStatus(t, kl, fittingPod, v1.PodPending)
}
// Tests that we handle result of interface UpdatePluginResources correctly
// by setting corresponding status in status map.
func TestHandlePluginResources(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
adjustedResource := v1.ResourceName("domain1.com/adjustedResource")
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emptyResource := v1.ResourceName("domain2.com/emptyResource")
missingResource := v1.ResourceName("domain2.com/missingResource")
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failedResource := v1.ResourceName("domain2.com/failedResource")
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resourceQuantity0 := *resource.NewQuantity(int64(0), resource.DecimalSI)
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resourceQuantity1 := *resource.NewQuantity(int64(1), resource.DecimalSI)
resourceQuantity2 := *resource.NewQuantity(int64(2), resource.DecimalSI)
resourceQuantityInvalid := *resource.NewQuantity(int64(-1), resource.DecimalSI)
allowedPodQuantity := *resource.NewQuantity(int64(10), resource.DecimalSI)
nodes := []*v1.Node{
{ObjectMeta: metav1.ObjectMeta{Name: testKubeletHostname},
Status: v1.NodeStatus{Capacity: v1.ResourceList{}, Allocatable: v1.ResourceList{
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adjustedResource: resourceQuantity1,
emptyResource: resourceQuantity0,
v1.ResourcePods: allowedPodQuantity,
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}}},
}
kl.nodeInfo = testNodeInfo{nodes: nodes}
updatePluginResourcesFunc := func(node *schedulercache.NodeInfo, attrs *lifecycle.PodAdmitAttributes) error {
// Maps from resourceName to the value we use to set node.allocatableResource[resourceName].
// A resource with invalid value (< 0) causes the function to return an error
// to emulate resource Allocation failure.
// Resources not contained in this map will have their node.allocatableResource
// quantity unchanged.
updateResourceMap := map[v1.ResourceName]resource.Quantity{
adjustedResource: resourceQuantity2,
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emptyResource: resourceQuantity0,
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failedResource: resourceQuantityInvalid,
}
pod := attrs.Pod
allocatableResource := node.AllocatableResource()
newAllocatableResource := allocatableResource.Clone()
for _, container := range pod.Spec.Containers {
for resource := range container.Resources.Requests {
newQuantity, exist := updateResourceMap[resource]
if !exist {
continue
}
if newQuantity.Value() < 0 {
return fmt.Errorf("Allocation failed")
}
newAllocatableResource.ScalarResources[resource] = newQuantity.Value()
}
}
node.SetAllocatableResource(newAllocatableResource)
return nil
}
// add updatePluginResourcesFunc to admission handler, to test it's behavior.
kl.admitHandlers = lifecycle.PodAdmitHandlers{}
kl.admitHandlers.AddPodAdmitHandler(lifecycle.NewPredicateAdmitHandler(kl.getNodeAnyWay, lifecycle.NewAdmissionFailureHandlerStub(), updatePluginResourcesFunc))
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recorder := record.NewFakeRecorder(20)
nodeRef := &v1.ObjectReference{
Kind: "Node",
Name: string("testNode"),
UID: types.UID("testNode"),
Namespace: "",
}
testClusterDNSDomain := "TEST"
kl.dnsConfigurer = dns.NewConfigurer(recorder, nodeRef, nil, nil, testClusterDNSDomain, "")
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// pod requiring adjustedResource can be successfully allocated because updatePluginResourcesFunc
// adjusts node.allocatableResource for this resource to a sufficient value.
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fittingPodSpec := v1.PodSpec{NodeName: string(kl.nodeName),
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Containers: []v1.Container{{Resources: v1.ResourceRequirements{
Limits: v1.ResourceList{
adjustedResource: resourceQuantity2,
},
Requests: v1.ResourceList{
adjustedResource: resourceQuantity2,
},
}}},
}
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// pod requiring emptyResource (extended resources with 0 allocatable) will
// not pass PredicateAdmit.
emptyPodSpec := v1.PodSpec{NodeName: string(kl.nodeName),
Containers: []v1.Container{{Resources: v1.ResourceRequirements{
Limits: v1.ResourceList{
emptyResource: resourceQuantity2,
},
Requests: v1.ResourceList{
emptyResource: resourceQuantity2,
},
}}},
}
// pod requiring missingResource will pass PredicateAdmit.
//
// Extended resources missing in node status are ignored in PredicateAdmit.
// This is required to support extended resources that are not managed by
// device plugin, such as cluster-level resources.
missingPodSpec := v1.PodSpec{NodeName: string(kl.nodeName),
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Containers: []v1.Container{{Resources: v1.ResourceRequirements{
Limits: v1.ResourceList{
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missingResource: resourceQuantity2,
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},
Requests: v1.ResourceList{
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missingResource: resourceQuantity2,
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},
}}},
}
// pod requiring failedResource will fail with the resource failed to be allocated.
failedPodSpec := v1.PodSpec{NodeName: string(kl.nodeName),
Containers: []v1.Container{{Resources: v1.ResourceRequirements{
Limits: v1.ResourceList{
failedResource: resourceQuantity1,
},
Requests: v1.ResourceList{
failedResource: resourceQuantity1,
},
}}},
}
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fittingPod := podWithUIDNameNsSpec("1", "fittingpod", "foo", fittingPodSpec)
emptyPod := podWithUIDNameNsSpec("2", "emptypod", "foo", emptyPodSpec)
missingPod := podWithUIDNameNsSpec("3", "missingpod", "foo", missingPodSpec)
failedPod := podWithUIDNameNsSpec("4", "failedpod", "foo", failedPodSpec)
kl.HandlePodAdditions([]*v1.Pod{fittingPod, emptyPod, missingPod, failedPod})
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// Check pod status stored in the status map.
checkPodStatus(t, kl, fittingPod, v1.PodPending)
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checkPodStatus(t, kl, emptyPod, v1.PodFailed)
checkPodStatus(t, kl, missingPod, v1.PodPending)
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checkPodStatus(t, kl, failedPod, v1.PodFailed)
}
// TODO(filipg): This test should be removed once StatusSyncer can do garbage collection without external signal.
func TestPurgingObsoleteStatusMapEntries(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
pods := []*v1.Pod{
{ObjectMeta: metav1.ObjectMeta{Name: "pod1", UID: "1234"}, Spec: v1.PodSpec{Containers: []v1.Container{{Ports: []v1.ContainerPort{{HostPort: 80}}}}}},
{ObjectMeta: metav1.ObjectMeta{Name: "pod2", UID: "4567"}, Spec: v1.PodSpec{Containers: []v1.Container{{Ports: []v1.ContainerPort{{HostPort: 80}}}}}},
}
podToTest := pods[1]
// Run once to populate the status map.
kl.HandlePodAdditions(pods)
if _, found := kl.statusManager.GetPodStatus(podToTest.UID); !found {
t.Fatalf("expected to have status cached for pod2")
}
// Sync with empty pods so that the entry in status map will be removed.
kl.podManager.SetPods([]*v1.Pod{})
kl.HandlePodCleanups()
if _, found := kl.statusManager.GetPodStatus(podToTest.UID); found {
t.Fatalf("expected to not have status cached for pod2")
}
}
func TestValidateContainerLogStatus(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
containerName := "x"
testCases := []struct {
statuses []v1.ContainerStatus
success bool // whether getting logs for the container should succeed.
pSuccess bool // whether getting logs for the previous container should succeed.
}{
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Running: &v1.ContainerStateRunning{},
},
LastTerminationState: v1.ContainerState{
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Terminated: &v1.ContainerStateTerminated{ContainerID: "docker://fakeid"},
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},
},
},
success: true,
pSuccess: true,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Running: &v1.ContainerStateRunning{},
},
},
},
success: true,
pSuccess: false,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{},
},
},
},
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success: false,
pSuccess: false,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{ContainerID: "docker://fakeid"},
},
},
},
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success: true,
pSuccess: false,
},
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{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{},
},
LastTerminationState: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{},
},
},
},
success: false,
pSuccess: false,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{},
},
LastTerminationState: v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{ContainerID: "docker://fakeid"},
},
},
},
success: true,
pSuccess: true,
},
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{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{
Waiting: &v1.ContainerStateWaiting{},
},
},
},
success: false,
pSuccess: false,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{Waiting: &v1.ContainerStateWaiting{Reason: "ErrImagePull"}},
},
},
success: false,
pSuccess: false,
},
{
statuses: []v1.ContainerStatus{
{
Name: containerName,
State: v1.ContainerState{Waiting: &v1.ContainerStateWaiting{Reason: "ErrImagePullBackOff"}},
},
},
success: false,
pSuccess: false,
},
}
for i, tc := range testCases {
// Access the log of the most recent container
previous := false
podStatus := &v1.PodStatus{ContainerStatuses: tc.statuses}
_, err := kubelet.validateContainerLogStatus("podName", podStatus, containerName, previous)
if !tc.success {
assert.Error(t, err, fmt.Sprintf("[case %d] error", i))
} else {
assert.NoError(t, err, "[case %d] error", i)
}
// Access the log of the previous, terminated container
previous = true
_, err = kubelet.validateContainerLogStatus("podName", podStatus, containerName, previous)
if !tc.pSuccess {
assert.Error(t, err, fmt.Sprintf("[case %d] error", i))
} else {
assert.NoError(t, err, "[case %d] error", i)
}
// Access the log of a container that's not in the pod
_, err = kubelet.validateContainerLogStatus("podName", podStatus, "blah", false)
assert.Error(t, err, fmt.Sprintf("[case %d] invalid container name should cause an error", i))
}
}
func TestCreateMirrorPod(t *testing.T) {
for _, updateType := range []kubetypes.SyncPodType{kubetypes.SyncPodCreate, kubetypes.SyncPodUpdate} {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
manager := testKubelet.fakeMirrorClient
pod := podWithUIDNameNs("12345678", "bar", "foo")
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = "file"
pods := []*v1.Pod{pod}
kl.podManager.SetPods(pods)
err := kl.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: updateType,
})
assert.NoError(t, err)
podFullName := kubecontainer.GetPodFullName(pod)
assert.True(t, manager.HasPod(podFullName), "Expected mirror pod %q to be created", podFullName)
assert.Equal(t, 1, manager.NumOfPods(), "Expected only 1 mirror pod %q, got %+v", podFullName, manager.GetPods())
}
}
func TestDeleteOutdatedMirrorPod(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
manager := testKubelet.fakeMirrorClient
pod := podWithUIDNameNsSpec("12345678", "foo", "ns", v1.PodSpec{
Containers: []v1.Container{
{Name: "1234", Image: "foo"},
},
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = "file"
// Mirror pod has an outdated spec.
mirrorPod := podWithUIDNameNsSpec("11111111", "foo", "ns", v1.PodSpec{
Containers: []v1.Container{
{Name: "1234", Image: "bar"},
},
})
mirrorPod.Annotations[kubetypes.ConfigSourceAnnotationKey] = "api"
mirrorPod.Annotations[kubetypes.ConfigMirrorAnnotationKey] = "mirror"
pods := []*v1.Pod{pod, mirrorPod}
kl.podManager.SetPods(pods)
err := kl.syncPod(syncPodOptions{
pod: pod,
mirrorPod: mirrorPod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err)
name := kubecontainer.GetPodFullName(pod)
creates, deletes := manager.GetCounts(name)
if creates != 1 || deletes != 1 {
t.Errorf("expected 1 creation and 1 deletion of %q, got %d, %d", name, creates, deletes)
}
}
func TestDeleteOrphanedMirrorPods(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
manager := testKubelet.fakeMirrorClient
orphanPods := []*v1.Pod{
{
ObjectMeta: metav1.ObjectMeta{
UID: "12345678",
Name: "pod1",
Namespace: "ns",
Annotations: map[string]string{
kubetypes.ConfigSourceAnnotationKey: "api",
kubetypes.ConfigMirrorAnnotationKey: "mirror",
},
},
},
{
ObjectMeta: metav1.ObjectMeta{
UID: "12345679",
Name: "pod2",
Namespace: "ns",
Annotations: map[string]string{
kubetypes.ConfigSourceAnnotationKey: "api",
kubetypes.ConfigMirrorAnnotationKey: "mirror",
},
},
},
}
kl.podManager.SetPods(orphanPods)
// Sync with an empty pod list to delete all mirror pods.
kl.HandlePodCleanups()
assert.Len(t, manager.GetPods(), 0, "Expected 0 mirror pods")
for _, pod := range orphanPods {
name := kubecontainer.GetPodFullName(pod)
creates, deletes := manager.GetCounts(name)
if creates != 0 || deletes != 1 {
t.Errorf("expected 0 creation and one deletion of %q, got %d, %d", name, creates, deletes)
}
}
}
func TestGetContainerInfoForMirrorPods(t *testing.T) {
// pods contain one static and one mirror pod with the same name but
// different UIDs.
pods := []*v1.Pod{
{
ObjectMeta: metav1.ObjectMeta{
UID: "1234",
Name: "qux",
Namespace: "ns",
Annotations: map[string]string{
kubetypes.ConfigSourceAnnotationKey: "file",
},
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
},
},
{
ObjectMeta: metav1.ObjectMeta{
UID: "5678",
Name: "qux",
Namespace: "ns",
Annotations: map[string]string{
kubetypes.ConfigSourceAnnotationKey: "api",
kubetypes.ConfigMirrorAnnotationKey: "mirror",
},
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
},
},
}
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
fakeRuntime := testKubelet.fakeRuntime
cadvisorReq := &cadvisorapi.ContainerInfoRequest{}
kubelet := testKubelet.kubelet
fakeRuntime.PodList = []*containertest.FakePod{
{Pod: &kubecontainer.Pod{
ID: "1234",
Name: "qux",
Namespace: "ns",
Containers: []*kubecontainer.Container{
{
Name: "foo",
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ID: kubecontainer.ContainerID{Type: "test", ID: "ab2cdf"},
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},
},
}},
}
kubelet.podManager.SetPods(pods)
// Use the mirror pod UID to retrieve the stats.
stats, err := kubelet.GetContainerInfo("qux_ns", "5678", "foo", cadvisorReq)
assert.NoError(t, err)
require.NotNil(t, stats)
}
func TestHostNetworkAllowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostNetworkSources: []string{kubetypes.ApiserverSource, kubetypes.FileSource},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostNetwork: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
kubelet.podManager.SetPods([]*v1.Pod{pod})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err, "expected pod infra creation to succeed")
}
func TestHostNetworkDisallowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostNetworkSources: []string{},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostNetwork: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.Error(t, err, "expected pod infra creation to fail")
}
func TestHostPIDAllowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostPIDSources: []string{kubetypes.ApiserverSource, kubetypes.FileSource},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostPID: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
kubelet.podManager.SetPods([]*v1.Pod{pod})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err, "expected pod infra creation to succeed")
}
func TestHostPIDDisallowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostPIDSources: []string{},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostPID: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.Error(t, err, "expected pod infra creation to fail")
}
func TestHostIPCAllowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostIPCSources: []string{kubetypes.ApiserverSource, kubetypes.FileSource},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostIPC: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
kubelet.podManager.SetPods([]*v1.Pod{pod})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err, "expected pod infra creation to succeed")
}
func TestHostIPCDisallowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostIPCSources: []string{},
},
})
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
HostIPC: true,
})
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.Error(t, err, "expected pod infra creation to fail")
}
func TestPrivilegeContainerAllowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
AllowPrivileged: true,
})
privileged := true
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo", SecurityContext: &v1.SecurityContext{Privileged: &privileged}},
},
})
kubelet.podManager.SetPods([]*v1.Pod{pod})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err, "expected pod infra creation to succeed")
}
func TestPrivilegedContainerDisallowed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
capabilities.SetForTests(capabilities.Capabilities{
AllowPrivileged: false,
})
privileged := true
pod := podWithUIDNameNsSpec("12345678", "foo", "new", v1.PodSpec{
Containers: []v1.Container{
{Name: "foo", SecurityContext: &v1.SecurityContext{Privileged: &privileged}},
},
})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.Error(t, err, "expected pod infra creation to fail")
}
func TestNetworkErrorsWithoutHostNetwork(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
kubelet.runtimeState.setNetworkState(fmt.Errorf("simulated network error"))
capabilities.SetForTests(capabilities.Capabilities{
PrivilegedSources: capabilities.PrivilegedSources{
HostNetworkSources: []string{kubetypes.ApiserverSource, kubetypes.FileSource},
},
})
pod := podWithUIDNameNsSpec("12345678", "hostnetwork", "new", v1.PodSpec{
HostNetwork: false,
Containers: []v1.Container{
{Name: "foo"},
},
})
kubelet.podManager.SetPods([]*v1.Pod{pod})
err := kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.Error(t, err, "expected pod with hostNetwork=false to fail when network in error")
pod.Annotations[kubetypes.ConfigSourceAnnotationKey] = kubetypes.FileSource
pod.Spec.HostNetwork = true
err = kubelet.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodUpdate,
})
assert.NoError(t, err, "expected pod with hostNetwork=true to succeed when network in error")
}
func TestFilterOutTerminatedPods(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
pods := newTestPods(5)
now := metav1.NewTime(time.Now())
pods[0].Status.Phase = v1.PodFailed
pods[1].Status.Phase = v1.PodSucceeded
// The pod is terminating, should not filter out.
pods[2].Status.Phase = v1.PodRunning
pods[2].DeletionTimestamp = &now
pods[2].Status.ContainerStatuses = []v1.ContainerStatus{
{State: v1.ContainerState{
Running: &v1.ContainerStateRunning{
StartedAt: now,
},
}},
}
pods[3].Status.Phase = v1.PodPending
pods[4].Status.Phase = v1.PodRunning
expected := []*v1.Pod{pods[2], pods[3], pods[4]}
kubelet.podManager.SetPods(pods)
actual := kubelet.filterOutTerminatedPods(pods)
assert.Equal(t, expected, actual)
}
func TestSyncPodsSetStatusToFailedForPodsThatRunTooLong(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
fakeRuntime := testKubelet.fakeRuntime
kubelet := testKubelet.kubelet
now := metav1.Now()
startTime := metav1.NewTime(now.Time.Add(-1 * time.Minute))
exceededActiveDeadlineSeconds := int64(30)
pods := []*v1.Pod{
{
ObjectMeta: metav1.ObjectMeta{
UID: "12345678",
Name: "bar",
Namespace: "new",
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
ActiveDeadlineSeconds: &exceededActiveDeadlineSeconds,
},
Status: v1.PodStatus{
StartTime: &startTime,
},
},
}
fakeRuntime.PodList = []*containertest.FakePod{
{Pod: &kubecontainer.Pod{
ID: "12345678",
Name: "bar",
Namespace: "new",
Containers: []*kubecontainer.Container{
{Name: "foo"},
},
}},
}
// Let the pod worker sets the status to fail after this sync.
kubelet.HandlePodUpdates(pods)
status, found := kubelet.statusManager.GetPodStatus(pods[0].UID)
assert.True(t, found, "expected to found status for pod %q", pods[0].UID)
assert.Equal(t, v1.PodFailed, status.Phase)
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// check pod status contains ContainerStatuses, etc.
assert.NotNil(t, status.ContainerStatuses)
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}
func TestSyncPodsDoesNotSetPodsThatDidNotRunTooLongToFailed(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
fakeRuntime := testKubelet.fakeRuntime
kubelet := testKubelet.kubelet
now := metav1.Now()
startTime := metav1.NewTime(now.Time.Add(-1 * time.Minute))
exceededActiveDeadlineSeconds := int64(300)
pods := []*v1.Pod{
{
ObjectMeta: metav1.ObjectMeta{
UID: "12345678",
Name: "bar",
Namespace: "new",
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{Name: "foo"},
},
ActiveDeadlineSeconds: &exceededActiveDeadlineSeconds,
},
Status: v1.PodStatus{
StartTime: &startTime,
},
},
}
fakeRuntime.PodList = []*containertest.FakePod{
{Pod: &kubecontainer.Pod{
ID: "12345678",
Name: "bar",
Namespace: "new",
Containers: []*kubecontainer.Container{
{Name: "foo"},
},
}},
}
kubelet.podManager.SetPods(pods)
kubelet.HandlePodUpdates(pods)
status, found := kubelet.statusManager.GetPodStatus(pods[0].UID)
assert.True(t, found, "expected to found status for pod %q", pods[0].UID)
assert.NotEqual(t, v1.PodFailed, status.Phase)
}
func podWithUIDNameNs(uid types.UID, name, namespace string) *v1.Pod {
return &v1.Pod{
ObjectMeta: metav1.ObjectMeta{
UID: uid,
Name: name,
Namespace: namespace,
Annotations: map[string]string{},
},
}
}
func podWithUIDNameNsSpec(uid types.UID, name, namespace string, spec v1.PodSpec) *v1.Pod {
pod := podWithUIDNameNs(uid, name, namespace)
pod.Spec = spec
return pod
}
func TestDeletePodDirsForDeletedPods(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
pods := []*v1.Pod{
podWithUIDNameNs("12345678", "pod1", "ns"),
podWithUIDNameNs("12345679", "pod2", "ns"),
}
kl.podManager.SetPods(pods)
// Sync to create pod directories.
kl.HandlePodSyncs(kl.podManager.GetPods())
for i := range pods {
assert.True(t, dirExists(kl.getPodDir(pods[i].UID)), "Expected directory to exist for pod %d", i)
}
// Pod 1 has been deleted and no longer exists.
kl.podManager.SetPods([]*v1.Pod{pods[0]})
kl.HandlePodCleanups()
assert.True(t, dirExists(kl.getPodDir(pods[0].UID)), "Expected directory to exist for pod 0")
assert.False(t, dirExists(kl.getPodDir(pods[1].UID)), "Expected directory to be deleted for pod 1")
}
func syncAndVerifyPodDir(t *testing.T, testKubelet *TestKubelet, pods []*v1.Pod, podsToCheck []*v1.Pod, shouldExist bool) {
kl := testKubelet.kubelet
kl.podManager.SetPods(pods)
kl.HandlePodSyncs(pods)
kl.HandlePodCleanups()
for i, pod := range podsToCheck {
exist := dirExists(kl.getPodDir(pod.UID))
assert.Equal(t, shouldExist, exist, "directory of pod %d", i)
}
}
func TestDoesNotDeletePodDirsForTerminatedPods(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
pods := []*v1.Pod{
podWithUIDNameNs("12345678", "pod1", "ns"),
podWithUIDNameNs("12345679", "pod2", "ns"),
podWithUIDNameNs("12345680", "pod3", "ns"),
}
syncAndVerifyPodDir(t, testKubelet, pods, pods, true)
// Pod 1 failed, and pod 2 succeeded. None of the pod directories should be
// deleted.
kl.statusManager.SetPodStatus(pods[1], v1.PodStatus{Phase: v1.PodFailed})
kl.statusManager.SetPodStatus(pods[2], v1.PodStatus{Phase: v1.PodSucceeded})
syncAndVerifyPodDir(t, testKubelet, pods, pods, true)
}
func TestDoesNotDeletePodDirsIfContainerIsRunning(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
runningPod := &kubecontainer.Pod{
ID: "12345678",
Name: "pod1",
Namespace: "ns",
}
apiPod := podWithUIDNameNs(runningPod.ID, runningPod.Name, runningPod.Namespace)
// Sync once to create pod directory; confirm that the pod directory has
// already been created.
pods := []*v1.Pod{apiPod}
syncAndVerifyPodDir(t, testKubelet, pods, []*v1.Pod{apiPod}, true)
// Pretend the pod is deleted from apiserver, but is still active on the node.
// The pod directory should not be removed.
pods = []*v1.Pod{}
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testKubelet.fakeRuntime.PodList = []*containertest.FakePod{{Pod: runningPod, NetnsPath: ""}}
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syncAndVerifyPodDir(t, testKubelet, pods, []*v1.Pod{apiPod}, true)
// The pod is deleted and also not active on the node. The pod directory
// should be removed.
pods = []*v1.Pod{}
testKubelet.fakeRuntime.PodList = []*containertest.FakePod{}
syncAndVerifyPodDir(t, testKubelet, pods, []*v1.Pod{apiPod}, false)
}
func TestGetPodsToSync(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
clock := testKubelet.fakeClock
pods := newTestPods(5)
exceededActiveDeadlineSeconds := int64(30)
notYetActiveDeadlineSeconds := int64(120)
startTime := metav1.NewTime(clock.Now())
pods[0].Status.StartTime = &startTime
pods[0].Spec.ActiveDeadlineSeconds = &exceededActiveDeadlineSeconds
pods[1].Status.StartTime = &startTime
pods[1].Spec.ActiveDeadlineSeconds = &notYetActiveDeadlineSeconds
pods[2].Status.StartTime = &startTime
pods[2].Spec.ActiveDeadlineSeconds = &exceededActiveDeadlineSeconds
kubelet.podManager.SetPods(pods)
kubelet.workQueue.Enqueue(pods[2].UID, 0)
kubelet.workQueue.Enqueue(pods[3].UID, 30*time.Second)
kubelet.workQueue.Enqueue(pods[4].UID, 2*time.Minute)
clock.Step(1 * time.Minute)
expected := []*v1.Pod{pods[2], pods[3], pods[0]}
podsToSync := kubelet.getPodsToSync()
sort.Sort(podsByUID(expected))
sort.Sort(podsByUID(podsToSync))
assert.Equal(t, expected, podsToSync)
}
func TestGenerateAPIPodStatusWithSortedContainers(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
numContainers := 10
expectedOrder := []string{}
cStatuses := []*kubecontainer.ContainerStatus{}
specContainerList := []v1.Container{}
for i := 0; i < numContainers; i++ {
id := fmt.Sprintf("%v", i)
containerName := fmt.Sprintf("%vcontainer", id)
expectedOrder = append(expectedOrder, containerName)
cStatus := &kubecontainer.ContainerStatus{
ID: kubecontainer.BuildContainerID("test", id),
Name: containerName,
}
// Rearrange container statuses
if i%2 == 0 {
cStatuses = append(cStatuses, cStatus)
} else {
cStatuses = append([]*kubecontainer.ContainerStatus{cStatus}, cStatuses...)
}
specContainerList = append(specContainerList, v1.Container{Name: containerName})
}
pod := podWithUIDNameNs("uid1", "foo", "test")
pod.Spec = v1.PodSpec{
Containers: specContainerList,
}
status := &kubecontainer.PodStatus{
ID: pod.UID,
Name: pod.Name,
Namespace: pod.Namespace,
ContainerStatuses: cStatuses,
}
for i := 0; i < 5; i++ {
apiStatus := kubelet.generateAPIPodStatus(pod, status)
for i, c := range apiStatus.ContainerStatuses {
if expectedOrder[i] != c.Name {
t.Fatalf("Container status not sorted, expected %v at index %d, but found %v", expectedOrder[i], i, c.Name)
}
}
}
}
func verifyContainerStatuses(t *testing.T, statuses []v1.ContainerStatus, state, lastTerminationState map[string]v1.ContainerState, message string) {
for _, s := range statuses {
assert.Equal(t, s.State, state[s.Name], "%s: state", message)
assert.Equal(t, s.LastTerminationState, lastTerminationState[s.Name], "%s: last terminated state", message)
}
}
// Test generateAPIPodStatus with different reason cache and old api pod status.
func TestGenerateAPIPodStatusWithReasonCache(t *testing.T) {
// The following waiting reason and message are generated in convertStatusToAPIStatus()
startWaitingReason := "ContainerCreating"
initWaitingReason := "PodInitializing"
testTimestamp := time.Unix(123456789, 987654321)
testErrorReason := fmt.Errorf("test-error")
emptyContainerID := (&kubecontainer.ContainerID{}).String()
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
pod := podWithUIDNameNs("12345678", "foo", "new")
pod.Spec = v1.PodSpec{RestartPolicy: v1.RestartPolicyOnFailure}
podStatus := &kubecontainer.PodStatus{
ID: pod.UID,
Name: pod.Name,
Namespace: pod.Namespace,
}
tests := []struct {
containers []v1.Container
statuses []*kubecontainer.ContainerStatus
reasons map[string]error
oldStatuses []v1.ContainerStatus
expectedState map[string]v1.ContainerState
// Only set expectedInitState when it is different from expectedState
expectedInitState map[string]v1.ContainerState
expectedLastTerminationState map[string]v1.ContainerState
}{
// For container with no historical record, State should be Waiting, LastTerminationState should be retrieved from
// old status from apiserver.
{
containers: []v1.Container{{Name: "without-old-record"}, {Name: "with-old-record"}},
statuses: []*kubecontainer.ContainerStatus{},
reasons: map[string]error{},
oldStatuses: []v1.ContainerStatus{{
Name: "with-old-record",
LastTerminationState: v1.ContainerState{Terminated: &v1.ContainerStateTerminated{}},
}},
expectedState: map[string]v1.ContainerState{
"without-old-record": {Waiting: &v1.ContainerStateWaiting{
Reason: startWaitingReason,
}},
"with-old-record": {Waiting: &v1.ContainerStateWaiting{
Reason: startWaitingReason,
}},
},
expectedInitState: map[string]v1.ContainerState{
"without-old-record": {Waiting: &v1.ContainerStateWaiting{
Reason: initWaitingReason,
}},
"with-old-record": {Waiting: &v1.ContainerStateWaiting{
Reason: initWaitingReason,
}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"with-old-record": {Terminated: &v1.ContainerStateTerminated{}},
},
},
// For running container, State should be Running, LastTerminationState should be retrieved from latest terminated status.
{
containers: []v1.Container{{Name: "running"}},
statuses: []*kubecontainer.ContainerStatus{
{
Name: "running",
State: kubecontainer.ContainerStateRunning,
StartedAt: testTimestamp,
},
{
Name: "running",
State: kubecontainer.ContainerStateExited,
ExitCode: 1,
},
},
reasons: map[string]error{},
oldStatuses: []v1.ContainerStatus{},
expectedState: map[string]v1.ContainerState{
"running": {Running: &v1.ContainerStateRunning{
StartedAt: metav1.NewTime(testTimestamp),
}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"running": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
},
},
// For terminated container:
// * If there is no recent start error record, State should be Terminated, LastTerminationState should be retrieved from
// second latest terminated status;
// * If there is recent start error record, State should be Waiting, LastTerminationState should be retrieved from latest
// terminated status;
// * If ExitCode = 0, restart policy is RestartPolicyOnFailure, the container shouldn't be restarted. No matter there is
// recent start error or not, State should be Terminated, LastTerminationState should be retrieved from second latest
// terminated status.
{
containers: []v1.Container{{Name: "without-reason"}, {Name: "with-reason"}},
statuses: []*kubecontainer.ContainerStatus{
{
Name: "without-reason",
State: kubecontainer.ContainerStateExited,
ExitCode: 1,
},
{
Name: "with-reason",
State: kubecontainer.ContainerStateExited,
ExitCode: 2,
},
{
Name: "without-reason",
State: kubecontainer.ContainerStateExited,
ExitCode: 3,
},
{
Name: "with-reason",
State: kubecontainer.ContainerStateExited,
ExitCode: 4,
},
{
Name: "succeed",
State: kubecontainer.ContainerStateExited,
ExitCode: 0,
},
{
Name: "succeed",
State: kubecontainer.ContainerStateExited,
ExitCode: 5,
},
},
reasons: map[string]error{"with-reason": testErrorReason, "succeed": testErrorReason},
oldStatuses: []v1.ContainerStatus{},
expectedState: map[string]v1.ContainerState{
"without-reason": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
"with-reason": {Waiting: &v1.ContainerStateWaiting{Reason: testErrorReason.Error()}},
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 0,
ContainerID: emptyContainerID,
}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"without-reason": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 3,
ContainerID: emptyContainerID,
}},
"with-reason": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 2,
ContainerID: emptyContainerID,
}},
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 5,
ContainerID: emptyContainerID,
}},
},
},
}
for i, test := range tests {
kubelet.reasonCache = NewReasonCache()
for n, e := range test.reasons {
kubelet.reasonCache.add(pod.UID, n, e, "")
}
pod.Spec.Containers = test.containers
pod.Status.ContainerStatuses = test.oldStatuses
podStatus.ContainerStatuses = test.statuses
apiStatus := kubelet.generateAPIPodStatus(pod, podStatus)
verifyContainerStatuses(t, apiStatus.ContainerStatuses, test.expectedState, test.expectedLastTerminationState, fmt.Sprintf("case %d", i))
}
// Everything should be the same for init containers
for i, test := range tests {
kubelet.reasonCache = NewReasonCache()
for n, e := range test.reasons {
kubelet.reasonCache.add(pod.UID, n, e, "")
}
pod.Spec.InitContainers = test.containers
pod.Status.InitContainerStatuses = test.oldStatuses
podStatus.ContainerStatuses = test.statuses
apiStatus := kubelet.generateAPIPodStatus(pod, podStatus)
expectedState := test.expectedState
if test.expectedInitState != nil {
expectedState = test.expectedInitState
}
verifyContainerStatuses(t, apiStatus.InitContainerStatuses, expectedState, test.expectedLastTerminationState, fmt.Sprintf("case %d", i))
}
}
// Test generateAPIPodStatus with different restart policies.
func TestGenerateAPIPodStatusWithDifferentRestartPolicies(t *testing.T) {
testErrorReason := fmt.Errorf("test-error")
emptyContainerID := (&kubecontainer.ContainerID{}).String()
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
pod := podWithUIDNameNs("12345678", "foo", "new")
containers := []v1.Container{{Name: "succeed"}, {Name: "failed"}}
podStatus := &kubecontainer.PodStatus{
ID: pod.UID,
Name: pod.Name,
Namespace: pod.Namespace,
ContainerStatuses: []*kubecontainer.ContainerStatus{
{
Name: "succeed",
State: kubecontainer.ContainerStateExited,
ExitCode: 0,
},
{
Name: "failed",
State: kubecontainer.ContainerStateExited,
ExitCode: 1,
},
{
Name: "succeed",
State: kubecontainer.ContainerStateExited,
ExitCode: 2,
},
{
Name: "failed",
State: kubecontainer.ContainerStateExited,
ExitCode: 3,
},
},
}
kubelet.reasonCache.add(pod.UID, "succeed", testErrorReason, "")
kubelet.reasonCache.add(pod.UID, "failed", testErrorReason, "")
for c, test := range []struct {
restartPolicy v1.RestartPolicy
expectedState map[string]v1.ContainerState
expectedLastTerminationState map[string]v1.ContainerState
// Only set expectedInitState when it is different from expectedState
expectedInitState map[string]v1.ContainerState
// Only set expectedInitLastTerminationState when it is different from expectedLastTerminationState
expectedInitLastTerminationState map[string]v1.ContainerState
}{
{
restartPolicy: v1.RestartPolicyNever,
expectedState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 0,
ContainerID: emptyContainerID,
}},
"failed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 2,
ContainerID: emptyContainerID,
}},
"failed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 3,
ContainerID: emptyContainerID,
}},
},
},
{
restartPolicy: v1.RestartPolicyOnFailure,
expectedState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 0,
ContainerID: emptyContainerID,
}},
"failed": {Waiting: &v1.ContainerStateWaiting{Reason: testErrorReason.Error()}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 2,
ContainerID: emptyContainerID,
}},
"failed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
},
},
{
restartPolicy: v1.RestartPolicyAlways,
expectedState: map[string]v1.ContainerState{
"succeed": {Waiting: &v1.ContainerStateWaiting{Reason: testErrorReason.Error()}},
"failed": {Waiting: &v1.ContainerStateWaiting{Reason: testErrorReason.Error()}},
},
expectedLastTerminationState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 0,
ContainerID: emptyContainerID,
}},
"failed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
},
// If the init container is terminated with exit code 0, it won't be restarted even when the
// restart policy is RestartAlways.
expectedInitState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 0,
ContainerID: emptyContainerID,
}},
"failed": {Waiting: &v1.ContainerStateWaiting{Reason: testErrorReason.Error()}},
},
expectedInitLastTerminationState: map[string]v1.ContainerState{
"succeed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 2,
ContainerID: emptyContainerID,
}},
"failed": {Terminated: &v1.ContainerStateTerminated{
ExitCode: 1,
ContainerID: emptyContainerID,
}},
},
},
} {
pod.Spec.RestartPolicy = test.restartPolicy
// Test normal containers
pod.Spec.Containers = containers
apiStatus := kubelet.generateAPIPodStatus(pod, podStatus)
expectedState, expectedLastTerminationState := test.expectedState, test.expectedLastTerminationState
verifyContainerStatuses(t, apiStatus.ContainerStatuses, expectedState, expectedLastTerminationState, fmt.Sprintf("case %d", c))
pod.Spec.Containers = nil
// Test init containers
pod.Spec.InitContainers = containers
apiStatus = kubelet.generateAPIPodStatus(pod, podStatus)
if test.expectedInitState != nil {
expectedState = test.expectedInitState
}
if test.expectedInitLastTerminationState != nil {
expectedLastTerminationState = test.expectedInitLastTerminationState
}
verifyContainerStatuses(t, apiStatus.InitContainerStatuses, expectedState, expectedLastTerminationState, fmt.Sprintf("case %d", c))
pod.Spec.InitContainers = nil
}
}
// testPodAdmitHandler is a lifecycle.PodAdmitHandler for testing.
type testPodAdmitHandler struct {
// list of pods to reject.
podsToReject []*v1.Pod
}
// Admit rejects all pods in the podsToReject list with a matching UID.
func (a *testPodAdmitHandler) Admit(attrs *lifecycle.PodAdmitAttributes) lifecycle.PodAdmitResult {
for _, podToReject := range a.podsToReject {
if podToReject.UID == attrs.Pod.UID {
return lifecycle.PodAdmitResult{Admit: false, Reason: "Rejected", Message: "Pod is rejected"}
}
}
return lifecycle.PodAdmitResult{Admit: true}
}
// Test verifies that the kubelet invokes an admission handler during HandlePodAdditions.
func TestHandlePodAdditionsInvokesPodAdmitHandlers(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
kl.nodeInfo = testNodeInfo{nodes: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{Name: string(kl.nodeName)},
Status: v1.NodeStatus{
Allocatable: v1.ResourceList{
v1.ResourcePods: *resource.NewQuantity(110, resource.DecimalSI),
},
},
},
}}
pods := []*v1.Pod{
{
ObjectMeta: metav1.ObjectMeta{
UID: "123456789",
Name: "podA",
Namespace: "foo",
},
},
{
ObjectMeta: metav1.ObjectMeta{
UID: "987654321",
Name: "podB",
Namespace: "foo",
},
},
}
podToReject := pods[0]
podToAdmit := pods[1]
podsToReject := []*v1.Pod{podToReject}
kl.admitHandlers.AddPodAdmitHandler(&testPodAdmitHandler{podsToReject: podsToReject})
kl.HandlePodAdditions(pods)
// Check pod status stored in the status map.
checkPodStatus(t, kl, podToReject, v1.PodFailed)
checkPodStatus(t, kl, podToAdmit, v1.PodPending)
}
// testPodSyncLoopHandler is a lifecycle.PodSyncLoopHandler that is used for testing.
type testPodSyncLoopHandler struct {
// list of pods to sync
podsToSync []*v1.Pod
}
// ShouldSync evaluates if the pod should be synced from the kubelet.
func (a *testPodSyncLoopHandler) ShouldSync(pod *v1.Pod) bool {
for _, podToSync := range a.podsToSync {
if podToSync.UID == pod.UID {
return true
}
}
return false
}
// TestGetPodsToSyncInvokesPodSyncLoopHandlers ensures that the get pods to sync routine invokes the handler.
func TestGetPodsToSyncInvokesPodSyncLoopHandlers(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
pods := newTestPods(5)
expected := []*v1.Pod{pods[0]}
kubelet.AddPodSyncLoopHandler(&testPodSyncLoopHandler{expected})
kubelet.podManager.SetPods(pods)
podsToSync := kubelet.getPodsToSync()
sort.Sort(podsByUID(expected))
sort.Sort(podsByUID(podsToSync))
assert.Equal(t, expected, podsToSync)
}
// testPodSyncHandler is a lifecycle.PodSyncHandler that is used for testing.
type testPodSyncHandler struct {
// list of pods to evict.
podsToEvict []*v1.Pod
// the reason for the eviction
reason string
// the message for the eviction
message string
}
// ShouldEvict evaluates if the pod should be evicted from the kubelet.
func (a *testPodSyncHandler) ShouldEvict(pod *v1.Pod) lifecycle.ShouldEvictResponse {
for _, podToEvict := range a.podsToEvict {
if podToEvict.UID == pod.UID {
return lifecycle.ShouldEvictResponse{Evict: true, Reason: a.reason, Message: a.message}
}
}
return lifecycle.ShouldEvictResponse{Evict: false}
}
// TestGenerateAPIPodStatusInvokesPodSyncHandlers invokes the handlers and reports the proper status
func TestGenerateAPIPodStatusInvokesPodSyncHandlers(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kubelet := testKubelet.kubelet
pod := newTestPods(1)[0]
podsToEvict := []*v1.Pod{pod}
kubelet.AddPodSyncHandler(&testPodSyncHandler{podsToEvict, "Evicted", "because"})
status := &kubecontainer.PodStatus{
ID: pod.UID,
Name: pod.Name,
Namespace: pod.Namespace,
}
apiStatus := kubelet.generateAPIPodStatus(pod, status)
require.Equal(t, v1.PodFailed, apiStatus.Phase)
require.Equal(t, "Evicted", apiStatus.Reason)
require.Equal(t, "because", apiStatus.Message)
}
func TestSyncPodKillPod(t *testing.T) {
testKubelet := newTestKubelet(t, false /* controllerAttachDetachEnabled */)
defer testKubelet.Cleanup()
kl := testKubelet.kubelet
pod := &v1.Pod{
ObjectMeta: metav1.ObjectMeta{
UID: "12345678",
Name: "bar",
Namespace: "foo",
},
}
pods := []*v1.Pod{pod}
kl.podManager.SetPods(pods)
gracePeriodOverride := int64(0)
err := kl.syncPod(syncPodOptions{
pod: pod,
podStatus: &kubecontainer.PodStatus{},
updateType: kubetypes.SyncPodKill,
killPodOptions: &KillPodOptions{
PodStatusFunc: func(p *v1.Pod, podStatus *kubecontainer.PodStatus) v1.PodStatus {
return v1.PodStatus{
Phase: v1.PodFailed,
Reason: "reason",
Message: "message",
}
},
PodTerminationGracePeriodSecondsOverride: &gracePeriodOverride,
},
})
require.NoError(t, err)
// Check pod status stored in the status map.
checkPodStatus(t, kl, pod, v1.PodFailed)
}
func waitForVolumeUnmount(
volumeManager kubeletvolume.VolumeManager,
pod *v1.Pod) error {
var podVolumes kubecontainer.VolumeMap
err := retryWithExponentialBackOff(
time.Duration(50*time.Millisecond),
func() (bool, error) {
// Verify volumes detached
podVolumes = volumeManager.GetMountedVolumesForPod(
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util.GetUniquePodName(pod))
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if len(podVolumes) != 0 {
return false, nil
}
return true, nil
},
)
if err != nil {
return fmt.Errorf(
"Expected volumes to be unmounted. But some volumes are still mounted: %#v", podVolumes)
}
return nil
}
func waitForVolumeDetach(
volumeName v1.UniqueVolumeName,
volumeManager kubeletvolume.VolumeManager) error {
attachedVolumes := []v1.UniqueVolumeName{}
err := retryWithExponentialBackOff(
time.Duration(50*time.Millisecond),
func() (bool, error) {
// Verify volumes detached
volumeAttached := volumeManager.VolumeIsAttached(volumeName)
return !volumeAttached, nil
},
)
if err != nil {
return fmt.Errorf(
"Expected volumes to be detached. But some volumes are still attached: %#v", attachedVolumes)
}
return nil
}
func retryWithExponentialBackOff(initialDuration time.Duration, fn wait.ConditionFunc) error {
backoff := wait.Backoff{
Duration: initialDuration,
Factor: 3,
Jitter: 0,
Steps: 6,
}
return wait.ExponentialBackoff(backoff, fn)
}
func simulateVolumeInUseUpdate(
volumeName v1.UniqueVolumeName,
stopCh <-chan struct{},
volumeManager kubeletvolume.VolumeManager) {
ticker := time.NewTicker(100 * time.Millisecond)
defer ticker.Stop()
for {
select {
case <-ticker.C:
volumeManager.MarkVolumesAsReportedInUse(
[]v1.UniqueVolumeName{volumeName})
case <-stopCh:
return
}
}
}
func runVolumeManager(kubelet *Kubelet) chan struct{} {
stopCh := make(chan struct{})
go kubelet.volumeManager.Run(kubelet.sourcesReady, stopCh)
return stopCh
}
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func forEachFeatureGate(t *testing.T, fs []utilfeature.Feature, tf func(t *testing.T)) {
for _, fg := range fs {
func() {
enabled := utilfeature.DefaultFeatureGate.Enabled(fg)
defer func() {
utilfeature.DefaultFeatureGate.Set(fmt.Sprintf("%v=%t", fg, enabled))
}()
for _, f := range []bool{true, false} {
utilfeature.DefaultFeatureGate.Set(fmt.Sprintf("%v=%t", fg, f))
t.Run(fmt.Sprintf("%v(%t)", fg, f), tf)
}
}()
}
}
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// Sort pods by UID.
type podsByUID []*v1.Pod
func (p podsByUID) Len() int { return len(p) }
func (p podsByUID) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p podsByUID) Less(i, j int) bool { return p[i].UID < p[j].UID }