github/kubernetes
4
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
b2fb0f77ad
kubernetes/pkg/controller/controller_utils_test.go
Miciah Masters 980b6406b2 Prefer to delete doubled-up pods of a ReplicaSet 
When scaling down a ReplicaSet, delete doubled up replicas first, where a
"doubled up replica" is defined as one that is on the same node as an
active replica belonging to a related ReplicaSet.  ReplicaSets are
considered "related" if they have a common controller (typically a
Deployment).

The intention of this change is to make a rolling update of a Deployment
scale down the old ReplicaSet as it scales up the new ReplicaSet by
deleting pods from the old ReplicaSet that are colocated with ready pods of
the new ReplicaSet.  This change in the behavior of rolling updates can be
combined with pod affinity rules to preserve the locality of a Deployment's
pods over rollout.

A specific scenario that benefits from this change is when a Deployment's
pods are exposed by a Service that has type "LoadBalancer" and external
traffic policy "Local".  In this scenario, the load balancer uses health
checks to determine whether it should forward traffic for the Service to a
particular node.  If the node has no local endpoints for the Service, the
health check will fail for that node.  Eventually, the load balancer will
stop forwarding traffic to that node.  In the meantime, the service proxy
drops traffic for that Service.  Thus, in order to reduce risk of dropping
traffic during a rolling update, it is desirable preserve node locality of
endpoints.

* pkg/controller/controller_utils.go (ActivePodsWithRanks): New type to
sort pods using a given ranking.
* pkg/controller/controller_utils_test.go (TestSortingActivePodsWithRanks):
New test for ActivePodsWithRanks.
* pkg/controller/replicaset/replica_set.go
(getReplicaSetsWithSameController): New method.  Given a ReplicaSet, return
all ReplicaSets that have the same owner.
(manageReplicas): Call getIndirectlyRelatedPods, and pass its result to
getPodsToDelete.
(getIndirectlyRelatedPods): New method.  Given a ReplicaSet, return all
pods that are owned by any ReplicaSet with the same owner.
(getPodsToDelete): Add an argument for related pods.  Use related pods and
the new getPodsRankedByRelatedPodsOnSameNode function to take into account
whether a pod is doubled up when sorting pods for deletion.
(getPodsRankedByRelatedPodsOnSameNode): New function.  Return an
ActivePodsWithRanks value that wraps the given slice of pods and computes
ranks where each pod's rank is equal to the number of active related pods
that are colocated on the same node.
* pkg/controller/replicaset/replica_set_test.go (newReplicaSet): Set
OwnerReferences on the ReplicaSet.
(newPod): Set a unique UID on the pod.
(byName): New type to sort pods by name.
(TestGetReplicaSetsWithSameController): New test for
getReplicaSetsWithSameController.
(TestRelatedPodsLookup): New test for getIndirectlyRelatedPods.
(TestGetPodsToDelete): Augment the "various pod phases and conditions, diff
= len(pods)" test case to ensure that scale-down still selects doubled-up
pods if there are not enough other pods to scale down.  Add a "various pod
phases and conditions, diff = len(pods), relatedPods empty" test case to
verify that getPodsToDelete works even if related pods could not be
determined.  Add a "ready and colocated with another ready pod vs not
colocated, diff < len(pods)" test case to verify that a doubled-up pod gets
preferred for deletion.  Augment the "various pod phases and conditions,
diff < len(pods)" test case to ensure that not-ready pods are preferred
over ready but doubled-up pods.
* pkg/controller/replicaset/BUILD: Regenerate.
* test/e2e/apps/deployment.go
(testRollingUpdateDeploymentWithLocalTrafficLoadBalancer): New end-to-end
test.  Create a deployment with a rolling update strategy and affinity
rules and a load balancer with "Local" external traffic policy, and verify
that set of nodes with local endponts for the service remains unchanged
during rollouts.
(setAffinity): New helper, used by
testRollingUpdateDeploymentWithLocalTrafficLoadBalancer.
* test/e2e/framework/service/jig.go (GetEndpointNodes): Factor building the
set of node names out...
(GetEndpointNodeNames): ...into this new method.
2019-10-17 11:52:32 -04:00

925 lines
30 KiB
Go
Raw Blame History

/*
Copyright 2015 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 controller
import (
"encoding/json"
"fmt"
"math"
"math/rand"
"net/http/httptest"
"sort"
"sync"
"testing"
"time"
apps "k8s.io/api/apps/v1"
"k8s.io/api/core/v1"
apiequality "k8s.io/apimachinery/pkg/api/equality"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/util/clock"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/apimachinery/pkg/util/uuid"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/client-go/kubernetes/fake"
restclient "k8s.io/client-go/rest"
"k8s.io/client-go/tools/cache"
"k8s.io/client-go/tools/record"
utiltesting "k8s.io/client-go/util/testing"
"k8s.io/kubernetes/pkg/api/testapi"
_ "k8s.io/kubernetes/pkg/apis/core/install"
"k8s.io/kubernetes/pkg/controller/testutil"
"k8s.io/kubernetes/pkg/securitycontext"
"github.com/stretchr/testify/assert"
)
// NewFakeControllerExpectationsLookup creates a fake store for PodExpectations.
func NewFakeControllerExpectationsLookup(ttl time.Duration) (*ControllerExpectations, *clock.FakeClock) {
fakeTime := time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC)
fakeClock := clock.NewFakeClock(fakeTime)
ttlPolicy := &cache.TTLPolicy{TTL: ttl, Clock: fakeClock}
ttlStore := cache.NewFakeExpirationStore(
ExpKeyFunc, nil, ttlPolicy, fakeClock)
return &ControllerExpectations{ttlStore}, fakeClock
}
func newReplicationController(replicas int) *v1.ReplicationController {
rc := &v1.ReplicationController{
TypeMeta: metav1.TypeMeta{APIVersion: "v1"},
ObjectMeta: metav1.ObjectMeta{
UID: uuid.NewUUID(),
Name: "foobar",
Namespace: metav1.NamespaceDefault,
ResourceVersion: "18",
},
Spec: v1.ReplicationControllerSpec{
Replicas: func() *int32 { i := int32(replicas); return &i }(),
Selector: map[string]string{"foo": "bar"},
Template: &v1.PodTemplateSpec{
ObjectMeta: metav1.ObjectMeta{
Labels: map[string]string{
"name": "foo",
"type": "production",
},
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{
Image: "foo/bar",
TerminationMessagePath: v1.TerminationMessagePathDefault,
ImagePullPolicy: v1.PullIfNotPresent,
SecurityContext: securitycontext.ValidSecurityContextWithContainerDefaults(),
},
},
RestartPolicy: v1.RestartPolicyAlways,
DNSPolicy: v1.DNSDefault,
NodeSelector: map[string]string{
"baz": "blah",
},
},
},
},
}
return rc
}
// create count pods with the given phase for the given rc (same selectors and namespace), and add them to the store.
func newPodList(store cache.Store, count int, status v1.PodPhase, rc *v1.ReplicationController) *v1.PodList {
pods := []v1.Pod{}
for i := 0; i < count; i++ {
newPod := v1.Pod{
ObjectMeta: metav1.ObjectMeta{
Name: fmt.Sprintf("pod%d", i),
Labels: rc.Spec.Selector,
Namespace: rc.Namespace,
},
Status: v1.PodStatus{Phase: status},
}
if store != nil {
store.Add(&newPod)
}
pods = append(pods, newPod)
}
return &v1.PodList{
Items: pods,
}
}
func newReplicaSet(name string, replicas int) *apps.ReplicaSet {
return &apps.ReplicaSet{
TypeMeta: metav1.TypeMeta{APIVersion: "v1"},
ObjectMeta: metav1.ObjectMeta{
UID: uuid.NewUUID(),
Name: name,
Namespace: metav1.NamespaceDefault,
ResourceVersion: "18",
},
Spec: apps.ReplicaSetSpec{
Replicas: func() *int32 { i := int32(replicas); return &i }(),
Selector: &metav1.LabelSelector{MatchLabels: map[string]string{"foo": "bar"}},
Template: v1.PodTemplateSpec{
ObjectMeta: metav1.ObjectMeta{
Labels: map[string]string{
"name": "foo",
"type": "production",
},
},
Spec: v1.PodSpec{
Containers: []v1.Container{
{
Image: "foo/bar",
TerminationMessagePath: v1.TerminationMessagePathDefault,
ImagePullPolicy: v1.PullIfNotPresent,
SecurityContext: securitycontext.ValidSecurityContextWithContainerDefaults(),
},
},
RestartPolicy: v1.RestartPolicyAlways,
DNSPolicy: v1.DNSDefault,
NodeSelector: map[string]string{
"baz": "blah",
},
},
},
},
}
}
func TestControllerExpectations(t *testing.T) {
ttl := 30 * time.Second
e, fakeClock := NewFakeControllerExpectationsLookup(ttl)
// In practice we can't really have add and delete expectations since we only either create or
// delete replicas in one rc pass, and the rc goes to sleep soon after until the expectations are
// either fulfilled or timeout.
adds, dels := 10, 30
rc := newReplicationController(1)
// RC fires off adds and deletes at apiserver, then sets expectations
rcKey, err := KeyFunc(rc)
assert.NoError(t, err, "Couldn't get key for object %#v: %v", rc, err)
e.SetExpectations(rcKey, adds, dels)
var wg sync.WaitGroup
for i := 0; i < adds+1; i++ {
wg.Add(1)
go func() {
// In prod this can happen either because of a failed create by the rc
// or after having observed a create via informer
e.CreationObserved(rcKey)
wg.Done()
}()
}
wg.Wait()
// There are still delete expectations
assert.False(t, e.SatisfiedExpectations(rcKey), "Rc will sync before expectations are met")
for i := 0; i < dels+1; i++ {
wg.Add(1)
go func() {
e.DeletionObserved(rcKey)
wg.Done()
}()
}
wg.Wait()
// Expectations have been surpassed
podExp, exists, err := e.GetExpectations(rcKey)
assert.NoError(t, err, "Could not get expectations for rc, exists %v and err %v", exists, err)
assert.True(t, exists, "Could not get expectations for rc, exists %v and err %v", exists, err)
add, del := podExp.GetExpectations()
assert.Equal(t, int64(-1), add, "Unexpected pod expectations %#v", podExp)
assert.Equal(t, int64(-1), del, "Unexpected pod expectations %#v", podExp)
assert.True(t, e.SatisfiedExpectations(rcKey), "Expectations are met but the rc will not sync")
// Next round of rc sync, old expectations are cleared
e.SetExpectations(rcKey, 1, 2)
podExp, exists, err = e.GetExpectations(rcKey)
assert.NoError(t, err, "Could not get expectations for rc, exists %v and err %v", exists, err)
assert.True(t, exists, "Could not get expectations for rc, exists %v and err %v", exists, err)
add, del = podExp.GetExpectations()
assert.Equal(t, int64(1), add, "Unexpected pod expectations %#v", podExp)
assert.Equal(t, int64(2), del, "Unexpected pod expectations %#v", podExp)
// Expectations have expired because of ttl
fakeClock.Step(ttl + 1)
assert.True(t, e.SatisfiedExpectations(rcKey),
"Expectations should have expired but didn't")
}
func TestUIDExpectations(t *testing.T) {
uidExp := NewUIDTrackingControllerExpectations(NewControllerExpectations())
rcList := []*v1.ReplicationController{
newReplicationController(2),
newReplicationController(1),
newReplicationController(0),
newReplicationController(5),
}
rcToPods := map[string][]string{}
rcKeys := []string{}
for i := range rcList {
rc := rcList[i]
rcName := fmt.Sprintf("rc-%v", i)
rc.Name = rcName
rc.Spec.Selector[rcName] = rcName
podList := newPodList(nil, 5, v1.PodRunning, rc)
rcKey, err := KeyFunc(rc)
if err != nil {
t.Fatalf("Couldn't get key for object %#v: %v", rc, err)
}
rcKeys = append(rcKeys, rcKey)
rcPodNames := []string{}
for i := range podList.Items {
p := &podList.Items[i]
p.Name = fmt.Sprintf("%v-%v", p.Name, rc.Name)
rcPodNames = append(rcPodNames, PodKey(p))
}
rcToPods[rcKey] = rcPodNames
uidExp.ExpectDeletions(rcKey, rcPodNames)
}
for i := range rcKeys {
j := rand.Intn(i + 1)
rcKeys[i], rcKeys[j] = rcKeys[j], rcKeys[i]
}
for _, rcKey := range rcKeys {
assert.False(t, uidExp.SatisfiedExpectations(rcKey),
"Controller %v satisfied expectations before deletion", rcKey)
for _, p := range rcToPods[rcKey] {
uidExp.DeletionObserved(rcKey, p)
}
assert.True(t, uidExp.SatisfiedExpectations(rcKey),
"Controller %v didn't satisfy expectations after deletion", rcKey)
uidExp.DeleteExpectations(rcKey)
assert.Nil(t, uidExp.GetUIDs(rcKey),
"Failed to delete uid expectations for %v", rcKey)
}
}
func TestCreatePods(t *testing.T) {
ns := metav1.NamespaceDefault
body := runtime.EncodeOrDie(testapi.Default.Codec(), &v1.Pod{ObjectMeta: metav1.ObjectMeta{Name: "empty_pod"}})
fakeHandler := utiltesting.FakeHandler{
StatusCode: 200,
ResponseBody: string(body),
}
testServer := httptest.NewServer(&fakeHandler)
defer testServer.Close()
clientset := clientset.NewForConfigOrDie(&restclient.Config{Host: testServer.URL, ContentConfig: restclient.ContentConfig{GroupVersion: &schema.GroupVersion{Group: "", Version: "v1"}}})
podControl := RealPodControl{
KubeClient: clientset,
Recorder: &record.FakeRecorder{},
}
controllerSpec := newReplicationController(1)
// Make sure createReplica sends a POST to the apiserver with a pod from the controllers pod template
err := podControl.CreatePods(ns, controllerSpec.Spec.Template, controllerSpec)
assert.NoError(t, err, "unexpected error: %v", err)
expectedPod := v1.Pod{
ObjectMeta: metav1.ObjectMeta{
Labels: controllerSpec.Spec.Template.Labels,
GenerateName: fmt.Sprintf("%s-", controllerSpec.Name),
},
Spec: controllerSpec.Spec.Template.Spec,
}
fakeHandler.ValidateRequest(t, testapi.Default.ResourcePath("pods", metav1.NamespaceDefault, ""), "POST", nil)
var actualPod = &v1.Pod{}
err = json.Unmarshal([]byte(fakeHandler.RequestBody), actualPod)
assert.NoError(t, err, "unexpected error: %v", err)
assert.True(t, apiequality.Semantic.DeepDerivative(&expectedPod, actualPod),
"Body: %s", fakeHandler.RequestBody)
}
func TestDeletePodsAllowsMissing(t *testing.T) {
fakeClient := fake.NewSimpleClientset()
podControl := RealPodControl{
KubeClient: fakeClient,
Recorder: &record.FakeRecorder{},
}
controllerSpec := newReplicationController(1)
err := podControl.DeletePod("namespace-name", "podName", controllerSpec)
assert.NoError(t, err, "unexpected error: %v", err)
}
func TestActivePodFiltering(t *testing.T) {
// This rc is not needed by the test, only the newPodList to give the pods labels/a namespace.
rc := newReplicationController(0)
podList := newPodList(nil, 5, v1.PodRunning, rc)
podList.Items[0].Status.Phase = v1.PodSucceeded
podList.Items[1].Status.Phase = v1.PodFailed
expectedNames := sets.NewString()
for _, pod := range podList.Items[2:] {
expectedNames.Insert(pod.Name)
}
var podPointers []*v1.Pod
for i := range podList.Items {
podPointers = append(podPointers, &podList.Items[i])
}
got := FilterActivePods(podPointers)
gotNames := sets.NewString()
for _, pod := range got {
gotNames.Insert(pod.Name)
}
assert.Equal(t, 0, expectedNames.Difference(gotNames).Len(),
"expected %v, got %v", expectedNames.List(), gotNames.List())
assert.Equal(t, 0, gotNames.Difference(expectedNames).Len(),
"expected %v, got %v", expectedNames.List(), gotNames.List())
}
func TestSortingActivePods(t *testing.T) {
numPods := 9
// This rc is not needed by the test, only the newPodList to give the pods labels/a namespace.
rc := newReplicationController(0)
podList := newPodList(nil, numPods, v1.PodRunning, rc)
pods := make([]*v1.Pod, len(podList.Items))
for i := range podList.Items {
pods[i] = &podList.Items[i]
}
// pods[0] is not scheduled yet.
pods[0].Spec.NodeName = ""
pods[0].Status.Phase = v1.PodPending
// pods[1] is scheduled but pending.
pods[1].Spec.NodeName = "bar"
pods[1].Status.Phase = v1.PodPending
// pods[2] is unknown.
pods[2].Spec.NodeName = "foo"
pods[2].Status.Phase = v1.PodUnknown
// pods[3] is running but not ready.
pods[3].Spec.NodeName = "foo"
pods[3].Status.Phase = v1.PodRunning
// pods[4] is running and ready but without LastTransitionTime.
now := metav1.Now()
pods[4].Spec.NodeName = "foo"
pods[4].Status.Phase = v1.PodRunning
pods[4].Status.Conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue}}
pods[4].Status.ContainerStatuses = []v1.ContainerStatus{{RestartCount: 3}, {RestartCount: 0}}
// pods[5] is running and ready and with LastTransitionTime.
pods[5].Spec.NodeName = "foo"
pods[5].Status.Phase = v1.PodRunning
pods[5].Status.Conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue, LastTransitionTime: now}}
pods[5].Status.ContainerStatuses = []v1.ContainerStatus{{RestartCount: 3}, {RestartCount: 0}}
// pods[6] is running ready for a longer time than pods[5].
then := metav1.Time{Time: now.AddDate(0, -1, 0)}
pods[6].Spec.NodeName = "foo"
pods[6].Status.Phase = v1.PodRunning
pods[6].Status.Conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue, LastTransitionTime: then}}
pods[6].Status.ContainerStatuses = []v1.ContainerStatus{{RestartCount: 3}, {RestartCount: 0}}
// pods[7] has lower container restart count than pods[6].
pods[7].Spec.NodeName = "foo"
pods[7].Status.Phase = v1.PodRunning
pods[7].Status.Conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue, LastTransitionTime: then}}
pods[7].Status.ContainerStatuses = []v1.ContainerStatus{{RestartCount: 2}, {RestartCount: 1}}
pods[7].CreationTimestamp = now
// pods[8] is older than pods[7].
pods[8].Spec.NodeName = "foo"
pods[8].Status.Phase = v1.PodRunning
pods[8].Status.Conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue, LastTransitionTime: then}}
pods[8].Status.ContainerStatuses = []v1.ContainerStatus{{RestartCount: 2}, {RestartCount: 1}}
pods[8].CreationTimestamp = then
getOrder := func(pods []*v1.Pod) []string {
names := make([]string, len(pods))
for i := range pods {
names[i] = pods[i].Name
}
return names
}
expected := getOrder(pods)
for i := 0; i < 20; i++ {
idx := rand.Perm(numPods)
randomizedPods := make([]*v1.Pod, numPods)
for j := 0; j < numPods; j++ {
randomizedPods[j] = pods[idx[j]]
}
sort.Sort(ActivePods(randomizedPods))
actual := getOrder(randomizedPods)
assert.EqualValues(t, expected, actual, "expected %v, got %v", expected, actual)
}
}
func TestSortingActivePodsWithRanks(t *testing.T) {
now := metav1.Now()
then := metav1.Time{Time: now.AddDate(0, -1, 0)}
zeroTime := metav1.Time{}
pod := func(podName, nodeName string, phase v1.PodPhase, ready bool, restarts int32, readySince metav1.Time, created metav1.Time) *v1.Pod {
var conditions []v1.PodCondition
var containerStatuses []v1.ContainerStatus
if ready {
conditions = []v1.PodCondition{{Type: v1.PodReady, Status: v1.ConditionTrue, LastTransitionTime: readySince}}
containerStatuses = []v1.ContainerStatus{{RestartCount: restarts}}
}
return &v1.Pod{
ObjectMeta: metav1.ObjectMeta{
CreationTimestamp: created,
Name: podName,
},
Spec: v1.PodSpec{NodeName: nodeName},
Status: v1.PodStatus{
Conditions: conditions,
ContainerStatuses: containerStatuses,
Phase: phase,
},
}
}
var (
unscheduledPod = pod("unscheduled", "", v1.PodPending, false, 0, zeroTime, zeroTime)
scheduledPendingPod = pod("pending", "node", v1.PodPending, false, 0, zeroTime, zeroTime)
unknownPhasePod = pod("unknown-phase", "node", v1.PodUnknown, false, 0, zeroTime, zeroTime)
runningNotReadyPod = pod("not-ready", "node", v1.PodRunning, false, 0, zeroTime, zeroTime)
runningReadyNoLastTransitionTimePod = pod("ready-no-last-transition-time", "node", v1.PodRunning, true, 0, zeroTime, zeroTime)
runningReadyNow = pod("ready-now", "node", v1.PodRunning, true, 0, now, now)
runningReadyThen = pod("ready-then", "node", v1.PodRunning, true, 0, then, then)
runningReadyNowHighRestarts = pod("ready-high-restarts", "node", v1.PodRunning, true, 9001, now, now)
runningReadyNowCreatedThen = pod("ready-now-created-then", "node", v1.PodRunning, true, 0, now, then)
)
equalityTests := []*v1.Pod{
unscheduledPod,
scheduledPendingPod,
unknownPhasePod,
runningNotReadyPod,
runningReadyNowCreatedThen,
runningReadyNow,
runningReadyThen,
runningReadyNowHighRestarts,
runningReadyNowCreatedThen,
}
for _, pod := range equalityTests {
podsWithRanks := ActivePodsWithRanks{
Pods: []*v1.Pod{pod, pod},
Rank: []int{1, 1},
}
if podsWithRanks.Less(0, 1) || podsWithRanks.Less(1, 0) {
t.Errorf("expected pod %q not to be less than than itself", pod.Name)
}
}
type podWithRank struct {
pod *v1.Pod
rank int
}
inequalityTests := []struct {
lesser, greater podWithRank
}{
{podWithRank{unscheduledPod, 1}, podWithRank{scheduledPendingPod, 2}},
{podWithRank{unscheduledPod, 2}, podWithRank{scheduledPendingPod, 1}},
{podWithRank{scheduledPendingPod, 1}, podWithRank{unknownPhasePod, 2}},
{podWithRank{unknownPhasePod, 1}, podWithRank{runningNotReadyPod, 2}},
{podWithRank{runningNotReadyPod, 1}, podWithRank{runningReadyNoLastTransitionTimePod, 1}},
{podWithRank{runningReadyNoLastTransitionTimePod, 1}, podWithRank{runningReadyNow, 1}},
{podWithRank{runningReadyNow, 2}, podWithRank{runningReadyNoLastTransitionTimePod, 1}},
{podWithRank{runningReadyNow, 1}, podWithRank{runningReadyThen, 1}},
{podWithRank{runningReadyNow, 2}, podWithRank{runningReadyThen, 1}},
{podWithRank{runningReadyNowHighRestarts, 1}, podWithRank{runningReadyNow, 1}},
{podWithRank{runningReadyNow, 2}, podWithRank{runningReadyNowHighRestarts, 1}},
{podWithRank{runningReadyNow, 1}, podWithRank{runningReadyNowCreatedThen, 1}},
{podWithRank{runningReadyNowCreatedThen, 2}, podWithRank{runningReadyNow, 1}},
}
for _, test := range inequalityTests {
podsWithRanks := ActivePodsWithRanks{
Pods: []*v1.Pod{test.lesser.pod, test.greater.pod},
Rank: []int{test.lesser.rank, test.greater.rank},
}
if !podsWithRanks.Less(0, 1) {
t.Errorf("expected pod %q with rank %v to be less than %q with rank %v", podsWithRanks.Pods[0].Name, podsWithRanks.Rank[0], podsWithRanks.Pods[1].Name, podsWithRanks.Rank[1])
}
if podsWithRanks.Less(1, 0) {
t.Errorf("expected pod %q with rank %v not to be less than %v with rank %v", podsWithRanks.Pods[1].Name, podsWithRanks.Rank[1], podsWithRanks.Pods[0].Name, podsWithRanks.Rank[0])
}
}
}
func TestActiveReplicaSetsFiltering(t *testing.T) {
var replicaSets []*apps.ReplicaSet
replicaSets = append(replicaSets, newReplicaSet("zero", 0))
replicaSets = append(replicaSets, nil)
replicaSets = append(replicaSets, newReplicaSet("foo", 1))
replicaSets = append(replicaSets, newReplicaSet("bar", 2))
expectedNames := sets.NewString()
for _, rs := range replicaSets[2:] {
expectedNames.Insert(rs.Name)
}
got := FilterActiveReplicaSets(replicaSets)
gotNames := sets.NewString()
for _, rs := range got {
gotNames.Insert(rs.Name)
}
assert.Equal(t, 0, expectedNames.Difference(gotNames).Len(),
"expected %v, got %v", expectedNames.List(), gotNames.List())
assert.Equal(t, 0, gotNames.Difference(expectedNames).Len(),
"expected %v, got %v", expectedNames.List(), gotNames.List())
}
func TestComputeHash(t *testing.T) {
collisionCount := int32(1)
otherCollisionCount := int32(2)
maxCollisionCount := int32(math.MaxInt32)
tests := []struct {
name string
template *v1.PodTemplateSpec
collisionCount *int32
otherCollisionCount *int32
}{
{
name: "simple",
template: &v1.PodTemplateSpec{},
collisionCount: &collisionCount,
otherCollisionCount: &otherCollisionCount,
},
{
name: "using math.MaxInt64",
template: &v1.PodTemplateSpec{},
collisionCount: nil,
otherCollisionCount: &maxCollisionCount,
},
}
for _, test := range tests {
hash := ComputeHash(test.template, test.collisionCount)
otherHash := ComputeHash(test.template, test.otherCollisionCount)
assert.NotEqual(t, hash, otherHash, "expected different hashes but got the same: %d", hash)
}
}
func TestRemoveTaintOffNode(t *testing.T) {
tests := []struct {
name string
nodeHandler *testutil.FakeNodeHandler
nodeName string
taintsToRemove []*v1.Taint
expectedTaints []v1.Taint
requestCount int
}{
{
name: "remove one taint from node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
},
requestCount: 4,
},
{
name: "remove multiple taints from node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
{Key: "key4", Value: "value4", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{
{Key: "key2", Value: "value2", Effect: "NoExecute"},
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key4", Value: "value4", Effect: "NoExecute"},
},
requestCount: 4,
},
{
name: "remove no-exist taints from node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
requestCount: 2,
},
{
name: "remove taint from node without taints",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
},
expectedTaints: nil,
requestCount: 2,
},
{
name: "remove empty taint list from node without taints",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{},
expectedTaints: nil,
requestCount: 2,
},
{
name: "remove empty taint list from node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToRemove: []*v1.Taint{},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
requestCount: 2,
},
}
for _, test := range tests {
node, _ := test.nodeHandler.Get(test.nodeName, metav1.GetOptions{})
err := RemoveTaintOffNode(test.nodeHandler, test.nodeName, node, test.taintsToRemove...)
assert.NoError(t, err, "%s: RemoveTaintOffNode() error = %v", test.name, err)
node, _ = test.nodeHandler.Get(test.nodeName, metav1.GetOptions{})
assert.EqualValues(t, test.expectedTaints, node.Spec.Taints,
"%s: failed to remove taint off node: expected %+v, got %+v",
test.name, test.expectedTaints, node.Spec.Taints)
assert.Equal(t, test.requestCount, test.nodeHandler.RequestCount,
"%s: unexpected request count: expected %+v, got %+v",
test.name, test.requestCount, test.nodeHandler.RequestCount)
}
}
func TestAddOrUpdateTaintOnNode(t *testing.T) {
tests := []struct {
name string
nodeHandler *testutil.FakeNodeHandler
nodeName string
taintsToAdd []*v1.Taint
expectedTaints []v1.Taint
requestCount int
}{
{
name: "add one taint on node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
requestCount: 3,
},
{
name: "add multiple taints to node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
{Key: "key4", Value: "value4", Effect: "NoExecute"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
{Key: "key4", Value: "value4", Effect: "NoExecute"},
},
requestCount: 3,
},
{
name: "add exist taints to node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
requestCount: 2,
},
{
name: "add taint to node without taints",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
},
expectedTaints: []v1.Taint{
{Key: "key3", Value: "value3", Effect: "NoSchedule"},
},
requestCount: 3,
},
{
name: "add empty taint list to node without taints",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{},
expectedTaints: nil,
requestCount: 1,
},
{
name: "add empty taint list to node",
nodeHandler: &testutil.FakeNodeHandler{
Existing: []*v1.Node{
{
ObjectMeta: metav1.ObjectMeta{
Name: "node1",
},
Spec: v1.NodeSpec{
Taints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
},
},
},
Clientset: fake.NewSimpleClientset(&v1.PodList{Items: []v1.Pod{*testutil.NewPod("pod0", "node0")}}),
},
nodeName: "node1",
taintsToAdd: []*v1.Taint{},
expectedTaints: []v1.Taint{
{Key: "key1", Value: "value1", Effect: "NoSchedule"},
{Key: "key2", Value: "value2", Effect: "NoExecute"},
},
requestCount: 1,
},
}
for _, test := range tests {
err := AddOrUpdateTaintOnNode(test.nodeHandler, test.nodeName, test.taintsToAdd...)
assert.NoError(t, err, "%s: AddOrUpdateTaintOnNode() error = %v", test.name, err)
node, _ := test.nodeHandler.Get(test.nodeName, metav1.GetOptions{})
assert.EqualValues(t, test.expectedTaints, node.Spec.Taints,
"%s: failed to add taint to node: expected %+v, got %+v",
test.name, test.expectedTaints, node.Spec.Taints)
assert.Equal(t, test.requestCount, test.nodeHandler.RequestCount,
"%s: unexpected request count: expected %+v, got %+v",
test.name, test.requestCount, test.nodeHandler.RequestCount)
}
}
Reference in New Issue View Git Blame Copy Permalink