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/*
Copyright 2016 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 statefulset
import (
"encoding/json"
"fmt"
"regexp"
"strconv"
"k8s.io/kubernetes/pkg/api"
"k8s.io/kubernetes/pkg/api/v1"
podutil "k8s.io/kubernetes/pkg/api/v1/pod"
apps "k8s.io/kubernetes/pkg/apis/apps/v1beta1"
"k8s.io/kubernetes/pkg/controller"
"k8s.io/kubernetes/pkg/controller/history"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/strategicpatch"
"k8s.io/client-go/kubernetes/scheme"
"github.com/golang/glog"
)
// maxUpdateRetries is the maximum number of retries used for update conflict resolution prior to failure
const maxUpdateRetries = 10
// updateConflictError is the error used to indicate that the maximum number of retries against the API server have
// been attempted and we need to back off
var updateConflictError = fmt.Errorf("aborting update after %d attempts", maxUpdateRetries)
var patchCodec = api.Codecs.LegacyCodec(apps.SchemeGroupVersion)
// overlappingStatefulSets sorts a list of StatefulSets by creation timestamp, using their names as a tie breaker.
// Generally used to tie break between StatefulSets that have overlapping selectors.
type overlappingStatefulSets []*apps.StatefulSet
func (o overlappingStatefulSets) Len() int { return len(o) }
func (o overlappingStatefulSets) Swap(i, j int) { o[i], o[j] = o[j], o[i] }
func (o overlappingStatefulSets) Less(i, j int) bool {
if o[i].CreationTimestamp.Equal(o[j].CreationTimestamp) {
return o[i].Name < o[j].Name
}
return o[i].CreationTimestamp.Before(o[j].CreationTimestamp)
}
// statefulPodRegex is a regular expression that extracts the parent StatefulSet and ordinal from the Name of a Pod
var statefulPodRegex = regexp.MustCompile("(.*)-([0-9]+)$")
// getParentNameAndOrdinal gets the name of pod's parent StatefulSet and pod's ordinal as extracted from its Name. If
// the Pod was not created by a StatefulSet, its parent is considered to be empty string, and its ordinal is considered
// to be -1.
func getParentNameAndOrdinal(pod *v1.Pod) (string, int) {
parent := ""
ordinal := -1
subMatches := statefulPodRegex.FindStringSubmatch(pod.Name)
if len(subMatches) < 3 {
return parent, ordinal
}
parent = subMatches[1]
if i, err := strconv.ParseInt(subMatches[2], 10, 32); err == nil {
ordinal = int(i)
}
return parent, ordinal
}
// getParentName gets the name of pod's parent StatefulSet. If pod has not parent, the empty string is returned.
func getParentName(pod *v1.Pod) string {
parent, _ := getParentNameAndOrdinal(pod)
return parent
}
// getOrdinal gets pod's ordinal. If pod has no ordinal, -1 is returned.
func getOrdinal(pod *v1.Pod) int {
_, ordinal := getParentNameAndOrdinal(pod)
return ordinal
}
// getPodName gets the name of set's child Pod with an ordinal index of ordinal
func getPodName(set *apps.StatefulSet, ordinal int) string {
return fmt.Sprintf("%s-%d", set.Name, ordinal)
}
// getPersistentVolumeClaimName gets the name of PersistentVolumeClaim for a Pod with an ordinal index of ordinal. claim
// must be a PersistentVolumeClaim from set's VolumeClaims template.
func getPersistentVolumeClaimName(set *apps.StatefulSet, claim *v1.PersistentVolumeClaim, ordinal int) string {
// NOTE: This name format is used by the heuristics for zone spreading in ChooseZoneForVolume
return fmt.Sprintf("%s-%s-%d", claim.Name, set.Name, ordinal)
}
// isMemberOf tests if pod is a member of set.
func isMemberOf(set *apps.StatefulSet, pod *v1.Pod) bool {
return getParentName(pod) == set.Name
}
// identityMatches returns true if pod has a valid identity and network identity for a member of set.
func identityMatches(set *apps.StatefulSet, pod *v1.Pod) bool {
parent, ordinal := getParentNameAndOrdinal(pod)
return ordinal >= 0 &&
set.Name == parent &&
pod.Name == getPodName(set, ordinal) &&
pod.Namespace == set.Namespace &&
pod.Spec.Hostname != "" &&
(pod.Spec.Subdomain != "" || set.Spec.ServiceName == "")
}
// storageMatches returns true if pod's Volumes cover the set of PersistentVolumeClaims
func storageMatches(set *apps.StatefulSet, pod *v1.Pod) bool {
ordinal := getOrdinal(pod)
if ordinal < 0 {
return false
}
volumes := make(map[string]v1.Volume, len(pod.Spec.Volumes))
for _, volume := range pod.Spec.Volumes {
volumes[volume.Name] = volume
}
for _, claim := range set.Spec.VolumeClaimTemplates {
volume, found := volumes[claim.Name]
if !found ||
volume.VolumeSource.PersistentVolumeClaim == nil ||
volume.VolumeSource.PersistentVolumeClaim.ClaimName !=
getPersistentVolumeClaimName(set, &claim, ordinal) {
return false
}
}
return true
}
// getPersistentVolumeClaims gets a map of PersistentVolumeClaims to their template names, as defined in set. The
// returned PersistentVolumeClaims are each constructed with a the name specific to the Pod. This name is determined
// by getPersistentVolumeClaimName.
func getPersistentVolumeClaims(set *apps.StatefulSet, pod *v1.Pod) map[string]v1.PersistentVolumeClaim {
ordinal := getOrdinal(pod)
templates := set.Spec.VolumeClaimTemplates
claims := make(map[string]v1.PersistentVolumeClaim, len(templates))
for i := range templates {
claim := templates[i]
claim.Name = getPersistentVolumeClaimName(set, &claim, ordinal)
claim.Namespace = set.Namespace
claim.Labels = set.Spec.Selector.MatchLabels
claims[templates[i].Name] = claim
}
return claims
}
// updateStorage updates pod's Volumes to conform with the PersistentVolumeClaim of set's templates. If pod has
// conflicting local Volumes these are replaced with Volumes that conform to the set's templates.
func updateStorage(set *apps.StatefulSet, pod *v1.Pod) {
currentVolumes := pod.Spec.Volumes
claims := getPersistentVolumeClaims(set, pod)
newVolumes := make([]v1.Volume, 0, len(claims))
for name, claim := range claims {
newVolumes = append(newVolumes, v1.Volume{
Name: name,
VolumeSource: v1.VolumeSource{
PersistentVolumeClaim: &v1.PersistentVolumeClaimVolumeSource{
ClaimName: claim.Name,
// TODO: Use source definition to set this value when we have one.
ReadOnly: false,
},
},
})
}
for i := range currentVolumes {
if _, ok := claims[currentVolumes[i].Name]; !ok {
newVolumes = append(newVolumes, currentVolumes[i])
}
}
pod.Spec.Volumes = newVolumes
}
func initIdentity(set *apps.StatefulSet, pod *v1.Pod) {
updateIdentity(set, pod)
// Set these immutable fields only on initial Pod creation, not updates.
pod.Spec.Hostname = pod.Name
pod.Spec.Subdomain = set.Spec.ServiceName
}
// updateIdentity updates pod's name, hostname, and subdomain to conform to set's name and headless service.
func updateIdentity(set *apps.StatefulSet, pod *v1.Pod) {
pod.Name = getPodName(set, getOrdinal(pod))
pod.Namespace = set.Namespace
if pod.Spec.Hostname == "" {
pod.Spec.Hostname = pod.Name
}
if pod.Spec.Subdomain == "" {
pod.Spec.Subdomain = set.Spec.ServiceName
}
}
// isRunningAndReady returns true if pod is in the PodRunning Phase, if it has a condition of PodReady, and if the init
// annotation has not explicitly disabled the Pod from being ready.
func isRunningAndReady(pod *v1.Pod) bool {
if pod.Status.Phase != v1.PodRunning {
return false
}
podReady := podutil.IsPodReady(pod)
// User may have specified a pod readiness override through a debug annotation.
initialized, ok := pod.Annotations[apps.StatefulSetInitAnnotation]
if ok {
if initAnnotation, err := strconv.ParseBool(initialized); err != nil {
glog.V(4).Infof("Failed to parse %v annotation on pod %v: %v",
apps.StatefulSetInitAnnotation, pod.Name, err)
} else if !initAnnotation {
glog.V(4).Infof("StatefulSet pod %v waiting on annotation %v", pod.Name,
apps.StatefulSetInitAnnotation)
podReady = initAnnotation
}
}
return podReady
}
// isCreated returns true if pod has been created and is maintained by the API server
func isCreated(pod *v1.Pod) bool {
return pod.Status.Phase != ""
}
// isFailed returns true if pod has a Phase of PodFailed
func isFailed(pod *v1.Pod) bool {
return pod.Status.Phase == v1.PodFailed
}
// isTerminating returns true if pod's DeletionTimestamp has been set
func isTerminating(pod *v1.Pod) bool {
return pod.DeletionTimestamp != nil
}
// isHealthy returns true if pod is running and ready and has not been terminated
func isHealthy(pod *v1.Pod) bool {
return isRunningAndReady(pod) && !isTerminating(pod)
}
// allowsBurst is true if the alpha burst annotation is set.
func allowsBurst(set *apps.StatefulSet) bool {
return set.Spec.PodManagementPolicy == apps.ParallelPodManagement
}
// newControllerRef returns an ControllerRef pointing to a given StatefulSet.
func newControllerRef(set *apps.StatefulSet) *metav1.OwnerReference {
blockOwnerDeletion := true
isController := true
return &metav1.OwnerReference{
APIVersion: controllerKind.GroupVersion().String(),
Kind: controllerKind.Kind,
Name: set.Name,
UID: set.UID,
BlockOwnerDeletion: &blockOwnerDeletion,
Controller: &isController,
}
}
// setPodRevision sets the revision of Pod to revision by adding the StatefulSetRevisionLabel
func setPodRevision(pod *v1.Pod, revision string) {
if pod.Labels == nil {
pod.Labels = make(map[string]string)
}
pod.Labels[apps.StatefulSetRevisionLabel] = revision
}
// getPodRevision gets the revision of Pod by inspecting the StatefulSetRevisionLabel. If pod has no revision the empty
// string is returned.
func getPodRevision(pod *v1.Pod) string {
if pod.Labels == nil {
return ""
}
return pod.Labels[apps.StatefulSetRevisionLabel]
}
// newStatefulSetPod returns a new Pod conforming to the set's Spec with an identity generated from ordinal.
func newStatefulSetPod(set *apps.StatefulSet, ordinal int) *v1.Pod {
pod, _ := controller.GetPodFromTemplate(&set.Spec.Template, set, newControllerRef(set))
pod.Name = getPodName(set, ordinal)
initIdentity(set, pod)
updateStorage(set, pod)
return pod
}
// newVersionedStatefulSetPod creates a new Pod for a StatefulSet. currentSet is the representation of the set at the
// current revision. updateSet is the representation of the set at the updateRevision. currentRevision is the name of
// the current revision. updateRevision is the name of the update revision. ordinal is the ordinal of the Pod. If the
// returned error is nil, the returned Pod is valid.
func newVersionedStatefulSetPod(currentSet, updateSet *apps.StatefulSet, currentRevision, updateRevision string, ordinal int) *v1.Pod {
if currentSet.Spec.UpdateStrategy.Type == apps.RollingUpdateStatefulSetStrategyType &&
(currentSet.Spec.UpdateStrategy.RollingUpdate == nil && ordinal < int(currentSet.Status.CurrentReplicas)) ||
(currentSet.Spec.UpdateStrategy.RollingUpdate != nil && ordinal < int(*currentSet.Spec.UpdateStrategy.RollingUpdate.Partition)) {
pod := newStatefulSetPod(currentSet, ordinal)
setPodRevision(pod, currentRevision)
return pod
}
pod := newStatefulSetPod(updateSet, ordinal)
setPodRevision(pod, updateRevision)
return pod
}
// getPatch returns a strategic merge patch that can be applied to restore a StatefulSet to a
// previous version. If the returned error is nil the patch is valid. The current state that we save is just the
// PodSpecTemplate. We can modify this later to encompass more state (or less) and remain compatible with previously
// recorded patches.
func getPatch(set *apps.StatefulSet) ([]byte, error) {
str, err := runtime.Encode(patchCodec, set)
if err != nil {
return nil, err
}
var raw map[string]interface{}
json.Unmarshal([]byte(str), &raw)
objCopy := make(map[string]interface{})
specCopy := make(map[string]interface{})
spec := raw["spec"].(map[string]interface{})
template := spec["template"].(map[string]interface{})
specCopy["template"] = template
template["$patch"] = "replace"
objCopy["spec"] = specCopy
patch, err := json.Marshal(objCopy)
return patch, err
}
// newRevision creates a new ControllerRevision containing a patch that reapplies the target state of set.
// The Revision of the returned ControllerRevision is set to revision. If the returned error is nil, the returned
// ControllerRevision is valid. StatefulSet revisions are stored as patches that re-apply the current state of set
// to a new StatefulSet using a strategic merge patch to replace the saved state of the new StatefulSet.
func newRevision(set *apps.StatefulSet, revision int64) (*apps.ControllerRevision, error) {
patch, err := getPatch(set)
if err != nil {
return nil, err
}
selector, err := metav1.LabelSelectorAsSelector(set.Spec.Selector)
if err != nil {
return nil, err
}
return history.NewControllerRevision(set,
controllerKind,
selector,
runtime.RawExtension{Raw: patch},
revision)
}
// applyRevision returns a new StatefulSet constructed by restoring the state in revision to set. If the returned error
// is nil, the returned StatefulSet is valid.
func applyRevision(set *apps.StatefulSet, revision *apps.ControllerRevision) (*apps.StatefulSet, error) {
obj, err := scheme.Scheme.DeepCopy(set)
if err != nil {
return nil, err
}
clone := obj.(*apps.StatefulSet)
patched, err := strategicpatch.StrategicMergePatch([]byte(runtime.EncodeOrDie(patchCodec, clone)), revision.Data.Raw, clone)
if err != nil {
return nil, err
}
err = json.Unmarshal(patched, clone)
if err != nil {
return nil, err
}
return clone, nil
}
// nextRevision finds the next valid revision number based on revisions. If the length of revisions
// is 0 this is 1. Otherwise, it is 1 greater than the largest revision's Revision. This method
// assumes that revisions has been sorted by Revision.
func nextRevision(revisions []*apps.ControllerRevision) int64 {
count := len(revisions)
if count <= 0 {
return 1
}
return revisions[count-1].Revision + 1
}
// inconsistentStatus returns true if the ObservedGeneration of status is greater than set's
// Generation or if any of the status's fields do not match those of set's status.
func inconsistentStatus(set *apps.StatefulSet, status *apps.StatefulSetStatus) bool {
return set.Status.ObservedGeneration == nil ||
*status.ObservedGeneration > *set.Status.ObservedGeneration ||
status.Replicas != set.Status.Replicas ||
status.CurrentReplicas != set.Status.CurrentReplicas ||
status.ReadyReplicas != set.Status.ReadyReplicas ||
status.UpdatedReplicas != set.Status.UpdatedReplicas ||
status.CurrentRevision != set.Status.CurrentRevision ||
status.UpdateRevision != set.Status.UpdateRevision
}
// completeRollingUpdate completes a rolling update when all of set's replica Pods have been updated
// to the updateRevision. status's currentRevision is set to updateRevision and its' updateRevision
// is set to the empty string. status's currentReplicas is set to updateReplicas and its updateReplicas
// are set to 0.
func completeRollingUpdate(set *apps.StatefulSet, status *apps.StatefulSetStatus) {
if set.Spec.UpdateStrategy.Type == apps.RollingUpdateStatefulSetStrategyType &&
status.UpdatedReplicas == status.Replicas &&
status.ReadyReplicas == status.Replicas {
status.CurrentReplicas = status.UpdatedReplicas
status.CurrentRevision = status.UpdateRevision
}
}
// ascendingOrdinal is a sort.Interface that Sorts a list of Pods based on the ordinals extracted
// from the Pod. Pod's that have not been constructed by StatefulSet's have an ordinal of -1, and are therefore pushed
// to the front of the list.
type ascendingOrdinal []*v1.Pod
func (ao ascendingOrdinal) Len() int {
return len(ao)
}
func (ao ascendingOrdinal) Swap(i, j int) {
ao[i], ao[j] = ao[j], ao[i]
}
func (ao ascendingOrdinal) Less(i, j int) bool {
return getOrdinal(ao[i]) < getOrdinal(ao[j])
}
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