380 lines
12 KiB
Go
380 lines
12 KiB
Go
// Copyright 2020 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package snapshot
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import (
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"encoding/binary"
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"errors"
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"fmt"
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"math"
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"runtime"
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/common/gopool"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/ethereum/go-ethereum/trie"
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)
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// trieKV represents a trie key-value pair
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type trieKV struct {
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key common.Hash
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value []byte
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}
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type (
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// trieGeneratorFn is the interface of trie generation which can
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// be implemented by different trie algorithm.
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trieGeneratorFn func(db ethdb.KeyValueWriter, scheme string, owner common.Hash, in chan (trieKV), out chan (common.Hash))
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// leafCallbackFn is the callback invoked at the leaves of the trie,
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// returns the subtrie root with the specified subtrie identifier.
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leafCallbackFn func(db ethdb.KeyValueWriter, accountHash, codeHash common.Hash, stat *generateStats) (common.Hash, error)
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)
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// GenerateAccountTrieRoot takes an account iterator and reproduces the root hash.
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func GenerateAccountTrieRoot(it AccountIterator) (common.Hash, error) {
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return generateTrieRoot(nil, "", it, common.Hash{}, stackTrieGenerate, nil, newGenerateStats(), true)
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}
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// GenerateStorageTrieRoot takes a storage iterator and reproduces the root hash.
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func GenerateStorageTrieRoot(account common.Hash, it StorageIterator) (common.Hash, error) {
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return generateTrieRoot(nil, "", it, account, stackTrieGenerate, nil, newGenerateStats(), true)
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}
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// GenerateTrie takes the whole snapshot tree as the input, traverses all the
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// accounts as well as the corresponding storages and regenerate the whole state
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// (account trie + all storage tries).
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func GenerateTrie(snaptree *Tree, root common.Hash, src ethdb.Database, dst ethdb.KeyValueWriter) error {
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// Traverse all state by snapshot, re-generate the whole state trie
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acctIt, err := snaptree.AccountIterator(root, common.Hash{})
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if err != nil {
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return err // The required snapshot might not exist.
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}
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defer acctIt.Release()
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scheme := snaptree.triedb.Scheme()
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got, err := generateTrieRoot(dst, scheme, acctIt, common.Hash{}, stackTrieGenerate, func(dst ethdb.KeyValueWriter, accountHash, codeHash common.Hash, stat *generateStats) (common.Hash, error) {
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// Migrate the code first, commit the contract code into the tmp db.
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if codeHash != types.EmptyCodeHash {
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code := rawdb.ReadCode(src, codeHash)
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if len(code) == 0 {
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return common.Hash{}, errors.New("failed to read contract code")
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}
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rawdb.WriteCode(dst, codeHash, code)
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}
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// Then migrate all storage trie nodes into the tmp db.
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storageIt, err := snaptree.StorageIterator(root, accountHash, common.Hash{})
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if err != nil {
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return common.Hash{}, err
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}
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defer storageIt.Release()
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hash, err := generateTrieRoot(dst, scheme, storageIt, accountHash, stackTrieGenerate, nil, stat, false)
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if err != nil {
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return common.Hash{}, err
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}
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return hash, nil
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}, newGenerateStats(), true)
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if err != nil {
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return err
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}
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if got != root {
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return fmt.Errorf("state root hash mismatch: got %x, want %x", got, root)
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}
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return nil
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}
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// generateStats is a collection of statistics gathered by the trie generator
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// for logging purposes.
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type generateStats struct {
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head common.Hash
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start time.Time
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accounts uint64 // Number of accounts done (including those being crawled)
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slots uint64 // Number of storage slots done (including those being crawled)
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slotsStart map[common.Hash]time.Time // Start time for account slot crawling
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slotsHead map[common.Hash]common.Hash // Slot head for accounts being crawled
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lock sync.RWMutex
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}
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// newGenerateStats creates a new generator stats.
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func newGenerateStats() *generateStats {
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return &generateStats{
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slotsStart: make(map[common.Hash]time.Time),
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slotsHead: make(map[common.Hash]common.Hash),
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start: time.Now(),
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}
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}
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// progressAccounts updates the generator stats for the account range.
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func (stat *generateStats) progressAccounts(account common.Hash, done uint64) {
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stat.lock.Lock()
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defer stat.lock.Unlock()
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stat.accounts += done
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stat.head = account
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}
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// finishAccounts updates the generator stats for the finished account range.
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func (stat *generateStats) finishAccounts(done uint64) {
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stat.lock.Lock()
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defer stat.lock.Unlock()
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stat.accounts += done
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}
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// progressContract updates the generator stats for a specific in-progress contract.
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func (stat *generateStats) progressContract(account common.Hash, slot common.Hash, done uint64) {
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stat.lock.Lock()
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defer stat.lock.Unlock()
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stat.slots += done
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stat.slotsHead[account] = slot
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if _, ok := stat.slotsStart[account]; !ok {
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stat.slotsStart[account] = time.Now()
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}
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}
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// finishContract updates the generator stats for a specific just-finished contract.
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func (stat *generateStats) finishContract(account common.Hash, done uint64) {
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stat.lock.Lock()
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defer stat.lock.Unlock()
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stat.slots += done
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delete(stat.slotsHead, account)
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delete(stat.slotsStart, account)
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}
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// report prints the cumulative progress statistic smartly.
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func (stat *generateStats) report() {
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stat.lock.RLock()
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defer stat.lock.RUnlock()
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ctx := []interface{}{
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"accounts", stat.accounts,
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"slots", stat.slots,
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"elapsed", common.PrettyDuration(time.Since(stat.start)),
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}
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if stat.accounts > 0 {
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// If there's progress on the account trie, estimate the time to finish crawling it
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if done := binary.BigEndian.Uint64(stat.head[:8]) / stat.accounts; done > 0 {
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var (
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left = (math.MaxUint64 - binary.BigEndian.Uint64(stat.head[:8])) / stat.accounts
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speed = done/uint64(time.Since(stat.start)/time.Millisecond+1) + 1 // +1s to avoid division by zero
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eta = time.Duration(left/speed) * time.Millisecond
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)
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// If there are large contract crawls in progress, estimate their finish time
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for acc, head := range stat.slotsHead {
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start := stat.slotsStart[acc]
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if done := binary.BigEndian.Uint64(head[:8]); done > 0 {
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var (
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left = math.MaxUint64 - binary.BigEndian.Uint64(head[:8])
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speed = done/uint64(time.Since(start)/time.Millisecond+1) + 1 // +1s to avoid division by zero
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)
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// Override the ETA if larger than the largest until now
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if slotETA := time.Duration(left/speed) * time.Millisecond; eta < slotETA {
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eta = slotETA
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}
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}
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}
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ctx = append(ctx, []interface{}{
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"eta", common.PrettyDuration(eta),
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}...)
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}
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}
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log.Info("Iterating state snapshot", ctx...)
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}
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// reportDone prints the last log when the whole generation is finished.
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func (stat *generateStats) reportDone() {
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stat.lock.RLock()
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defer stat.lock.RUnlock()
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var ctx []interface{}
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ctx = append(ctx, []interface{}{"accounts", stat.accounts}...)
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if stat.slots != 0 {
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ctx = append(ctx, []interface{}{"slots", stat.slots}...)
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}
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ctx = append(ctx, []interface{}{"elapsed", common.PrettyDuration(time.Since(stat.start))}...)
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log.Info("Iterated snapshot", ctx...)
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}
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// runReport periodically prints the progress information.
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func runReport(stats *generateStats, stop chan bool) {
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timer := time.NewTimer(0)
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defer timer.Stop()
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for {
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select {
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case <-timer.C:
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stats.report()
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timer.Reset(time.Second * 8)
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case success := <-stop:
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if success {
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stats.reportDone()
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}
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return
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}
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}
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}
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// generateTrieRoot generates the trie hash based on the snapshot iterator.
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// It can be used for generating account trie, storage trie or even the
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// whole state which connects the accounts and the corresponding storages.
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func generateTrieRoot(db ethdb.KeyValueWriter, scheme string, it Iterator, account common.Hash, generatorFn trieGeneratorFn, leafCallback leafCallbackFn, stats *generateStats, report bool) (common.Hash, error) {
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var (
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in = make(chan trieKV) // chan to pass leaves
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out = make(chan common.Hash, 1) // chan to collect result
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stoplog = make(chan bool, 1) // 1-size buffer, works when logging is not enabled
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wg sync.WaitGroup
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)
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// Spin up a go-routine for trie hash re-generation
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wg.Add(1)
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go func() {
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defer wg.Done()
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generatorFn(db, scheme, account, in, out)
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}()
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// Spin up a go-routine for progress logging
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if report && stats != nil {
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wg.Add(1)
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go func() {
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defer wg.Done()
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runReport(stats, stoplog)
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}()
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}
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// Create a semaphore to assign tasks and collect results through. We'll pre-
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// fill it with nils, thus using the same channel for both limiting concurrent
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// processing and gathering results.
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threads := runtime.NumCPU()
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results := make(chan error, threads)
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for i := 0; i < threads; i++ {
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results <- nil // fill the semaphore
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}
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// stop is a helper function to shutdown the background threads
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// and return the re-generated trie hash.
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stop := func(fail error) (common.Hash, error) {
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close(in)
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result := <-out
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for i := 0; i < threads; i++ {
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if err := <-results; err != nil && fail == nil {
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fail = err
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}
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}
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stoplog <- fail == nil
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wg.Wait()
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return result, fail
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}
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var (
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logged = time.Now()
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processed = uint64(0)
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leaf trieKV
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)
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// Start to feed leaves
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for it.Next() {
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if account == (common.Hash{}) {
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var (
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err error
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fullData []byte
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)
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if leafCallback == nil {
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fullData, err = types.FullAccountRLP(it.(AccountIterator).Account())
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if err != nil {
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return stop(err)
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}
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} else {
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// Wait until the semaphore allows us to continue, aborting if
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// a sub-task failed
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if err := <-results; err != nil {
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results <- nil // stop will drain the results, add a noop back for this error we just consumed
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return stop(err)
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}
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// Fetch the next account and process it concurrently
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account, err := types.FullAccount(it.(AccountIterator).Account())
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if err != nil {
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return stop(err)
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}
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hash := it.Hash()
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gopool.Submit(func() {
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subroot, err := leafCallback(db, hash, common.BytesToHash(account.CodeHash), stats)
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if err != nil {
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results <- err
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return
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}
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if account.Root != subroot {
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results <- fmt.Errorf("invalid subroot(path %x), want %x, have %x", hash, account.Root, subroot)
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return
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}
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results <- nil
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})
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fullData, err = rlp.EncodeToBytes(account)
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if err != nil {
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return stop(err)
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}
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}
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leaf = trieKV{it.Hash(), fullData}
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} else {
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leaf = trieKV{it.Hash(), common.CopyBytes(it.(StorageIterator).Slot())}
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}
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in <- leaf
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// Accumulate the generation statistic if it's required.
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processed++
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if time.Since(logged) > 3*time.Second && stats != nil {
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if account == (common.Hash{}) {
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stats.progressAccounts(it.Hash(), processed)
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} else {
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stats.progressContract(account, it.Hash(), processed)
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}
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logged, processed = time.Now(), 0
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}
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}
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// Commit the last part statistic.
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if processed > 0 && stats != nil {
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if account == (common.Hash{}) {
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stats.finishAccounts(processed)
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} else {
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stats.finishContract(account, processed)
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}
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}
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return stop(nil)
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}
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func stackTrieGenerate(db ethdb.KeyValueWriter, scheme string, owner common.Hash, in chan trieKV, out chan common.Hash) {
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options := trie.NewStackTrieOptions()
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if db != nil {
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options = options.WithWriter(func(path []byte, hash common.Hash, blob []byte) {
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rawdb.WriteTrieNode(db, owner, path, hash, blob, scheme)
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})
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}
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t := trie.NewStackTrie(options)
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for leaf := range in {
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t.Update(leaf.key[:], leaf.value)
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}
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out <- t.Commit()
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}
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