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cache_based_manager.go
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cache_based_manager.go
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/*
Copyright 2018 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 manager
import (
"fmt"
"strconv"
"sync"
"time"
"k8s.io/api/core/v1"
storageetcd "k8s.io/apiserver/pkg/storage/etcd"
"k8s.io/kubernetes/pkg/kubelet/util"
apierrors "k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/clock"
"k8s.io/apimachinery/pkg/util/sets"
)
// GetObjectTTLFunc defines a function to get value of TTL.
type GetObjectTTLFunc func() (time.Duration, bool)
// GetObjectFunc defines a function to get object with a given namespace and name.
type GetObjectFunc func(string, string, metav1.GetOptions) (runtime.Object, error)
type objectKey struct {
namespace string
name string
}
// objectStoreItems is a single item stored in objectStore.
type objectStoreItem struct {
refCount int
data *objectData
}
type objectData struct {
sync.Mutex
object runtime.Object
err error
lastUpdateTime time.Time
}
// objectStore is a local cache of objects.
type objectStore struct {
getObject GetObjectFunc
clock clock.Clock
lock sync.Mutex
items map[objectKey]*objectStoreItem
defaultTTL time.Duration
getTTL GetObjectTTLFunc
}
// NewObjectStore returns a new ttl-based instance of Store interface.
func NewObjectStore(getObject GetObjectFunc, clock clock.Clock, getTTL GetObjectTTLFunc, ttl time.Duration) Store {
return &objectStore{
getObject: getObject,
clock: clock,
items: make(map[objectKey]*objectStoreItem),
defaultTTL: ttl,
getTTL: getTTL,
}
}
func isObjectOlder(newObject, oldObject runtime.Object) bool {
if newObject == nil || oldObject == nil {
return false
}
newVersion, _ := storageetcd.Versioner.ObjectResourceVersion(newObject)
oldVersion, _ := storageetcd.Versioner.ObjectResourceVersion(oldObject)
return newVersion < oldVersion
}
func (s *objectStore) AddReference(namespace, name string) {
key := objectKey{namespace: namespace, name: name}
// AddReference is called from RegisterPod, thus it needs to be efficient.
// Thus Add() is only increasing refCount and generation of a given object.
// Then Get() is responsible for fetching if needed.
s.lock.Lock()
defer s.lock.Unlock()
item, exists := s.items[key]
if !exists {
item = &objectStoreItem{
refCount: 0,
data: &objectData{},
}
s.items[key] = item
}
item.refCount++
// This will trigger fetch on the next Get() operation.
item.data = nil
}
func (s *objectStore) DeleteReference(namespace, name string) {
key := objectKey{namespace: namespace, name: name}
s.lock.Lock()
defer s.lock.Unlock()
if item, ok := s.items[key]; ok {
item.refCount--
if item.refCount == 0 {
delete(s.items, key)
}
}
}
// GetObjectTTLFromNodeFunc returns a function that returns TTL value
// from a given Node object.
func GetObjectTTLFromNodeFunc(getNode func() (*v1.Node, error)) GetObjectTTLFunc {
return func() (time.Duration, bool) {
node, err := getNode()
if err != nil {
return time.Duration(0), false
}
if node != nil && node.Annotations != nil {
if value, ok := node.Annotations[v1.ObjectTTLAnnotationKey]; ok {
if intValue, err := strconv.Atoi(value); err == nil {
return time.Duration(intValue) * time.Second, true
}
}
}
return time.Duration(0), false
}
}
func (s *objectStore) isObjectFresh(data *objectData) bool {
objectTTL := s.defaultTTL
if ttl, ok := s.getTTL(); ok {
objectTTL = ttl
}
return s.clock.Now().Before(data.lastUpdateTime.Add(objectTTL))
}
func (s *objectStore) Get(namespace, name string) (runtime.Object, error) {
key := objectKey{namespace: namespace, name: name}
data := func() *objectData {
s.lock.Lock()
defer s.lock.Unlock()
item, exists := s.items[key]
if !exists {
return nil
}
if item.data == nil {
item.data = &objectData{}
}
return item.data
}()
if data == nil {
return nil, fmt.Errorf("object %q/%q not registered", namespace, name)
}
// After updating data in objectStore, lock the data, fetch object if
// needed and return data.
data.Lock()
defer data.Unlock()
if data.err != nil || !s.isObjectFresh(data) {
opts := metav1.GetOptions{}
if data.object != nil && data.err == nil {
// This is just a periodic refresh of an object we successfully fetched previously.
// In this case, server data from apiserver cache to reduce the load on both
// etcd and apiserver (the cache is eventually consistent).
util.FromApiserverCache(&opts)
}
object, err := s.getObject(namespace, name, opts)
if err != nil && !apierrors.IsNotFound(err) && data.object == nil && data.err == nil {
// Couldn't fetch the latest object, but there is no cached data to return.
// Return the fetch result instead.
return object, err
}
if (err == nil && !isObjectOlder(object, data.object)) || apierrors.IsNotFound(err) {
// If the fetch succeeded with a newer version of the object, or if the
// object could not be found in the apiserver, update the cached data to
// reflect the current status.
data.object = object
data.err = err
data.lastUpdateTime = s.clock.Now()
}
}
return data.object, data.err
}
// cacheBasedManager keeps a store with objects necessary
// for registered pods. Different implementations of the store
// may result in different semantics for freshness of objects
// (e.g. ttl-based implementation vs watch-based implementation).
type cacheBasedManager struct {
objectStore Store
getReferencedObjects func(*v1.Pod) sets.String
lock sync.Mutex
registeredPods map[objectKey]*v1.Pod
}
func (c *cacheBasedManager) GetObject(namespace, name string) (runtime.Object, error) {
return c.objectStore.Get(namespace, name)
}
func (c *cacheBasedManager) RegisterPod(pod *v1.Pod) {
names := c.getReferencedObjects(pod)
c.lock.Lock()
defer c.lock.Unlock()
for name := range names {
c.objectStore.AddReference(pod.Namespace, name)
}
var prev *v1.Pod
key := objectKey{namespace: pod.Namespace, name: pod.Name}
prev = c.registeredPods[key]
c.registeredPods[key] = pod
if prev != nil {
for name := range c.getReferencedObjects(prev) {
// On an update, the .Add() call above will have re-incremented the
// ref count of any existing object, so any objects that are in both
// names and prev need to have their ref counts decremented. Any that
// are only in prev need to be completely removed. This unconditional
// call takes care of both cases.
c.objectStore.DeleteReference(prev.Namespace, name)
}
}
}
func (c *cacheBasedManager) UnregisterPod(pod *v1.Pod) {
var prev *v1.Pod
key := objectKey{namespace: pod.Namespace, name: pod.Name}
c.lock.Lock()
defer c.lock.Unlock()
prev = c.registeredPods[key]
delete(c.registeredPods, key)
if prev != nil {
for name := range c.getReferencedObjects(prev) {
c.objectStore.DeleteReference(prev.Namespace, name)
}
}
}
// NewCacheBasedManager creates a manager that keeps a cache of all objects
// necessary for registered pods.
// It implements the following logic:
// - whenever a pod is created or updated, the cached versions of all objects
// is is referencing are invalidated
// - every GetObject() call tries to fetch the value from local cache; if it is
// not there, invalidated or too old, we fetch it from apiserver and refresh the
// value in cache; otherwise it is just fetched from cache
func NewCacheBasedManager(objectStore Store, getReferencedObjects func(*v1.Pod) sets.String) Manager {
return &cacheBasedManager{
objectStore: objectStore,
getReferencedObjects: getReferencedObjects,
registeredPods: make(map[objectKey]*v1.Pod),
}
}