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// Copyright 2019 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package snapshot
import (
"bytes"
"github.com/ethereum/go-ethereum/common"
)
// binaryIterator is a simplistic iterator to step over the accounts or storage
// in a snapshot, which may or may not be composed of multiple layers. Performance
// wise this iterator is slow, it's meant for cross validating the fast one,
type binaryIterator struct {
a Iterator
b Iterator
aDone bool
bDone bool
accountIterator bool
k common.Hash
account common.Hash
fail error
}
// initBinaryAccountIterator creates a simplistic iterator to step over all the
// accounts in a slow, but eaily verifiable way. Note this function is used for
// initialization, use `newBinaryAccountIterator` as the API.
func (dl *diffLayer) initBinaryAccountIterator() Iterator {
parent, ok := dl.parent.(*diffLayer)
if !ok {
l := &binaryIterator{
a: dl.AccountIterator(common.Hash{}),
b: dl.Parent().AccountIterator(common.Hash{}),
accountIterator: true,
}
l.aDone = !l.a.Next()
l.bDone = !l.b.Next()
return l
}
l := &binaryIterator{
a: dl.AccountIterator(common.Hash{}),
b: parent.initBinaryAccountIterator(),
accountIterator: true,
}
l.aDone = !l.a.Next()
l.bDone = !l.b.Next()
return l
}
// initBinaryStorageIterator creates a simplistic iterator to step over all the
// storage slots in a slow, but eaily verifiable way. Note this function is used
// for initialization, use `newBinaryStorageIterator` as the API.
func (dl *diffLayer) initBinaryStorageIterator(account common.Hash) Iterator {
parent, ok := dl.parent.(*diffLayer)
if !ok {
// If the storage in this layer is already destructed, discard all
// deeper layers but still return an valid single-branch iterator.
a, destructed := dl.StorageIterator(account, common.Hash{})
if destructed {
l := &binaryIterator{
a: a,
account: account,
}
l.aDone = !l.a.Next()
l.bDone = true
return l
}
// The parent is disk layer, don't need to take care "destructed"
// anymore.
b, _ := dl.Parent().StorageIterator(account, common.Hash{})
l := &binaryIterator{
a: a,
b: b,
account: account,
}
l.aDone = !l.a.Next()
l.bDone = !l.b.Next()
return l
}
// If the storage in this layer is already destructed, discard all
// deeper layers but still return an valid single-branch iterator.
a, destructed := dl.StorageIterator(account, common.Hash{})
if destructed {
l := &binaryIterator{
a: a,
account: account,
}
l.aDone = !l.a.Next()
l.bDone = true
return l
}
l := &binaryIterator{
a: a,
b: parent.initBinaryStorageIterator(account),
account: account,
}
l.aDone = !l.a.Next()
l.bDone = !l.b.Next()
return l
}
// Next steps the iterator forward one element, returning false if exhausted,
// or an error if iteration failed for some reason (e.g. root being iterated
// becomes stale and garbage collected).
func (it *binaryIterator) Next() bool {
if it.aDone && it.bDone {
return false
}
first:
if it.aDone {
it.k = it.b.Hash()
it.bDone = !it.b.Next()
return true
}
if it.bDone {
it.k = it.a.Hash()
it.aDone = !it.a.Next()
return true
}
nextA, nextB := it.a.Hash(), it.b.Hash()
if diff := bytes.Compare(nextA[:], nextB[:]); diff < 0 {
it.aDone = !it.a.Next()
it.k = nextA
return true
} else if diff == 0 {
// Now we need to advance one of them
it.aDone = !it.a.Next()
goto first
}
it.bDone = !it.b.Next()
it.k = nextB
return true
}
// Error returns any failure that occurred during iteration, which might have
// caused a premature iteration exit (e.g. snapshot stack becoming stale).
func (it *binaryIterator) Error() error {
return it.fail
}
// Hash returns the hash of the account the iterator is currently at.
func (it *binaryIterator) Hash() common.Hash {
return it.k
}
// Account returns the RLP encoded slim account the iterator is currently at, or
// nil if the iterated snapshot stack became stale (you can check Error after
// to see if it failed or not).
//
// Note the returned account is not a copy, please don't modify it.
func (it *binaryIterator) Account() []byte {
if !it.accountIterator {
return nil
}
// The topmost iterator must be `diffAccountIterator`
blob, err := it.a.(*diffAccountIterator).layer.AccountRLP(it.k)
if err != nil {
it.fail = err
return nil
}
return blob
}
// Slot returns the raw storage slot data the iterator is currently at, or
// nil if the iterated snapshot stack became stale (you can check Error after
// to see if it failed or not).
//
// Note the returned slot is not a copy, please don't modify it.
func (it *binaryIterator) Slot() []byte {
if it.accountIterator {
return nil
}
blob, err := it.a.(*diffStorageIterator).layer.Storage(it.account, it.k)
if err != nil {
it.fail = err
return nil
}
return blob
}
// Release recursively releases all the iterators in the stack.
func (it *binaryIterator) Release() {
it.a.Release()
it.b.Release()
}
// newBinaryAccountIterator creates a simplistic account iterator to step over
// all the accounts in a slow, but eaily verifiable way.
func (dl *diffLayer) newBinaryAccountIterator() AccountIterator {
iter := dl.initBinaryAccountIterator()
return iter.(AccountIterator)
}
// newBinaryStorageIterator creates a simplistic account iterator to step over
// all the storage slots in a slow, but eaily verifiable way.
func (dl *diffLayer) newBinaryStorageIterator(account common.Hash) StorageIterator {
iter := dl.initBinaryStorageIterator(account)
return iter.(StorageIterator)
}
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