blob: 3c39e01ffbaa3446274d562f08741ded09e1bd3d [file] [log] [blame]
/*
* Copyright 2018-present Open Networking Foundation
* 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 model
import (
"bytes"
"crypto/md5"
"fmt"
"github.com/golang/protobuf/proto"
"github.com/opencord/voltha-go/common/log"
"reflect"
"sort"
"sync"
)
type revCacheSingleton struct {
sync.RWMutex
Cache map[string]interface{}
}
var revCacheInstance *revCacheSingleton
var revCacheOnce sync.Once
func GetRevCache() *revCacheSingleton {
revCacheOnce.Do(func() {
revCacheInstance = &revCacheSingleton{Cache: make(map[string]interface{})}
})
return revCacheInstance
}
type NonPersistedRevision struct {
mutex sync.RWMutex
Root *root
Config *DataRevision
Children map[string][]Revision
Hash string
Branch *Branch
WeakRef string
Name string
}
func NewNonPersistedRevision(root *root, branch *Branch, data interface{}, children map[string][]Revision) Revision {
r := &NonPersistedRevision{}
r.Root = root
r.Branch = branch
r.Config = NewDataRevision(root, data)
r.Children = children
r.Hash = r.hashContent()
return r
}
func (npr *NonPersistedRevision) SetConfig(config *DataRevision) {
npr.mutex.Lock()
defer npr.mutex.Unlock()
npr.Config = config
}
func (npr *NonPersistedRevision) GetConfig() *DataRevision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
return npr.Config
}
func (npr *NonPersistedRevision) SetAllChildren(children map[string][]Revision) {
npr.mutex.Lock()
defer npr.mutex.Unlock()
npr.Children = children
}
func (npr *NonPersistedRevision) SetChildren(name string, children []Revision) {
npr.mutex.Lock()
defer npr.mutex.Unlock()
if _, exists := npr.Children[name]; exists {
npr.Children[name] = children
}
}
func (npr *NonPersistedRevision) GetAllChildren() map[string][]Revision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
return npr.Children
}
func (npr *NonPersistedRevision) GetChildren(name string) []Revision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
if _, exists := npr.Children[name]; exists {
return npr.Children[name]
}
return nil
}
func (npr *NonPersistedRevision) SetHash(hash string) {
npr.mutex.Lock()
defer npr.mutex.Unlock()
npr.Hash = hash
}
func (npr *NonPersistedRevision) GetHash() string {
//npr.mutex.Lock()
//defer npr.mutex.Unlock()
return npr.Hash
}
func (npr *NonPersistedRevision) ClearHash() {
npr.mutex.Lock()
defer npr.mutex.Unlock()
npr.Hash = ""
}
func (npr *NonPersistedRevision) GetName() string {
//npr.mutex.Lock()
//defer npr.mutex.Unlock()
return npr.Name
}
func (npr *NonPersistedRevision) SetName(name string) {
//npr.mutex.Lock()
//defer npr.mutex.Unlock()
npr.Name = name
}
func (npr *NonPersistedRevision) SetBranch(branch *Branch) {
npr.mutex.Lock()
defer npr.mutex.Unlock()
npr.Branch = branch
}
func (npr *NonPersistedRevision) GetBranch() *Branch {
npr.mutex.Lock()
defer npr.mutex.Unlock()
return npr.Branch
}
func (npr *NonPersistedRevision) GetData() interface{} {
npr.mutex.Lock()
defer npr.mutex.Unlock()
if npr.Config == nil {
return nil
}
return npr.Config.Data
}
func (npr *NonPersistedRevision) GetNode() *node {
npr.mutex.Lock()
defer npr.mutex.Unlock()
return npr.Branch.Node
}
func (npr *NonPersistedRevision) Finalize(skipOnExist bool) {
GetRevCache().Lock()
defer GetRevCache().Unlock()
if !skipOnExist {
npr.Hash = npr.hashContent()
}
if _, exists := GetRevCache().Cache[npr.Hash]; !exists {
GetRevCache().Cache[npr.Hash] = npr
}
if _, exists := GetRevCache().Cache[npr.Config.Hash]; !exists {
GetRevCache().Cache[npr.Config.Hash] = npr.Config
} else {
npr.Config = GetRevCache().Cache[npr.Config.Hash].(*DataRevision)
}
}
func (npr *NonPersistedRevision) hashContent() string {
var buffer bytes.Buffer
var childrenKeys []string
if npr.Config != nil {
buffer.WriteString(npr.Config.Hash)
}
for key := range npr.Children {
childrenKeys = append(childrenKeys, key)
}
sort.Strings(childrenKeys)
if len(npr.Children) > 0 {
// Loop through sorted Children keys
for _, key := range childrenKeys {
for _, child := range npr.Children[key] {
if child != nil && child.GetHash() != "" {
buffer.WriteString(child.GetHash())
}
}
}
}
return fmt.Sprintf("%x", md5.Sum(buffer.Bytes()))[:12]
}
func (npr *NonPersistedRevision) Get(depth int) interface{} {
// 1. Clone the data to avoid any concurrent access issues
// 2. The current rev might still be pointing to an old config
// thus, force the revision to get its latest value
latestRev := npr.GetBranch().GetLatest()
originalData := proto.Clone(latestRev.GetData().(proto.Message))
data := originalData
// Get back to the interface type
//data := reflect.ValueOf(originalData).Interface()
if depth != 0 {
for fieldName, field := range ChildrenFields(latestRev.GetData()) {
childDataName, childDataHolder := GetAttributeValue(data, fieldName, 0)
if field.IsContainer {
for _, rev := range latestRev.GetChildren(fieldName) {
childData := rev.Get(depth - 1)
foundEntry := false
for i := 0; i < childDataHolder.Len(); i++ {
cdh_if := childDataHolder.Index(i).Interface()
if cdh_if.(proto.Message).String() == childData.(proto.Message).String() {
foundEntry = true
break
}
}
if !foundEntry {
// avoid duplicates by adding it only if the child was not found in the holder
childDataHolder = reflect.Append(childDataHolder, reflect.ValueOf(childData))
}
}
} else {
if revs := latestRev.GetChildren(fieldName); revs != nil && len(revs) > 0 {
rev := latestRev.GetChildren(fieldName)[0]
if rev != nil {
childData := rev.Get(depth - 1)
if reflect.TypeOf(childData) == reflect.TypeOf(childDataHolder.Interface()) {
childDataHolder = reflect.ValueOf(childData)
}
}
}
}
// Merge child data with cloned object
reflect.ValueOf(data).Elem().FieldByName(childDataName).Set(childDataHolder)
}
}
result := data
if result != nil {
// We need to send back a copy of the retrieved object
result = proto.Clone(data.(proto.Message))
}
return result
}
func (npr *NonPersistedRevision) UpdateData(data interface{}, branch *Branch) Revision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
if npr.Config.Data != nil && npr.Config.hashData(npr.Root, data) == npr.Config.Hash {
log.Debugw("stored-data-matches-latest", log.Fields{"stored": npr.Config.Data, "provided": data})
return npr
}
newRev := NonPersistedRevision{}
newRev.Config = NewDataRevision(npr.Root, data)
newRev.Hash = npr.Hash
newRev.Branch = branch
newRev.Children = make(map[string][]Revision)
for entryName, childrenEntry := range npr.Children {
newRev.Children[entryName] = append(newRev.Children[entryName], childrenEntry...)
}
newRev.Finalize(false)
return &newRev
}
func (npr *NonPersistedRevision) UpdateChildren(name string, children []Revision, branch *Branch) Revision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
updatedRev := npr
// Verify if the map contains already contains an entry matching the name value
// If so, we need to retain the contents of that entry and merge them with the provided children revision list
if _, exists := updatedRev.Children[name]; exists {
// Go through all child hashes and save their index within the map
existChildMap := make(map[string]int)
for i, child := range updatedRev.Children[name] {
existChildMap[child.GetHash()] = i
}
for _, newChild := range children {
if _, childExists := existChildMap[newChild.GetHash()]; !childExists {
// revision is not present in the existing list... add it
updatedRev.Children[name] = append(updatedRev.Children[name], newChild)
} else {
// replace
updatedRev.Children[name][existChildMap[newChild.GetHash()]] = newChild
}
}
} else {
// Map entry does not exist, thus just create a new entry and assign the provided revisions
updatedRev.Children[name] = make([]Revision, len(children))
copy(updatedRev.Children[name], children)
}
updatedRev.Config = NewDataRevision(npr.Root, npr.Config.Data)
updatedRev.Hash = npr.Hash
updatedRev.Branch = branch
updatedRev.Finalize(false)
return updatedRev
}
func (npr *NonPersistedRevision) UpdateAllChildren(children map[string][]Revision, branch *Branch) Revision {
npr.mutex.Lock()
defer npr.mutex.Unlock()
newRev := npr
newRev.Config = npr.Config
newRev.Hash = npr.Hash
newRev.Branch = branch
newRev.Children = make(map[string][]Revision)
for entryName, childrenEntry := range children {
newRev.Children[entryName] = append(newRev.Children[entryName], childrenEntry...)
}
newRev.Finalize(false)
return newRev
}
func (npr *NonPersistedRevision) Drop(txid string, includeConfig bool) {
GetRevCache().Lock()
defer GetRevCache().Unlock()
if includeConfig {
delete(GetRevCache().Cache, npr.Config.Hash)
}
delete(GetRevCache().Cache, npr.Hash)
}
func (npr *NonPersistedRevision) LoadFromPersistence(path string, txid string) []Revision {
// stub... required by interface
return nil
}
func (npr *NonPersistedRevision) SetupWatch(key string) {
// stub ... required by interface
}
func (pr *NonPersistedRevision) StorageDrop(txid string, includeConfig bool) {
// stub ... required by interface
}