package main
import (
"encoding/hex"
"flag"
"fmt"
"math/big"
"math/rand"
"os"
"path"
"runtime"
"strconv"
"time"
ethCommon "github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
"github.com/harmony-one/bls/ffi/go/bls"
"github.com/pkg/errors"
"github.com/harmony-one/harmony/api/service/syncing"
"github.com/harmony-one/harmony/consensus"
"github.com/harmony-one/harmony/consensus/quorum"
"github.com/harmony-one/harmony/core"
"github.com/harmony-one/harmony/internal/blsgen"
"github.com/harmony-one/harmony/internal/common"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
shardingconfig "github.com/harmony-one/harmony/internal/configs/sharding"
"github.com/harmony-one/harmony/internal/genesis"
hmykey "github.com/harmony-one/harmony/internal/keystore"
"github.com/harmony-one/harmony/internal/memprofiling"
"github.com/harmony-one/harmony/internal/shardchain"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/node"
"github.com/harmony-one/harmony/p2p"
"github.com/harmony-one/harmony/p2p/p2pimpl"
p2putils "github.com/harmony-one/harmony/p2p/utils"
"github.com/harmony-one/harmony/shard"
)
// Version string variables
var (
version string
builtBy string
builtAt string
commit string
)
// Host
var (
myHost p2p . Host
)
func printVersion ( ) {
_ , _ = fmt . Fprintln ( os . Stderr , nodeconfig . GetVersion ( ) )
os . Exit ( 0 )
}
var (
ip = flag . String ( "ip" , "127.0.0.1" , "ip of the node" )
port = flag . String ( "port" , "9000" , "port of the node." )
logFolder = flag . String ( "log_folder" , "latest" , "the folder collecting the logs of this execution" )
logMaxSize = flag . Int ( "log_max_size" , 100 , "the max size in megabytes of the log file before it gets rotated" )
freshDB = flag . Bool ( "fresh_db" , false , "true means the existing disk based db will be removed" )
profile = flag . Bool ( "profile" , false , "Turn on profiling (CPU, Memory)." )
metricsReportURL = flag . String ( "metrics_report_url" , "" , "If set, reports metrics to this URL." )
versionFlag = flag . Bool ( "version" , false , "Output version info" )
onlyLogTps = flag . Bool ( "only_log_tps" , false , "Only log TPS if true" )
dnsZone = flag . String ( "dns_zone" , "" , "if given and not empty, use peers from the zone (default: use libp2p peer discovery instead)" )
dnsFlag = flag . Bool ( "dns" , true , "[deprecated] equivalent to -dns_zone t.hmny.io" )
//Leader needs to have a minimal number of peers to start consensus
minPeers = flag . Int ( "min_peers" , 32 , "Minimal number of Peers in shard" )
// Key file to store the private key
keyFile = flag . String ( "key" , "./.hmykey" , "the p2p key file of the harmony node" )
// isGenesis indicates this node is a genesis node
isGenesis = flag . Bool ( "is_genesis" , true , "true means this node is a genesis node" )
// isArchival indicates this node is an archival node that will save and archive current blockchain
isArchival = flag . Bool ( "is_archival" , true , "false makes node faster by turning caching off" )
// delayCommit is the commit-delay timer, used by Harmony nodes
delayCommit = flag . String ( "delay_commit" , "0ms" , "how long to delay sending commit messages in consensus, ex: 500ms, 1s" )
// nodeType indicates the type of the node: validator, explorer
nodeType = flag . String ( "node_type" , "validator" , "node type: validator, explorer" )
// networkType indicates the type of the network
networkType = flag . String ( "network_type" , "mainnet" , "type of the network: mainnet, testnet, devnet, localnet" )
// syncFreq indicates sync frequency
syncFreq = flag . Int ( "sync_freq" , 60 , "unit in seconds" )
// beaconSyncFreq indicates beaconchain sync frequency
beaconSyncFreq = flag . Int ( "beacon_sync_freq" , 60 , "unit in seconds" )
// blockPeriod indicates the how long the leader waits to propose a new block.
blockPeriod = flag . Int ( "block_period" , 8 , "how long in second the leader waits to propose a new block." )
leaderOverride = flag . Bool ( "leader_override" , false , "true means override the default leader role and acts as validator" )
// staking indicates whether the node is operating in staking mode.
stakingFlag = flag . Bool ( "staking" , false , "whether the node should operate in staking mode" )
// shardID indicates the shard ID of this node
shardID = flag . Int ( "shard_id" , - 1 , "the shard ID of this node" )
enableMemProfiling = flag . Bool ( "enableMemProfiling" , false , "Enable memsize logging." )
enableGC = flag . Bool ( "enableGC" , true , "Enable calling garbage collector manually ." )
blsKeyFile = flag . String ( "blskey_file" , "" , "The encrypted file of bls serialized private key by passphrase." )
blsPass = flag . String ( "blspass" , "" , "The file containing passphrase to decrypt the encrypted bls file." )
blsPassphrase string
// Sharding configuration parameters for devnet
devnetNumShards = flag . Uint ( "dn_num_shards" , 2 , "number of shards for -network_type=devnet (default: 2)" )
devnetShardSize = flag . Int ( "dn_shard_size" , 10 , "number of nodes per shard for -network_type=devnet (default 10)" )
devnetHarmonySize = flag . Int ( "dn_hmy_size" , - 1 , "number of Harmony-operated nodes per shard for -network_type=devnet; negative (default) means equal to -dn_shard_size" )
// logConn logs incoming/outgoing connections
logConn = flag . Bool ( "log_conn" , false , "log incoming/outgoing connections" )
keystoreDir = flag . String ( "keystore" , hmykey . DefaultKeyStoreDir , "The default keystore directory" )
initialAccount = & genesis . DeployAccount { }
// logging verbosity
verbosity = flag . Int ( "verbosity" , 5 , "Logging verbosity: 0=silent, 1=error, 2=warn, 3=info, 4=debug, 5=detail (default: 5)" )
// dbDir is the database directory.
dbDir = flag . String ( "db_dir" , "" , "blockchain database directory" )
// Disable view change.
disableViewChange = flag . Bool ( "disable_view_change" , false , "Do not propose view change (testing only)" )
// metrics flag to collct meetrics or not, pushgateway ip and port for metrics
metricsFlag = flag . Bool ( "metrics" , false , "Collect and upload node metrics" )
pushgatewayIP = flag . String ( "pushgateway_ip" , "grafana.harmony.one" , "Metrics view ip" )
pushgatewayPort = flag . String ( "pushgateway_port" , "9091" , "Metrics view port" )
publicRPC = flag . Bool ( "public_rpc" , false , "Enable Public RPC Access (default: false)" )
// Bad block revert
doRevertBefore = flag . Int ( "do_revert_before" , 0 , "If the current block is less than do_revert_before, revert all blocks until (including) revert_to block" )
revertTo = flag . Int ( "revert_to" , 0 , "The revert will rollback all blocks until and including block number revert_to" )
)
func initSetup ( ) {
// maybe request passphrase for bls key.
passphraseForBls ( )
// Configure log parameters
utils . SetLogContext ( * port , * ip )
utils . SetLogVerbosity ( log . Lvl ( * verbosity ) )
utils . AddLogFile ( fmt . Sprintf ( "%v/validator-%v-%v.log" , * logFolder , * ip , * port ) , * logMaxSize )
if * onlyLogTps {
matchFilterHandler := log . MatchFilterHandler ( "msg" , "TPS Report" , utils . GetLogInstance ( ) . GetHandler ( ) )
utils . GetLogInstance ( ) . SetHandler ( matchFilterHandler )
}
// Add GOMAXPROCS to achieve max performance.
runtime . GOMAXPROCS ( runtime . NumCPU ( ) * 4 )
// Set port and ip to global config.
nodeconfig . GetDefaultConfig ( ) . Port = * port
nodeconfig . GetDefaultConfig ( ) . IP = * ip
// Set sharding schedule
nodeconfig . SetShardingSchedule ( shard . Schedule )
// Setup mem profiling.
memprofiling . GetMemProfiling ( ) . Config ( )
// Set default keystore Dir
hmykey . DefaultKeyStoreDir = * keystoreDir
// Set up randomization seed.
rand . Seed ( int64 ( time . Now ( ) . Nanosecond ( ) ) )
if len ( p2putils . BootNodes ) == 0 {
bootNodeAddrs , err := p2putils . StringsToAddrs ( p2putils . DefaultBootNodeAddrStrings )
if err != nil {
panic ( err )
}
p2putils . BootNodes = bootNodeAddrs
}
}
func passphraseForBls ( ) {
// If FN node running, they should either specify blsPrivateKey or the file with passphrase
// However, explorer or non-validator nodes need no blskey
if * nodeType != "validator" {
return
}
if * blsKeyFile == "" || * blsPass == "" {
fmt . Println ( "Internal nodes need to have pass to decrypt blskey" )
os . Exit ( 101 )
}
passphrase , err := utils . GetPassphraseFromSource ( * blsPass )
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "ERROR when reading passphrase file: %v\n" , err )
os . Exit ( 100 )
}
blsPassphrase = passphrase
}
func setupLegacyNodeAccount ( ) error {
genesisShardingConfig := shard . Schedule . InstanceForEpoch ( big . NewInt ( core . GenesisEpoch ) )
pubKey := setupConsensusKey ( nodeconfig . GetDefaultConfig ( ) )
reshardingEpoch := genesisShardingConfig . ReshardingEpoch ( )
if reshardingEpoch != nil && len ( reshardingEpoch ) > 0 {
for _ , epoch := range reshardingEpoch {
config := shard . Schedule . InstanceForEpoch ( epoch )
_ , initialAccount = config . FindAccount ( pubKey . SerializeToHexStr ( ) )
if initialAccount != nil {
break
}
}
} else {
_ , initialAccount = genesisShardingConfig . FindAccount ( pubKey . SerializeToHexStr ( ) )
}
if initialAccount == nil {
return errors . Errorf ( "cannot find key %s in table" , pubKey . SerializeToHexStr ( ) )
}
fmt . Printf ( "My Genesis Account: %v\n" , * initialAccount )
return nil
}
func setupStakingNodeAccount ( ) error {
pubKey := setupConsensusKey ( nodeconfig . GetDefaultConfig ( ) )
shardID , err := nodeconfig . GetDefaultConfig ( ) . ShardIDFromConsensusKey ( )
if err != nil {
return errors . Wrap ( err , "cannot determine shard to join" )
}
initialAccount = & genesis . DeployAccount { }
initialAccount . ShardID = shardID
initialAccount . BlsPublicKey = pubKey . SerializeToHexStr ( )
blsAddressBytes := pubKey . GetAddress ( )
initialAccount . Address = hex . EncodeToString ( blsAddressBytes [ : ] )
return nil
}
func setupConsensusKey ( nodeConfig * nodeconfig . ConfigType ) * bls . PublicKey {
consensusPriKey , err := blsgen . LoadBlsKeyWithPassPhrase ( * blsKeyFile , blsPassphrase )
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "ERROR when loading bls key, err :%v\n" , err )
os . Exit ( 100 )
}
pubKey := consensusPriKey . GetPublicKey ( )
// Consensus keys are the BLS12-381 keys used to sign consensus messages
nodeConfig . ConsensusPriKey , nodeConfig . ConsensusPubKey = consensusPriKey , consensusPriKey . GetPublicKey ( )
if nodeConfig . ConsensusPriKey == nil || nodeConfig . ConsensusPubKey == nil {
fmt . Println ( "error to get consensus keys." )
os . Exit ( 100 )
}
return pubKey
}
func createGlobalConfig ( ) ( * nodeconfig . ConfigType , error ) {
var err error
nodeConfig := nodeconfig . GetShardConfig ( initialAccount . ShardID )
if * nodeType == "validator" {
// Set up consensus keys.
setupConsensusKey ( nodeConfig )
} else {
nodeConfig . ConsensusPriKey = & bls . SecretKey { } // set dummy bls key for consensus object
}
// Set network type
netType := nodeconfig . NetworkType ( * networkType )
nodeconfig . SetNetworkType ( netType ) // sets for both global and shard configs
nodeConfig . SetPushgatewayIP ( * pushgatewayIP )
nodeConfig . SetPushgatewayPort ( * pushgatewayPort )
nodeConfig . SetMetricsFlag ( * metricsFlag )
// P2p private key is used for secure message transfer between p2p nodes.
nodeConfig . P2pPriKey , _ , err = utils . LoadKeyFromFile ( * keyFile )
if err != nil {
return nil , errors . Wrapf ( err , "cannot load or create P2P key at %#v" ,
* keyFile )
}
selfPeer := p2p . Peer { IP : * ip , Port : * port , ConsensusPubKey : nodeConfig . ConsensusPubKey }
myHost , err = p2pimpl . NewHost ( & selfPeer , nodeConfig . P2pPriKey )
if err != nil {
return nil , errors . Wrap ( err , "cannot create P2P network host" )
}
if * logConn && nodeConfig . GetNetworkType ( ) != nodeconfig . Mainnet {
myHost . GetP2PHost ( ) . Network ( ) . Notify ( utils . NewConnLogger ( utils . GetLogger ( ) ) )
}
nodeConfig . DBDir = * dbDir
return nodeConfig , nil
}
func setupConsensusAndNode ( nodeConfig * nodeconfig . ConfigType ) * node . Node {
// Consensus object.
// TODO: consensus object shouldn't start here
// TODO(minhdoan): During refactoring, found out that the peers list is actually empty. Need to clean up the logic of consensus later.
decider := quorum . NewDecider ( quorum . SuperMajorityVote )
currentConsensus , err := consensus . New (
myHost , nodeConfig . ShardID , p2p . Peer { } , nodeConfig . ConsensusPriKey , decider ,
)
currentConsensus . Decider . SetShardIDProvider ( func ( ) ( uint32 , error ) {
return currentConsensus . ShardID , nil
} )
currentConsensus . Decider . SetMyPublicKeyProvider ( func ( ) ( * bls . PublicKey , error ) {
return currentConsensus . PubKey , nil
} )
currentConsensus . SelfAddress = common . ParseAddr ( initialAccount . Address )
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "Error :%v \n" , err )
os . Exit ( 1 )
}
commitDelay , err := time . ParseDuration ( * delayCommit )
if err != nil || commitDelay < 0 {
_ , _ = fmt . Fprintf ( os . Stderr , "ERROR invalid commit delay %#v" , * delayCommit )
os . Exit ( 1 )
}
currentConsensus . SetCommitDelay ( commitDelay )
currentConsensus . MinPeers = * minPeers
if * disableViewChange {
currentConsensus . DisableViewChangeForTestingOnly ( )
}
// Current node.
chainDBFactory := & shardchain . LDBFactory { RootDir : nodeConfig . DBDir }
currentNode := node . New ( myHost , currentConsensus , chainDBFactory , * isArchival )
switch {
case * networkType == nodeconfig . Localnet :
epochConfig := shard . Schedule . InstanceForEpoch ( ethCommon . Big0 )
selfPort , err := strconv . ParseUint ( * port , 10 , 16 )
if err != nil {
utils . Logger ( ) . Fatal ( ) .
Err ( err ) .
Str ( "self_port_string" , * port ) .
Msg ( "cannot convert self port string into port number" )
}
currentNode . SyncingPeerProvider = node . NewLocalSyncingPeerProvider (
6000 , uint16 ( selfPort ) , epochConfig . NumShards ( ) , uint32 ( epochConfig . NumNodesPerShard ( ) ) )
case * dnsZone != "" :
currentNode . SyncingPeerProvider = node . NewDNSSyncingPeerProvider ( * dnsZone , syncing . GetSyncingPort ( * port ) )
case * dnsFlag :
currentNode . SyncingPeerProvider = node . NewDNSSyncingPeerProvider ( "t.hmny.io" , syncing . GetSyncingPort ( * port ) )
default :
currentNode . SyncingPeerProvider = node . NewLegacySyncingPeerProvider ( currentNode )
}
// TODO: refactor the creation of blockchain out of node.New()
currentConsensus . ChainReader = currentNode . Blockchain ( )
// Set up prometheus pushgateway for metrics monitoring serivce.
currentNode . NodeConfig . SetPushgatewayIP ( nodeConfig . PushgatewayIP )
currentNode . NodeConfig . SetPushgatewayPort ( nodeConfig . PushgatewayPort )
currentNode . NodeConfig . SetMetricsFlag ( nodeConfig . MetricsFlag )
currentNode . NodeConfig . SetBeaconGroupID ( nodeconfig . NewGroupIDByShardID ( 0 ) )
switch * nodeType {
case "explorer" :
currentNode . NodeConfig . SetRole ( nodeconfig . ExplorerNode )
currentNode . NodeConfig . SetShardGroupID ( nodeconfig . NewGroupIDByShardID ( nodeconfig . ShardID ( * shardID ) ) )
currentNode . NodeConfig . SetClientGroupID ( nodeconfig . NewClientGroupIDByShardID ( nodeconfig . ShardID ( * shardID ) ) )
case "validator" :
currentNode . NodeConfig . SetRole ( nodeconfig . Validator )
if nodeConfig . ShardID == shard . BeaconChainShardID {
currentNode . NodeConfig . SetShardGroupID ( nodeconfig . NewGroupIDByShardID ( shard . BeaconChainShardID ) )
currentNode . NodeConfig . SetClientGroupID ( nodeconfig . NewClientGroupIDByShardID ( shard . BeaconChainShardID ) )
} else {
currentNode . NodeConfig . SetShardGroupID ( nodeconfig . NewGroupIDByShardID ( nodeconfig . ShardID ( nodeConfig . ShardID ) ) )
currentNode . NodeConfig . SetClientGroupID ( nodeconfig . NewClientGroupIDByShardID ( nodeconfig . ShardID ( nodeConfig . ShardID ) ) )
}
}
currentNode . NodeConfig . ConsensusPubKey = nodeConfig . ConsensusPubKey
currentNode . NodeConfig . ConsensusPriKey = nodeConfig . ConsensusPriKey
// Setup block period for currentNode.
currentNode . BlockPeriod = time . Duration ( * blockPeriod ) * time . Second
// TODO: Disable drand. Currently drand isn't functioning but we want to compeletely turn it off for full protection.
// Enable it back after mainnet.
// dRand := drand.New(nodeConfig.Host, nodeConfig.ShardID, []p2p.Peer{}, nodeConfig.Leader, currentNode.ConfirmedBlockChannel, nodeConfig.ConsensusPriKey)
// currentNode.Consensus.RegisterPRndChannel(dRand.PRndChannel)
// currentNode.Consensus.RegisterRndChannel(dRand.RndChannel)
// currentNode.DRand = dRand
// This needs to be executed after consensus and drand are setup
if err := currentNode . InitConsensusWithValidators ( ) ; err != nil {
utils . Logger ( ) . Warn ( ) .
Int ( "shardID" , * shardID ) .
Err ( err ) .
Msg ( "InitConsensusWithMembers failed" )
}
// Set the consensus ID to be the current block number
viewID := currentNode . Blockchain ( ) . CurrentBlock ( ) . Header ( ) . ViewID ( ) . Uint64 ( )
currentConsensus . SetViewID ( viewID )
utils . Logger ( ) . Info ( ) .
Uint64 ( "viewID" , viewID ) .
Msg ( "Init Blockchain" )
// Assign closure functions to the consensus object
currentConsensus . BlockVerifier = currentNode . VerifyNewBlock
currentConsensus . OnConsensusDone = currentNode . PostConsensusProcessing
currentNode . State = node . NodeWaitToJoin
// update consensus information based on the blockchain
mode := currentConsensus . UpdateConsensusInformation ( )
currentConsensus . SetMode ( mode )
// Watching currentNode and currentConsensus.
memprofiling . GetMemProfiling ( ) . Add ( "currentNode" , currentNode )
memprofiling . GetMemProfiling ( ) . Add ( "currentConsensus" , currentConsensus )
return currentNode
}
func main ( ) {
// HACK Force usage of go implementation rather than the C based one. Do the right way, see the
// notes one line 66,67 of https://golang.org/src/net/net.go that say can make the decision at
// build time.
os . Setenv ( "GODEBUG" , "netdns=go" )
flag . Var ( & p2putils . BootNodes , "bootnodes" , "a list of bootnode multiaddress (delimited by ,)" )
flag . Parse ( )
switch * nodeType {
case "validator" :
case "explorer" :
break
default :
_ , _ = fmt . Fprintf ( os . Stderr , "Unknown node type: %s\n" , * nodeType )
os . Exit ( 1 )
}
nodeconfig . SetPublicRPC ( * publicRPC )
nodeconfig . SetVersion ( fmt . Sprintf ( "Harmony (C) 2019. %v, version %v-%v (%v %v)" , path . Base ( os . Args [ 0 ] ) , version , commit , builtBy , builtAt ) )
if * versionFlag {
printVersion ( )
}
switch * networkType {
case nodeconfig . Mainnet :
shard . Schedule = shardingconfig . MainnetSchedule
case nodeconfig . Testnet :
shard . Schedule = shardingconfig . TestnetSchedule
case nodeconfig . Pangaea :
shard . Schedule = shardingconfig . PangaeaSchedule
case nodeconfig . Localnet :
shard . Schedule = shardingconfig . LocalnetSchedule
case nodeconfig . Devnet :
if * devnetHarmonySize < 0 {
* devnetHarmonySize = * devnetShardSize
}
// TODO (leo): use a passing list of accounts here
devnetConfig , err := shardingconfig . NewInstance (
uint32 ( * devnetNumShards ) , * devnetShardSize , * devnetHarmonySize , genesis . HarmonyAccounts , genesis . FoundationalNodeAccounts , nil )
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "ERROR invalid devnet sharding config: %s" ,
err )
os . Exit ( 1 )
}
shard . Schedule = shardingconfig . NewFixedSchedule ( devnetConfig )
default :
_ , _ = fmt . Fprintf ( os . Stderr , "invalid network type: %#v\n" , * networkType )
os . Exit ( 2 )
}
initSetup ( )
// Set up manual call for garbage collection.
if * enableGC {
memprofiling . MaybeCallGCPeriodically ( )
}
if * nodeType == "validator" {
var err error
if * stakingFlag {
err = setupStakingNodeAccount ( )
} else {
err = setupLegacyNodeAccount ( )
}
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "cannot set up node account: %s\n" , err )
os . Exit ( 1 )
}
}
fmt . Printf ( "%s mode; node key %s -> shard %d\n" ,
map [ bool ] string { false : "Legacy" , true : "Staking" } [ * stakingFlag ] ,
nodeconfig . GetDefaultConfig ( ) . ConsensusPubKey . SerializeToHexStr ( ) ,
initialAccount . ShardID )
if * nodeType != "validator" && * shardID >= 0 {
utils . Logger ( ) . Info ( ) .
Uint32 ( "original" , initialAccount . ShardID ) .
Int ( "override" , * shardID ) .
Msg ( "ShardID Override" )
initialAccount . ShardID = uint32 ( * shardID )
}
nodeConfig , err := createGlobalConfig ( )
if err != nil {
_ , _ = fmt . Fprintf ( os . Stderr , "ERROR cannot configure node: %s\n" , err )
os . Exit ( 1 )
}
currentNode := setupConsensusAndNode ( nodeConfig )
//setup state syncing and beacon syncing frequency
currentNode . SetSyncFreq ( * syncFreq )
currentNode . SetBeaconSyncFreq ( * beaconSyncFreq )
if nodeConfig . ShardID != shard . BeaconChainShardID && currentNode . NodeConfig . Role ( ) != nodeconfig . ExplorerNode {
utils . Logger ( ) . Info ( ) . Uint32 ( "shardID" , currentNode . Blockchain ( ) . ShardID ( ) ) . Uint32 ( "shardID" , nodeConfig . ShardID ) . Msg ( "SupportBeaconSyncing" )
go currentNode . SupportBeaconSyncing ( )
}
if uint64 ( * doRevertBefore ) != 0 && uint64 ( * revertTo ) != 0 {
chain := currentNode . Blockchain ( )
curNum := chain . CurrentBlock ( ) . NumberU64 ( )
if curNum < uint64 ( * doRevertBefore ) && curNum >= uint64 ( * revertTo ) {
// Remove invalid blocks
for chain . CurrentBlock ( ) . NumberU64 ( ) >= uint64 ( * revertTo ) {
curBlock := chain . CurrentBlock ( )
rollbacks := [ ] ethCommon . Hash { curBlock . Hash ( ) }
chain . Rollback ( rollbacks )
lastSig := curBlock . Header ( ) . LastCommitSignature ( )
sigAndBitMap := append ( lastSig [ : ] , curBlock . Header ( ) . LastCommitBitmap ( ) ... )
chain . WriteLastCommits ( sigAndBitMap )
}
}
}
startMsg := "==== New Harmony Node ===="
if * nodeType == "explorer" {
startMsg = "==== New Explorer Node ===="
}
utils . Logger ( ) . Info ( ) .
Str ( "BlsPubKey" , hex . EncodeToString ( nodeConfig . ConsensusPubKey . Serialize ( ) ) ) .
Uint32 ( "ShardID" , nodeConfig . ShardID ) .
Str ( "ShardGroupID" , nodeConfig . GetShardGroupID ( ) . String ( ) ) .
Str ( "BeaconGroupID" , nodeConfig . GetBeaconGroupID ( ) . String ( ) ) .
Str ( "ClientGroupID" , nodeConfig . GetClientGroupID ( ) . String ( ) ) .
Str ( "Role" , currentNode . NodeConfig . Role ( ) . String ( ) ) .
Str ( "multiaddress" , fmt . Sprintf ( "/ip4/%s/tcp/%s/p2p/%s" , * ip , * port , myHost . GetID ( ) . Pretty ( ) ) ) .
Msg ( startMsg )
if * enableMemProfiling {
memprofiling . GetMemProfiling ( ) . Start ( )
}
go currentNode . SupportSyncing ( )
currentNode . ServiceManagerSetup ( )
currentNode . RunServices ( )
// RPC for SDK not supported for mainnet.
if err := currentNode . StartRPC ( * port ) ; err != nil {
utils . Logger ( ) . Warn ( ) .
Err ( err ) .
Msg ( "StartRPC failed" )
}
// Run additional node collectors
// Collect node metrics if metrics flag is set
if currentNode . NodeConfig . GetMetricsFlag ( ) {
go currentNode . CollectMetrics ( )
}
currentNode . StartServer ( )
}