mirror of
https://gitlab.com/pulsechaincom/erigon-pulse.git
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cf799157cc
* Jumpdest skipping optimisation * Fix formatting * Move skipAnalysis into vmConfig, introduce tracing ability * Improve detection logging * Added release instructions * Fix lint
351 lines
11 KiB
Go
351 lines
11 KiB
Go
// Copyright 2015 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 eth
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import (
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"math/rand"
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"sync/atomic"
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"time"
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"github.com/ledgerwatch/turbo-geth/common"
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"github.com/ledgerwatch/turbo-geth/core"
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"github.com/ledgerwatch/turbo-geth/core/rawdb"
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"github.com/ledgerwatch/turbo-geth/core/types"
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"github.com/ledgerwatch/turbo-geth/eth/downloader"
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"github.com/ledgerwatch/turbo-geth/log"
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"github.com/ledgerwatch/turbo-geth/p2p/enode"
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)
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const (
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forceSyncCycle = 10 * time.Second // Time interval to force syncs, even if few peers are available
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defaultMinSyncPeers = 5 // Amount of peers desired to start syncing
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// This is the target size for the packs of transactions sent by txsyncLoop64.
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// A pack can get larger than this if a single transactions exceeds this size.
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txsyncPackSize = 100 * 1024
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)
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type txsync struct {
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p *peer
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txs []*types.Transaction
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}
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// syncTransactions starts sending all currently pending transactions to the given peer.
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func (pm *ProtocolManager) syncTransactions(p *peer) {
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// Assemble the set of transaction to broadcast or announce to the remote
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// peer. Fun fact, this is quite an expensive operation as it needs to sort
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// the transactions if the sorting is not cached yet. However, with a random
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// order, insertions could overflow the non-executable queues and get dropped.
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//
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// TODO(karalabe): Figure out if we could get away with random order somehow
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var txs types.Transactions
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pending, _ := pm.txpool.Pending()
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for _, batch := range pending {
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txs = append(txs, batch...)
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}
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if len(txs) == 0 {
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return
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}
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// The eth/65 protocol introduces proper transaction announcements, so instead
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// of dripping transactions across multiple peers, just send the entire list as
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// an announcement and let the remote side decide what they need (likely nothing).
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if p.version >= eth65 {
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hashes := make([]common.Hash, len(txs))
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for i, tx := range txs {
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hashes[i] = tx.Hash()
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}
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p.AsyncSendPooledTransactionHashes(hashes)
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return
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}
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// Out of luck, peer is running legacy protocols, drop the txs over
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select {
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case pm.txsyncCh <- &txsync{p: p, txs: txs}:
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case <-pm.quitSync:
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}
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}
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// txsyncLoop64 takes care of the initial transaction sync for each new
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// connection. When a new peer appears, we relay all currently pending
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// transactions. In order to minimise egress bandwidth usage, we send
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// the transactions in small packs to one peer at a time.
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func (pm *ProtocolManager) txsyncLoop64() {
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defer pm.wg.Done()
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var (
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pending = make(map[enode.ID]*txsync)
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sending = false // whether a send is active
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pack = new(txsync) // the pack that is being sent
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done = make(chan error, 1) // result of the send
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)
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// send starts a sending a pack of transactions from the sync.
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send := func(s *txsync) {
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if s.p.version >= eth65 {
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panic("initial transaction syncer running on eth/65+")
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}
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// Fill pack with transactions up to the target size.
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size := common.StorageSize(0)
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pack.p = s.p
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pack.txs = pack.txs[:0]
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for i := 0; i < len(s.txs) && size < txsyncPackSize; i++ {
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pack.txs = append(pack.txs, s.txs[i])
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size += s.txs[i].Size()
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}
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// Remove the transactions that will be sent.
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s.txs = s.txs[:copy(s.txs, s.txs[len(pack.txs):])]
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if len(s.txs) == 0 {
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delete(pending, s.p.ID())
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}
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// Send the pack in the background.
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s.p.Log().Trace("Sending batch of transactions", "count", len(pack.txs), "bytes", size)
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sending = true
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go func() { done <- pack.p.SendTransactions64(pack.txs) }()
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}
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// pick chooses the next pending sync.
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pick := func() *txsync {
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if len(pending) == 0 {
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return nil
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}
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n := rand.Intn(len(pending)) + 1
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for _, s := range pending {
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if n--; n == 0 {
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return s
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}
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}
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return nil
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}
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for {
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select {
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case s := <-pm.txsyncCh:
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pending[s.p.ID()] = s
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if !sending {
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send(s)
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}
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case err := <-done:
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sending = false
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// Stop tracking peers that cause send failures.
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if err != nil {
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pack.p.Log().Debug("Transaction send failed", "err", err)
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delete(pending, pack.p.ID())
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}
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// Schedule the next send.
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if s := pick(); s != nil {
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send(s)
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}
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case <-pm.quitSync:
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return
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}
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}
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}
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// chainSyncer coordinates blockchain sync components.
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type chainSyncer struct {
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pm *ProtocolManager
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force *time.Timer
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forced bool // true when force timer fired
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peerEventCh chan struct{}
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doneCh chan error // non-nil when sync is running
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}
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// chainSyncOp is a scheduled sync operation.
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type chainSyncOp struct {
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mode downloader.SyncMode
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peer *peer
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number uint64
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head common.Hash
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}
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// newChainSyncer creates a chainSyncer.
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func newChainSyncer(pm *ProtocolManager) *chainSyncer {
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return &chainSyncer{
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pm: pm,
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peerEventCh: make(chan struct{}, 1),
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}
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}
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// handlePeerEvent notifies the syncer about a change in the peer set.
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// This is called for new peers and every time a peer announces a new
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// chain head.
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func (cs *chainSyncer) handlePeerEvent(p *peer) bool {
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select {
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case cs.peerEventCh <- struct{}{}:
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return true
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case <-cs.pm.quitSync:
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return false
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default:
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return false
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}
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}
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// loop runs in its own goroutine and launches the sync when necessary.
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func (cs *chainSyncer) loop() {
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defer cs.pm.wg.Done()
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cs.pm.blockFetcher.Start()
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defer cs.pm.blockFetcher.Stop()
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defer func() {
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if cs.pm.txFetcher != nil {
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cs.pm.txFetcher.Stop()
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}
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}()
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// The force timer lowers the peer count threshold down to one when it fires.
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// This ensures we'll always start sync even if there aren't enough peers.
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cs.force = time.NewTimer(forceSyncCycle)
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defer cs.force.Stop()
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for {
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if op := cs.nextSyncOp(); op != nil {
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cs.startSync(op)
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}
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select {
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case <-cs.peerEventCh:
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// Peer information changed, recheck.
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case <-cs.doneCh:
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cs.doneCh = nil
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cs.force.Reset(forceSyncCycle)
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cs.forced = false
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case <-cs.force.C:
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cs.forced = true
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case <-cs.pm.quitSync:
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// Disable all insertion on the blockchain. This needs to happen before
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// terminating the downloader because the downloader waits for blockchain
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// inserts, and these can take a long time to finish.
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cs.pm.blockchain.StopInsert()
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cs.pm.downloader.Terminate()
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if cs.doneCh != nil {
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// Wait for the current sync to end.
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<-cs.doneCh
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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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// nextSyncOp determines whether sync is required at this time.
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func (cs *chainSyncer) nextSyncOp() *chainSyncOp {
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if cs.doneCh != nil {
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return nil // Sync already running.
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}
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// Ensure we're at minimum peer count.
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minPeers := defaultMinSyncPeers
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if cs.forced {
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minPeers = 1
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} else if minPeers > cs.pm.maxPeers {
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minPeers = cs.pm.maxPeers
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}
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if cs.pm.peers.Len() < minPeers {
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return nil
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}
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// We have enough peers, check TD.
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peer := cs.pm.peers.BestPeer()
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if peer == nil {
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return nil
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}
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mode, ourNumber := cs.modeAndLocalHead()
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op := peerToSyncOp(mode, peer)
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if op.number <= ourNumber {
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return nil // We're in sync.
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}
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return op
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}
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func peerToSyncOp(mode downloader.SyncMode, p *peer) *chainSyncOp {
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peerHead, peerNumber := p.Head()
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return &chainSyncOp{mode: mode, peer: p, number: peerNumber, head: peerHead}
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}
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func (cs *chainSyncer) modeAndLocalHead() (downloader.SyncMode, uint64) {
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headHash := rawdb.ReadHeadHeaderHash(cs.pm.chaindb)
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headNumber := rawdb.ReadHeaderNumber(cs.pm.chaindb, headHash)
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return cs.pm.mode, *headNumber
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}
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// startSync launches doSync in a new goroutine.
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func (cs *chainSyncer) startSync(op *chainSyncOp) {
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cs.doneCh = make(chan error, 1)
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go func() { cs.doneCh <- cs.pm.doSync(op) }()
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}
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// doSync synchronizes the local blockchain with a remote peer.
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func (pm *ProtocolManager) doSync(op *chainSyncOp) error {
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/*
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if op.mode == downloader.FastSync {
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Turbo-Geth doesn't support fast sync mode.
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// Before launch the fast sync, we have to ensure user uses the same
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// txlookup limit.
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// The main concern here is: during the fast sync Geth won't index the
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// block(generate tx indices) before the HEAD-limit. But if user changes
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// the limit in the next fast sync(e.g. user kill Geth manually and
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// restart) then it will be hard for Geth to figure out the oldest block
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// has been indexed. So here for the user-experience wise, it's non-optimal
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// that user can't change limit during the fast sync. If changed, Geth
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// will just blindly use the original one.
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limit := pm.blockchain.TxLookupLimit()
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if stored := rawdb.ReadFastTxLookupLimit(pm.chaindb); stored == nil {
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rawdb.WriteFastTxLookupLimit(pm.chaindb, limit)
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} else if *stored != limit {
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pm.blockchain.SetTxLookupLimit(*stored)
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log.Warn("Update txLookup limit", "provided", limit, "updated", *stored)
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}
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}
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*/
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// Run the sync cycle, and disable fast sync if we're past the pivot block
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txPool, _ := pm.txpool.(*core.TxPool)
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err := pm.downloader.Synchronise(op.peer.id, op.head, op.number, op.mode, txPool, func() error { return pm.StartTxPool() })
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if err != nil {
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return err
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}
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if atomic.LoadUint32(&pm.fastSync) == 1 {
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log.Info("Fast sync complete, auto disabling")
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atomic.StoreUint32(&pm.fastSync, 0)
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}
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// If we've successfully finished a sync cycle and passed any required checkpoint,
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// enable accepting transactions from the network.
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headHash := rawdb.ReadHeadHeaderHash(pm.chaindb)
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headNumber := rawdb.ReadHeaderNumber(pm.chaindb, headHash)
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head := rawdb.ReadBlock(pm.chaindb, headHash, *headNumber)
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if *headNumber >= pm.checkpointNumber && head != nil {
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// Checkpoint passed, sanity check the timestamp to have a fallback mechanism
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// for non-checkpointed (number = 0) private networks.
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if head.Time() >= uint64(time.Now().AddDate(0, -1, 0).Unix()) {
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atomic.StoreUint32(&pm.acceptTxs, 1)
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}
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}
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if *headNumber > 0 && head != nil {
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// We've completed a sync cycle, notify all peers of new state. This path is
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// essential in star-topology networks where a gateway node needs to notify
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// all its out-of-date peers of the availability of a new block. This failure
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// scenario will most often crop up in private and hackathon networks with
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// degenerate connectivity, but it should be healthy for the mainnet too to
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// more reliably update peers or the local TD state.
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pm.BroadcastBlock(head, false)
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}
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return nil
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}
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