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kuberuntime_gc.go
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kuberuntime_gc.go
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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 kuberuntime
import (
"fmt"
"os"
"path/filepath"
"sort"
"time"
"github.com/golang/glog"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/sets"
internalapi "k8s.io/kubernetes/pkg/kubelet/apis/cri"
runtimeapi "k8s.io/kubernetes/pkg/kubelet/apis/cri/v1alpha1/runtime"
kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
)
// containerGC is the manager of garbage collection.
type containerGC struct {
client internalapi.RuntimeService
manager *kubeGenericRuntimeManager
podStateProvider podStateProvider
}
// NewContainerGC creates a new containerGC.
func NewContainerGC(client internalapi.RuntimeService, podStateProvider podStateProvider, manager *kubeGenericRuntimeManager) *containerGC {
return &containerGC{
client: client,
manager: manager,
podStateProvider: podStateProvider,
}
}
// containerGCInfo is the internal information kept for containers being considered for GC.
type containerGCInfo struct {
// The ID of the container.
id string
// The name of the container.
name string
// Creation time for the container.
createTime time.Time
}
// sandboxGCInfo is the internal information kept for sandboxes being considered for GC.
type sandboxGCInfo struct {
// The ID of the sandbox.
id string
// Creation time for the sandbox.
createTime time.Time
// If true, the sandbox is ready or still has containers.
active bool
}
// evictUnit is considered for eviction as units of (UID, container name) pair.
type evictUnit struct {
// UID of the pod.
uid types.UID
// Name of the container in the pod.
name string
}
type containersByEvictUnit map[evictUnit][]containerGCInfo
type sandboxesByPodUID map[types.UID][]sandboxGCInfo
// NumContainers returns the number of containers in this map.
func (cu containersByEvictUnit) NumContainers() int {
num := 0
for key := range cu {
num += len(cu[key])
}
return num
}
// NumEvictUnits returns the number of pod in this map.
func (cu containersByEvictUnit) NumEvictUnits() int {
return len(cu)
}
// Newest first.
type byCreated []containerGCInfo
func (a byCreated) Len() int { return len(a) }
func (a byCreated) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byCreated) Less(i, j int) bool { return a[i].createTime.After(a[j].createTime) }
// Newest first.
type sandboxByCreated []sandboxGCInfo
func (a sandboxByCreated) Len() int { return len(a) }
func (a sandboxByCreated) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a sandboxByCreated) Less(i, j int) bool { return a[i].createTime.After(a[j].createTime) }
// enforceMaxContainersPerEvictUnit enforces MaxPerPodContainer for each evictUnit.
func (cgc *containerGC) enforceMaxContainersPerEvictUnit(evictUnits containersByEvictUnit, MaxContainers int) {
for key := range evictUnits {
toRemove := len(evictUnits[key]) - MaxContainers
if toRemove > 0 {
evictUnits[key] = cgc.removeOldestN(evictUnits[key], toRemove)
}
}
}
// removeOldestN removes the oldest toRemove containers and returns the resulting slice.
func (cgc *containerGC) removeOldestN(containers []containerGCInfo, toRemove int) []containerGCInfo {
// Remove from oldest to newest (last to first).
numToKeep := len(containers) - toRemove
for i := len(containers) - 1; i >= numToKeep; i-- {
if err := cgc.manager.removeContainer(containers[i].id); err != nil {
glog.Errorf("Failed to remove container %q: %v", containers[i].id, err)
}
}
// Assume we removed the containers so that we're not too aggressive.
return containers[:numToKeep]
}
// removeOldestNSandboxes removes the oldest inactive toRemove sandboxes and
// returns the resulting slice.
func (cgc *containerGC) removeOldestNSandboxes(sandboxes []sandboxGCInfo, toRemove int) {
// Remove from oldest to newest (last to first).
numToKeep := len(sandboxes) - toRemove
for i := len(sandboxes) - 1; i >= numToKeep; i-- {
if !sandboxes[i].active {
cgc.removeSandbox(sandboxes[i].id)
}
}
}
// removeSandbox removes the sandbox by sandboxID.
func (cgc *containerGC) removeSandbox(sandboxID string) {
glog.V(4).Infof("Removing sandbox %q", sandboxID)
// In normal cases, kubelet should've already called StopPodSandbox before
// GC kicks in. To guard against the rare cases where this is not true, try
// stopping the sandbox before removing it.
if err := cgc.client.StopPodSandbox(sandboxID); err != nil {
glog.Errorf("Failed to stop sandbox %q before removing: %v", sandboxID, err)
return
}
if err := cgc.client.RemovePodSandbox(sandboxID); err != nil {
glog.Errorf("Failed to remove sandbox %q: %v", sandboxID, err)
}
}
// evictableContainers gets all containers that are evictable. Evictable containers are: not running
// and created more than MinAge ago.
func (cgc *containerGC) evictableContainers(minAge time.Duration) (containersByEvictUnit, error) {
containers, err := cgc.manager.getKubeletContainers(true)
if err != nil {
return containersByEvictUnit{}, err
}
evictUnits := make(containersByEvictUnit)
newestGCTime := time.Now().Add(-minAge)
for _, container := range containers {
// Prune out running containers.
if container.State == runtimeapi.ContainerState_CONTAINER_RUNNING {
continue
}
createdAt := time.Unix(0, container.CreatedAt)
if newestGCTime.Before(createdAt) {
continue
}
labeledInfo := getContainerInfoFromLabels(container.Labels)
containerInfo := containerGCInfo{
id: container.Id,
name: container.Metadata.Name,
createTime: createdAt,
}
key := evictUnit{
uid: labeledInfo.PodUID,
name: containerInfo.name,
}
evictUnits[key] = append(evictUnits[key], containerInfo)
}
// Sort the containers by age.
for uid := range evictUnits {
sort.Sort(byCreated(evictUnits[uid]))
}
return evictUnits, nil
}
// evict all containers that are evictable
func (cgc *containerGC) evictContainers(gcPolicy kubecontainer.ContainerGCPolicy, allSourcesReady bool, evictTerminatedPods bool) error {
// Separate containers by evict units.
evictUnits, err := cgc.evictableContainers(gcPolicy.MinAge)
if err != nil {
return err
}
// Remove deleted pod containers if all sources are ready.
if allSourcesReady {
for key, unit := range evictUnits {
if cgc.podStateProvider.IsPodDeleted(key.uid) || (cgc.podStateProvider.IsPodTerminated(key.uid) && evictTerminatedPods) {
cgc.removeOldestN(unit, len(unit)) // Remove all.
delete(evictUnits, key)
}
}
}
// Enforce max containers per evict unit.
if gcPolicy.MaxPerPodContainer >= 0 {
cgc.enforceMaxContainersPerEvictUnit(evictUnits, gcPolicy.MaxPerPodContainer)
}
// Enforce max total number of containers.
if gcPolicy.MaxContainers >= 0 && evictUnits.NumContainers() > gcPolicy.MaxContainers {
// Leave an equal number of containers per evict unit (min: 1).
numContainersPerEvictUnit := gcPolicy.MaxContainers / evictUnits.NumEvictUnits()
if numContainersPerEvictUnit < 1 {
numContainersPerEvictUnit = 1
}
cgc.enforceMaxContainersPerEvictUnit(evictUnits, numContainersPerEvictUnit)
// If we still need to evict, evict oldest first.
numContainers := evictUnits.NumContainers()
if numContainers > gcPolicy.MaxContainers {
flattened := make([]containerGCInfo, 0, numContainers)
for key := range evictUnits {
flattened = append(flattened, evictUnits[key]...)
}
sort.Sort(byCreated(flattened))
cgc.removeOldestN(flattened, numContainers-gcPolicy.MaxContainers)
}
}
return nil
}
// evictSandboxes remove all evictable sandboxes. An evictable sandbox must
// meet the following requirements:
// 1. not in ready state
// 2. contains no containers.
// 3. belong to a non-existent (i.e., already removed) pod, or is not the
// most recently created sandbox for the pod.
func (cgc *containerGC) evictSandboxes(evictTerminatedPods bool) error {
containers, err := cgc.manager.getKubeletContainers(true)
if err != nil {
return err
}
// collect all the PodSandboxId of container
sandboxIDs := sets.NewString()
for _, container := range containers {
sandboxIDs.Insert(container.PodSandboxId)
}
sandboxes, err := cgc.manager.getKubeletSandboxes(true)
if err != nil {
return err
}
sandboxesByPod := make(sandboxesByPodUID)
for _, sandbox := range sandboxes {
podUID := types.UID(sandbox.Metadata.Uid)
sandboxInfo := sandboxGCInfo{
id: sandbox.Id,
createTime: time.Unix(0, sandbox.CreatedAt),
}
// Set ready sandboxes to be active.
if sandbox.State == runtimeapi.PodSandboxState_SANDBOX_READY {
sandboxInfo.active = true
}
// Set sandboxes that still have containers to be active.
if sandboxIDs.Has(sandbox.Id) {
sandboxInfo.active = true
}
sandboxesByPod[podUID] = append(sandboxesByPod[podUID], sandboxInfo)
}
// Sort the sandboxes by age.
for uid := range sandboxesByPod {
sort.Sort(sandboxByCreated(sandboxesByPod[uid]))
}
for podUID, sandboxes := range sandboxesByPod {
if cgc.podStateProvider.IsPodDeleted(podUID) || (cgc.podStateProvider.IsPodTerminated(podUID) && evictTerminatedPods) {
// Remove all evictable sandboxes if the pod has been removed.
// Note that the latest dead sandbox is also removed if there is
// already an active one.
cgc.removeOldestNSandboxes(sandboxes, len(sandboxes))
} else {
// Keep latest one if the pod still exists.
cgc.removeOldestNSandboxes(sandboxes, len(sandboxes)-1)
}
}
return nil
}
// evictPodLogsDirectories evicts all evictable pod logs directories. Pod logs directories
// are evictable if there are no corresponding pods.
func (cgc *containerGC) evictPodLogsDirectories(allSourcesReady bool) error {
osInterface := cgc.manager.osInterface
if allSourcesReady {
// Only remove pod logs directories when all sources are ready.
dirs, err := osInterface.ReadDir(podLogsRootDirectory)
if err != nil {
return fmt.Errorf("failed to read podLogsRootDirectory %q: %v", podLogsRootDirectory, err)
}
for _, dir := range dirs {
name := dir.Name()
podUID := types.UID(name)
if !cgc.podStateProvider.IsPodDeleted(podUID) {
continue
}
err := osInterface.RemoveAll(filepath.Join(podLogsRootDirectory, name))
if err != nil {
glog.Errorf("Failed to remove pod logs directory %q: %v", name, err)
}
}
}
// Remove dead container log symlinks.
// TODO(random-liu): Remove this after cluster logging supports CRI container log path.
logSymlinks, _ := osInterface.Glob(filepath.Join(legacyContainerLogsDir, fmt.Sprintf("*.%s", legacyLogSuffix)))
for _, logSymlink := range logSymlinks {
if _, err := osInterface.Stat(logSymlink); os.IsNotExist(err) {
err := osInterface.Remove(logSymlink)
if err != nil {
glog.Errorf("Failed to remove container log dead symlink %q: %v", logSymlink, err)
}
}
}
return nil
}
// GarbageCollect removes dead containers using the specified container gc policy.
// Note that gc policy is not applied to sandboxes. Sandboxes are only removed when they are
// not ready and containing no containers.
//
// GarbageCollect consists of the following steps:
// * gets evictable containers which are not active and created more than gcPolicy.MinAge ago.
// * removes oldest dead containers for each pod by enforcing gcPolicy.MaxPerPodContainer.
// * removes oldest dead containers by enforcing gcPolicy.MaxContainers.
// * gets evictable sandboxes which are not ready and contains no containers.
// * removes evictable sandboxes.
func (cgc *containerGC) GarbageCollect(gcPolicy kubecontainer.ContainerGCPolicy, allSourcesReady bool, evictTerminatedPods bool) error {
// Remove evictable containers
if err := cgc.evictContainers(gcPolicy, allSourcesReady, evictTerminatedPods); err != nil {
return err
}
// Remove sandboxes with zero containers
if err := cgc.evictSandboxes(evictTerminatedPods); err != nil {
return err
}
// Remove pod sandbox log directory
return cgc.evictPodLogsDirectories(allSourcesReady)
}