bsc/light/postprocess.go

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// Copyright 2017 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 light
import (
"bytes"
"context"
"encoding/binary"
"errors"
"fmt"
"math/big"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/bitutil"
"github.com/ethereum/go-ethereum/core"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/params"
"github.com/ethereum/go-ethereum/rlp"
"github.com/ethereum/go-ethereum/trie"
)
// IndexerConfig includes a set of configs for chain indexers.
type IndexerConfig struct {
// The block frequency for creating CHTs.
ChtSize uint64
// The number of confirmations needed to generate/accept a canonical hash help trie.
ChtConfirms uint64
// The block frequency for creating new bloom bits.
BloomSize uint64
// The number of confirmation needed before a bloom section is considered probably final and its rotated bits
// are calculated.
BloomConfirms uint64
// The block frequency for creating BloomTrie.
BloomTrieSize uint64
// The number of confirmations needed to generate/accept a bloom trie.
BloomTrieConfirms uint64
}
var (
// DefaultServerIndexerConfig wraps a set of configs as a default indexer config for server side.
DefaultServerIndexerConfig = &IndexerConfig{
ChtSize: params.CHTFrequency,
ChtConfirms: params.HelperTrieProcessConfirmations,
BloomSize: params.BloomBitsBlocks,
BloomConfirms: params.BloomConfirms,
BloomTrieSize: params.BloomTrieFrequency,
BloomTrieConfirms: params.HelperTrieProcessConfirmations,
}
// DefaultClientIndexerConfig wraps a set of configs as a default indexer config for client side.
DefaultClientIndexerConfig = &IndexerConfig{
ChtSize: params.CHTFrequency,
ChtConfirms: params.HelperTrieConfirmations,
BloomSize: params.BloomBitsBlocksClient,
BloomConfirms: params.HelperTrieConfirmations,
BloomTrieSize: params.BloomTrieFrequency,
BloomTrieConfirms: params.HelperTrieConfirmations,
}
// TestServerIndexerConfig wraps a set of configs as a test indexer config for server side.
TestServerIndexerConfig = &IndexerConfig{
ChtSize: 128,
ChtConfirms: 1,
BloomSize: 16,
BloomConfirms: 1,
BloomTrieSize: 128,
BloomTrieConfirms: 1,
}
// TestClientIndexerConfig wraps a set of configs as a test indexer config for client side.
TestClientIndexerConfig = &IndexerConfig{
ChtSize: 128,
ChtConfirms: 8,
BloomSize: 128,
BloomConfirms: 8,
BloomTrieSize: 128,
BloomTrieConfirms: 8,
}
)
var (
errNoTrustedCht = errors.New("no trusted canonical hash trie")
errNoTrustedBloomTrie = errors.New("no trusted bloom trie")
errNoHeader = errors.New("header not found")
)
// ChtNode structures are stored in the Canonical Hash Trie in an RLP encoded format
type ChtNode struct {
Hash common.Hash
Td *big.Int
}
// GetChtRoot reads the CHT root associated to the given section from the database
func GetChtRoot(db ethdb.Database, sectionIdx uint64, sectionHead common.Hash) common.Hash {
var encNumber [8]byte
binary.BigEndian.PutUint64(encNumber[:], sectionIdx)
data, _ := db.Get(append(append(rawdb.ChtPrefix, encNumber[:]...), sectionHead.Bytes()...))
return common.BytesToHash(data)
}
// StoreChtRoot writes the CHT root associated to the given section into the database
func StoreChtRoot(db ethdb.Database, sectionIdx uint64, sectionHead, root common.Hash) {
var encNumber [8]byte
binary.BigEndian.PutUint64(encNumber[:], sectionIdx)
db.Put(append(append(rawdb.ChtPrefix, encNumber[:]...), sectionHead.Bytes()...), root.Bytes())
}
// ChtIndexerBackend implements core.ChainIndexerBackend.
type ChtIndexerBackend struct {
disablePruning bool
diskdb, trieTable ethdb.Database
odr OdrBackend
triedb *trie.Database
section, sectionSize uint64
lastHash common.Hash
trie *trie.Trie
}
// NewChtIndexer creates a Cht chain indexer
func NewChtIndexer(db ethdb.Database, odr OdrBackend, size, confirms uint64, disablePruning bool) *core.ChainIndexer {
trieTable := rawdb.NewTable(db, string(rawdb.ChtTablePrefix))
backend := &ChtIndexerBackend{
diskdb: db,
odr: odr,
trieTable: trieTable,
triedb: trie.NewDatabaseWithConfig(trieTable, &trie.Config{Cache: 1}), // Use a tiny cache only to keep memory down
sectionSize: size,
disablePruning: disablePruning,
}
return core.NewChainIndexer(db, rawdb.NewTable(db, string(rawdb.ChtIndexTablePrefix)), backend, size, confirms, time.Millisecond*100, "cht")
}
// fetchMissingNodes tries to retrieve the last entry of the latest trusted CHT from the
// ODR backend in order to be able to add new entries and calculate subsequent root hashes
func (c *ChtIndexerBackend) fetchMissingNodes(ctx context.Context, section uint64, root common.Hash) error {
batch := c.trieTable.NewBatch()
r := &ChtRequest{ChtRoot: root, ChtNum: section - 1, BlockNum: section*c.sectionSize - 1, Config: c.odr.IndexerConfig()}
for {
err := c.odr.Retrieve(ctx, r)
switch err {
case nil:
r.Proof.Store(batch)
return batch.Write()
case ErrNoPeers:
// if there are no peers to serve, retry later
select {
case <-ctx.Done():
return ctx.Err()
case <-time.After(time.Second * 10):
// stay in the loop and try again
}
default:
return err
}
}
}
// Reset implements core.ChainIndexerBackend
func (c *ChtIndexerBackend) Reset(ctx context.Context, section uint64, lastSectionHead common.Hash) error {
var root common.Hash
if section > 0 {
root = GetChtRoot(c.diskdb, section-1, lastSectionHead)
}
var err error
c.trie, err = trie.New(trie.TrieID(root), c.triedb)
if err != nil && c.odr != nil {
err = c.fetchMissingNodes(ctx, section, root)
if err == nil {
c.trie, err = trie.New(trie.TrieID(root), c.triedb)
}
}
c.section = section
return err
}
// Process implements core.ChainIndexerBackend
func (c *ChtIndexerBackend) Process(ctx context.Context, header *types.Header) error {
hash, num := header.Hash(), header.Number.Uint64()
c.lastHash = hash
td := rawdb.ReadTd(c.diskdb, hash, num)
if td == nil {
panic(nil)
}
var encNumber [8]byte
binary.BigEndian.PutUint64(encNumber[:], num)
data, _ := rlp.EncodeToBytes(ChtNode{hash, td})
c.trie.Update(encNumber[:], data)
return nil
}
// Commit implements core.ChainIndexerBackend
func (c *ChtIndexerBackend) Commit() error {
root, nodes, err := c.trie.Commit(false)
if err != nil {
return err
}
// Commit trie changes into trie database in case it's not nil.
if nodes != nil {
if err := c.triedb.Update(trie.NewWithNodeSet(nodes)); err != nil {
return err
}
if err := c.triedb.Commit(root, false, nil); err != nil {
return err
}
}
// Re-create trie with newly generated root and updated database.
c.trie, err = trie.New(trie.TrieID(root), c.triedb)
if err != nil {
return err
}
// Pruning historical trie nodes if necessary.
if !c.disablePruning {
it := c.trieTable.NewIterator(nil, nil)
defer it.Release()
var (
deleted int
batch = c.trieTable.NewBatch()
t = time.Now()
)
hashes := make(map[common.Hash]struct{})
if nodes != nil {
for _, hash := range nodes.Hashes() {
hashes[hash] = struct{}{}
}
}
for it.Next() {
trimmed := bytes.TrimPrefix(it.Key(), rawdb.ChtTablePrefix)
if len(trimmed) == common.HashLength {
if _, ok := hashes[common.BytesToHash(trimmed)]; !ok {
batch.Delete(trimmed)
deleted += 1
}
}
}
if err := batch.Write(); err != nil {
return err
}
log.Debug("Prune historical CHT trie nodes", "deleted", deleted, "remaining", len(hashes), "elapsed", common.PrettyDuration(time.Since(t)))
}
log.Info("Storing CHT", "section", c.section, "head", fmt.Sprintf("%064x", c.lastHash), "root", fmt.Sprintf("%064x", root))
StoreChtRoot(c.diskdb, c.section, c.lastHash, root)
return nil
}
// Prune implements core.ChainIndexerBackend which deletes all chain data
// (except hash<->number mappings) older than the specified threshold.
func (c *ChtIndexerBackend) Prune(threshold uint64) error {
// Short circuit if the light pruning is disabled.
if c.disablePruning {
return nil
}
t := time.Now()
// Always keep genesis header in database.
start, end := uint64(1), (threshold+1)*c.sectionSize
var batch = c.diskdb.NewBatch()
for {
numbers, hashes := rawdb.ReadAllCanonicalHashes(c.diskdb, start, end, 10240)
if len(numbers) == 0 {
break
}
for i := 0; i < len(numbers); i++ {
// Keep hash<->number mapping in database otherwise the hash based
// API(e.g. GetReceipt, GetLogs) will be broken.
//
// Storage size wise, the size of a mapping is ~41bytes. For one
// section is about 1.3MB which is acceptable.
//
// In order to totally get rid of this index, we need an additional
// flag to specify how many historical data light client can serve.
rawdb.DeleteCanonicalHash(batch, numbers[i])
rawdb.DeleteBlockWithoutNumber(batch, hashes[i], numbers[i])
}
if batch.ValueSize() > ethdb.IdealBatchSize {
if err := batch.Write(); err != nil {
return err
}
batch.Reset()
}
start = numbers[len(numbers)-1] + 1
}
if err := batch.Write(); err != nil {
return err
}
log.Debug("Prune history headers", "threshold", threshold, "elapsed", common.PrettyDuration(time.Since(t)))
return nil
}
// GetBloomTrieRoot reads the BloomTrie root associated to the given section from the database
func GetBloomTrieRoot(db ethdb.Database, sectionIdx uint64, sectionHead common.Hash) common.Hash {
var encNumber [8]byte
binary.BigEndian.PutUint64(encNumber[:], sectionIdx)
data, _ := db.Get(append(append(rawdb.BloomTriePrefix, encNumber[:]...), sectionHead.Bytes()...))
return common.BytesToHash(data)
}
// StoreBloomTrieRoot writes the BloomTrie root associated to the given section into the database
func StoreBloomTrieRoot(db ethdb.Database, sectionIdx uint64, sectionHead, root common.Hash) {
var encNumber [8]byte
binary.BigEndian.PutUint64(encNumber[:], sectionIdx)
db.Put(append(append(rawdb.BloomTriePrefix, encNumber[:]...), sectionHead.Bytes()...), root.Bytes())
}
// BloomTrieIndexerBackend implements core.ChainIndexerBackend
type BloomTrieIndexerBackend struct {
disablePruning bool
diskdb, trieTable ethdb.Database
triedb *trie.Database
odr OdrBackend
section uint64
parentSize uint64
size uint64
bloomTrieRatio uint64
trie *trie.Trie
sectionHeads []common.Hash
}
// NewBloomTrieIndexer creates a BloomTrie chain indexer
func NewBloomTrieIndexer(db ethdb.Database, odr OdrBackend, parentSize, size uint64, disablePruning bool) *core.ChainIndexer {
trieTable := rawdb.NewTable(db, string(rawdb.BloomTrieTablePrefix))
backend := &BloomTrieIndexerBackend{
diskdb: db,
odr: odr,
trieTable: trieTable,
triedb: trie.NewDatabaseWithConfig(trieTable, &trie.Config{Cache: 1}), // Use a tiny cache only to keep memory down
parentSize: parentSize,
size: size,
disablePruning: disablePruning,
}
backend.bloomTrieRatio = size / parentSize
backend.sectionHeads = make([]common.Hash, backend.bloomTrieRatio)
return core.NewChainIndexer(db, rawdb.NewTable(db, string(rawdb.BloomTrieIndexPrefix)), backend, size, 0, time.Millisecond*100, "bloomtrie")
}
// fetchMissingNodes tries to retrieve the last entries of the latest trusted bloom trie from the
// ODR backend in order to be able to add new entries and calculate subsequent root hashes
func (b *BloomTrieIndexerBackend) fetchMissingNodes(ctx context.Context, section uint64, root common.Hash) error {
indexCh := make(chan uint, types.BloomBitLength)
type res struct {
nodes *NodeSet
err error
}
resCh := make(chan res, types.BloomBitLength)
for i := 0; i < 20; i++ {
go func() {
for bitIndex := range indexCh {
r := &BloomRequest{BloomTrieRoot: root, BloomTrieNum: section - 1, BitIdx: bitIndex, SectionIndexList: []uint64{section - 1}, Config: b.odr.IndexerConfig()}
for {
if err := b.odr.Retrieve(ctx, r); err == ErrNoPeers {
// if there are no peers to serve, retry later
select {
case <-ctx.Done():
resCh <- res{nil, ctx.Err()}
return
case <-time.After(time.Second * 10):
// stay in the loop and try again
}
} else {
resCh <- res{r.Proofs, err}
break
}
}
}
}()
}
for i := uint(0); i < types.BloomBitLength; i++ {
indexCh <- i
}
close(indexCh)
batch := b.trieTable.NewBatch()
for i := uint(0); i < types.BloomBitLength; i++ {
res := <-resCh
if res.err != nil {
return res.err
}
res.nodes.Store(batch)
}
return batch.Write()
}
// Reset implements core.ChainIndexerBackend
func (b *BloomTrieIndexerBackend) Reset(ctx context.Context, section uint64, lastSectionHead common.Hash) error {
var root common.Hash
if section > 0 {
root = GetBloomTrieRoot(b.diskdb, section-1, lastSectionHead)
}
var err error
b.trie, err = trie.New(trie.TrieID(root), b.triedb)
if err != nil && b.odr != nil {
err = b.fetchMissingNodes(ctx, section, root)
if err == nil {
b.trie, err = trie.New(trie.TrieID(root), b.triedb)
}
}
b.section = section
return err
}
// Process implements core.ChainIndexerBackend
func (b *BloomTrieIndexerBackend) Process(ctx context.Context, header *types.Header) error {
num := header.Number.Uint64() - b.section*b.size
if (num+1)%b.parentSize == 0 {
b.sectionHeads[num/b.parentSize] = header.Hash()
}
return nil
}
// Commit implements core.ChainIndexerBackend
func (b *BloomTrieIndexerBackend) Commit() error {
var compSize, decompSize uint64
for i := uint(0); i < types.BloomBitLength; i++ {
var encKey [10]byte
binary.BigEndian.PutUint16(encKey[0:2], uint16(i))
binary.BigEndian.PutUint64(encKey[2:10], b.section)
var decomp []byte
for j := uint64(0); j < b.bloomTrieRatio; j++ {
data, err := rawdb.ReadBloomBits(b.diskdb, i, b.section*b.bloomTrieRatio+j, b.sectionHeads[j])
if err != nil {
return err
}
decompData, err2 := bitutil.DecompressBytes(data, int(b.parentSize/8))
if err2 != nil {
return err2
}
decomp = append(decomp, decompData...)
}
comp := bitutil.CompressBytes(decomp)
decompSize += uint64(len(decomp))
compSize += uint64(len(comp))
if len(comp) > 0 {
b.trie.Update(encKey[:], comp)
} else {
b.trie.Delete(encKey[:])
}
}
root, nodes, err := b.trie.Commit(false)
if err != nil {
return err
}
// Commit trie changes into trie database in case it's not nil.
if nodes != nil {
if err := b.triedb.Update(trie.NewWithNodeSet(nodes)); err != nil {
return err
}
if err := b.triedb.Commit(root, false, nil); err != nil {
return err
}
}
// Re-create trie with newly generated root and updated database.
b.trie, err = trie.New(trie.TrieID(root), b.triedb)
if err != nil {
return err
}
// Pruning historical trie nodes if necessary.
if !b.disablePruning {
it := b.trieTable.NewIterator(nil, nil)
defer it.Release()
var (
deleted int
batch = b.trieTable.NewBatch()
t = time.Now()
)
hashes := make(map[common.Hash]struct{})
if nodes != nil {
for _, hash := range nodes.Hashes() {
hashes[hash] = struct{}{}
}
}
for it.Next() {
trimmed := bytes.TrimPrefix(it.Key(), rawdb.BloomTrieTablePrefix)
if len(trimmed) == common.HashLength {
if _, ok := hashes[common.BytesToHash(trimmed)]; !ok {
batch.Delete(trimmed)
deleted += 1
}
}
}
if err := batch.Write(); err != nil {
return err
}
log.Debug("Prune historical bloom trie nodes", "deleted", deleted, "remaining", len(hashes), "elapsed", common.PrettyDuration(time.Since(t)))
}
sectionHead := b.sectionHeads[b.bloomTrieRatio-1]
StoreBloomTrieRoot(b.diskdb, b.section, sectionHead, root)
log.Info("Storing bloom trie", "section", b.section, "head", fmt.Sprintf("%064x", sectionHead), "root", fmt.Sprintf("%064x", root), "compression", float64(compSize)/float64(decompSize))
return nil
}
// Prune implements core.ChainIndexerBackend which deletes all
// bloombits which older than the specified threshold.
func (b *BloomTrieIndexerBackend) Prune(threshold uint64) error {
// Short circuit if the light pruning is disabled.
if b.disablePruning {
return nil
}
start := time.Now()
for i := uint(0); i < types.BloomBitLength; i++ {
rawdb.DeleteBloombits(b.diskdb, i, 0, threshold*b.bloomTrieRatio+b.bloomTrieRatio)
}
log.Debug("Prune history bloombits", "threshold", threshold, "elapsed", common.PrettyDuration(time.Since(start)))
return nil
}