@ -16,13 +16,14 @@
package trie
import "github.com/ethereum/go-ethereum/common"
import (
"bytes"
"github.com/ethereum/go-ethereum/common"
)
// Iterator is a key-value trie iterator that traverses a Trie.
type Iterator struct {
trie * Trie
nodeIt * NodeIterator
keyBuf [ ] byte
nodeIt NodeIterator
Key [ ] byte // Current data key on which the iterator is positioned on
Value [ ] byte // Current data value on which the iterator is positioned on
@ -31,19 +32,23 @@ type Iterator struct {
// NewIterator creates a new key-value iterator.
func NewIterator ( trie * Trie ) * Iterator {
return & Iterator {
trie : trie ,
nodeIt : NewNodeIterator ( trie ) ,
keyBuf : make ( [ ] byte , 0 , 64 ) ,
Key : nil ,
}
}
// FromNodeIterator creates a new key-value iterator from a node iterator
func NewIteratorFromNodeIterator ( it NodeIterator ) * Iterator {
return & Iterator {
nodeIt : it ,
}
}
// Next moves the iterator forward one key-value entry.
func ( it * Iterator ) Next ( ) bool {
for it . nodeIt . Next ( ) {
if it . nodeIt . Leaf {
it . Key = it . makeKey ( )
it . Value = it . nodeIt . LeafBlob
for it . nodeIt . Next ( true ) {
if it . nodeIt . Leaf ( ) {
it . Key = decodeCompact ( it . nodeIt . Path ( ) )
it . Value = it . nodeIt . LeafBlob ( )
return true
}
}
@ -52,23 +57,25 @@ func (it *Iterator) Next() bool {
return false
}
func ( it * Iterator ) makeKey ( ) [ ] byte {
key := it . keyBuf [ : 0 ]
for _ , se := range it . nodeIt . stack {
switch node := se . node . ( type ) {
case * fullNode :
if se . child <= 16 {
key = append ( key , byte ( se . child ) )
}
case * shortNode :
if hasTerm ( node . Key ) {
key = append ( key , node . Key [ : len ( node . Key ) - 1 ] ... )
} else {
key = append ( key , node . Key ... )
}
}
}
return decodeCompact ( key )
// NodeIterator is an iterator to traverse the trie pre-order.
type NodeIterator interface {
// Hash returns the hash of the current node
Hash ( ) common . Hash
// Parent returns the hash of the parent of the current node
Parent ( ) common . Hash
// Leaf returns true iff the current node is a leaf node.
Leaf ( ) bool
// LeafBlob returns the contents of the node, if it is a leaf.
// Callers must not retain references to the return value after calling Next()
LeafBlob ( ) [ ] byte
// Path returns the hex-encoded path to the current node.
// Callers must not retain references to the return value after calling Next()
Path ( ) [ ] byte
// Next moves the iterator to the next node. If the parameter is false, any child
// nodes will be skipped.
Next ( bool ) bool
// Error returns the error status of the iterator.
Error ( ) error
}
// nodeIteratorState represents the iteration state at one particular node of the
@ -78,48 +85,95 @@ type nodeIteratorState struct {
node node // Trie node being iterated
parent common . Hash // Hash of the first full ancestor node (nil if current is the root)
child int // Child to be processed next
pathlen int // Length of the path to this node
}
// NodeIterator is an iterator to traverse the trie post-order.
type NodeIterator struct {
type nodeIterator struct {
trie * Trie // Trie being iterated
stack [ ] * nodeIteratorState // Hierarchy of trie nodes persisting the iteration state
Hash common . Hash // Hash of the current node being iterated (nil if not standalone)
Node node // Current node being iterated (internal representation)
Parent common . Hash // Hash of the first full ancestor node (nil if current is the root)
Leaf bool // Flag whether the current node is a value (data) node
LeafBlob [ ] byte // Data blob contained within a leaf (otherwise nil)
err error // Failure set in case of an internal error in the iterator
Error error // Failure set in case of an internal error in the iterator
path [ ] byte // Path to the current node
}
// NewNodeIterator creates an post-order trie iterator.
func NewNodeIterator ( trie * Trie ) * NodeIterator {
func NewNodeIterator ( trie * Trie ) NodeIterator {
if trie . Hash ( ) == emptyState {
return new ( NodeIterator )
return new ( nodeIterator )
}
return & nodeIterator { trie : trie }
}
// Hash returns the hash of the current node
func ( it * nodeIterator ) Hash ( ) common . Hash {
if len ( it . stack ) == 0 {
return common . Hash { }
}
return it . stack [ len ( it . stack ) - 1 ] . hash
}
// Parent returns the hash of the parent node
func ( it * nodeIterator ) Parent ( ) common . Hash {
if len ( it . stack ) == 0 {
return common . Hash { }
}
return it . stack [ len ( it . stack ) - 1 ] . parent
}
// Leaf returns true if the current node is a leaf
func ( it * nodeIterator ) Leaf ( ) bool {
if len ( it . stack ) == 0 {
return false
}
return & NodeIterator { trie : trie }
_ , ok := it . stack [ len ( it . stack ) - 1 ] . node . ( valueNode )
return ok
}
// LeafBlob returns the data for the current node, if it is a leaf
func ( it * nodeIterator ) LeafBlob ( ) [ ] byte {
if len ( it . stack ) == 0 {
return nil
}
if node , ok := it . stack [ len ( it . stack ) - 1 ] . node . ( valueNode ) ; ok {
return [ ] byte ( node )
}
return nil
}
// Path returns the hex-encoded path to the current node
func ( it * nodeIterator ) Path ( ) [ ] byte {
return it . path
}
// Error returns the error set in case of an internal error in the iterator
func ( it * nodeIterator ) Error ( ) error {
return it . err
}
// Next moves the iterator to the next node, returning whether there are any
// further nodes. In case of an internal error this method returns false and
// sets the Error field to the encountered failure.
func ( it * NodeIterator ) Next ( ) bool {
// sets the Error field to the encountered failure. If `descend` is false,
// skips iterating over any subnodes of the current node.
func ( it * nodeIterator ) Next ( descend bool ) bool {
// If the iterator failed previously, don't do anything
if it . Error != nil {
if it . er r != nil {
return false
}
// Otherwise step forward with the iterator and report any errors
if err := it . step ( ) ; err != nil {
it . Error = err
if err := it . step ( descend ) ; err != nil {
it . er r = err
return false
}
return it . retrieve ( )
return it . trie != nil
}
// step moves the iterator to the next node of the trie.
func ( it * NodeIterator ) step ( ) error {
func ( it * n odeIterator) step ( descend bool ) error {
if it . trie == nil {
// Abort if we reached the end of the iteration
return nil
@ -132,57 +186,67 @@ func (it *NodeIterator) step() error {
state . hash = root
}
it . stack = append ( it . stack , state )
} else {
// Continue iterating at the previous node otherwise.
it . stack = it . stack [ : len ( it . stack ) - 1 ]
if len ( it . stack ) == 0 {
it . trie = nil
return nil
}
if ! descend {
// If we're skipping children, pop the current node first
it . path = it . path [ : it . stack [ len ( it . stack ) - 1 ] . pathlen ]
it . stack = it . stack [ : len ( it . stack ) - 1 ]
}
// Continue iteration to the next child
outer :
for {
if len ( it . stack ) == 0 {
it . trie = nil
return nil
}
parent := it . stack [ len ( it . stack ) - 1 ]
ancestor := parent . hash
if ( ancestor == common . Hash { } ) {
ancestor = parent . parent
}
if node , ok := parent . node . ( * fullNode ) ; ok {
// Full node, traverse all children, then the node itself
if parent . child >= len ( node . Children ) {
break
}
// Full node, iterate over children
for parent . child ++ ; parent . child < len ( node . Children ) ; parent . child ++ {
if current := node . Children [ parent . child ] ; current != nil {
child := node . Children [ parent . child ]
if child != nil {
hash , _ := child . cache ( )
it . stack = append ( it . stack , & nodeIteratorState {
hash : common . BytesToHash ( node . flags . hash ) ,
node : current ,
hash : common . BytesToHash ( hash ) ,
node : child ,
parent : ancestor ,
child : - 1 ,
pathlen : len ( it . path ) ,
} )
break
it . path = append ( it . path , byte ( parent . child ) )
break outer
}
}
} else if node , ok := parent . node . ( * shortNode ) ; ok {
// Short node, traverse the pointer singleton child, then the node itself
if parent . child >= 0 {
break
}
// Short node, return the pointer singleton child
if parent . child < 0 {
parent . child ++
hash , _ := node . Val . cache ( )
it . stack = append ( it . stack , & nodeIteratorState {
hash : common . BytesToHash ( node . flags . hash ) ,
hash : common . BytesToHash ( hash ) ,
node : node . Val ,
parent : ancestor ,
child : - 1 ,
pathlen : len ( it . path ) ,
} )
} else if hash , ok := parent . node . ( hashNode ) ; ok {
// Hash node, resolve the hash child from the database, then the node itself
if parent . child >= 0 {
if hasTerm ( node . Key ) {
it . path = append ( it . path , node . Key [ : len ( node . Key ) - 1 ] ... )
} else {
it . path = append ( it . path , node . Key ... )
}
break
}
} else if hash , ok := parent . node . ( hashNode ) ; ok {
// Hash node, resolve the hash child from the database
if parent . child < 0 {
parent . child ++
node , err := it . trie . resolveHash ( hash , nil , nil )
if err != nil {
return err
@ -192,33 +256,110 @@ func (it *NodeIterator) step() error {
node : node ,
parent : ancestor ,
child : - 1 ,
pathlen : len ( it . path ) ,
} )
} else {
break
}
}
it . path = it . path [ : parent . pathlen ]
it . stack = it . stack [ : len ( it . stack ) - 1 ]
}
return nil
}
// retrieve pulls and caches the current trie node the iterator is traversing.
// In case of a value node, the additional leaf blob is also populated with the
// data contents for external interpretation.
//
// The method returns whether there are any more data left for inspection.
func ( it * NodeIterator ) retrieve ( ) bool {
// Clear out any previously set values
it . Hash , it . Node , it . Parent , it . Leaf , it . LeafBlob = common . Hash { } , nil , common . Hash { } , false , nil
type differenceIterator struct {
a , b NodeIterator // Nodes returned are those in b - a.
eof bool // Indicates a has run out of elements
count int // Number of nodes scanned on either trie
}
// If the iteration's done, return no available data
if it . trie == nil {
// NewDifferenceIterator constructs a NodeIterator that iterates over elements in b that
// are not in a. Returns the iterator, and a pointer to an integer recording the number
// of nodes seen.
func NewDifferenceIterator ( a , b NodeIterator ) ( NodeIterator , * int ) {
a . Next ( true )
it := & differenceIterator {
a : a ,
b : b ,
}
return it , & it . count
}
func ( it * differenceIterator ) Hash ( ) common . Hash {
return it . b . Hash ( )
}
func ( it * differenceIterator ) Parent ( ) common . Hash {
return it . b . Parent ( )
}
func ( it * differenceIterator ) Leaf ( ) bool {
return it . b . Leaf ( )
}
func ( it * differenceIterator ) LeafBlob ( ) [ ] byte {
return it . b . LeafBlob ( )
}
func ( it * differenceIterator ) Path ( ) [ ] byte {
return it . b . Path ( )
}
func ( it * differenceIterator ) Next ( bool ) bool {
// Invariants:
// - We always advance at least one element in b.
// - At the start of this function, a's path is lexically greater than b's.
if ! it . b . Next ( true ) {
return false
}
// Otherwise retrieve the current node and resolve leaf accessors
state := it . stack [ len ( it . stack ) - 1 ]
it . count += 1
it . Hash , it . Node , it . Parent = state . hash , state . node , state . parent
if value , ok := it . Node . ( valueNode ) ; ok {
it . Leaf , it . LeafBlob = true , [ ] byte ( value )
if it . eof {
// a has reached eof, so we just return all elements from b
return true
}
for {
apath , bpath := it . a . Path ( ) , it . b . Path ( )
switch bytes . Compare ( apath , bpath ) {
case - 1 :
// b jumped past a; advance a
if ! it . a . Next ( true ) {
it . eof = true
return true
}
it . count += 1
case 1 :
// b is before a
return true
case 0 :
if it . a . Hash ( ) != it . b . Hash ( ) || it . a . Leaf ( ) != it . b . Leaf ( ) {
// Keys are identical, but hashes or leaf status differs
return true
}
if it . a . Leaf ( ) && it . b . Leaf ( ) && ! bytes . Equal ( it . a . LeafBlob ( ) , it . b . LeafBlob ( ) ) {
// Both are leaf nodes, but with different values
return true
}
// a and b are identical; skip this whole subtree if the nodes have hashes
hasHash := it . a . Hash ( ) == common . Hash { }
if ! it . b . Next ( hasHash ) {
return false
}
it . count += 1
if ! it . a . Next ( hasHash ) {
it . eof = true
return true
}
it . count += 1
}
}
}
func ( it * differenceIterator ) Error ( ) error {
if err := it . a . Error ( ) ; err != nil {
return err
}
return it . b . Error ( )
}