trie: dirty tracking

This commit is contained in:
Jeffrey Wilcke 2015-07-01 15:38:32 +02:00
parent ab16ce70fc
commit 0a1ff68c11
7 changed files with 73 additions and 28 deletions

@ -1,17 +1,16 @@
package trie package trie
import "fmt"
type FullNode struct { type FullNode struct {
trie *Trie trie *Trie
nodes [17]Node nodes [17]Node
dirty bool
} }
func NewFullNode(t *Trie) *FullNode { func NewFullNode(t *Trie) *FullNode {
return &FullNode{trie: t} return &FullNode{trie: t}
} }
func (self *FullNode) Dirty() bool { return true } func (self *FullNode) Dirty() bool { return self.dirty }
func (self *FullNode) Value() Node { func (self *FullNode) Value() Node {
self.nodes[16] = self.trie.trans(self.nodes[16]) self.nodes[16] = self.trie.trans(self.nodes[16])
return self.nodes[16] return self.nodes[16]
@ -27,6 +26,7 @@ func (self *FullNode) Copy(t *Trie) Node {
nnode.nodes[i] = node.Copy(t) nnode.nodes[i] = node.Copy(t)
} }
} }
nnode.dirty = true
return nnode return nnode
} }
@ -60,11 +60,8 @@ func (self *FullNode) RlpData() interface{} {
} }
func (self *FullNode) set(k byte, value Node) { func (self *FullNode) set(k byte, value Node) {
if _, ok := value.(*ValueNode); ok && k != 16 {
fmt.Println(value, k)
}
self.nodes[int(k)] = value self.nodes[int(k)] = value
self.dirty = true
} }
func (self *FullNode) branch(i byte) Node { func (self *FullNode) branch(i byte) Node {
@ -75,3 +72,7 @@ func (self *FullNode) branch(i byte) Node {
} }
return nil return nil
} }
func (self *FullNode) setDirty(dirty bool) {
self.dirty = dirty
}

@ -5,10 +5,11 @@ import "github.com/ethereum/go-ethereum/common"
type HashNode struct { type HashNode struct {
key []byte key []byte
trie *Trie trie *Trie
dirty bool
} }
func NewHash(key []byte, trie *Trie) *HashNode { func NewHash(key []byte, trie *Trie) *HashNode {
return &HashNode{key, trie} return &HashNode{key, trie, false}
} }
func (self *HashNode) RlpData() interface{} { func (self *HashNode) RlpData() interface{} {
@ -19,6 +20,10 @@ func (self *HashNode) Hash() interface{} {
return self.key return self.key
} }
func (self *HashNode) setDirty(dirty bool) {
self.dirty = dirty
}
// These methods will never be called but we have to satisfy Node interface // These methods will never be called but we have to satisfy Node interface
func (self *HashNode) Value() Node { return nil } func (self *HashNode) Value() Node { return nil }
func (self *HashNode) Dirty() bool { return true } func (self *HashNode) Dirty() bool { return true }

@ -11,6 +11,7 @@ type Node interface {
fstring(string) string fstring(string) string
Hash() interface{} Hash() interface{}
RlpData() interface{} RlpData() interface{}
setDirty(dirty bool)
} }
// Value node // Value node

@ -6,20 +6,22 @@ type ShortNode struct {
trie *Trie trie *Trie
key []byte key []byte
value Node value Node
dirty bool
} }
func NewShortNode(t *Trie, key []byte, value Node) *ShortNode { func NewShortNode(t *Trie, key []byte, value Node) *ShortNode {
return &ShortNode{t, []byte(CompactEncode(key)), value} return &ShortNode{t, []byte(CompactEncode(key)), value, false}
} }
func (self *ShortNode) Value() Node { func (self *ShortNode) Value() Node {
self.value = self.trie.trans(self.value) self.value = self.trie.trans(self.value)
return self.value return self.value
} }
func (self *ShortNode) Dirty() bool { return true } func (self *ShortNode) Dirty() bool { return self.dirty }
func (self *ShortNode) Copy(t *Trie) Node { func (self *ShortNode) Copy(t *Trie) Node {
node := &ShortNode{t, nil, self.value.Copy(t)} node := &ShortNode{t, nil, self.value.Copy(t), self.dirty}
node.key = common.CopyBytes(self.key) node.key = common.CopyBytes(self.key)
node.dirty = true
return node return node
} }
@ -33,3 +35,7 @@ func (self *ShortNode) Hash() interface{} {
func (self *ShortNode) Key() []byte { func (self *ShortNode) Key() []byte {
return CompactDecode(string(self.key)) return CompactDecode(string(self.key))
} }
func (self *ShortNode) setDirty(dirty bool) {
self.dirty = dirty
}

@ -117,7 +117,9 @@ func (self *Trie) Update(key, value []byte) Node {
k := CompactHexDecode(string(key)) k := CompactHexDecode(string(key))
if len(value) != 0 { if len(value) != 0 {
self.root = self.insert(self.root, k, &ValueNode{self, value}) node := NewValueNode(self, value)
node.dirty = true
self.root = self.insert(self.root, k, node)
} else { } else {
self.root = self.delete(self.root, k) self.root = self.delete(self.root, k)
} }
@ -157,7 +159,9 @@ func (self *Trie) insert(node Node, key []byte, value Node) Node {
} }
if node == nil { if node == nil {
return NewShortNode(self, key, value) node := NewShortNode(self, key, value)
node.dirty = true
return node
} }
switch node := node.(type) { switch node := node.(type) {
@ -165,7 +169,10 @@ func (self *Trie) insert(node Node, key []byte, value Node) Node {
k := node.Key() k := node.Key()
cnode := node.Value() cnode := node.Value()
if bytes.Equal(k, key) { if bytes.Equal(k, key) {
return NewShortNode(self, key, value) node := NewShortNode(self, key, value)
node.dirty = true
return node
} }
var n Node var n Node
@ -176,6 +183,7 @@ func (self *Trie) insert(node Node, key []byte, value Node) Node {
pnode := self.insert(nil, k[matchlength+1:], cnode) pnode := self.insert(nil, k[matchlength+1:], cnode)
nnode := self.insert(nil, key[matchlength+1:], value) nnode := self.insert(nil, key[matchlength+1:], value)
fulln := NewFullNode(self) fulln := NewFullNode(self)
fulln.dirty = true
fulln.set(k[matchlength], pnode) fulln.set(k[matchlength], pnode)
fulln.set(key[matchlength], nnode) fulln.set(key[matchlength], nnode)
n = fulln n = fulln
@ -184,11 +192,14 @@ func (self *Trie) insert(node Node, key []byte, value Node) Node {
return n return n
} }
return NewShortNode(self, key[:matchlength], n) snode := NewShortNode(self, key[:matchlength], n)
snode.dirty = true
return snode
case *FullNode: case *FullNode:
cpy := node.Copy(self).(*FullNode) cpy := node.Copy(self).(*FullNode)
cpy.set(key[0], self.insert(node.branch(key[0]), key[1:], value)) cpy.set(key[0], self.insert(node.branch(key[0]), key[1:], value))
cpy.dirty = true
return cpy return cpy
@ -242,8 +253,10 @@ func (self *Trie) delete(node Node, key []byte) Node {
case *ShortNode: case *ShortNode:
nkey := append(k, child.Key()...) nkey := append(k, child.Key()...)
n = NewShortNode(self, nkey, child.Value()) n = NewShortNode(self, nkey, child.Value())
n.(*ShortNode).dirty = true
case *FullNode: case *FullNode:
sn := NewShortNode(self, node.Key(), child) sn := NewShortNode(self, node.Key(), child)
sn.dirty = true
sn.key = node.key sn.key = node.key
n = sn n = sn
} }
@ -256,6 +269,7 @@ func (self *Trie) delete(node Node, key []byte) Node {
case *FullNode: case *FullNode:
n := node.Copy(self).(*FullNode) n := node.Copy(self).(*FullNode)
n.set(key[0], self.delete(n.branch(key[0]), key[1:])) n.set(key[0], self.delete(n.branch(key[0]), key[1:]))
n.dirty = true
pos := -1 pos := -1
for i := 0; i < 17; i++ { for i := 0; i < 17; i++ {
@ -271,6 +285,7 @@ func (self *Trie) delete(node Node, key []byte) Node {
var nnode Node var nnode Node
if pos == 16 { if pos == 16 {
nnode = NewShortNode(self, []byte{16}, n.branch(byte(pos))) nnode = NewShortNode(self, []byte{16}, n.branch(byte(pos)))
nnode.(*ShortNode).dirty = true
} else if pos >= 0 { } else if pos >= 0 {
cnode := n.branch(byte(pos)) cnode := n.branch(byte(pos))
switch cnode := cnode.(type) { switch cnode := cnode.(type) {
@ -278,8 +293,10 @@ func (self *Trie) delete(node Node, key []byte) Node {
// Stitch keys // Stitch keys
k := append([]byte{byte(pos)}, cnode.Key()...) k := append([]byte{byte(pos)}, cnode.Key()...)
nnode = NewShortNode(self, k, cnode.Value()) nnode = NewShortNode(self, k, cnode.Value())
nnode.(*ShortNode).dirty = true
case *FullNode: case *FullNode:
nnode = NewShortNode(self, []byte{byte(pos)}, n.branch(byte(pos))) nnode = NewShortNode(self, []byte{byte(pos)}, n.branch(byte(pos)))
nnode.(*ShortNode).dirty = true
} }
} else { } else {
nnode = n nnode = n
@ -304,7 +321,7 @@ func (self *Trie) mknode(value *common.Value) Node {
if value.Get(0).Len() != 0 { if value.Get(0).Len() != 0 {
key := CompactDecode(string(value.Get(0).Bytes())) key := CompactDecode(string(value.Get(0).Bytes()))
if key[len(key)-1] == 16 { if key[len(key)-1] == 16 {
return NewShortNode(self, key, &ValueNode{self, value.Get(1).Bytes()}) return NewShortNode(self, key, NewValueNode(self, value.Get(1).Bytes()))
} else { } else {
return NewShortNode(self, key, self.mknode(value.Get(1))) return NewShortNode(self, key, self.mknode(value.Get(1)))
} }
@ -318,10 +335,10 @@ func (self *Trie) mknode(value *common.Value) Node {
return fnode return fnode
} }
case 32: case 32:
return &HashNode{value.Bytes(), self} return NewHash(value.Bytes(), self)
} }
return &ValueNode{self, value.Bytes()} return NewValueNode(self, value.Bytes())
} }
func (self *Trie) trans(node Node) Node { func (self *Trie) trans(node Node) Node {
@ -338,7 +355,11 @@ func (self *Trie) store(node Node) interface{} {
data := common.Encode(node) data := common.Encode(node)
if len(data) >= 32 { if len(data) >= 32 {
key := crypto.Sha3(data) key := crypto.Sha3(data)
if node.Dirty() {
//fmt.Println("save", node)
//fmt.Println()
self.cache.Put(key, data) self.cache.Put(key, data)
}
return key return key
} }

@ -152,7 +152,7 @@ func TestReplication(t *testing.T) {
} }
trie.Commit() trie.Commit()
trie2 := New(trie.roothash, trie.cache.backend) trie2 := New(trie.Root(), trie.cache.backend)
if string(trie2.GetString("horse")) != "stallion" { if string(trie2.GetString("horse")) != "stallion" {
t.Error("expected to have horse => stallion") t.Error("expected to have horse => stallion")
} }

@ -5,11 +5,22 @@ import "github.com/ethereum/go-ethereum/common"
type ValueNode struct { type ValueNode struct {
trie *Trie trie *Trie
data []byte data []byte
dirty bool
}
func NewValueNode(trie *Trie, data []byte) *ValueNode {
return &ValueNode{trie, data, false}
} }
func (self *ValueNode) Value() Node { return self } // Best not to call :-) func (self *ValueNode) Value() Node { return self } // Best not to call :-)
func (self *ValueNode) Val() []byte { return self.data } func (self *ValueNode) Val() []byte { return self.data }
func (self *ValueNode) Dirty() bool { return true } func (self *ValueNode) Dirty() bool { return self.dirty }
func (self *ValueNode) Copy(t *Trie) Node { return &ValueNode{t, common.CopyBytes(self.data)} } func (self *ValueNode) Copy(t *Trie) Node {
return &ValueNode{t, common.CopyBytes(self.data), self.dirty}
}
func (self *ValueNode) RlpData() interface{} { return self.data } func (self *ValueNode) RlpData() interface{} { return self.data }
func (self *ValueNode) Hash() interface{} { return self.data } func (self *ValueNode) Hash() interface{} { return self.data }
func (self *ValueNode) setDirty(dirty bool) {
self.dirty = dirty
}