go-ethereum/eth/handler.go

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// Copyright 2015 The go-ethereum Authors
// This file is part of the go-ethereum library.
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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
// 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,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// 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/>.
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package eth
import (
"errors"
"math"
"math/big"
"sync"
"sync/atomic"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core"
"github.com/ethereum/go-ethereum/core/forkid"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/core/txpool"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/eth/downloader"
"github.com/ethereum/go-ethereum/eth/fetcher"
"github.com/ethereum/go-ethereum/eth/protocols/eth"
"github.com/ethereum/go-ethereum/eth/protocols/snap"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/metrics"
"github.com/ethereum/go-ethereum/p2p"
"github.com/ethereum/go-ethereum/p2p/enode"
"github.com/ethereum/go-ethereum/triedb/pathdb"
"golang.org/x/crypto/sha3"
)
const (
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// txChanSize is the size of channel listening to NewTxsEvent.
// The number is referenced from the size of tx pool.
txChanSize = 4096
// txMaxBroadcastSize is the max size of a transaction that will be broadcasted.
// All transactions with a higher size will be announced and need to be fetched
// by the peer.
txMaxBroadcastSize = 4096
)
var syncChallengeTimeout = 15 * time.Second // Time allowance for a node to reply to the sync progress challenge
// txPool defines the methods needed from a transaction pool implementation to
// support all the operations needed by the Ethereum chain protocols.
type txPool interface {
// Has returns an indicator whether txpool has a transaction
// cached with the given hash.
Has(hash common.Hash) bool
// Get retrieves the transaction from local txpool with given
// tx hash.
core/types: support for optional blob sidecar in BlobTx (#27841) This PR removes the newly added txpool.Transaction wrapper type, and instead adds a way of keeping the blob sidecar within types.Transaction. It's better this way because most code in go-ethereum does not care about blob transactions, and probably never will. This will start mattering especially on the client side of RPC, where all APIs are based on types.Transaction. Users need to be able to use the same signing flows they already have. However, since blobs are only allowed in some places but not others, we will now need to add checks to avoid creating invalid blocks. I'm still trying to figure out the best place to do some of these. The way I have it currently is as follows: - In block validation (import), txs are verified not to have a blob sidecar. - In miner, we strip off the sidecar when committing the transaction into the block. - In TxPool validation, txs must have a sidecar to be added into the blobpool. - Note there is a special case here: when transactions are re-added because of a chain reorg, we cannot use the transactions gathered from the old chain blocks as-is, because they will be missing their blobs. This was previously handled by storing the blobs into the 'blobpool limbo'. The code has now changed to store the full transaction in the limbo instead, but it might be confusing for code readers why we're not simply adding the types.Transaction we already have. Code changes summary: - txpool.Transaction removed and all uses replaced by types.Transaction again - blobpool now stores types.Transaction instead of defining its own blobTx format for storage - the blobpool limbo now stores types.Transaction instead of storing only the blobs - checks to validate the presence/absence of the blob sidecar added in certain critical places
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Get(hash common.Hash) *types.Transaction
// Add should add the given transactions to the pool.
core/types: support for optional blob sidecar in BlobTx (#27841) This PR removes the newly added txpool.Transaction wrapper type, and instead adds a way of keeping the blob sidecar within types.Transaction. It's better this way because most code in go-ethereum does not care about blob transactions, and probably never will. This will start mattering especially on the client side of RPC, where all APIs are based on types.Transaction. Users need to be able to use the same signing flows they already have. However, since blobs are only allowed in some places but not others, we will now need to add checks to avoid creating invalid blocks. I'm still trying to figure out the best place to do some of these. The way I have it currently is as follows: - In block validation (import), txs are verified not to have a blob sidecar. - In miner, we strip off the sidecar when committing the transaction into the block. - In TxPool validation, txs must have a sidecar to be added into the blobpool. - Note there is a special case here: when transactions are re-added because of a chain reorg, we cannot use the transactions gathered from the old chain blocks as-is, because they will be missing their blobs. This was previously handled by storing the blobs into the 'blobpool limbo'. The code has now changed to store the full transaction in the limbo instead, but it might be confusing for code readers why we're not simply adding the types.Transaction we already have. Code changes summary: - txpool.Transaction removed and all uses replaced by types.Transaction again - blobpool now stores types.Transaction instead of defining its own blobTx format for storage - the blobpool limbo now stores types.Transaction instead of storing only the blobs - checks to validate the presence/absence of the blob sidecar added in certain critical places
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Add(txs []*types.Transaction, local bool, sync bool) []error
// Pending should return pending transactions.
// The slice should be modifiable by the caller.
Pending(filter txpool.PendingFilter) map[common.Address][]*txpool.LazyTransaction
// SubscribeTransactions subscribes to new transaction events. The subscriber
// can decide whether to receive notifications only for newly seen transactions
// or also for reorged out ones.
SubscribeTransactions(ch chan<- core.NewTxsEvent, reorgs bool) event.Subscription
}
// handlerConfig is the collection of initialization parameters to create a full
// node network handler.
type handlerConfig struct {
NodeID enode.ID // P2P node ID used for tx propagation topology
Database ethdb.Database // Database for direct sync insertions
Chain *core.BlockChain // Blockchain to serve data from
TxPool txPool // Transaction pool to propagate from
Network uint64 // Network identifier to advertise
Sync downloader.SyncMode // Whether to snap or full sync
BloomCache uint64 // Megabytes to alloc for snap sync bloom
EventMux *event.TypeMux // Legacy event mux, deprecate for `feed`
RequiredBlocks map[uint64]common.Hash // Hard coded map of required block hashes for sync challenges
}
type handler struct {
nodeID enode.ID
networkID uint64
forkFilter forkid.Filter // Fork ID filter, constant across the lifetime of the node
snapSync atomic.Bool // Flag whether snap sync is enabled (gets disabled if we already have blocks)
synced atomic.Bool // Flag whether we're considered synchronised (enables transaction processing)
database ethdb.Database
txpool txPool
chain *core.BlockChain
maxPeers int
downloader *downloader.Downloader
txFetcher *fetcher.TxFetcher
peers *peerSet
eventMux *event.TypeMux
txsCh chan core.NewTxsEvent
txsSub event.Subscription
requiredBlocks map[uint64]common.Hash
// channels for fetcher, syncer, txsyncLoop
quitSync chan struct{}
wg sync.WaitGroup
handlerStartCh chan struct{}
handlerDoneCh chan struct{}
}
// newHandler returns a handler for all Ethereum chain management protocol.
func newHandler(config *handlerConfig) (*handler, error) {
// Create the protocol manager with the base fields
if config.EventMux == nil {
config.EventMux = new(event.TypeMux) // Nicety initialization for tests
}
h := &handler{
nodeID: config.NodeID,
networkID: config.Network,
forkFilter: forkid.NewFilter(config.Chain),
eventMux: config.EventMux,
database: config.Database,
txpool: config.TxPool,
chain: config.Chain,
peers: newPeerSet(),
requiredBlocks: config.RequiredBlocks,
quitSync: make(chan struct{}),
handlerDoneCh: make(chan struct{}),
handlerStartCh: make(chan struct{}),
}
if config.Sync == downloader.FullSync {
// The database seems empty as the current block is the genesis. Yet the snap
// block is ahead, so snap sync was enabled for this node at a certain point.
// The scenarios where this can happen is
// * if the user manually (or via a bad block) rolled back a snap sync node
// below the sync point.
// * the last snap sync is not finished while user specifies a full sync this
// time. But we don't have any recent state for full sync.
// In these cases however it's safe to reenable snap sync.
fullBlock, snapBlock := h.chain.CurrentBlock(), h.chain.CurrentSnapBlock()
if fullBlock.Number.Uint64() == 0 && snapBlock.Number.Uint64() > 0 {
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h.snapSync.Store(true)
log.Warn("Switch sync mode from full sync to snap sync", "reason", "snap sync incomplete")
} else if !h.chain.HasState(fullBlock.Root) {
h.snapSync.Store(true)
log.Warn("Switch sync mode from full sync to snap sync", "reason", "head state missing")
}
} else {
head := h.chain.CurrentBlock()
if head.Number.Uint64() > 0 && h.chain.HasState(head.Root) {
// Print warning log if database is not empty to run snap sync.
log.Warn("Switch sync mode from snap sync to full sync", "reason", "snap sync complete")
} else {
// If snap sync was requested and our database is empty, grant it
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h.snapSync.Store(true)
log.Info("Enabled snap sync", "head", head.Number, "hash", head.Hash())
}
}
// If snap sync is requested but snapshots are disabled, fail loudly
if h.snapSync.Load() && config.Chain.Snapshots() == nil {
return nil, errors.New("snap sync not supported with snapshots disabled")
}
// Construct the downloader (long sync)
h.downloader = downloader.New(config.Database, h.eventMux, h.chain, nil, h.removePeer, h.enableSyncedFeatures)
fetchTx := func(peer string, hashes []common.Hash) error {
p := h.peers.peer(peer)
if p == nil {
return errors.New("unknown peer")
}
return p.RequestTxs(hashes)
}
core/types: support for optional blob sidecar in BlobTx (#27841) This PR removes the newly added txpool.Transaction wrapper type, and instead adds a way of keeping the blob sidecar within types.Transaction. It's better this way because most code in go-ethereum does not care about blob transactions, and probably never will. This will start mattering especially on the client side of RPC, where all APIs are based on types.Transaction. Users need to be able to use the same signing flows they already have. However, since blobs are only allowed in some places but not others, we will now need to add checks to avoid creating invalid blocks. I'm still trying to figure out the best place to do some of these. The way I have it currently is as follows: - In block validation (import), txs are verified not to have a blob sidecar. - In miner, we strip off the sidecar when committing the transaction into the block. - In TxPool validation, txs must have a sidecar to be added into the blobpool. - Note there is a special case here: when transactions are re-added because of a chain reorg, we cannot use the transactions gathered from the old chain blocks as-is, because they will be missing their blobs. This was previously handled by storing the blobs into the 'blobpool limbo'. The code has now changed to store the full transaction in the limbo instead, but it might be confusing for code readers why we're not simply adding the types.Transaction we already have. Code changes summary: - txpool.Transaction removed and all uses replaced by types.Transaction again - blobpool now stores types.Transaction instead of defining its own blobTx format for storage - the blobpool limbo now stores types.Transaction instead of storing only the blobs - checks to validate the presence/absence of the blob sidecar added in certain critical places
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addTxs := func(txs []*types.Transaction) []error {
return h.txpool.Add(txs, false, false)
}
h.txFetcher = fetcher.NewTxFetcher(h.txpool.Has, addTxs, fetchTx, h.removePeer)
return h, nil
}
// protoTracker tracks the number of active protocol handlers.
func (h *handler) protoTracker() {
defer h.wg.Done()
var active int
for {
select {
case <-h.handlerStartCh:
active++
case <-h.handlerDoneCh:
active--
case <-h.quitSync:
// Wait for all active handlers to finish.
for ; active > 0; active-- {
<-h.handlerDoneCh
}
return
}
}
}
// incHandlers signals to increment the number of active handlers if not
// quitting.
func (h *handler) incHandlers() bool {
select {
case h.handlerStartCh <- struct{}{}:
return true
case <-h.quitSync:
return false
}
}
// decHandlers signals to decrement the number of active handlers.
func (h *handler) decHandlers() {
h.handlerDoneCh <- struct{}{}
}
// runEthPeer registers an eth peer into the joint eth/snap peerset, adds it to
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// various subsystems and starts handling messages.
func (h *handler) runEthPeer(peer *eth.Peer, handler eth.Handler) error {
if !h.incHandlers() {
return p2p.DiscQuitting
}
defer h.decHandlers()
// If the peer has a `snap` extension, wait for it to connect so we can have
// a uniform initialization/teardown mechanism
snap, err := h.peers.waitSnapExtension(peer)
if err != nil {
peer.Log().Error("Snapshot extension barrier failed", "err", err)
return err
}
// Execute the Ethereum handshake
var (
genesis = h.chain.Genesis()
head = h.chain.CurrentHeader()
hash = head.Hash()
number = head.Number.Uint64()
td = h.chain.GetTd(hash, number)
)
forkID := forkid.NewID(h.chain.Config(), genesis, number, head.Time)
if err := peer.Handshake(h.networkID, td, hash, genesis.Hash(), forkID, h.forkFilter); err != nil {
peer.Log().Debug("Ethereum handshake failed", "err", err)
return err
}
reject := false // reserved peer slots
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if h.snapSync.Load() {
if snap == nil {
// If we are running snap-sync, we want to reserve roughly half the peer
// slots for peers supporting the snap protocol.
// The logic here is; we only allow up to 5 more non-snap peers than snap-peers.
if all, snp := h.peers.len(), h.peers.snapLen(); all-snp > snp+5 {
reject = true
}
}
}
// Ignore maxPeers if this is a trusted peer
if !peer.Peer.Info().Network.Trusted {
if reject || h.peers.len() >= h.maxPeers {
return p2p.DiscTooManyPeers
}
}
peer.Log().Debug("Ethereum peer connected", "name", peer.Name())
// Register the peer locally
if err := h.peers.registerPeer(peer, snap); err != nil {
peer.Log().Error("Ethereum peer registration failed", "err", err)
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return err
}
defer h.unregisterPeer(peer.ID())
p := h.peers.peer(peer.ID())
if p == nil {
return errors.New("peer dropped during handling")
}
// Register the peer in the downloader. If the downloader considers it banned, we disconnect
if err := h.downloader.RegisterPeer(peer.ID(), peer.Version(), peer); err != nil {
peer.Log().Error("Failed to register peer in eth syncer", "err", err)
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return err
}
if snap != nil {
if err := h.downloader.SnapSyncer.Register(snap); err != nil {
peer.Log().Error("Failed to register peer in snap syncer", "err", err)
return err
}
}
// Propagate existing transactions. new transactions appearing
// after this will be sent via broadcasts.
h.syncTransactions(peer)
// Create a notification channel for pending requests if the peer goes down
dead := make(chan struct{})
defer close(dead)
// If we have any explicit peer required block hashes, request them
for number, hash := range h.requiredBlocks {
resCh := make(chan *eth.Response)
req, err := peer.RequestHeadersByNumber(number, 1, 0, false, resCh)
if err != nil {
return err
}
go func(number uint64, hash common.Hash, req *eth.Request) {
// Ensure the request gets cancelled in case of error/drop
defer req.Close()
timeout := time.NewTimer(syncChallengeTimeout)
defer timeout.Stop()
select {
case res := <-resCh:
headers := ([]*types.Header)(*res.Res.(*eth.BlockHeadersRequest))
if len(headers) == 0 {
// Required blocks are allowed to be missing if the remote
// node is not yet synced
res.Done <- nil
return
}
// Validate the header and either drop the peer or continue
if len(headers) > 1 {
res.Done <- errors.New("too many headers in required block response")
return
}
if headers[0].Number.Uint64() != number || headers[0].Hash() != hash {
peer.Log().Info("Required block mismatch, dropping peer", "number", number, "hash", headers[0].Hash(), "want", hash)
res.Done <- errors.New("required block mismatch")
return
}
peer.Log().Debug("Peer required block verified", "number", number, "hash", hash)
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res.Done <- nil
case <-timeout.C:
peer.Log().Warn("Required block challenge timed out, dropping", "addr", peer.RemoteAddr(), "type", peer.Name())
h.removePeer(peer.ID())
}
}(number, hash, req)
}
// Handle incoming messages until the connection is torn down
return handler(peer)
}
// runSnapExtension registers a `snap` peer into the joint eth/snap peerset and
// starts handling inbound messages. As `snap` is only a satellite protocol to
// `eth`, all subsystem registrations and lifecycle management will be done by
// the main `eth` handler to prevent strange races.
func (h *handler) runSnapExtension(peer *snap.Peer, handler snap.Handler) error {
if !h.incHandlers() {
return p2p.DiscQuitting
}
defer h.decHandlers()
if err := h.peers.registerSnapExtension(peer); err != nil {
if metrics.Enabled {
if peer.Inbound() {
snap.IngressRegistrationErrorMeter.Mark(1)
} else {
snap.EgressRegistrationErrorMeter.Mark(1)
}
}
peer.Log().Debug("Snapshot extension registration failed", "err", err)
return err
}
return handler(peer)
}
// removePeer requests disconnection of a peer.
func (h *handler) removePeer(id string) {
peer := h.peers.peer(id)
if peer != nil {
peer.Peer.Disconnect(p2p.DiscUselessPeer)
}
}
// unregisterPeer removes a peer from the downloader, fetchers and main peer set.
func (h *handler) unregisterPeer(id string) {
// Create a custom logger to avoid printing the entire id
var logger log.Logger
if len(id) < 16 {
// Tests use short IDs, don't choke on them
logger = log.New("peer", id)
} else {
logger = log.New("peer", id[:8])
}
// Abort if the peer does not exist
peer := h.peers.peer(id)
if peer == nil {
logger.Error("Ethereum peer removal failed", "err", errPeerNotRegistered)
return
}
// Remove the `eth` peer if it exists
logger.Debug("Removing Ethereum peer", "snap", peer.snapExt != nil)
// Remove the `snap` extension if it exists
if peer.snapExt != nil {
h.downloader.SnapSyncer.Unregister(id)
}
h.downloader.UnregisterPeer(id)
h.txFetcher.Drop(id)
if err := h.peers.unregisterPeer(id); err != nil {
logger.Error("Ethereum peer removal failed", "err", err)
}
}
func (h *handler) Start(maxPeers int) {
h.maxPeers = maxPeers
// broadcast and announce transactions (only new ones, not resurrected ones)
h.wg.Add(1)
h.txsCh = make(chan core.NewTxsEvent, txChanSize)
h.txsSub = h.txpool.SubscribeTransactions(h.txsCh, false)
go h.txBroadcastLoop()
// start sync handlers
h.txFetcher.Start()
// start peer handler tracker
h.wg.Add(1)
go h.protoTracker()
}
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func (h *handler) Stop() {
h.txsSub.Unsubscribe() // quits txBroadcastLoop
h.txFetcher.Stop()
h.downloader.Terminate()
// Quit chainSync and txsync64.
// After this is done, no new peers will be accepted.
close(h.quitSync)
// Disconnect existing sessions.
// This also closes the gate for any new registrations on the peer set.
// sessions which are already established but not added to h.peers yet
// will exit when they try to register.
h.peers.close()
h.wg.Wait()
log.Info("Ethereum protocol stopped")
}
// BroadcastTransactions will propagate a batch of transactions
// - To a square root of all peers for non-blob transactions
// - And, separately, as announcements to all peers which are not known to
// already have the given transaction.
func (h *handler) BroadcastTransactions(txs types.Transactions) {
var (
blobTxs int // Number of blob transactions to announce only
largeTxs int // Number of large transactions to announce only
directCount int // Number of transactions sent directly to peers (duplicates included)
directPeers int // Number of peers that were sent transactions directly
annCount int // Number of transactions announced across all peers (duplicates included)
annPeers int // Number of peers announced about transactions
txset = make(map[*ethPeer][]common.Hash) // Set peer->hash to transfer directly
annos = make(map[*ethPeer][]common.Hash) // Set peer->hash to announce
)
// Broadcast transactions to a batch of peers not knowing about it
direct := big.NewInt(int64(math.Sqrt(float64(h.peers.len())))) // Approximate number of peers to broadcast to
if direct.BitLen() == 0 {
direct = big.NewInt(1)
}
total := new(big.Int).Exp(direct, big.NewInt(2), nil) // Stabilise total peer count a bit based on sqrt peers
var (
signer = types.LatestSignerForChainID(h.chain.Config().ChainID) // Don't care about chain status, we just need *a* sender
hasher = sha3.NewLegacyKeccak256().(crypto.KeccakState)
hash = make([]byte, 32)
)
for _, tx := range txs {
var maybeDirect bool
switch {
case tx.Type() == types.BlobTxType:
blobTxs++
case tx.Size() > txMaxBroadcastSize:
largeTxs++
default:
maybeDirect = true
}
// Send the transaction (if it's small enough) directly to a subset of
// the peers that have not received it yet, ensuring that the flow of
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// transactions is grouped by account to (try and) avoid nonce gaps.
//
// To do this, we hash the local enode IW with together with a peer's
// enode ID together with the transaction sender and broadcast if
// `sha(self, peer, sender) mod peers < sqrt(peers)`.
for _, peer := range h.peers.peersWithoutTransaction(tx.Hash()) {
var broadcast bool
if maybeDirect {
hasher.Reset()
hasher.Write(h.nodeID.Bytes())
hasher.Write(peer.Node().ID().Bytes())
from, _ := types.Sender(signer, tx) // Ignore error, we only use the addr as a propagation target splitter
hasher.Write(from.Bytes())
hasher.Read(hash)
if new(big.Int).Mod(new(big.Int).SetBytes(hash), total).Cmp(direct) < 0 {
broadcast = true
}
}
if broadcast {
txset[peer] = append(txset[peer], tx.Hash())
} else {
annos[peer] = append(annos[peer], tx.Hash())
}
}
}
for peer, hashes := range txset {
directPeers++
directCount += len(hashes)
peer.AsyncSendTransactions(hashes)
}
for peer, hashes := range annos {
annPeers++
annCount += len(hashes)
peer.AsyncSendPooledTransactionHashes(hashes)
}
log.Debug("Distributed transactions", "plaintxs", len(txs)-blobTxs-largeTxs, "blobtxs", blobTxs, "largetxs", largeTxs,
"bcastpeers", directPeers, "bcastcount", directCount, "annpeers", annPeers, "anncount", annCount)
}
// txBroadcastLoop announces new transactions to connected peers.
func (h *handler) txBroadcastLoop() {
defer h.wg.Done()
for {
select {
case event := <-h.txsCh:
h.BroadcastTransactions(event.Txs)
case <-h.txsSub.Err():
return
}
}
}
// enableSyncedFeatures enables the post-sync functionalities when the initial
// sync is finished.
func (h *handler) enableSyncedFeatures() {
// Mark the local node as synced.
h.synced.Store(true)
// If we were running snap sync and it finished, disable doing another
// round on next sync cycle
if h.snapSync.Load() {
log.Info("Snap sync complete, auto disabling")
h.snapSync.Store(false)
}
if h.chain.TrieDB().Scheme() == rawdb.PathScheme {
h.chain.TrieDB().SetBufferSize(pathdb.DefaultBufferSize)
}
}