zolfa
/
tendermint


								package merkle


								import (

									"bytes"

									"container/list"

									"sync"


									"github.com/tendermint/tendermint/wire"

									. "github.com/tendermint/tendermint/common"

									dbm "github.com/tendermint/tendermint/db"

								)


								/*

								Immutable AVL Tree (wraps the Node root)

								This tree is not goroutine safe.

								*/

								type IAVLTree struct {

									keyCodec   wire.Codec

									valueCodec wire.Codec

									root       *IAVLNode

									ndb        *nodeDB

								}


								func NewIAVLTree(keyCodec, valueCodec wire.Codec, cacheSize int, db dbm.DB) *IAVLTree {

									if db == nil {

										// In-memory IAVLTree

										return &IAVLTree{

											keyCodec:   keyCodec,

											valueCodec: valueCodec,

										}

									} else {

										// Persistent IAVLTree

										return &IAVLTree{

											keyCodec:   keyCodec,

											valueCodec: valueCodec,

											ndb:        newNodeDB(cacheSize, db),

										}

									}

								}


								// The returned tree and the original tree are goroutine independent.

								// That is, they can each run in their own goroutine.

								func (t *IAVLTree) Copy() Tree {

									if t.root == nil {

										return &IAVLTree{

											keyCodec:   t.keyCodec,

											valueCodec: t.valueCodec,

											root:       nil,

											ndb:        t.ndb,

										}

									}

									if t.ndb != nil && !t.root.persisted {

										// Saving a tree finalizes all the nodes.

										// It sets all the hashes recursively,

										// clears all the leftNode/rightNode values recursively,

										// and all the .persisted flags get set.

										PanicSanity("It is unsafe to Copy() an unpersisted tree.")

									} else if t.ndb == nil && t.root.hash == nil {

										// An in-memory IAVLTree is finalized when the hashes are

										// calculated.

										t.root.hashWithCount(t)

									}

									return &IAVLTree{

										keyCodec:   t.keyCodec,

										valueCodec: t.valueCodec,

										root:       t.root,

										ndb:        t.ndb,

									}

								}


								func (t *IAVLTree) Size() int {

									if t.root == nil {

										return 0

									}

									return t.root.size

								}


								func (t *IAVLTree) Height() int8 {

									if t.root == nil {

										return 0

									}

									return t.root.height

								}


								func (t *IAVLTree) Has(key interface{}) bool {

									if t.root == nil {

										return false

									}

									return t.root.has(t, key)

								}


								func (t *IAVLTree) Set(key interface{}, value interface{}) (updated bool) {

									if t.root == nil {

										t.root = NewIAVLNode(key, value)

										return false

									}

									t.root, updated = t.root.set(t, key, value)

									return updated

								}


								func (t *IAVLTree) Hash() []byte {

									if t.root == nil {

										return nil

									}

									hash, _ := t.root.hashWithCount(t)

									return hash

								}


								func (t *IAVLTree) HashWithCount() ([]byte, int) {

									if t.root == nil {

										return nil, 0

									}

									return t.root.hashWithCount(t)

								}


								func (t *IAVLTree) Save() []byte {

									if t.root == nil {

										return nil

									}

									return t.root.save(t)

								}


								// Sets the root node by reading from db.

								// If the hash is empty, then sets root to nil.

								func (t *IAVLTree) Load(hash []byte) {

									if len(hash) == 0 {

										t.root = nil

									} else {

										t.root = t.ndb.GetNode(t, hash)

									}

								}


								func (t *IAVLTree) Get(key interface{}) (index int, value interface{}) {

									if t.root == nil {

										return 0, nil

									}

									return t.root.get(t, key)

								}


								func (t *IAVLTree) GetByIndex(index int) (key interface{}, value interface{}) {

									if t.root == nil {

										return nil, nil

									}

									return t.root.getByIndex(t, index)

								}


								func (t *IAVLTree) Remove(key interface{}) (value interface{}, removed bool) {

									if t.root == nil {

										return nil, false

									}

									newRootHash, newRoot, _, value, removed := t.root.remove(t, key)

									if !removed {

										return nil, false

									}

									if newRoot == nil && newRootHash != nil {

										t.root = t.ndb.GetNode(t, newRootHash)

									} else {

										t.root = newRoot

									}

									return value, true

								}


								func (t *IAVLTree) Iterate(fn func(key interface{}, value interface{}) bool) (stopped bool) {

									if t.root == nil {

										return false

									}

									return t.root.traverse(t, func(node *IAVLNode) bool {

										if node.height == 0 {

											return fn(node.key, node.value)

										} else {

											return false

										}

									})

								}


								//-----------------------------------------------------------------------------


								type nodeElement struct {

									node *IAVLNode

									elem *list.Element

								}


								type nodeDB struct {

									mtx        sync.Mutex

									cache      map[string]nodeElement

									cacheSize  int

									cacheQueue *list.List

									db         dbm.DB

								}


								func newNodeDB(cacheSize int, db dbm.DB) *nodeDB {

									return &nodeDB{

										cache:      make(map[string]nodeElement),

										cacheSize:  cacheSize,

										cacheQueue: list.New(),

										db:         db,

									}

								}


								func (ndb *nodeDB) GetNode(t *IAVLTree, hash []byte) *IAVLNode {

									ndb.mtx.Lock()

									defer ndb.mtx.Unlock()

									// Check the cache.

									nodeElem, ok := ndb.cache[string(hash)]

									if ok {

										// Already exists. Move to back of cacheQueue.

										ndb.cacheQueue.MoveToBack(nodeElem.elem)

										return nodeElem.node

									} else {

										// Doesn't exist, load.

										buf := ndb.db.Get(hash)

										if len(buf) == 0 {

											ndb.db.(*dbm.LevelDB).Print()

											PanicSanity(Fmt("Value missing for key %X", hash))

										}

										r := bytes.NewReader(buf)

										var n int64

										var err error

										node := ReadIAVLNode(t, r, &n, &err)

										if err != nil {

											PanicCrisis(Fmt("Error reading IAVLNode. bytes: %X  error: %v", buf, err))

										}

										node.hash = hash

										node.persisted = true

										ndb.cacheNode(node)

										return node

									}

								}


								func (ndb *nodeDB) SaveNode(t *IAVLTree, node *IAVLNode) {

									ndb.mtx.Lock()

									defer ndb.mtx.Unlock()

									if node.hash == nil {

										PanicSanity("Expected to find node.hash, but none found.")

									}

									if node.persisted {

										PanicSanity("Shouldn't be calling save on an already persisted node.")

									}

									/*if _, ok := ndb.cache[string(node.hash)]; ok {

										panic("Shouldn't be calling save on an already cached node.")

									}*/

									// Save node bytes to db

									buf := bytes.NewBuffer(nil)

									_, err := node.writePersistBytes(t, buf)

									if err != nil {

										PanicCrisis(err)

									}

									ndb.db.Set(node.hash, buf.Bytes())

									node.persisted = true

									ndb.cacheNode(node)

								}


								func (ndb *nodeDB) cacheNode(node *IAVLNode) {

									// Create entry in cache and append to cacheQueue.

									elem := ndb.cacheQueue.PushBack(node.hash)

									ndb.cache[string(node.hash)] = nodeElement{node, elem}

									// Maybe expire an item.

									if ndb.cacheQueue.Len() > ndb.cacheSize {

										hash := ndb.cacheQueue.Remove(ndb.cacheQueue.Front()).([]byte)

										delete(ndb.cache, string(hash))

									}

								}