mirror of https://github.com/k3s-io/k3s
537 lines
23 KiB
Go
537 lines
23 KiB
Go
/*
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Copyright 2016 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package deployment
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import (
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"fmt"
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"reflect"
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"sort"
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"strconv"
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apps "k8s.io/api/apps/v1"
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"k8s.io/api/core/v1"
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"k8s.io/apimachinery/pkg/api/errors"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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"k8s.io/klog"
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"k8s.io/kubernetes/pkg/controller"
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deploymentutil "k8s.io/kubernetes/pkg/controller/deployment/util"
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labelsutil "k8s.io/kubernetes/pkg/util/labels"
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)
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// syncStatusOnly only updates Deployments Status and doesn't take any mutating actions.
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func (dc *DeploymentController) syncStatusOnly(d *apps.Deployment, rsList []*apps.ReplicaSet) error {
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newRS, oldRSs, err := dc.getAllReplicaSetsAndSyncRevision(d, rsList, false)
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if err != nil {
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return err
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}
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allRSs := append(oldRSs, newRS)
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return dc.syncDeploymentStatus(allRSs, newRS, d)
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}
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// sync is responsible for reconciling deployments on scaling events or when they
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// are paused.
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func (dc *DeploymentController) sync(d *apps.Deployment, rsList []*apps.ReplicaSet) error {
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newRS, oldRSs, err := dc.getAllReplicaSetsAndSyncRevision(d, rsList, false)
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if err != nil {
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return err
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}
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if err := dc.scale(d, newRS, oldRSs); err != nil {
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// If we get an error while trying to scale, the deployment will be requeued
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// so we can abort this resync
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return err
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}
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// Clean up the deployment when it's paused and no rollback is in flight.
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if d.Spec.Paused && getRollbackTo(d) == nil {
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if err := dc.cleanupDeployment(oldRSs, d); err != nil {
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return err
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}
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}
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allRSs := append(oldRSs, newRS)
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return dc.syncDeploymentStatus(allRSs, newRS, d)
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}
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// checkPausedConditions checks if the given deployment is paused or not and adds an appropriate condition.
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// These conditions are needed so that we won't accidentally report lack of progress for resumed deployments
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// that were paused for longer than progressDeadlineSeconds.
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func (dc *DeploymentController) checkPausedConditions(d *apps.Deployment) error {
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if !deploymentutil.HasProgressDeadline(d) {
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return nil
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}
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cond := deploymentutil.GetDeploymentCondition(d.Status, apps.DeploymentProgressing)
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if cond != nil && cond.Reason == deploymentutil.TimedOutReason {
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// If we have reported lack of progress, do not overwrite it with a paused condition.
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return nil
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}
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pausedCondExists := cond != nil && cond.Reason == deploymentutil.PausedDeployReason
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needsUpdate := false
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if d.Spec.Paused && !pausedCondExists {
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condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionUnknown, deploymentutil.PausedDeployReason, "Deployment is paused")
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deploymentutil.SetDeploymentCondition(&d.Status, *condition)
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needsUpdate = true
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} else if !d.Spec.Paused && pausedCondExists {
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condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionUnknown, deploymentutil.ResumedDeployReason, "Deployment is resumed")
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deploymentutil.SetDeploymentCondition(&d.Status, *condition)
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needsUpdate = true
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}
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if !needsUpdate {
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return nil
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}
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var err error
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d, err = dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d)
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return err
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}
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// getAllReplicaSetsAndSyncRevision returns all the replica sets for the provided deployment (new and all old), with new RS's and deployment's revision updated.
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//
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// rsList should come from getReplicaSetsForDeployment(d).
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//
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// 1. Get all old RSes this deployment targets, and calculate the max revision number among them (maxOldV).
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// 2. Get new RS this deployment targets (whose pod template matches deployment's), and update new RS's revision number to (maxOldV + 1),
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// only if its revision number is smaller than (maxOldV + 1). If this step failed, we'll update it in the next deployment sync loop.
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// 3. Copy new RS's revision number to deployment (update deployment's revision). If this step failed, we'll update it in the next deployment sync loop.
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//
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// Note that currently the deployment controller is using caches to avoid querying the server for reads.
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// This may lead to stale reads of replica sets, thus incorrect deployment status.
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func (dc *DeploymentController) getAllReplicaSetsAndSyncRevision(d *apps.Deployment, rsList []*apps.ReplicaSet, createIfNotExisted bool) (*apps.ReplicaSet, []*apps.ReplicaSet, error) {
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_, allOldRSs := deploymentutil.FindOldReplicaSets(d, rsList)
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// Get new replica set with the updated revision number
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newRS, err := dc.getNewReplicaSet(d, rsList, allOldRSs, createIfNotExisted)
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if err != nil {
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return nil, nil, err
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}
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return newRS, allOldRSs, nil
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}
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// Returns a replica set that matches the intent of the given deployment. Returns nil if the new replica set doesn't exist yet.
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// 1. Get existing new RS (the RS that the given deployment targets, whose pod template is the same as deployment's).
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// 2. If there's existing new RS, update its revision number if it's smaller than (maxOldRevision + 1), where maxOldRevision is the max revision number among all old RSes.
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// 3. If there's no existing new RS and createIfNotExisted is true, create one with appropriate revision number (maxOldRevision + 1) and replicas.
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// Note that the pod-template-hash will be added to adopted RSes and pods.
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func (dc *DeploymentController) getNewReplicaSet(d *apps.Deployment, rsList, oldRSs []*apps.ReplicaSet, createIfNotExisted bool) (*apps.ReplicaSet, error) {
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existingNewRS := deploymentutil.FindNewReplicaSet(d, rsList)
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// Calculate the max revision number among all old RSes
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maxOldRevision := deploymentutil.MaxRevision(oldRSs)
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// Calculate revision number for this new replica set
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newRevision := strconv.FormatInt(maxOldRevision+1, 10)
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// Latest replica set exists. We need to sync its annotations (includes copying all but
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// annotationsToSkip from the parent deployment, and update revision, desiredReplicas,
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// and maxReplicas) and also update the revision annotation in the deployment with the
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// latest revision.
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if existingNewRS != nil {
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rsCopy := existingNewRS.DeepCopy()
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// Set existing new replica set's annotation
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annotationsUpdated := deploymentutil.SetNewReplicaSetAnnotations(d, rsCopy, newRevision, true)
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minReadySecondsNeedsUpdate := rsCopy.Spec.MinReadySeconds != d.Spec.MinReadySeconds
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if annotationsUpdated || minReadySecondsNeedsUpdate {
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rsCopy.Spec.MinReadySeconds = d.Spec.MinReadySeconds
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return dc.client.AppsV1().ReplicaSets(rsCopy.ObjectMeta.Namespace).Update(rsCopy)
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}
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// Should use the revision in existingNewRS's annotation, since it set by before
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needsUpdate := deploymentutil.SetDeploymentRevision(d, rsCopy.Annotations[deploymentutil.RevisionAnnotation])
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// If no other Progressing condition has been recorded and we need to estimate the progress
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// of this deployment then it is likely that old users started caring about progress. In that
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// case we need to take into account the first time we noticed their new replica set.
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cond := deploymentutil.GetDeploymentCondition(d.Status, apps.DeploymentProgressing)
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if deploymentutil.HasProgressDeadline(d) && cond == nil {
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msg := fmt.Sprintf("Found new replica set %q", rsCopy.Name)
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condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionTrue, deploymentutil.FoundNewRSReason, msg)
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deploymentutil.SetDeploymentCondition(&d.Status, *condition)
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needsUpdate = true
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}
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if needsUpdate {
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var err error
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if d, err = dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d); err != nil {
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return nil, err
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}
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}
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return rsCopy, nil
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}
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if !createIfNotExisted {
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return nil, nil
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}
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// new ReplicaSet does not exist, create one.
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newRSTemplate := *d.Spec.Template.DeepCopy()
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podTemplateSpecHash := controller.ComputeHash(&newRSTemplate, d.Status.CollisionCount)
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newRSTemplate.Labels = labelsutil.CloneAndAddLabel(d.Spec.Template.Labels, apps.DefaultDeploymentUniqueLabelKey, podTemplateSpecHash)
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// Add podTemplateHash label to selector.
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newRSSelector := labelsutil.CloneSelectorAndAddLabel(d.Spec.Selector, apps.DefaultDeploymentUniqueLabelKey, podTemplateSpecHash)
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// Create new ReplicaSet
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newRS := apps.ReplicaSet{
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ObjectMeta: metav1.ObjectMeta{
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// Make the name deterministic, to ensure idempotence
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Name: d.Name + "-" + podTemplateSpecHash,
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Namespace: d.Namespace,
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OwnerReferences: []metav1.OwnerReference{*metav1.NewControllerRef(d, controllerKind)},
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Labels: newRSTemplate.Labels,
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},
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Spec: apps.ReplicaSetSpec{
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Replicas: new(int32),
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MinReadySeconds: d.Spec.MinReadySeconds,
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Selector: newRSSelector,
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Template: newRSTemplate,
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},
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}
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allRSs := append(oldRSs, &newRS)
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newReplicasCount, err := deploymentutil.NewRSNewReplicas(d, allRSs, &newRS)
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if err != nil {
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return nil, err
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}
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*(newRS.Spec.Replicas) = newReplicasCount
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// Set new replica set's annotation
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deploymentutil.SetNewReplicaSetAnnotations(d, &newRS, newRevision, false)
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// Create the new ReplicaSet. If it already exists, then we need to check for possible
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// hash collisions. If there is any other error, we need to report it in the status of
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// the Deployment.
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alreadyExists := false
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createdRS, err := dc.client.AppsV1().ReplicaSets(d.Namespace).Create(&newRS)
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switch {
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// We may end up hitting this due to a slow cache or a fast resync of the Deployment.
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case errors.IsAlreadyExists(err):
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alreadyExists = true
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// Fetch a copy of the ReplicaSet.
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rs, rsErr := dc.rsLister.ReplicaSets(newRS.Namespace).Get(newRS.Name)
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if rsErr != nil {
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return nil, rsErr
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}
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// If the Deployment owns the ReplicaSet and the ReplicaSet's PodTemplateSpec is semantically
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// deep equal to the PodTemplateSpec of the Deployment, it's the Deployment's new ReplicaSet.
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// Otherwise, this is a hash collision and we need to increment the collisionCount field in
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// the status of the Deployment and requeue to try the creation in the next sync.
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controllerRef := metav1.GetControllerOf(rs)
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if controllerRef != nil && controllerRef.UID == d.UID && deploymentutil.EqualIgnoreHash(&d.Spec.Template, &rs.Spec.Template) {
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createdRS = rs
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err = nil
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break
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}
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// Matching ReplicaSet is not equal - increment the collisionCount in the DeploymentStatus
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// and requeue the Deployment.
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if d.Status.CollisionCount == nil {
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d.Status.CollisionCount = new(int32)
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}
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preCollisionCount := *d.Status.CollisionCount
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*d.Status.CollisionCount++
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// Update the collisionCount for the Deployment and let it requeue by returning the original
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// error.
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_, dErr := dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d)
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if dErr == nil {
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klog.V(2).Infof("Found a hash collision for deployment %q - bumping collisionCount (%d->%d) to resolve it", d.Name, preCollisionCount, *d.Status.CollisionCount)
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}
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return nil, err
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case err != nil:
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msg := fmt.Sprintf("Failed to create new replica set %q: %v", newRS.Name, err)
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if deploymentutil.HasProgressDeadline(d) {
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cond := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionFalse, deploymentutil.FailedRSCreateReason, msg)
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deploymentutil.SetDeploymentCondition(&d.Status, *cond)
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// We don't really care about this error at this point, since we have a bigger issue to report.
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// TODO: Identify which errors are permanent and switch DeploymentIsFailed to take into account
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// these reasons as well. Related issue: https://github.com/kubernetes/kubernetes/issues/18568
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_, _ = dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d)
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}
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dc.eventRecorder.Eventf(d, v1.EventTypeWarning, deploymentutil.FailedRSCreateReason, msg)
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return nil, err
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}
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if !alreadyExists && newReplicasCount > 0 {
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dc.eventRecorder.Eventf(d, v1.EventTypeNormal, "ScalingReplicaSet", "Scaled up replica set %s to %d", createdRS.Name, newReplicasCount)
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}
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needsUpdate := deploymentutil.SetDeploymentRevision(d, newRevision)
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if !alreadyExists && deploymentutil.HasProgressDeadline(d) {
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msg := fmt.Sprintf("Created new replica set %q", createdRS.Name)
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condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionTrue, deploymentutil.NewReplicaSetReason, msg)
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deploymentutil.SetDeploymentCondition(&d.Status, *condition)
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needsUpdate = true
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}
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if needsUpdate {
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_, err = dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d)
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}
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return createdRS, err
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}
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// scale scales proportionally in order to mitigate risk. Otherwise, scaling up can increase the size
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// of the new replica set and scaling down can decrease the sizes of the old ones, both of which would
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// have the effect of hastening the rollout progress, which could produce a higher proportion of unavailable
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// replicas in the event of a problem with the rolled out template. Should run only on scaling events or
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// when a deployment is paused and not during the normal rollout process.
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func (dc *DeploymentController) scale(deployment *apps.Deployment, newRS *apps.ReplicaSet, oldRSs []*apps.ReplicaSet) error {
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// If there is only one active replica set then we should scale that up to the full count of the
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// deployment. If there is no active replica set, then we should scale up the newest replica set.
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if activeOrLatest := deploymentutil.FindActiveOrLatest(newRS, oldRSs); activeOrLatest != nil {
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if *(activeOrLatest.Spec.Replicas) == *(deployment.Spec.Replicas) {
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return nil
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}
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_, _, err := dc.scaleReplicaSetAndRecordEvent(activeOrLatest, *(deployment.Spec.Replicas), deployment)
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return err
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}
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// If the new replica set is saturated, old replica sets should be fully scaled down.
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// This case handles replica set adoption during a saturated new replica set.
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if deploymentutil.IsSaturated(deployment, newRS) {
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for _, old := range controller.FilterActiveReplicaSets(oldRSs) {
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if _, _, err := dc.scaleReplicaSetAndRecordEvent(old, 0, deployment); err != nil {
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return err
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}
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}
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return nil
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}
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// There are old replica sets with pods and the new replica set is not saturated.
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// We need to proportionally scale all replica sets (new and old) in case of a
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// rolling deployment.
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if deploymentutil.IsRollingUpdate(deployment) {
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allRSs := controller.FilterActiveReplicaSets(append(oldRSs, newRS))
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allRSsReplicas := deploymentutil.GetReplicaCountForReplicaSets(allRSs)
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allowedSize := int32(0)
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if *(deployment.Spec.Replicas) > 0 {
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allowedSize = *(deployment.Spec.Replicas) + deploymentutil.MaxSurge(*deployment)
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}
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// Number of additional replicas that can be either added or removed from the total
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// replicas count. These replicas should be distributed proportionally to the active
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// replica sets.
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deploymentReplicasToAdd := allowedSize - allRSsReplicas
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// The additional replicas should be distributed proportionally amongst the active
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// replica sets from the larger to the smaller in size replica set. Scaling direction
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// drives what happens in case we are trying to scale replica sets of the same size.
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// In such a case when scaling up, we should scale up newer replica sets first, and
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// when scaling down, we should scale down older replica sets first.
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var scalingOperation string
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switch {
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case deploymentReplicasToAdd > 0:
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sort.Sort(controller.ReplicaSetsBySizeNewer(allRSs))
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scalingOperation = "up"
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case deploymentReplicasToAdd < 0:
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sort.Sort(controller.ReplicaSetsBySizeOlder(allRSs))
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scalingOperation = "down"
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}
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// Iterate over all active replica sets and estimate proportions for each of them.
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// The absolute value of deploymentReplicasAdded should never exceed the absolute
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// value of deploymentReplicasToAdd.
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deploymentReplicasAdded := int32(0)
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nameToSize := make(map[string]int32)
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for i := range allRSs {
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rs := allRSs[i]
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// Estimate proportions if we have replicas to add, otherwise simply populate
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// nameToSize with the current sizes for each replica set.
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if deploymentReplicasToAdd != 0 {
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proportion := deploymentutil.GetProportion(rs, *deployment, deploymentReplicasToAdd, deploymentReplicasAdded)
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nameToSize[rs.Name] = *(rs.Spec.Replicas) + proportion
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deploymentReplicasAdded += proportion
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} else {
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nameToSize[rs.Name] = *(rs.Spec.Replicas)
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}
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}
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// Update all replica sets
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for i := range allRSs {
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rs := allRSs[i]
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// Add/remove any leftovers to the largest replica set.
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if i == 0 && deploymentReplicasToAdd != 0 {
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leftover := deploymentReplicasToAdd - deploymentReplicasAdded
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nameToSize[rs.Name] = nameToSize[rs.Name] + leftover
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if nameToSize[rs.Name] < 0 {
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nameToSize[rs.Name] = 0
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}
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}
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// TODO: Use transactions when we have them.
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if _, _, err := dc.scaleReplicaSet(rs, nameToSize[rs.Name], deployment, scalingOperation); err != nil {
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// Return as soon as we fail, the deployment is requeued
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return err
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}
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}
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}
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return nil
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}
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func (dc *DeploymentController) scaleReplicaSetAndRecordEvent(rs *apps.ReplicaSet, newScale int32, deployment *apps.Deployment) (bool, *apps.ReplicaSet, error) {
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// No need to scale
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if *(rs.Spec.Replicas) == newScale {
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return false, rs, nil
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}
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var scalingOperation string
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if *(rs.Spec.Replicas) < newScale {
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scalingOperation = "up"
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} else {
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scalingOperation = "down"
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}
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scaled, newRS, err := dc.scaleReplicaSet(rs, newScale, deployment, scalingOperation)
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return scaled, newRS, err
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}
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func (dc *DeploymentController) scaleReplicaSet(rs *apps.ReplicaSet, newScale int32, deployment *apps.Deployment, scalingOperation string) (bool, *apps.ReplicaSet, error) {
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sizeNeedsUpdate := *(rs.Spec.Replicas) != newScale
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annotationsNeedUpdate := deploymentutil.ReplicasAnnotationsNeedUpdate(rs, *(deployment.Spec.Replicas), *(deployment.Spec.Replicas)+deploymentutil.MaxSurge(*deployment))
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scaled := false
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var err error
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if sizeNeedsUpdate || annotationsNeedUpdate {
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rsCopy := rs.DeepCopy()
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*(rsCopy.Spec.Replicas) = newScale
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deploymentutil.SetReplicasAnnotations(rsCopy, *(deployment.Spec.Replicas), *(deployment.Spec.Replicas)+deploymentutil.MaxSurge(*deployment))
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rs, err = dc.client.AppsV1().ReplicaSets(rsCopy.Namespace).Update(rsCopy)
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if err == nil && sizeNeedsUpdate {
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scaled = true
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dc.eventRecorder.Eventf(deployment, v1.EventTypeNormal, "ScalingReplicaSet", "Scaled %s replica set %s to %d", scalingOperation, rs.Name, newScale)
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}
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}
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|
return scaled, rs, err
|
|
}
|
|
|
|
// cleanupDeployment is responsible for cleaning up a deployment ie. retains all but the latest N old replica sets
|
|
// where N=d.Spec.RevisionHistoryLimit. Old replica sets are older versions of the podtemplate of a deployment kept
|
|
// around by default 1) for historical reasons and 2) for the ability to rollback a deployment.
|
|
func (dc *DeploymentController) cleanupDeployment(oldRSs []*apps.ReplicaSet, deployment *apps.Deployment) error {
|
|
if !deploymentutil.HasRevisionHistoryLimit(deployment) {
|
|
return nil
|
|
}
|
|
|
|
// Avoid deleting replica set with deletion timestamp set
|
|
aliveFilter := func(rs *apps.ReplicaSet) bool {
|
|
return rs != nil && rs.ObjectMeta.DeletionTimestamp == nil
|
|
}
|
|
cleanableRSes := controller.FilterReplicaSets(oldRSs, aliveFilter)
|
|
|
|
diff := int32(len(cleanableRSes)) - *deployment.Spec.RevisionHistoryLimit
|
|
if diff <= 0 {
|
|
return nil
|
|
}
|
|
|
|
sort.Sort(controller.ReplicaSetsByCreationTimestamp(cleanableRSes))
|
|
klog.V(4).Infof("Looking to cleanup old replica sets for deployment %q", deployment.Name)
|
|
|
|
for i := int32(0); i < diff; i++ {
|
|
rs := cleanableRSes[i]
|
|
// Avoid delete replica set with non-zero replica counts
|
|
if rs.Status.Replicas != 0 || *(rs.Spec.Replicas) != 0 || rs.Generation > rs.Status.ObservedGeneration || rs.DeletionTimestamp != nil {
|
|
continue
|
|
}
|
|
klog.V(4).Infof("Trying to cleanup replica set %q for deployment %q", rs.Name, deployment.Name)
|
|
if err := dc.client.AppsV1().ReplicaSets(rs.Namespace).Delete(rs.Name, nil); err != nil && !errors.IsNotFound(err) {
|
|
// Return error instead of aggregating and continuing DELETEs on the theory
|
|
// that we may be overloading the api server.
|
|
return err
|
|
}
|
|
}
|
|
|
|
return nil
|
|
}
|
|
|
|
// syncDeploymentStatus checks if the status is up-to-date and sync it if necessary
|
|
func (dc *DeploymentController) syncDeploymentStatus(allRSs []*apps.ReplicaSet, newRS *apps.ReplicaSet, d *apps.Deployment) error {
|
|
newStatus := calculateStatus(allRSs, newRS, d)
|
|
|
|
if reflect.DeepEqual(d.Status, newStatus) {
|
|
return nil
|
|
}
|
|
|
|
newDeployment := d
|
|
newDeployment.Status = newStatus
|
|
_, err := dc.client.AppsV1().Deployments(newDeployment.Namespace).UpdateStatus(newDeployment)
|
|
return err
|
|
}
|
|
|
|
// calculateStatus calculates the latest status for the provided deployment by looking into the provided replica sets.
|
|
func calculateStatus(allRSs []*apps.ReplicaSet, newRS *apps.ReplicaSet, deployment *apps.Deployment) apps.DeploymentStatus {
|
|
availableReplicas := deploymentutil.GetAvailableReplicaCountForReplicaSets(allRSs)
|
|
totalReplicas := deploymentutil.GetReplicaCountForReplicaSets(allRSs)
|
|
unavailableReplicas := totalReplicas - availableReplicas
|
|
// If unavailableReplicas is negative, then that means the Deployment has more available replicas running than
|
|
// desired, e.g. whenever it scales down. In such a case we should simply default unavailableReplicas to zero.
|
|
if unavailableReplicas < 0 {
|
|
unavailableReplicas = 0
|
|
}
|
|
|
|
status := apps.DeploymentStatus{
|
|
// TODO: Ensure that if we start retrying status updates, we won't pick up a new Generation value.
|
|
ObservedGeneration: deployment.Generation,
|
|
Replicas: deploymentutil.GetActualReplicaCountForReplicaSets(allRSs),
|
|
UpdatedReplicas: deploymentutil.GetActualReplicaCountForReplicaSets([]*apps.ReplicaSet{newRS}),
|
|
ReadyReplicas: deploymentutil.GetReadyReplicaCountForReplicaSets(allRSs),
|
|
AvailableReplicas: availableReplicas,
|
|
UnavailableReplicas: unavailableReplicas,
|
|
CollisionCount: deployment.Status.CollisionCount,
|
|
}
|
|
|
|
// Copy conditions one by one so we won't mutate the original object.
|
|
conditions := deployment.Status.Conditions
|
|
for i := range conditions {
|
|
status.Conditions = append(status.Conditions, conditions[i])
|
|
}
|
|
|
|
if availableReplicas >= *(deployment.Spec.Replicas)-deploymentutil.MaxUnavailable(*deployment) {
|
|
minAvailability := deploymentutil.NewDeploymentCondition(apps.DeploymentAvailable, v1.ConditionTrue, deploymentutil.MinimumReplicasAvailable, "Deployment has minimum availability.")
|
|
deploymentutil.SetDeploymentCondition(&status, *minAvailability)
|
|
} else {
|
|
noMinAvailability := deploymentutil.NewDeploymentCondition(apps.DeploymentAvailable, v1.ConditionFalse, deploymentutil.MinimumReplicasUnavailable, "Deployment does not have minimum availability.")
|
|
deploymentutil.SetDeploymentCondition(&status, *noMinAvailability)
|
|
}
|
|
|
|
return status
|
|
}
|
|
|
|
// isScalingEvent checks whether the provided deployment has been updated with a scaling event
|
|
// by looking at the desired-replicas annotation in the active replica sets of the deployment.
|
|
//
|
|
// rsList should come from getReplicaSetsForDeployment(d).
|
|
// podMap should come from getPodMapForDeployment(d, rsList).
|
|
func (dc *DeploymentController) isScalingEvent(d *apps.Deployment, rsList []*apps.ReplicaSet) (bool, error) {
|
|
newRS, oldRSs, err := dc.getAllReplicaSetsAndSyncRevision(d, rsList, false)
|
|
if err != nil {
|
|
return false, err
|
|
}
|
|
allRSs := append(oldRSs, newRS)
|
|
for _, rs := range controller.FilterActiveReplicaSets(allRSs) {
|
|
desired, ok := deploymentutil.GetDesiredReplicasAnnotation(rs)
|
|
if !ok {
|
|
continue
|
|
}
|
|
if desired != *(d.Spec.Replicas) {
|
|
return true, nil
|
|
}
|
|
}
|
|
return false, nil
|
|
}
|