// Copyright 2015 The etcd 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 v2store import ( "path" "sort" "time" "go.etcd.io/etcd/etcdserver/api/v2error" "github.com/jonboulle/clockwork" ) // explanations of Compare function result const ( CompareMatch = iota CompareIndexNotMatch CompareValueNotMatch CompareNotMatch ) var Permanent time.Time // node is the basic element in the store system. // A key-value pair will have a string value // A directory will have a children map type node struct { Path string CreatedIndex uint64 ModifiedIndex uint64 Parent *node `json:"-"` // should not encode this field! avoid circular dependency. ExpireTime time.Time Value string // for key-value pair Children map[string]*node // for directory // A reference to the store this node is attached to. store *store } // newKV creates a Key-Value pair func newKV(store *store, nodePath string, value string, createdIndex uint64, parent *node, expireTime time.Time) *node { return &node{ Path: nodePath, CreatedIndex: createdIndex, ModifiedIndex: createdIndex, Parent: parent, store: store, ExpireTime: expireTime, Value: value, } } // newDir creates a directory func newDir(store *store, nodePath string, createdIndex uint64, parent *node, expireTime time.Time) *node { return &node{ Path: nodePath, CreatedIndex: createdIndex, ModifiedIndex: createdIndex, Parent: parent, ExpireTime: expireTime, Children: make(map[string]*node), store: store, } } // IsHidden function checks if the node is a hidden node. A hidden node // will begin with '_' // A hidden node will not be shown via get command under a directory // For example if we have /foo/_hidden and /foo/notHidden, get "/foo" // will only return /foo/notHidden func (n *node) IsHidden() bool { _, name := path.Split(n.Path) return name[0] == '_' } // IsPermanent function checks if the node is a permanent one. func (n *node) IsPermanent() bool { // we use a uninitialized time.Time to indicate the node is a // permanent one. // the uninitialized time.Time should equal zero. return n.ExpireTime.IsZero() } // IsDir function checks whether the node is a directory. // If the node is a directory, the function will return true. // Otherwise the function will return false. func (n *node) IsDir() bool { return n.Children != nil } // Read function gets the value of the node. // If the receiver node is not a key-value pair, a "Not A File" error will be returned. func (n *node) Read() (string, *v2error.Error) { if n.IsDir() { return "", v2error.NewError(v2error.EcodeNotFile, "", n.store.CurrentIndex) } return n.Value, nil } // Write function set the value of the node to the given value. // If the receiver node is a directory, a "Not A File" error will be returned. func (n *node) Write(value string, index uint64) *v2error.Error { if n.IsDir() { return v2error.NewError(v2error.EcodeNotFile, "", n.store.CurrentIndex) } n.Value = value n.ModifiedIndex = index return nil } func (n *node) expirationAndTTL(clock clockwork.Clock) (*time.Time, int64) { if !n.IsPermanent() { /* compute ttl as: ceiling( (expireTime - timeNow) / nanosecondsPerSecond ) which ranges from 1..n rather than as: ( (expireTime - timeNow) / nanosecondsPerSecond ) + 1 which ranges 1..n+1 */ ttlN := n.ExpireTime.Sub(clock.Now()) ttl := ttlN / time.Second if (ttlN % time.Second) > 0 { ttl++ } t := n.ExpireTime.UTC() return &t, int64(ttl) } return nil, 0 } // List function return a slice of nodes under the receiver node. // If the receiver node is not a directory, a "Not A Directory" error will be returned. func (n *node) List() ([]*node, *v2error.Error) { if !n.IsDir() { return nil, v2error.NewError(v2error.EcodeNotDir, "", n.store.CurrentIndex) } nodes := make([]*node, len(n.Children)) i := 0 for _, node := range n.Children { nodes[i] = node i++ } return nodes, nil } // GetChild function returns the child node under the directory node. // On success, it returns the file node func (n *node) GetChild(name string) (*node, *v2error.Error) { if !n.IsDir() { return nil, v2error.NewError(v2error.EcodeNotDir, n.Path, n.store.CurrentIndex) } child, ok := n.Children[name] if ok { return child, nil } return nil, nil } // Add function adds a node to the receiver node. // If the receiver is not a directory, a "Not A Directory" error will be returned. // If there is an existing node with the same name under the directory, a "Already Exist" // error will be returned func (n *node) Add(child *node) *v2error.Error { if !n.IsDir() { return v2error.NewError(v2error.EcodeNotDir, "", n.store.CurrentIndex) } _, name := path.Split(child.Path) if _, ok := n.Children[name]; ok { return v2error.NewError(v2error.EcodeNodeExist, "", n.store.CurrentIndex) } n.Children[name] = child return nil } // Remove function remove the node. func (n *node) Remove(dir, recursive bool, callback func(path string)) *v2error.Error { if !n.IsDir() { // key-value pair _, name := path.Split(n.Path) // find its parent and remove the node from the map if n.Parent != nil && n.Parent.Children[name] == n { delete(n.Parent.Children, name) } if callback != nil { callback(n.Path) } if !n.IsPermanent() { n.store.ttlKeyHeap.remove(n) } return nil } if !dir { // cannot delete a directory without dir set to true return v2error.NewError(v2error.EcodeNotFile, n.Path, n.store.CurrentIndex) } if len(n.Children) != 0 && !recursive { // cannot delete a directory if it is not empty and the operation // is not recursive return v2error.NewError(v2error.EcodeDirNotEmpty, n.Path, n.store.CurrentIndex) } for _, child := range n.Children { // delete all children child.Remove(true, true, callback) } // delete self _, name := path.Split(n.Path) if n.Parent != nil && n.Parent.Children[name] == n { delete(n.Parent.Children, name) if callback != nil { callback(n.Path) } if !n.IsPermanent() { n.store.ttlKeyHeap.remove(n) } } return nil } func (n *node) Repr(recursive, sorted bool, clock clockwork.Clock) *NodeExtern { if n.IsDir() { node := &NodeExtern{ Key: n.Path, Dir: true, ModifiedIndex: n.ModifiedIndex, CreatedIndex: n.CreatedIndex, } node.Expiration, node.TTL = n.expirationAndTTL(clock) if !recursive { return node } children, _ := n.List() node.Nodes = make(NodeExterns, len(children)) // we do not use the index in the children slice directly // we need to skip the hidden one i := 0 for _, child := range children { if child.IsHidden() { // get will not list hidden node continue } node.Nodes[i] = child.Repr(recursive, sorted, clock) i++ } // eliminate hidden nodes node.Nodes = node.Nodes[:i] if sorted { sort.Sort(node.Nodes) } return node } // since n.Value could be changed later, so we need to copy the value out value := n.Value node := &NodeExtern{ Key: n.Path, Value: &value, ModifiedIndex: n.ModifiedIndex, CreatedIndex: n.CreatedIndex, } node.Expiration, node.TTL = n.expirationAndTTL(clock) return node } func (n *node) UpdateTTL(expireTime time.Time) { if !n.IsPermanent() { if expireTime.IsZero() { // from ttl to permanent n.ExpireTime = expireTime // remove from ttl heap n.store.ttlKeyHeap.remove(n) return } // update ttl n.ExpireTime = expireTime // update ttl heap n.store.ttlKeyHeap.update(n) return } if expireTime.IsZero() { return } // from permanent to ttl n.ExpireTime = expireTime // push into ttl heap n.store.ttlKeyHeap.push(n) } // Compare function compares node index and value with provided ones. // second result value explains result and equals to one of Compare.. constants func (n *node) Compare(prevValue string, prevIndex uint64) (ok bool, which int) { indexMatch := prevIndex == 0 || n.ModifiedIndex == prevIndex valueMatch := prevValue == "" || n.Value == prevValue ok = valueMatch && indexMatch switch { case valueMatch && indexMatch: which = CompareMatch case indexMatch && !valueMatch: which = CompareValueNotMatch case valueMatch && !indexMatch: which = CompareIndexNotMatch default: which = CompareNotMatch } return ok, which } // Clone function clone the node recursively and return the new node. // If the node is a directory, it will clone all the content under this directory. // If the node is a key-value pair, it will clone the pair. func (n *node) Clone() *node { if !n.IsDir() { newkv := newKV(n.store, n.Path, n.Value, n.CreatedIndex, n.Parent, n.ExpireTime) newkv.ModifiedIndex = n.ModifiedIndex return newkv } clone := newDir(n.store, n.Path, n.CreatedIndex, n.Parent, n.ExpireTime) clone.ModifiedIndex = n.ModifiedIndex for key, child := range n.Children { clone.Children[key] = child.Clone() } return clone } // recoverAndclean function help to do recovery. // Two things need to be done: 1. recovery structure; 2. delete expired nodes // // If the node is a directory, it will help recover children's parent pointer and recursively // call this function on its children. // We check the expire last since we need to recover the whole structure first and add all the // notifications into the event history. func (n *node) recoverAndclean() { if n.IsDir() { for _, child := range n.Children { child.Parent = n child.store = n.store child.recoverAndclean() } } if !n.ExpireTime.IsZero() { n.store.ttlKeyHeap.push(n) } }