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pull/9/head
Jae Kwon 10 years ago
parent
1ae9ecd2a9
commit
877dd02e28
3 changed files with 226 additions and 205 deletions
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  1. +167
    -173
      merkle/iavl_node.go
  2. +58
    -31
      merkle/iavl_tree.go
  3. +1
    -1
      merkle/types.go

+ 167
- 173
merkle/iavl_node.go View File

@ -10,29 +10,55 @@ import (
// Node // Node
type IAVLNode struct { type IAVLNode struct {
key []byte
value []byte
size uint64
height uint8
hash []byte
left *IAVLNode
right *IAVLNode
// volatile
flags byte
key []byte
value []byte
size uint64
height uint8
hash []byte
leftHash []byte
rightHash []byte
persisted bool
// May or may not be persisted nodes, but they'll get cleared
// when this this node is saved.
leftCached *IAVLNode
rightCached *IAVLNode
} }
const (
IAVLNODE_FLAG_PERSISTED = byte(0x01)
IAVLNODE_FLAG_PLACEHOLDER = byte(0x02)
)
func NewIAVLNode(key []byte, value []byte) *IAVLNode { func NewIAVLNode(key []byte, value []byte) *IAVLNode {
return &IAVLNode{ return &IAVLNode{
key: key,
value: value,
size: 1,
key: key,
value: value,
size: 1,
persisted: false,
}
}
func ReadIAVLNode(r io.Reader, n *int64, err *error) *IAVLNode {
node := &IAVLNode{}
// node header & key
node.height = ReadUInt8(r, &n, &err)
node.size = ReadUInt64(r, &n, &err)
node.key = ReadByteSlice(r, &n, &err)
if err != nil {
panic(err)
}
// node value or children.
if node.height == 0 {
// value
node.value = ReadByteSlice(r, &n, &err)
} else {
// left
node.leftHash = ReadByteSlice(r, &n, &err)
// right
node.rightHash = ReadByteSlice(r, &n, &err)
} }
if err != nil {
panic(err)
}
return node
} }
func (self *IAVLNode) Copy() *IAVLNode { func (self *IAVLNode) Copy() *IAVLNode {
@ -40,13 +66,15 @@ func (self *IAVLNode) Copy() *IAVLNode {
panic("Why are you copying a value node?") panic("Why are you copying a value node?")
} }
return &IAVLNode{ return &IAVLNode{
key: self.key,
size: self.size,
height: self.height,
left: self.left,
right: self.right,
hash: nil,
flags: byte(0),
key: self.key,
size: self.size,
height: self.height,
hash: nil, // Going to be mutated anyways.
leftHash: self.leftHash,
rightHash: self.rightHash,
persisted: self.persisted,
leftCached: self.leftCached,
rightCached: self.rightCached,
} }
} }
@ -58,7 +86,7 @@ func (self *IAVLNode) Height() uint8 {
return self.height return self.height
} }
func (self *IAVLNode) has(db Db, key []byte) (has bool) {
func (self *IAVLNode) has(ndb *IAVLNodeDB, key []byte) (has bool) {
if bytes.Equal(self.key, key) { if bytes.Equal(self.key, key) {
return true return true
} }
@ -66,14 +94,14 @@ func (self *IAVLNode) has(db Db, key []byte) (has bool) {
return false return false
} else { } else {
if bytes.Compare(key, self.key) == -1 { if bytes.Compare(key, self.key) == -1 {
return self.leftFilled(db).has(db, key)
return self.getLeft(ndb).has(ndb, key)
} else { } else {
return self.rightFilled(db).has(db, key)
return self.getRight(ndb).has(ndb, key)
} }
} }
} }
func (self *IAVLNode) get(db Db, key []byte) (value []byte) {
func (self *IAVLNode) get(ndb *IAVLNodeDB, key []byte) (value []byte) {
if self.height == 0 { if self.height == 0 {
if bytes.Equal(self.key, key) { if bytes.Equal(self.key, key) {
return self.value return self.value
@ -82,9 +110,9 @@ func (self *IAVLNode) get(db Db, key []byte) (value []byte) {
} }
} else { } else {
if bytes.Compare(key, self.key) == -1 { if bytes.Compare(key, self.key) == -1 {
return self.leftFilled(db).get(db, key)
return self.getLeft(ndb).get(ndb, key)
} else { } else {
return self.rightFilled(db).get(db, key)
return self.getRight(ndb).get(ndb, key)
} }
} }
} }
@ -104,105 +132,108 @@ func (self *IAVLNode) HashWithCount() ([]byte, uint64) {
return self.hash, hashCount + 1 return self.hash, hashCount + 1
} }
func (self *IAVLNode) Save(db Db) {
func (self *IAVLNode) Save(ndb *IAVLNodeDB) []byte {
if self.hash == nil { if self.hash == nil {
panic("savee.hash can't be nil")
hash, _ := self.HashWithCount()
self.hash = hash
} }
if self.flags&IAVLNODE_FLAG_PERSISTED > 0 ||
self.flags&IAVLNODE_FLAG_PLACEHOLDER > 0 {
return
if self.persisted {
return self.hash
} }
// children // children
if self.height > 0 {
self.left.Save(db)
self.right.Save(db)
if self.leftCached != nil {
self.leftHash = self.leftCached.Save(ndb)
self.leftCached = nil
} }
// save self
buf := bytes.NewBuffer(nil)
_, err := self.WriteTo(buf)
if err != nil {
panic(err)
if self.rightCached != nil {
self.rightHash = self.rightCached.Save(ndb)
self.rightCached = nil
} }
db.Set([]byte(self.hash), buf.Bytes())
self.flags |= IAVLNODE_FLAG_PERSISTED
// save self
ndb.Save(self)
return self.hash
} }
func (self *IAVLNode) set(db Db, key []byte, value []byte) (_ *IAVLNode, updated bool) {
func (self *IAVLNode) set(ndb *IAVLNodeDB, key []byte, value []byte) (_ *IAVLNode, updated bool) {
if self.height == 0 { if self.height == 0 {
if bytes.Compare(key, self.key) == -1 { if bytes.Compare(key, self.key) == -1 {
return &IAVLNode{ return &IAVLNode{
key: self.key,
height: 1,
size: 2,
left: NewIAVLNode(key, value),
right: self,
key: self.key,
height: 1,
size: 2,
leftCached: NewIAVLNode(key, value),
rightCached: self,
}, false }, false
} else if bytes.Equal(self.key, key) { } else if bytes.Equal(self.key, key) {
return NewIAVLNode(key, value), true return NewIAVLNode(key, value), true
} else { } else {
return &IAVLNode{ return &IAVLNode{
key: key,
height: 1,
size: 2,
left: self,
right: NewIAVLNode(key, value),
key: key,
height: 1,
size: 2,
leftCached: self,
rightCached: NewIAVLNode(key, value),
}, false }, false
} }
} else { } else {
self = self.Copy() self = self.Copy()
if bytes.Compare(key, self.key) == -1 { if bytes.Compare(key, self.key) == -1 {
self.left, updated = self.leftFilled(db).set(db, key, value)
self.leftCached, updated = self.getLeft(ndb).set(ndb, key, value)
self.leftHash = nil
} else { } else {
self.right, updated = self.rightFilled(db).set(db, key, value)
self.rightCached, updated = self.getRight(ndb).set(ndb, key, value)
self.rightHash = nil
} }
if updated { if updated {
return self, updated return self, updated
} else { } else {
self.calcHeightAndSize(db)
return self.balance(db), updated
self.calcHeightAndSize(ndb)
return self.balance(ndb), updated
} }
} }
} }
// newKey: new leftmost leaf key for tree after successfully removing 'key' if changed. // newKey: new leftmost leaf key for tree after successfully removing 'key' if changed.
func (self *IAVLNode) remove(db Db, key []byte) (newSelf *IAVLNode, newKey []byte, value []byte, err error) {
// only one of newSelfHash or newSelf is returned.
func (self *IAVLNode) remove(ndb *IAVLNodeDB, key []byte) (newSelfHash []byte, newSelf *IAVLNode, newKey []byte, value []byte, err error) {
if self.height == 0 { if self.height == 0 {
if bytes.Equal(self.key, key) { if bytes.Equal(self.key, key) {
return nil, nil, self.value, nil
return nil, nil, nil, self.value, nil
} else { } else {
return self, nil, nil, NotFound(key)
return nil, self, nil, nil, NotFound(key)
} }
} else { } else {
if bytes.Compare(key, self.key) == -1 { if bytes.Compare(key, self.key) == -1 {
var newLeftHash []byte
var newLeft *IAVLNode var newLeft *IAVLNode
newLeft, newKey, value, err = self.leftFilled(db).remove(db, key)
newLeftHash, newLeft, newKey, value, err = self.getLeft(ndb).remove(ndb, key)
if err != nil { if err != nil {
return self, nil, value, err
} else if newLeft == nil { // left node held value, was removed
return self.right, self.key, value, nil
return nil, self, nil, value, err
} else if newLeftHash == nil && newLeft == nil { // left node held value, was removed
return self.rightHash, self.rightCached, self.key, value, nil
} }
self = self.Copy() self = self.Copy()
self.left = newLeft
self.leftHash, self.leftCached = newLeftHash, newLeft
} else { } else {
var newRightHash []byte
var newRight *IAVLNode var newRight *IAVLNode
newRight, newKey, value, err = self.rightFilled(db).remove(db, key)
newRightHash, newRight, newKey, value, err = self.getRight(ndb).remove(ndb, key)
if err != nil { if err != nil {
return self, nil, value, err
} else if newRight == nil { // right node held value, was removed
return self.left, nil, value, nil
return nil, self, nil, value, err
} else if newRightHash == nil && newRight == nil { // right node held value, was removed
return self.leftHash, self.leftCached, nil, value, nil
} }
self = self.Copy() self = self.Copy()
self.right = newRight
self.rightHash, self.rightCached = newRightHash, newRight
if newKey != nil { if newKey != nil {
self.key = newKey self.key = newKey
newKey = nil newKey = nil
} }
} }
self.calcHeightAndSize(db)
return self.balance(db), newKey, value, err
self.calcHeightAndSize(ndb)
return nil, self.balance(ndb), newKey, value, err
} }
} }
@ -226,170 +257,133 @@ func (self *IAVLNode) saveToCountHashes(w io.Writer) (n int64, hashCount uint64,
WriteByteSlice(w, self.value, &n, &err) WriteByteSlice(w, self.value, &n, &err)
} else { } else {
// left // left
leftHash, leftCount := self.left.HashWithCount()
hashCount += leftCount
WriteByteSlice(w, leftHash, &n, &err)
// right
rightHash, rightCount := self.right.HashWithCount()
hashCount += rightCount
WriteByteSlice(w, rightHash, &n, &err)
}
return
}
// Given a placeholder node which has only the hash set,
// load the rest of the data from db.
// Not threadsafe.
func (self *IAVLNode) fill(db Db) {
if self.hash == nil {
panic("placeholder.hash can't be nil")
}
buf := db.Get(self.hash)
r := bytes.NewReader(buf)
var n int64
var err error
// node header & key
self.height = ReadUInt8(r, &n, &err)
self.size = ReadUInt64(r, &n, &err)
self.key = ReadByteSlice(r, &n, &err)
if err != nil {
panic(err)
}
// node value or children.
if self.height == 0 {
// value
self.value = ReadByteSlice(r, &n, &err)
} else {
// left
leftHash := ReadByteSlice(r, &n, &err)
self.left = &IAVLNode{
hash: leftHash,
flags: IAVLNODE_FLAG_PERSISTED | IAVLNODE_FLAG_PLACEHOLDER,
if self.leftCached != nil {
leftHash, leftCount := self.left.HashWithCount()
self.leftHash = leftHash
hashCount += leftCount
} }
WriteByteSlice(w, self.leftHash, &n, &err)
// right // right
rightHash := ReadByteSlice(r, &n, &err)
self.right = &IAVLNode{
hash: rightHash,
flags: IAVLNODE_FLAG_PERSISTED | IAVLNODE_FLAG_PLACEHOLDER,
}
if r.Len() != 0 {
panic("buf not all consumed")
if self.rightCached != nil {
rightHash, rightCount := self.right.HashWithCount()
self.rightHash = rightHash
hashCount += rightCount
} }
WriteByteSlice(w, self.rightHash, &n, &err)
} }
if err != nil {
panic(err)
}
self.flags &= ^IAVLNODE_FLAG_PLACEHOLDER
return
} }
func (self *IAVLNode) leftFilled(db Db) *IAVLNode {
if self.left.flags&IAVLNODE_FLAG_PLACEHOLDER > 0 {
self.left.fill(db)
func (self *IAVLNode) getLeft(ndb *IAVLNodeDB) *IAVLNode {
if self.leftCached != nil {
return self.leftCached
} else {
return ndb.Get(leftHash)
} }
return self.left
} }
func (self *IAVLNode) rightFilled(db Db) *IAVLNode {
if self.right.flags&IAVLNODE_FLAG_PLACEHOLDER > 0 {
self.right.fill(db)
func (self *IAVLNode) getRight(ndb *IAVLNodeDB) *IAVLNode {
if self.rightCached != nil {
return self.rightCached
} else {
return ndb.Get(rightHash)
} }
return self.right
} }
func (self *IAVLNode) rotateRight(db Db) *IAVLNode {
func (self *IAVLNode) rotateRight(ndb *IAVLNodeDB) *IAVLNode {
self = self.Copy() self = self.Copy()
sl := self.leftFilled(db).Copy()
slr := sl.right
sl := self.getLeft(ndb).Copy()
sl.right = self
self.left = slr
slrHash, slrCached := sl.rightHash, sl.rightCached
sl.rightHash, sl.rightCached = nil, self
self.leftHash, self.leftCached = slrHash, slrCached
self.calcHeightAndSize(db)
sl.calcHeightAndSize(db)
self.calcHeightAndSize(ndb)
sl.calcHeightAndSize(ndb)
return sl return sl
} }
func (self *IAVLNode) rotateLeft(db Db) *IAVLNode {
func (self *IAVLNode) rotateLeft(ndb *IAVLNodeDB) *IAVLNode {
self = self.Copy() self = self.Copy()
sr := self.rightFilled(db).Copy()
srl := sr.left
sr := self.getRight(ndb).Copy()
sr.left = self
self.right = srl
srlHash, srlCached := sr.leftHash, sr.leftCached
sr.leftHash, sr.leftCached = nil, self
self.rightHash, self.rightCached = srlHash, srlCached
self.calcHeightAndSize(db)
sr.calcHeightAndSize(db)
self.calcHeightAndSize(ndb)
sr.calcHeightAndSize(ndb)
return sr return sr
} }
func (self *IAVLNode) calcHeightAndSize(db Db) {
self.height = maxUint8(self.leftFilled(db).Height(), self.rightFilled(db).Height()) + 1
self.size = self.leftFilled(db).Size() + self.rightFilled(db).Size()
func (self *IAVLNode) calcHeightAndSize(ndb *IAVLNodeDB) {
self.height = maxUint8(self.getLeft(ndb).Height(), self.getRight(ndb).Height()) + 1
self.size = self.getLeft(ndb).Size() + self.getRight(ndb).Size()
} }
func (self *IAVLNode) calcBalance(db Db) int {
return int(self.leftFilled(db).Height()) - int(self.rightFilled(db).Height())
func (self *IAVLNode) calcBalance(ndb *IAVLNodeDB) int {
return int(self.getLeft(ndb).Height()) - int(self.getRight(ndb).Height())
} }
func (self *IAVLNode) balance(db Db) (newSelf *IAVLNode) {
balance := self.calcBalance(db)
func (self *IAVLNode) balance(ndb *IAVLNodeDB) (newSelf *IAVLNode) {
balance := self.calcBalance(ndb)
if balance > 1 { if balance > 1 {
if self.leftFilled(db).calcBalance(db) >= 0 {
if self.getLeft(ndb).calcBalance(ndb) >= 0 {
// Left Left Case // Left Left Case
return self.rotateRight(db)
return self.rotateRight(ndb)
} else { } else {
// Left Right Case // Left Right Case
self = self.Copy() self = self.Copy()
self.left = self.leftFilled(db).rotateLeft(db)
self.leftHash, self.leftCached = nil, self.getLeft(ndb).rotateLeft(ndb)
//self.calcHeightAndSize() //self.calcHeightAndSize()
return self.rotateRight(db)
return self.rotateRight(ndb)
} }
} }
if balance < -1 { if balance < -1 {
if self.rightFilled(db).calcBalance(db) <= 0 {
if self.getRight(ndb).calcBalance(ndb) <= 0 {
// Right Right Case // Right Right Case
return self.rotateLeft(db)
return self.rotateLeft(ndb)
} else { } else {
// Right Left Case // Right Left Case
self = self.Copy() self = self.Copy()
self.right = self.rightFilled(db).rotateRight(db)
self.rightHash, self.rightCached = nil, self.getRight(ndb).rotateRight(ndb)
//self.calcHeightAndSize() //self.calcHeightAndSize()
return self.rotateLeft(db)
return self.rotateLeft(ndb)
} }
} }
// Nothing changed // Nothing changed
return self return self
} }
func (self *IAVLNode) lmd(db Db) *IAVLNode {
// Only used in testing...
func (self *IAVLNode) lmd(ndb *IAVLNodeDB) *IAVLNode {
if self.height == 0 { if self.height == 0 {
return self return self
} }
return self.leftFilled(db).lmd(db)
return self.getLeft(ndb).lmd(ndb)
} }
func (self *IAVLNode) rmd(db Db) *IAVLNode {
// Only used in testing...
func (self *IAVLNode) rmd(ndb *IAVLNodeDB) *IAVLNode {
if self.height == 0 { if self.height == 0 {
return self return self
} }
return self.rightFilled(db).rmd(db)
return self.getRight(ndb).rmd(ndb)
} }
func (self *IAVLNode) traverse(db Db, cb func(*IAVLNode) bool) bool {
func (self *IAVLNode) traverse(ndb *IAVLNodeDB, cb func(*IAVLNode) bool) bool {
stop := cb(self) stop := cb(self)
if stop { if stop {
return stop return stop
} }
if self.height > 0 { if self.height > 0 {
stop = self.leftFilled(db).traverse(db, cb)
stop = self.getLeft(ndb).traverse(ndb, cb)
if stop { if stop {
return stop return stop
} }
stop = self.rightFilled(db).traverse(db, cb)
stop = self.getRight(ndb).traverse(ndb, cb)
if stop { if stop {
return stop return stop
} }


+ 58
- 31
merkle/iavl_tree.go View File

@ -9,38 +9,24 @@ This tree is not concurrency safe.
You must wrap your calls with your own mutex. You must wrap your calls with your own mutex.
*/ */
type IAVLTree struct { type IAVLTree struct {
db Db
ndb IAVLNodeDB
root *IAVLNode root *IAVLNode
} }
func NewIAVLTree(db Db) *IAVLTree {
func NewIAVLTree(db DB) *IAVLTree {
return &IAVLTree{ return &IAVLTree{
db: db,
ndb: NewIAVLNodeDB(db),
root: nil, root: nil,
} }
} }
// TODO rename to Load.
func NewIAVLTreeFromHash(db Db, hash []byte) *IAVLTree {
root := &IAVLNode{
hash: hash,
flags: IAVLNODE_FLAG_PERSISTED | IAVLNODE_FLAG_PLACEHOLDER,
}
root.fill(db)
return &IAVLTree{db: db, root: root}
}
func NewIAVLTreeFromKey(db Db, key string) *IAVLTree {
hash := db.Get([]byte(key))
if hash == nil {
func LoadIAVLTreeFromHash(db DB, hash []byte) *IAVLTree {
ndb := NewIAVLNodeDB(db)
root := ndb.Get(hash)
if root == nil {
return nil return nil
} }
root := &IAVLNode{
hash: hash,
flags: IAVLNODE_FLAG_PERSISTED | IAVLNODE_FLAG_PLACEHOLDER,
}
root.fill(db)
return &IAVLTree{db: db, root: root}
return &IAVLTree{ndb: ndb, root: root}
} }
func (t *IAVLTree) Size() uint64 { func (t *IAVLTree) Size() uint64 {
@ -61,7 +47,7 @@ func (t *IAVLTree) Has(key []byte) bool {
if t.root == nil { if t.root == nil {
return false return false
} }
return t.root.has(t.db, key)
return t.root.has(t.ndb, key)
} }
func (t *IAVLTree) Set(key []byte, value []byte) (updated bool) { func (t *IAVLTree) Set(key []byte, value []byte) (updated bool) {
@ -69,7 +55,7 @@ func (t *IAVLTree) Set(key []byte, value []byte) (updated bool) {
t.root = NewIAVLNode(key, value) t.root = NewIAVLNode(key, value)
return false return false
} }
t.root, updated = t.root.set(t.db, key, value)
t.root, updated = t.root.set(t.ndb, key, value)
return updated return updated
} }
@ -93,7 +79,7 @@ func (t *IAVLTree) Save() {
return return
} }
t.root.HashWithCount() t.root.HashWithCount()
t.root.Save(t.db)
t.root.Save(t.ndb)
} }
func (t *IAVLTree) SaveKey(key string) { func (t *IAVLTree) SaveKey(key string) {
@ -101,29 +87,70 @@ func (t *IAVLTree) SaveKey(key string) {
return return
} }
hash, _ := t.root.HashWithCount() hash, _ := t.root.HashWithCount()
t.root.Save(t.db)
t.db.Set([]byte(key), hash)
t.root.Save(t.ndb)
t.ndb.Set([]byte(key), hash)
} }
func (t *IAVLTree) Get(key []byte) (value []byte) { func (t *IAVLTree) Get(key []byte) (value []byte) {
if t.root == nil { if t.root == nil {
return nil return nil
} }
return t.root.get(t.db, key)
return t.root.get(t.ndb, key)
} }
func (t *IAVLTree) Remove(key []byte) (value []byte, err error) { func (t *IAVLTree) Remove(key []byte) (value []byte, err error) {
if t.root == nil { if t.root == nil {
return nil, NotFound(key) return nil, NotFound(key)
} }
newRoot, _, value, err := t.root.remove(t.db, key)
newRootHash, newRoot, _, value, err := t.root.remove(t.ndb, key)
if err != nil { if err != nil {
return nil, err return nil, err
} }
t.root = newRoot
if newRoot == nil && newRootHash != nil {
t.root = t.ndb.Get(newRootHash)
} else {
t.root = newRoot
}
return value, nil return value, nil
} }
func (t *IAVLTree) Copy() Tree { func (t *IAVLTree) Copy() Tree {
return &IAVLTree{db: t.db, root: t.root}
return &IAVLTree{ndb: t.ndb, root: t.root}
}
//-----------------------------------------------------------------------------
type IAVLNodeDB struct {
db DB
cache map[string]*IAVLNode
// XXX expire entries
}
func (ndb *IAVLNodeDB) Get(hash []byte) *IAVLNode {
buf := ndb.db.Get(hash)
r := bytes.NewReader(buf)
var n int64
var err error
node := ReadIAVLNode(r, &n, &err)
if err != nil {
panic(err)
}
node.persisted = true
ndb.cache[string(hash)] = node
return node
}
func (ndb *IAVLNodeDB) Save(node *IAVLNode) {
hash := node.hash
if hash != nil {
panic("Expected to find node.hash, but none found.")
}
buf := bytes.NewBuffer(nil)
_, err := self.WriteTo(buf)
if err != nil {
panic(err)
}
node.persisted = true
ndb.cache[string(hash)] = node
ndb.db.Set(hash, buf.Bytes())
} }

+ 1
- 1
merkle/types.go View File

@ -4,7 +4,7 @@ import (
"fmt" "fmt"
) )
type Db interface {
type DB interface {
Get([]byte) []byte Get([]byte) []byte
Set([]byte, []byte) Set([]byte, []byte)
} }


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