kube-controller-manager源码分析(二)之 DeploymentController

以下代码分析基于 kubernetes v1.12.0 版本。

本文主要以deployment controller为例,分析该类controller的运行逻辑。此部分代码主要为位于pkg/controller/deploymentpkg/controller部分的代码包括了各种类型的controller的具体实现。

controller managerpkg部分代码目录结构如下:

controller  # 主要包含各种controller的具体实现
├── apis
├── bootstrap
├── certificates
├── client_builder.go
├── cloud
├── clusterroleaggregation
├── controller_ref_manager.go
├── controller_utils.go  # WaitForCacheSync
├── cronjob
├── daemon
├── deployment   # deployment controller
│   ├── deployment_controller.go # NewDeploymentController、Run、syncDeployment
│   ├── progress.go   # syncRolloutStatus
│   ├── recreate.go   # rolloutRecreate
│   ├── rollback.go   # rollback
│   ├── rolling.go    # rolloutRolling
│   ├── sync.go
├── disruption  # disruption controller
├── endpoint
├── garbagecollector
├── history
├── job
├── lookup_cache.go
├── namespace   # namespace controller
├── nodeipam
├── nodelifecycle
├── podautoscaler
├── podgc
├── replicaset   # replicaset controller
├── replication  # replication controller
├── resourcequota
├── route
├── service   # service controller
├── serviceaccount
├── statefulset   # statefulset controller
└── volume  # PersistentVolumeController、AttachDetachController、PVCProtectionController

1. startDeploymentController

func startDeploymentController(ctx ControllerContext) (http.Handler, bool, error) {
    if !ctx.AvailableResources[schema.GroupVersionResource{Group: "apps", Version: "v1", Resource: "deployments"}] {
        return nil, false, nil
    }
    dc, err := deployment.NewDeploymentController(
        ctx.InformerFactory.Apps().V1().Deployments(),
        ctx.InformerFactory.Apps().V1().ReplicaSets(),
        ctx.InformerFactory.Core().V1().Pods(),
        ctx.ClientBuilder.ClientOrDie("deployment-controller"),
    )
    if err != nil {
        return nil, true, fmt.Errorf("error creating Deployment controller: %v", err)
    }
    go dc.Run(int(ctx.ComponentConfig.DeploymentController.ConcurrentDeploymentSyncs), ctx.Stop)
    return nil, true, nil
}

startDeploymentController主要调用的函数为NewDeploymentController和对应的Run函数。该部分逻辑在kubernetes/pkg/controller中。

2. NewDeploymentController

NewDeploymentController主要构建DeploymentController结构体。

该部分主要处理了以下逻辑:

  • 构建并运行事件处理器eventBroadcaster
  • 初始化赋值rsControlclientsetworkqueue
  • 添加dInformerrsInformerpodInformerResourceEventHandlerFuncs,其中主要为AddFuncUpdateFuncDeleteFunc三类方法。
  • 构造deployment、rs、pod的Informer的Lister函数和HasSynced函数。
  • 调用syncHandler,来实现syncDeployment

2.1. eventBroadcaster

调用事件处理器来记录deployment相关的事件。

eventBroadcaster := record.NewBroadcaster()
eventBroadcaster.StartLogging(glog.Infof)
// TODO: remove the wrapper when every clients have moved to use the clientset.
eventBroadcaster.StartRecordingToSink(&v1core.EventSinkImpl{Interface: v1core.New(client.CoreV1().RESTClient()).Events("")})

2.2. rsControl

构造DeploymentController,包括clientsetworkqueuersControl。其中rsControl是具体实现rs逻辑的controller。

dc := &DeploymentController{
    client:        client,
    eventRecorder: eventBroadcaster.NewRecorder(scheme.Scheme, v1.EventSource{Component: "deployment-controller"}),
    queue:         workqueue.NewNamedRateLimitingQueue(workqueue.DefaultControllerRateLimiter(), "deployment"),
}
dc.rsControl = controller.RealRSControl{
    KubeClient: client,
    Recorder:   dc.eventRecorder,
}

2.3. Informer().AddEventHandler

添加dInformerrsInformerpodInformerResourceEventHandlerFuncs,其中主要为AddFuncUpdateFuncDeleteFunc三类方法。

dInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
    AddFunc:    dc.addDeployment,
    UpdateFunc: dc.updateDeployment,
    // This will enter the sync loop and no-op, because the deployment has been deleted from the store.
    DeleteFunc: dc.deleteDeployment,
})
rsInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
    AddFunc:    dc.addReplicaSet,
    UpdateFunc: dc.updateReplicaSet,
    DeleteFunc: dc.deleteReplicaSet,
})
podInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
    DeleteFunc: dc.deletePod,
})

2.4. Informer.Lister()

调用dInformerrsInformerpodInformerLister()方法。

dc.dLister = dInformer.Lister()
dc.rsLister = rsInformer.Lister()
dc.podLister = podInformer.Lister()

2.5. Informer().HasSynced

调用Informer().HasSynced,判断是否缓存完成;

dc.dListerSynced = dInformer.Informer().HasSynced
dc.rsListerSynced = rsInformer.Informer().HasSynced
dc.podListerSynced = podInformer.Informer().HasSynced

2.6. syncHandler

syncHandler具体为syncDeployment,syncHandler负责deployment的同步实现。

dc.syncHandler = dc.syncDeployment
dc.enqueueDeployment = dc.enqueue

完整代码如下:

// NewDeploymentController creates a new DeploymentController.
func NewDeploymentController(dInformer extensionsinformers.DeploymentInformer, rsInformer extensionsinformers.ReplicaSetInformer, podInformer coreinformers.PodInformer, client clientset.Interface) (*DeploymentController, error) {
    eventBroadcaster := record.NewBroadcaster()
    eventBroadcaster.StartLogging(glog.Infof)
    // TODO: remove the wrapper when every clients have moved to use the clientset.
    eventBroadcaster.StartRecordingToSink(&v1core.EventSinkImpl{Interface: v1core.New(client.CoreV1().RESTClient()).Events("")})

    if client != nil && client.CoreV1().RESTClient().GetRateLimiter() != nil {
        if err := metrics.RegisterMetricAndTrackRateLimiterUsage("deployment_controller", client.CoreV1().RESTClient().GetRateLimiter()); err != nil {
            return nil, err
        }
    }
    dc := &DeploymentController{
        client:        client,
        eventRecorder: eventBroadcaster.NewRecorder(scheme.Scheme, v1.EventSource{Component: "deployment-controller"}),
        queue:         workqueue.NewNamedRateLimitingQueue(workqueue.DefaultControllerRateLimiter(), "deployment"),
    }
    dc.rsControl = controller.RealRSControl{
        KubeClient: client,
        Recorder:   dc.eventRecorder,
    }

    dInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
        AddFunc:    dc.addDeployment,
        UpdateFunc: dc.updateDeployment,
        // This will enter the sync loop and no-op, because the deployment has been deleted from the store.
        DeleteFunc: dc.deleteDeployment,
    })
    rsInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
        AddFunc:    dc.addReplicaSet,
        UpdateFunc: dc.updateReplicaSet,
        DeleteFunc: dc.deleteReplicaSet,
    })
    podInformer.Informer().AddEventHandler(cache.ResourceEventHandlerFuncs{
        DeleteFunc: dc.deletePod,
    })

    dc.syncHandler = dc.syncDeployment
    dc.enqueueDeployment = dc.enqueue

    dc.dLister = dInformer.Lister()
    dc.rsLister = rsInformer.Lister()
    dc.podLister = podInformer.Lister()
    dc.dListerSynced = dInformer.Informer().HasSynced
    dc.rsListerSynced = rsInformer.Informer().HasSynced
    dc.podListerSynced = podInformer.Informer().HasSynced
    return dc, nil
}

3. DeploymentController.Run

Run执行watch和sync的操作。

// Run begins watching and syncing.
func (dc *DeploymentController) Run(workers int, stopCh <-chan struct{}) {
    defer utilruntime.HandleCrash()
    defer dc.queue.ShutDown()

    glog.Infof("Starting deployment controller")
    defer glog.Infof("Shutting down deployment controller")

    if !controller.WaitForCacheSync("deployment", stopCh, dc.dListerSynced, dc.rsListerSynced, dc.podListerSynced) {
        return
    }

    for i := 0; i < workers; i++ {
        go wait.Until(dc.worker, time.Second, stopCh)
    }

    <-stopCh
}

3.1. WaitForCacheSync

WaitForCacheSync主要是用来在List-Watch机制中可以保持当前cache的数据与etcd的数据一致。

// WaitForCacheSync is a wrapper around cache.WaitForCacheSync that generates log messages
// indicating that the controller identified by controllerName is waiting for syncs, followed by
// either a successful or failed sync.
func WaitForCacheSync(controllerName string, stopCh <-chan struct{}, cacheSyncs ...cache.InformerSynced) bool {
    glog.Infof("Waiting for caches to sync for %s controller", controllerName)

    if !cache.WaitForCacheSync(stopCh, cacheSyncs...) {
        utilruntime.HandleError(fmt.Errorf("Unable to sync caches for %s controller", controllerName))
        return false
    }

    glog.Infof("Caches are synced for %s controller", controllerName)
    return true
}

3.2. dc.worker

worker调用了processNextWorkItemprocessNextWorkItem最终调用了syncHandler,而syncHandlerNewDeploymentController中赋值的具体函数为syncDeployment

// worker runs a worker thread that just dequeues items, processes them, and marks them done.
// It enforces that the syncHandler is never invoked concurrently with the same key.
func (dc *DeploymentController) worker() {
    for dc.processNextWorkItem() {
    }
}

func (dc *DeploymentController) processNextWorkItem() bool {
    key, quit := dc.queue.Get()
    if quit {
        return false
    }
    defer dc.queue.Done(key)

    err := dc.syncHandler(key.(string))
    dc.handleErr(err, key)

    return true
}

NewDeploymentController中的syncHandler赋值:

func NewDeploymentController(dInformer appsinformers.DeploymentInformer, rsInformer appsinformers.ReplicaSetInformer, podInformer coreinformers.PodInformer, client clientset.Interface) (*DeploymentController, error) {
    ...
  dc.syncHandler = dc.syncDeployment
  ...
}

4. syncDeployment

syncDeployment基于给定的key执行sync deployment的操作。

主要流程如下:

  1. 通过SplitMetaNamespaceKey获取namespace和deployment对象的name。
  2. 调用Lister的接口获取的deployment的对象。
  3. getReplicaSetsForDeployment获取deployment管理的ReplicaSet对象。
  4. getPodMapForDeployment获取deployment管理的pod,基于ReplicaSet来分组。
  5. checkPausedConditions检查deployment是否是pause状态并添加合适的condition
  6. isScalingEvent检查deployment的更新是否来自于一个scale的事件,如果是则执行scale的操作。
  7. 根据DeploymentStrategyType类型执行rolloutRecreaterolloutRolling

完整代码如下:

// syncDeployment will sync the deployment with the given key.
// This function is not meant to be invoked concurrently with the same key.
func (dc *DeploymentController) syncDeployment(key string) error {
    startTime := time.Now()
    glog.V(4).Infof("Started syncing deployment %q (%v)", key, startTime)
    defer func() {
        glog.V(4).Infof("Finished syncing deployment %q (%v)", key, time.Since(startTime))
    }()

    namespace, name, err := cache.SplitMetaNamespaceKey(key)
    if err != nil {
        return err
    }
    deployment, err := dc.dLister.Deployments(namespace).Get(name)
    if errors.IsNotFound(err) {
        glog.V(2).Infof("Deployment %v has been deleted", key)
        return nil
    }
    if err != nil {
        return err
    }

    // Deep-copy otherwise we are mutating our cache.
    // TODO: Deep-copy only when needed.
    d := deployment.DeepCopy()

    everything := metav1.LabelSelector{}
    if reflect.DeepEqual(d.Spec.Selector, &everything) {
        dc.eventRecorder.Eventf(d, v1.EventTypeWarning, "SelectingAll", "This deployment is selecting all pods. A non-empty selector is required.")
        if d.Status.ObservedGeneration < d.Generation {
            d.Status.ObservedGeneration = d.Generation
            dc.client.ExtensionsV1beta1().Deployments(d.Namespace).UpdateStatus(d)
        }
        return nil
    }

    // List ReplicaSets owned by this Deployment, while reconciling ControllerRef
    // through adoption/orphaning.
    rsList, err := dc.getReplicaSetsForDeployment(d)
    if err != nil {
        return err
    }
    // List all Pods owned by this Deployment, grouped by their ReplicaSet.
    // Current uses of the podMap are:
    //
    // * check if a Pod is labeled correctly with the pod-template-hash label.
    // * check that no old Pods are running in the middle of Recreate Deployments.
    podMap, err := dc.getPodMapForDeployment(d, rsList)
    if err != nil {
        return err
    }

    if d.DeletionTimestamp != nil {
        return dc.syncStatusOnly(d, rsList, podMap)
    }

    // Update deployment conditions with an Unknown condition when pausing/resuming
    // a deployment. In this way, we can be sure that we won't timeout when a user
    // resumes a Deployment with a set progressDeadlineSeconds.
    if err = dc.checkPausedConditions(d); err != nil {
        return err
    }

    if d.Spec.Paused {
        return dc.sync(d, rsList, podMap)
    }

    // rollback is not re-entrant in case the underlying replica sets are updated with a new
    // revision so we should ensure that we won't proceed to update replica sets until we
    // make sure that the deployment has cleaned up its rollback spec in subsequent enqueues.
    if d.Spec.RollbackTo != nil {
        return dc.rollback(d, rsList, podMap)
    }

    scalingEvent, err := dc.isScalingEvent(d, rsList, podMap)
    if err != nil {
        return err
    }
    if scalingEvent {
        return dc.sync(d, rsList, podMap)
    }

    switch d.Spec.Strategy.Type {
    case extensions.RecreateDeploymentStrategyType:
        return dc.rolloutRecreate(d, rsList, podMap)
    case extensions.RollingUpdateDeploymentStrategyType:
        return dc.rolloutRolling(d, rsList, podMap)
    }
    return fmt.Errorf("unexpected deployment strategy type: %s", d.Spec.Strategy.Type)
}

4.1. Get deployment

// get namespace and deployment name
namespace, name, err := cache.SplitMetaNamespaceKey(key)
// get deployment by name
deployment, err := dc.dLister.Deployments(namespace).Get(name)

4.2. getReplicaSetsForDeployment

// List ReplicaSets owned by this Deployment, while reconciling ControllerRef
// through adoption/orphaning.
rsList, err := dc.getReplicaSetsForDeployment(d)

getReplicaSetsForDeployment具体代码:

// getReplicaSetsForDeployment uses ControllerRefManager to reconcile
// ControllerRef by adopting and orphaning.
// It returns the list of ReplicaSets that this Deployment should manage.
func (dc *DeploymentController) getReplicaSetsForDeployment(d *apps.Deployment) ([]*apps.ReplicaSet, error) {
    // List all ReplicaSets to find those we own but that no longer match our
    // selector. They will be orphaned by ClaimReplicaSets().
    rsList, err := dc.rsLister.ReplicaSets(d.Namespace).List(labels.Everything())
    if err != nil {
        return nil, err
    }
    deploymentSelector, err := metav1.LabelSelectorAsSelector(d.Spec.Selector)
    if err != nil {
        return nil, fmt.Errorf("deployment %s/%s has invalid label selector: %v", d.Namespace, d.Name, err)
    }
    // If any adoptions are attempted, we should first recheck for deletion with
    // an uncached quorum read sometime after listing ReplicaSets (see #42639).
    canAdoptFunc := controller.RecheckDeletionTimestamp(func() (metav1.Object, error) {
        fresh, err := dc.client.AppsV1().Deployments(d.Namespace).Get(d.Name, metav1.GetOptions{})
        if err != nil {
            return nil, err
        }
        if fresh.UID != d.UID {
            return nil, fmt.Errorf("original Deployment %v/%v is gone: got uid %v, wanted %v", d.Namespace, d.Name, fresh.UID, d.UID)
        }
        return fresh, nil
    })
    cm := controller.NewReplicaSetControllerRefManager(dc.rsControl, d, deploymentSelector, controllerKind, canAdoptFunc)
    return cm.ClaimReplicaSets(rsList)
}

4.3. getPodMapForDeployment

// List all Pods owned by this Deployment, grouped by their ReplicaSet.
// Current uses of the podMap are:
//
// * check if a Pod is labeled correctly with the pod-template-hash label.
// * check that no old Pods are running in the middle of Recreate Deployments.
podMap, err := dc.getPodMapForDeployment(d, rsList)

getPodMapForDeployment具体代码:

// getPodMapForDeployment returns the Pods managed by a Deployment.
//
// It returns a map from ReplicaSet UID to a list of Pods controlled by that RS,
// according to the Pod's ControllerRef.
func (dc *DeploymentController) getPodMapForDeployment(d *apps.Deployment, rsList []*apps.ReplicaSet) (map[types.UID]*v1.PodList, error) {
    // Get all Pods that potentially belong to this Deployment.
    selector, err := metav1.LabelSelectorAsSelector(d.Spec.Selector)
    if err != nil {
        return nil, err
    }
    pods, err := dc.podLister.Pods(d.Namespace).List(selector)
    if err != nil {
        return nil, err
    }
    // Group Pods by their controller (if it's in rsList).
    podMap := make(map[types.UID]*v1.PodList, len(rsList))
    for _, rs := range rsList {
        podMap[rs.UID] = &v1.PodList{}
    }
    for _, pod := range pods {
        // Do not ignore inactive Pods because Recreate Deployments need to verify that no
        // Pods from older versions are running before spinning up new Pods.
        controllerRef := metav1.GetControllerOf(pod)
        if controllerRef == nil {
            continue
        }
        // Only append if we care about this UID.
        if podList, ok := podMap[controllerRef.UID]; ok {
            podList.Items = append(podList.Items, *pod)
        }
    }
    return podMap, nil
}

4.4. checkPausedConditions

// Update deployment conditions with an Unknown condition when pausing/resuming
// a deployment. In this way, we can be sure that we won't timeout when a user
// resumes a Deployment with a set progressDeadlineSeconds.
if err = dc.checkPausedConditions(d); err != nil {
    return err
}

if d.Spec.Paused {
    return dc.sync(d, rsList)
}

checkPausedConditions具体代码:

// checkPausedConditions checks if the given deployment is paused or not and adds an appropriate condition.
// These conditions are needed so that we won't accidentally report lack of progress for resumed deployments
// that were paused for longer than progressDeadlineSeconds.
func (dc *DeploymentController) checkPausedConditions(d *apps.Deployment) error {
    if !deploymentutil.HasProgressDeadline(d) {
        return nil
    }
    cond := deploymentutil.GetDeploymentCondition(d.Status, apps.DeploymentProgressing)
    if cond != nil && cond.Reason == deploymentutil.TimedOutReason {
        // If we have reported lack of progress, do not overwrite it with a paused condition.
        return nil
    }
    pausedCondExists := cond != nil && cond.Reason == deploymentutil.PausedDeployReason

    needsUpdate := false
    if d.Spec.Paused && !pausedCondExists {
        condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionUnknown, deploymentutil.PausedDeployReason, "Deployment is paused")
        deploymentutil.SetDeploymentCondition(&d.Status, *condition)
        needsUpdate = true
    } else if !d.Spec.Paused && pausedCondExists {
        condition := deploymentutil.NewDeploymentCondition(apps.DeploymentProgressing, v1.ConditionUnknown, deploymentutil.ResumedDeployReason, "Deployment is resumed")
        deploymentutil.SetDeploymentCondition(&d.Status, *condition)
        needsUpdate = true
    }

    if !needsUpdate {
        return nil
    }

    var err error
    d, err = dc.client.AppsV1().Deployments(d.Namespace).UpdateStatus(d)
    return err
}

4.5. isScalingEvent

scalingEvent, err := dc.isScalingEvent(d, rsList)
if err != nil {
    return err
}
if scalingEvent {
    return dc.sync(d, rsList)
}

isScalingEvent具体代码:

// 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
}

4.6. rolloutRecreate

switch d.Spec.Strategy.Type {
case apps.RecreateDeploymentStrategyType:
    return dc.rolloutRecreate(d, rsList, podMap)

rolloutRecreate具体代码:

// rolloutRecreate implements the logic for recreating a replica set.
func (dc *DeploymentController) rolloutRecreate(d *apps.Deployment, rsList []*apps.ReplicaSet, podMap map[types.UID]*v1.PodList) error {
    // Don't create a new RS if not already existed, so that we avoid scaling up before scaling down.
    newRS, oldRSs, err := dc.getAllReplicaSetsAndSyncRevision(d, rsList, false)
    if err != nil {
        return err
    }
    allRSs := append(oldRSs, newRS)
    activeOldRSs := controller.FilterActiveReplicaSets(oldRSs)

    // scale down old replica sets.
    scaledDown, err := dc.scaleDownOldReplicaSetsForRecreate(activeOldRSs, d)
    if err != nil {
        return err
    }
    if scaledDown {
        // Update DeploymentStatus.
        return dc.syncRolloutStatus(allRSs, newRS, d)
    }

    // Do not process a deployment when it has old pods running.
    if oldPodsRunning(newRS, oldRSs, podMap) {
        return dc.syncRolloutStatus(allRSs, newRS, d)
    }

    // If we need to create a new RS, create it now.
    if newRS == nil {
        newRS, oldRSs, err = dc.getAllReplicaSetsAndSyncRevision(d, rsList, true)
        if err != nil {
            return err
        }
        allRSs = append(oldRSs, newRS)
    }

    // scale up new replica set.
    if _, err := dc.scaleUpNewReplicaSetForRecreate(newRS, d); err != nil {
        return err
    }

    if util.DeploymentComplete(d, &d.Status) {
        if err := dc.cleanupDeployment(oldRSs, d); err != nil {
            return err
        }
    }

    // Sync deployment status.
    return dc.syncRolloutStatus(allRSs, newRS, d)
}

4.7. rolloutRolling

switch d.Spec.Strategy.Type {
case apps.RecreateDeploymentStrategyType:
    return dc.rolloutRecreate(d, rsList, podMap)
case apps.RollingUpdateDeploymentStrategyType:
    return dc.rolloutRolling(d, rsList)
}

rolloutRolling具体代码:

// rolloutRolling implements the logic for rolling a new replica set.
func (dc *DeploymentController) rolloutRolling(d *apps.Deployment, rsList []*apps.ReplicaSet) error {
    newRS, oldRSs, err := dc.getAllReplicaSetsAndSyncRevision(d, rsList, true)
    if err != nil {
        return err
    }
    allRSs := append(oldRSs, newRS)

    // Scale up, if we can.
    scaledUp, err := dc.reconcileNewReplicaSet(allRSs, newRS, d)
    if err != nil {
        return err
    }
    if scaledUp {
        // Update DeploymentStatus
        return dc.syncRolloutStatus(allRSs, newRS, d)
    }

    // Scale down, if we can.
    scaledDown, err := dc.reconcileOldReplicaSets(allRSs, controller.FilterActiveReplicaSets(oldRSs), newRS, d)
    if err != nil {
        return err
    }
    if scaledDown {
        // Update DeploymentStatus
        return dc.syncRolloutStatus(allRSs, newRS, d)
    }

    if deploymentutil.DeploymentComplete(d, &d.Status) {
        if err := dc.cleanupDeployment(oldRSs, d); err != nil {
            return err
        }
    }

    // Sync deployment status
    return dc.syncRolloutStatus(allRSs, newRS, d)
}

5. 总结

startDeploymentController主要包括NewDeploymentControllerDeploymentController.Run两部分。

NewDeploymentController主要构建DeploymentController结构体。

该部分主要处理了以下逻辑:

  1. 构建并运行事件处理器eventBroadcaster
  2. 初始化赋值rsControlclientsetworkqueue
  3. 添加dInformerrsInformerpodInformerResourceEventHandlerFuncs,其中主要为AddFuncUpdateFuncDeleteFunc三类方法。
  4. 构造deployment、rs、pod的Informer的Lister函数和HasSynced函数。
  5. 赋值syncHandler,来实现syncDeployment

DeploymentController.Run主要包含WaitForCacheSyncsyncDeployment两部分。

syncDeployment基于给定的key执行sync deployment的操作。

主要流程如下:

  1. 通过SplitMetaNamespaceKey获取namespace和deployment对象的name。
  2. 调用Lister的接口获取的deployment的对象。
  3. getReplicaSetsForDeployment获取deployment管理的ReplicaSet对象。
  4. getPodMapForDeployment获取deployment管理的pod,基于ReplicaSet来分组。
  5. checkPausedConditions检查deployment是否是pause状态并添加合适的condition
  6. isScalingEvent检查deployment的更新是否来自于一个scale的事件,如果是则执行scale的操作。
  7. 根据DeploymentStrategyType类型执行rolloutRecreaterolloutRolling

参考:

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