func (dc *DeploymentController) calculateStatus(allRSs []*extensions.ReplicaSet, newRS *extensions.ReplicaSet, deployment extensions.Deployment) (totalReplicas, updatedReplicas, availableReplicas, unavailableReplicas int, err error) {
	totalReplicas = deploymentutil.GetReplicaCountForReplicaSets(allRSs)
	updatedReplicas = deploymentutil.GetReplicaCountForReplicaSets([]*extensions.ReplicaSet{newRS})
	minReadySeconds := deployment.Spec.MinReadySeconds
	availableReplicas, err = deploymentutil.GetAvailablePodsForReplicaSets(dc.client, allRSs, minReadySeconds)
	if err != nil {
		err = fmt.Errorf("failed to count available pods: %v", err)
		return
	}
	unavailableReplicas = totalReplicas - availableReplicas
	return
}
Beispiel #2
0
func (dc *DeploymentController) reconcileNewReplicaSet(allRSs []*extensions.ReplicaSet, newRS *extensions.ReplicaSet, deployment extensions.Deployment) (bool, error) {
	if newRS.Spec.Replicas == deployment.Spec.Replicas {
		// Scaling not required.
		return false, nil
	}
	if newRS.Spec.Replicas > deployment.Spec.Replicas {
		// Scale down.
		_, err := dc.scaleReplicaSetAndRecordEvent(newRS, deployment.Spec.Replicas, deployment)
		return true, err
	}
	// Check if we can scale up.
	maxSurge, isPercent, err := util.GetIntOrPercentValue(&deployment.Spec.Strategy.RollingUpdate.MaxSurge)
	if err != nil {
		return false, fmt.Errorf("invalid value for MaxSurge: %v", err)
	}
	if isPercent {
		maxSurge = util.GetValueFromPercent(maxSurge, deployment.Spec.Replicas)
	}
	// Find the total number of pods
	currentPodCount := deploymentutil.GetReplicaCountForReplicaSets(allRSs)
	maxTotalPods := deployment.Spec.Replicas + maxSurge
	if currentPodCount >= maxTotalPods {
		// Cannot scale up.
		return false, nil
	}
	// Scale up.
	scaleUpCount := maxTotalPods - currentPodCount
	// Do not exceed the number of desired replicas.
	scaleUpCount = int(math.Min(float64(scaleUpCount), float64(deployment.Spec.Replicas-newRS.Spec.Replicas)))
	newReplicasCount := newRS.Spec.Replicas + scaleUpCount
	_, err = dc.scaleReplicaSetAndRecordEvent(newRS, newReplicasCount, deployment)
	return true, err
}
Beispiel #3
0
func (dc *DeploymentController) calculateStatus(allRSs []*extensions.ReplicaSet, newRS *extensions.ReplicaSet, deployment *extensions.Deployment) (extensions.DeploymentStatus, error) {
	availableReplicas, err := dc.getAvailablePodsForReplicaSets(deployment, allRSs)
	if err != nil {
		return deployment.Status, fmt.Errorf("failed to count available pods: %v", err)
	}
	totalReplicas := deploymentutil.GetReplicaCountForReplicaSets(allRSs)

	return extensions.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([]*extensions.ReplicaSet{newRS}),
		AvailableReplicas:   availableReplicas,
		UnavailableReplicas: totalReplicas - availableReplicas,
	}, nil
}
// Set expectationsCheck to false to bypass expectations check when testing
func (dc *DeploymentController) reconcileOldReplicaSets(allRSs []*extensions.ReplicaSet, oldRSs []*extensions.ReplicaSet, newRS *extensions.ReplicaSet, deployment extensions.Deployment, expectationsCheck bool) (bool, error) {
	oldPodsCount := deploymentutil.GetReplicaCountForReplicaSets(oldRSs)
	if oldPodsCount == 0 {
		// Can't scale down further
		return false, nil
	}

	// Check the expectations of deployment before reconciling
	dKey, err := controller.KeyFunc(&deployment)
	if err != nil {
		return false, fmt.Errorf("Couldn't get key for deployment %#v: %v", deployment, err)
	}
	if expectationsCheck && !dc.podExpectations.SatisfiedExpectations(dKey) {
		glog.V(4).Infof("Pod expectations not met yet before reconciling old replica sets\n")
		return false, nil
	}

	minReadySeconds := deployment.Spec.MinReadySeconds
	allPodsCount := deploymentutil.GetReplicaCountForReplicaSets(allRSs)
	newRSAvailablePodCount, err := deploymentutil.GetAvailablePodsForReplicaSets(dc.client, []*extensions.ReplicaSet{newRS}, minReadySeconds)
	if err != nil {
		return false, fmt.Errorf("could not find available pods: %v", err)
	}

	maxUnavailable, err := intstrutil.GetValueFromIntOrPercent(&deployment.Spec.Strategy.RollingUpdate.MaxUnavailable, deployment.Spec.Replicas)
	if err != nil {
		return false, err
	}

	// Check if we can scale down. We can scale down in the following 2 cases:
	// * Some old replica sets have unhealthy replicas, we could safely scale down those unhealthy replicas since that won't further
	//  increase unavailability.
	// * New replica set has scaled up and it's replicas becomes ready, then we can scale down old replica sets in a further step.
	//
	// maxScaledDown := allPodsCount - minAvailable - newReplicaSetPodsUnavailable
	// take into account not only maxUnavailable and any surge pods that have been created, but also unavailable pods from
	// the newRS, so that the unavailable pods from the newRS would not make us scale down old replica sets in a further
	// step(that will increase unavailability).
	//
	// Concrete example:
	//
	// * 10 replicas
	// * 2 maxUnavailable (absolute number, not percent)
	// * 3 maxSurge (absolute number, not percent)
	//
	// case 1:
	// * Deployment is updated, newRS is created with 3 replicas, oldRS is scaled down to 8, and newRS is scaled up to 5.
	// * The new replica set pods crashloop and never become available.
	// * allPodsCount is 13. minAvailable is 8. newRSPodsUnavailable is 5.
	// * A node fails and causes one of the oldRS pods to become unavailable. However, 13 - 8 - 5 = 0, so the oldRS won't be scaled down.
	// * The user notices the crashloop and does kubectl rollout undo to rollback.
	// * newRSPodsUnavailable is 1, since we rolled back to the good replica set, so maxScaledDown = 13 - 8 - 1 = 4. 4 of the crashlooping pods will be scaled down.
	// * The total number of pods will then be 9 and the newRS can be scaled up to 10.
	//
	// case 2:
	// Same example, but pushing a new pod template instead of rolling back (aka "roll over"):
	// * The new replica set created must start with 0 replicas because allPodsCount is already at 13.
	// * However, newRSPodsUnavailable would also be 0, so the 2 old replica sets could be scaled down by 5 (13 - 8 - 0), which would then
	// allow the new replica set to be scaled up by 5.
	minAvailable := deployment.Spec.Replicas - maxUnavailable
	newRSUnavailablePodCount := newRS.Spec.Replicas - newRSAvailablePodCount
	maxScaledDown := allPodsCount - minAvailable - newRSUnavailablePodCount
	if maxScaledDown <= 0 {
		return false, nil
	}

	// Clean up unhealthy replicas first, otherwise unhealthy replicas will block deployment
	// and cause timeout. See https://github.com/kubernetes/kubernetes/issues/16737
	cleanupCount, err := dc.cleanupUnhealthyReplicas(oldRSs, deployment, maxScaledDown)
	if err != nil {
		return false, nil
	}

	// Scale down old replica sets, need check maxUnavailable to ensure we can scale down
	scaledDownCount, err := dc.scaleDownOldReplicaSetsForRollingUpdate(allRSs, oldRSs, deployment)
	if err != nil {
		return false, nil
	}

	totalScaledDown := cleanupCount + scaledDownCount
	if expectationsCheck {
		dc.podExpectations.ExpectDeletions(dKey, totalScaledDown)
	}

	return totalScaledDown > 0, nil
}
Beispiel #5
0
// scale scales proportionally in order to mitigate risk. Otherwise, scaling up can increase the size
// of the new replica set and scaling down can decrease the sizes of the old ones, both of which would
// have the effect of hastening the rollout progress, which could produce a higher proportion of unavailable
// replicas in the event of a problem with the rolled out template. Should run only on scaling events or
// when a deployment is paused and not during the normal rollout process.
func (dc *DeploymentController) scale(deployment *extensions.Deployment, newRS *extensions.ReplicaSet, oldRSs []*extensions.ReplicaSet) error {
	// If there is only one active replica set then we should scale that up to the full count of the
	// deployment. If there is no active replica set, then we should scale up the newest replica set.
	if activeOrLatest := findActiveOrLatest(newRS, oldRSs); activeOrLatest != nil {
		if activeOrLatest.Spec.Replicas == deployment.Spec.Replicas {
			return nil
		}
		_, _, err := dc.scaleReplicaSetAndRecordEvent(activeOrLatest, deployment.Spec.Replicas, deployment)
		return err
	}

	// If the new replica set is saturated, old replica sets should be fully scaled down.
	// This case handles replica set adoption during a saturated new replica set.
	if deploymentutil.IsSaturated(deployment, newRS) {
		for _, old := range controller.FilterActiveReplicaSets(oldRSs) {
			if _, _, err := dc.scaleReplicaSetAndRecordEvent(old, 0, deployment); err != nil {
				return err
			}
		}
		return nil
	}

	// There are old replica sets with pods and the new replica set is not saturated.
	// We need to proportionally scale all replica sets (new and old) in case of a
	// rolling deployment.
	if deploymentutil.IsRollingUpdate(deployment) {
		allRSs := controller.FilterActiveReplicaSets(append(oldRSs, newRS))
		allRSsReplicas := deploymentutil.GetReplicaCountForReplicaSets(allRSs)

		allowedSize := int32(0)
		if deployment.Spec.Replicas > 0 {
			allowedSize = deployment.Spec.Replicas + maxSurge(*deployment)
		}

		// Number of additional replicas that can be either added or removed from the total
		// replicas count. These replicas should be distributed proportionally to the active
		// replica sets.
		deploymentReplicasToAdd := allowedSize - allRSsReplicas

		// The additional replicas should be distributed proportionally amongst the active
		// replica sets from the larger to the smaller in size replica set. Scaling direction
		// drives what happens in case we are trying to scale replica sets of the same size.
		// In such a case when scaling up, we should scale up newer replica sets first, and
		// when scaling down, we should scale down older replica sets first.
		scalingOperation := "up"
		switch {
		case deploymentReplicasToAdd > 0:
			sort.Sort(controller.ReplicaSetsBySizeNewer(allRSs))

		case deploymentReplicasToAdd < 0:
			sort.Sort(controller.ReplicaSetsBySizeOlder(allRSs))
			scalingOperation = "down"

		default: /* deploymentReplicasToAdd == 0 */
			// Nothing to add.
			return nil
		}

		// Iterate over all active replica sets and estimate proportions for each of them.
		// The absolute value of deploymentReplicasAdded should never exceed the absolute
		// value of deploymentReplicasToAdd.
		deploymentReplicasAdded := int32(0)
		for i := range allRSs {
			rs := allRSs[i]

			proportion := getProportion(rs, *deployment, deploymentReplicasToAdd, deploymentReplicasAdded)

			rs.Spec.Replicas += proportion
			deploymentReplicasAdded += proportion
		}

		// Update all replica sets
		for i := range allRSs {
			rs := allRSs[i]

			// Add/remove any leftovers to the largest replica set.
			if i == 0 {
				leftover := deploymentReplicasToAdd - deploymentReplicasAdded
				rs.Spec.Replicas += leftover
				if rs.Spec.Replicas < 0 {
					rs.Spec.Replicas = 0
				}
			}

			if _, err := dc.scaleReplicaSet(rs, rs.Spec.Replicas, deployment, scalingOperation); err != nil {
				// Return as soon as we fail, the deployment is requeued
				return err
			}
		}
	}
	return nil
}