forked from cerc-io/plugeth
290 lines
8.5 KiB
Go
290 lines
8.5 KiB
Go
package eth
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import (
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"math/rand"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/logger"
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"github.com/ethereum/go-ethereum/logger/glog"
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"github.com/ethereum/go-ethereum/p2p/discover"
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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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notifyCheckCycle = 100 * time.Millisecond // Time interval to allow hash notifies to fulfill before hard fetching
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notifyArriveTimeout = 500 * time.Millisecond // Time allowance before an announced block is explicitly requested
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notifyFetchTimeout = 5 * time.Second // Maximum alloted time to return an explicitly requested block
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minDesiredPeerCount = 5 // Amount of peers desired to start syncing
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// This is the target size for the packs of transactions sent by txsyncLoop.
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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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// blockAnnounce is the hash notification of the availability of a new block in
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// the network.
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type blockAnnounce struct {
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hash common.Hash
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peer *peer
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time time.Time
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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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txs := pm.txpool.GetTransactions()
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if len(txs) == 0 {
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return
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}
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select {
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case pm.txsyncCh <- &txsync{p, txs}:
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case <-pm.quitSync:
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}
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}
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// txsyncLoop 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) txsyncLoop() {
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var (
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pending = make(map[discover.NodeID]*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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// 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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glog.V(logger.Detail).Infof("%v: sending %d transactions (%v)", s.p.Peer, len(pack.txs), size)
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sending = true
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go func() { done <- pack.p.sendTransactions(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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glog.V(logger.Debug).Infof("%v: tx send failed: %v", pack.p.Peer, 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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// fetcher is responsible for collecting hash notifications, and periodically
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// checking all unknown ones and individually fetching them.
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func (pm *ProtocolManager) fetcher() {
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announces := make(map[common.Hash][]*blockAnnounce)
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request := make(map[*peer][]common.Hash)
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pending := make(map[common.Hash]*blockAnnounce)
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cycle := time.Tick(notifyCheckCycle)
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done := make(chan common.Hash)
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// Iterate the block fetching until a quit is requested
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for {
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select {
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case notifications := <-pm.newHashCh:
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// A batch of hashes the notified, schedule them for retrieval
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glog.V(logger.Debug).Infof("Scheduling %d hash announcements from %s", len(notifications), notifications[0].peer.id)
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for _, announce := range notifications {
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// Skip if it's already pending fetch
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if _, ok := pending[announce.hash]; ok {
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continue
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}
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// Otherwise queue up the peer as a potential source
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announces[announce.hash] = append(announces[announce.hash], announce)
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}
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case hash := <-done:
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// A pending import finished, remove all traces
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delete(pending, hash)
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case <-cycle:
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// Clean up any expired block fetches
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for hash, announce := range pending {
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if time.Since(announce.time) > notifyFetchTimeout {
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delete(pending, hash)
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}
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}
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// Check if any notified blocks failed to arrive
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for hash, all := range announces {
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if time.Since(all[0].time) > notifyArriveTimeout {
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announce := all[rand.Intn(len(all))]
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if !pm.chainman.HasBlock(hash) {
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request[announce.peer] = append(request[announce.peer], hash)
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pending[hash] = announce
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}
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delete(announces, hash)
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}
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}
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if len(request) == 0 {
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break
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}
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// Send out all block requests
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for peer, hashes := range request {
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glog.V(logger.Debug).Infof("Explicitly fetching %d blocks from %s", len(hashes), peer.id)
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go peer.requestBlocks(hashes)
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}
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request = make(map[*peer][]common.Hash)
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case filter := <-pm.newBlockCh:
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// Blocks arrived, extract any explicit fetches, return all else
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var blocks types.Blocks
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select {
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case blocks = <-filter:
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case <-pm.quitSync:
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return
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}
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explicit, download := []*types.Block{}, []*types.Block{}
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for _, block := range blocks {
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hash := block.Hash()
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// Filter explicitly requested blocks from hash announcements
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if _, ok := pending[hash]; ok {
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// Discard if already imported by other means
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if !pm.chainman.HasBlock(hash) {
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explicit = append(explicit, block)
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} else {
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delete(pending, hash)
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}
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} else {
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download = append(download, block)
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}
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}
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select {
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case filter <- download:
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case <-pm.quitSync:
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return
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}
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// Create a closure with the retrieved blocks and origin peers
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peers := make([]*peer, 0, len(explicit))
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blocks = make([]*types.Block, 0, len(explicit))
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for _, block := range explicit {
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hash := block.Hash()
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if announce := pending[hash]; announce != nil {
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// Drop the block if it surely cannot fit
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if pm.chainman.HasBlock(hash) || !pm.chainman.HasBlock(block.ParentHash()) {
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// delete(pending, hash) // if we drop, it will re-fetch it, wait for timeout?
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continue
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}
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// Otherwise accumulate for import
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peers = append(peers, announce.peer)
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blocks = append(blocks, block)
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}
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}
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// If any explicit fetches were replied to, import them
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if count := len(blocks); count > 0 {
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glog.V(logger.Debug).Infof("Importing %d explicitly fetched blocks", len(blocks))
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go func() {
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// Make sure all hashes are cleaned up
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for _, block := range blocks {
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hash := block.Hash()
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defer func() { done <- hash }()
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}
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// Try and actually import the blocks
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for i := 0; i < len(blocks); i++ {
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if err := pm.importBlock(peers[i], blocks[i], nil); err != nil {
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glog.V(logger.Detail).Infof("Failed to import explicitly fetched block: %v", err)
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return
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}
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}
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}()
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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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// syncer is responsible for periodically synchronising with the network, both
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// downloading hashes and blocks as well as retrieving cached ones.
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func (pm *ProtocolManager) syncer() {
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// Abort any pending syncs if we terminate
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defer pm.downloader.Terminate()
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forceSync := time.Tick(forceSyncCycle)
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for {
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select {
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case <-pm.newPeerCh:
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// Make sure we have peers to select from, then sync
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if pm.peers.Len() < minDesiredPeerCount {
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break
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}
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go pm.synchronise(pm.peers.BestPeer())
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case <-forceSync:
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// Force a sync even if not enough peers are present
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go pm.synchronise(pm.peers.BestPeer())
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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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// synchronise tries to sync up our local block chain with a remote peer, both
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// adding various sanity checks as well as wrapping it with various log entries.
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func (pm *ProtocolManager) synchronise(peer *peer) {
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// Short circuit if no peers are available
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if peer == nil {
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return
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}
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// Make sure the peer's TD is higher than our own. If not drop.
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if peer.Td().Cmp(pm.chainman.Td()) <= 0 {
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return
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}
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// Otherwise try to sync with the downloader
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pm.downloader.Synchronise(peer.id, peer.Head())
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}
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