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444 lines
14 KiB
444 lines
14 KiB
package node
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import (
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"fmt"
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"net"
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/pkg/errors"
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"github.com/harmony-one/harmony/api/service/syncing"
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"github.com/harmony-one/harmony/api/service/syncing/downloader"
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downloader_pb "github.com/harmony-one/harmony/api/service/syncing/downloader/proto"
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"github.com/harmony-one/harmony/core"
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"github.com/harmony-one/harmony/core/types"
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nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/node/worker"
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"github.com/harmony-one/harmony/p2p"
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)
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// Constants related to doing syncing.
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const (
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lastMileThreshold = 4
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inSyncThreshold = 1 // unit in number of block
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SyncFrequency = 10 // unit in second
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BeaconSyncFrequency = 5 // unit in second
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MinConnectedPeers = 10 // minimum number of peers connected to in node syncing
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)
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// getNeighborPeers is a helper function to return list of peers
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// based on different neightbor map
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func getNeighborPeers(neighbor *sync.Map) []p2p.Peer {
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tmp := []p2p.Peer{}
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neighbor.Range(func(k, v interface{}) bool {
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p := v.(p2p.Peer)
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t := p.Port
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p.Port = syncing.GetSyncingPort(t)
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tmp = append(tmp, p)
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return true
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})
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return tmp
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}
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// DoSyncWithoutConsensus gets sync-ed to blockchain without joining consensus
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func (node *Node) DoSyncWithoutConsensus() {
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go node.DoSyncing(node.Blockchain(), node.Worker, false) //Don't join consensus
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}
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// IsSameHeight tells whether node is at same bc height as a peer
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func (node *Node) IsSameHeight() (uint64, bool) {
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if node.stateSync == nil {
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node.stateSync = syncing.CreateStateSync(node.SelfPeer.IP, node.SelfPeer.Port, node.GetSyncID())
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}
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return node.stateSync.IsSameBlockchainHeight(node.Blockchain())
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}
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// SyncingPeerProvider is an interface for getting the peers in the given shard.
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type SyncingPeerProvider interface {
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SyncingPeers(shardID uint32) (peers []p2p.Peer, err error)
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}
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// LegacySyncingPeerProvider uses neighbor lists stored in a Node to serve
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// syncing peer list query.
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type LegacySyncingPeerProvider struct {
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node *Node
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shardID func() uint32
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}
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// NewLegacySyncingPeerProvider creates and returns a new node-based syncing
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// peer provider.
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func NewLegacySyncingPeerProvider(node *Node) *LegacySyncingPeerProvider {
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var shardID func() uint32
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if node.shardChains != nil {
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shardID = node.Blockchain().ShardID
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}
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return &LegacySyncingPeerProvider{node: node, shardID: shardID}
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}
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// SyncingPeers returns peers stored in neighbor maps in the node structure.
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func (p *LegacySyncingPeerProvider) SyncingPeers(shardID uint32) (peers []p2p.Peer, err error) {
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switch shardID {
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case p.shardID():
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peers = getNeighborPeers(&p.node.Neighbors)
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case 0:
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peers = getNeighborPeers(&p.node.BeaconNeighbors)
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default:
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return nil, errors.Errorf("unsupported shard ID %v", shardID)
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}
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return peers, nil
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}
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// DNSSyncingPeerProvider uses the given DNS zone to resolve syncing peers.
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type DNSSyncingPeerProvider struct {
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zone, port string
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lookupHost func(name string) (addrs []string, err error)
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}
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// NewDNSSyncingPeerProvider returns a provider that uses given DNS name and
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// port number to resolve syncing peers.
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func NewDNSSyncingPeerProvider(zone, port string) *DNSSyncingPeerProvider {
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return &DNSSyncingPeerProvider{
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zone: zone,
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port: port,
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lookupHost: net.LookupHost,
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}
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}
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// SyncingPeers resolves DNS name into peers and returns them.
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func (p *DNSSyncingPeerProvider) SyncingPeers(shardID uint32) (peers []p2p.Peer, err error) {
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dns := fmt.Sprintf("s%d.%s", shardID, p.zone)
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addrs, err := p.lookupHost(dns)
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if err != nil {
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return nil, errors.Wrapf(err,
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"[SYNC] cannot find peers using DNS name %#v", dns)
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}
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for _, addr := range addrs {
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peers = append(peers, p2p.Peer{IP: addr, Port: p.port})
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}
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return peers, nil
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}
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// LocalSyncingPeerProvider uses localnet deployment convention to synthesize
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// syncing peers.
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type LocalSyncingPeerProvider struct {
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basePort, selfPort uint16
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numShards, shardSize uint32
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}
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// NewLocalSyncingPeerProvider returns a provider that synthesizes syncing
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// peers given the network configuration
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func NewLocalSyncingPeerProvider(
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basePort, selfPort uint16, numShards, shardSize uint32,
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) *LocalSyncingPeerProvider {
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return &LocalSyncingPeerProvider{
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basePort: basePort,
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selfPort: selfPort,
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numShards: numShards,
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shardSize: shardSize,
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}
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}
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// SyncingPeers returns local syncing peers using the sharding configuration.
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func (p *LocalSyncingPeerProvider) SyncingPeers(shardID uint32) (peers []p2p.Peer, err error) {
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if shardID >= p.numShards {
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return nil, errors.Errorf(
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"shard ID %d out of range 0..%d", shardID, p.numShards-1)
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}
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firstPort := uint32(p.basePort) + shardID
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endPort := uint32(p.basePort) + p.numShards*p.shardSize
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for port := firstPort; port < endPort; port += p.numShards {
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if port == uint32(p.selfPort) {
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continue // do not sync from self
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}
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peers = append(peers, p2p.Peer{IP: "127.0.0.1", Port: fmt.Sprint(port)})
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}
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return peers, nil
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}
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// DoBeaconSyncing update received beaconchain blocks and downloads missing beacon chain blocks
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func (node *Node) DoBeaconSyncing() {
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go func(node *Node) {
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for {
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select {
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case beaconBlock := <-node.BeaconBlockChannel:
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node.beaconSync.AddLastMileBlock(beaconBlock)
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}
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}
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}(node)
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for {
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if node.beaconSync == nil {
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utils.Logger().Info().Msg("initializing beacon sync")
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node.beaconSync = syncing.CreateStateSync(node.SelfPeer.IP, node.SelfPeer.Port, node.GetSyncID())
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}
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if node.beaconSync.GetActivePeerNumber() == 0 {
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utils.Logger().Info().Msg("no peers; bootstrapping beacon sync config")
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peers, err := node.SyncingPeerProvider.SyncingPeers(0)
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if err != nil {
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utils.Logger().Warn().
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Err(err).
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Msg("cannot retrieve beacon syncing peers")
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continue
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}
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if err := node.beaconSync.CreateSyncConfig(peers, true); err != nil {
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utils.Logger().Warn().Err(err).Msg("cannot create beacon sync config")
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continue
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}
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}
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node.beaconSync.SyncLoop(node.Beaconchain(), node.BeaconWorker, false, true)
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time.Sleep(BeaconSyncFrequency * time.Second)
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}
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}
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// DoSyncing keep the node in sync with other peers, willJoinConsensus means the node will try to join consensus after catch up
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func (node *Node) DoSyncing(bc *core.BlockChain, worker *worker.Worker, willJoinConsensus bool) {
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SyncingLoop:
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for {
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if node.stateSync == nil {
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node.stateSync = syncing.CreateStateSync(node.SelfPeer.IP, node.SelfPeer.Port, node.GetSyncID())
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utils.Logger().Debug().Msg("[SYNC] initialized state sync")
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}
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if node.stateSync.GetActivePeerNumber() < MinConnectedPeers {
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shardID := bc.ShardID()
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peers, err := node.SyncingPeerProvider.SyncingPeers(shardID)
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if err != nil {
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utils.Logger().Warn().
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Err(err).
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Uint32("shard_id", shardID).
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Msg("cannot retrieve syncing peers")
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continue SyncingLoop
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}
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if err := node.stateSync.CreateSyncConfig(peers, false); err != nil {
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utils.Logger().Warn().
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Err(err).
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Interface("peers", peers).
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Msg("[SYNC] create peers error")
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continue SyncingLoop
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}
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utils.Logger().Debug().Int("len", node.stateSync.GetActivePeerNumber()).Msg("[SYNC] Get Active Peers")
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}
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if node.stateSync.IsOutOfSync(bc) {
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node.stateMutex.Lock()
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node.State = NodeNotInSync
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node.stateMutex.Unlock()
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if willJoinConsensus {
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node.Consensus.BlocksNotSynchronized()
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}
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node.stateSync.SyncLoop(bc, worker, willJoinConsensus, false)
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if willJoinConsensus {
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node.stateMutex.Lock()
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node.State = NodeReadyForConsensus
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node.stateMutex.Unlock()
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node.Consensus.BlocksSynchronized()
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}
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}
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node.stateMutex.Lock()
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node.State = NodeReadyForConsensus
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node.stateMutex.Unlock()
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time.Sleep(SyncFrequency * time.Second)
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}
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}
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// SupportBeaconSyncing sync with beacon chain for archival node in beacon chan or non-beacon node
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func (node *Node) SupportBeaconSyncing() {
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go node.DoBeaconSyncing()
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}
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// SupportSyncing keeps sleeping until it's doing consensus or it's a leader.
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func (node *Node) SupportSyncing() {
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node.InitSyncingServer()
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node.StartSyncingServer()
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joinConsensus := false
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// Check if the current node is explorer node.
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switch node.NodeConfig.Role() {
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case nodeconfig.Validator:
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joinConsensus = true
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}
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// Send new block to unsync node if the current node is not explorer node.
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// TODO: leo this pushing logic has to be removed
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if joinConsensus {
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go node.SendNewBlockToUnsync()
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}
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go node.DoSyncing(node.Blockchain(), node.Worker, joinConsensus)
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}
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// InitSyncingServer starts downloader server.
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func (node *Node) InitSyncingServer() {
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if node.downloaderServer == nil {
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node.downloaderServer = downloader.NewServer(node)
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}
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}
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// StartSyncingServer starts syncing server.
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func (node *Node) StartSyncingServer() {
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utils.Logger().Info().Msg("[SYNC] support_syncing: StartSyncingServer")
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if node.downloaderServer.GrpcServer == nil {
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node.downloaderServer.Start(node.SelfPeer.IP, syncing.GetSyncingPort(node.SelfPeer.Port))
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}
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}
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// SendNewBlockToUnsync send latest verified block to unsync, registered nodes
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func (node *Node) SendNewBlockToUnsync() {
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for {
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block := <-node.Consensus.VerifiedNewBlock
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blockHash, err := rlp.EncodeToBytes(block)
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if err != nil {
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utils.Logger().Warn().Msg("[SYNC] unable to encode block to hashes")
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continue
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}
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node.stateMutex.Lock()
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for peerID, config := range node.peerRegistrationRecord {
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elapseTime := time.Now().UnixNano() - config.timestamp
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if elapseTime > broadcastTimeout {
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utils.Logger().Warn().Str("peerID", peerID).Msg("[SYNC] SendNewBlockToUnsync to peer timeout")
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node.peerRegistrationRecord[peerID].client.Close()
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delete(node.peerRegistrationRecord, peerID)
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continue
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}
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response, err := config.client.PushNewBlock(node.GetSyncID(), blockHash, false)
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// close the connection if cannot push new block to unsync node
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if err != nil {
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node.peerRegistrationRecord[peerID].client.Close()
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delete(node.peerRegistrationRecord, peerID)
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}
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if response != nil && response.Type == downloader_pb.DownloaderResponse_INSYNC {
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node.peerRegistrationRecord[peerID].client.Close()
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delete(node.peerRegistrationRecord, peerID)
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}
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}
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node.stateMutex.Unlock()
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}
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}
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// CalculateResponse implements DownloadInterface on Node object.
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func (node *Node) CalculateResponse(request *downloader_pb.DownloaderRequest, incomingPeer string) (*downloader_pb.DownloaderResponse, error) {
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response := &downloader_pb.DownloaderResponse{}
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switch request.Type {
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case downloader_pb.DownloaderRequest_HEADER:
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if request.BlockHash == nil {
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return response, fmt.Errorf("[SYNC] GetBlockHashes Request BlockHash is NIL")
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}
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if request.Size == 0 || request.Size > syncing.BatchSize {
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return response, fmt.Errorf("[SYNC] GetBlockHashes Request contains invalid Size %v", request.Size)
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}
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size := uint64(request.Size)
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var startHashHeader common.Hash
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copy(startHashHeader[:], request.BlockHash[:])
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startHeader := node.Blockchain().GetHeaderByHash(startHashHeader)
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if startHeader == nil {
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return response, fmt.Errorf("[SYNC] GetBlockHashes Request cannot find startHash %s", startHashHeader.Hex())
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}
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startHeight := startHeader.Number().Uint64()
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endHeight := node.Blockchain().CurrentBlock().NumberU64()
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if startHeight >= endHeight {
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utils.Logger().
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Debug().
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Uint64("myHeight", endHeight).
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Uint64("requestHeight", startHeight).
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Str("incomingIP", request.Ip).
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Str("incomingPort", request.Port).
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Str("incomingPeer", incomingPeer).
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Msg("[SYNC] GetBlockHashes Request: I am not higher than requested node")
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return response, nil
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}
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for blockNum := startHeight; blockNum <= startHeight+size; blockNum++ {
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header := node.Blockchain().GetHeaderByNumber(blockNum)
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if header == nil {
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break
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}
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blockHash := header.Hash()
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response.Payload = append(response.Payload, blockHash[:])
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}
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case downloader_pb.DownloaderRequest_BLOCK:
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for _, bytes := range request.Hashes {
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var hash common.Hash
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hash.SetBytes(bytes)
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block := node.Blockchain().GetBlockByHash(hash)
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if block == nil {
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continue
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}
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encodedBlock, err := rlp.EncodeToBytes(block)
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if err == nil {
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response.Payload = append(response.Payload, encodedBlock)
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}
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}
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case downloader_pb.DownloaderRequest_BLOCKHEIGHT:
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response.BlockHeight = node.Blockchain().CurrentBlock().NumberU64()
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// this is the out of sync node acts as grpc server side
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case downloader_pb.DownloaderRequest_NEWBLOCK:
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if node.State != NodeNotInSync {
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utils.Logger().Debug().
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Str("state", node.State.String()).
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Msg("[SYNC] new block received, but state is")
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response.Type = downloader_pb.DownloaderResponse_INSYNC
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return response, nil
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}
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var blockObj types.Block
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err := rlp.DecodeBytes(request.BlockHash, &blockObj)
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if err != nil {
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utils.Logger().Warn().Msg("[SYNC] unable to decode received new block")
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return response, err
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}
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node.stateSync.AddNewBlock(request.PeerHash, &blockObj)
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case downloader_pb.DownloaderRequest_REGISTER:
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peerID := string(request.PeerHash[:])
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ip := request.Ip
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port := request.Port
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node.stateMutex.Lock()
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defer node.stateMutex.Unlock()
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if _, ok := node.peerRegistrationRecord[peerID]; ok {
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response.Type = downloader_pb.DownloaderResponse_FAIL
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utils.Logger().Warn().
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Interface("ip", ip).
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Interface("port", port).
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Msg("[SYNC] peerRegistration record already exists")
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return response, nil
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} else if len(node.peerRegistrationRecord) >= maxBroadcastNodes {
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response.Type = downloader_pb.DownloaderResponse_FAIL
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utils.GetLogInstance().Debug("[SYNC] maximum registration limit exceeds", "ip", ip, "port", port)
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return response, nil
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} else {
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response.Type = downloader_pb.DownloaderResponse_FAIL
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syncPort := syncing.GetSyncingPort(port)
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client := downloader.ClientSetup(ip, syncPort)
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if client == nil {
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utils.Logger().Warn().
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Str("ip", ip).
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Str("port", port).
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Msg("[SYNC] unable to setup client for peerID")
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return response, nil
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}
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config := &syncConfig{timestamp: time.Now().UnixNano(), client: client}
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node.peerRegistrationRecord[peerID] = config
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utils.Logger().Debug().
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Str("ip", ip).
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Str("port", port).
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Msg("[SYNC] register peerID success")
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response.Type = downloader_pb.DownloaderResponse_SUCCESS
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}
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case downloader_pb.DownloaderRequest_REGISTERTIMEOUT:
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if node.State == NodeNotInSync {
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count := node.stateSync.RegisterNodeInfo()
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utils.Logger().Debug().
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Int("number", count).
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Msg("[SYNC] extra node registered")
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}
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}
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return response, nil
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}
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