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package node
import (
"bytes"
"errors"
"net"
"net/http"
"strings"
abci "github.com/tendermint/abci/types"
cmn "github.com/tendermint/go-common"
cfg "github.com/tendermint/go-config"
crypto "github.com/tendermint/go-crypto"
dbm "github.com/tendermint/go-db"
p2p "github.com/tendermint/go-p2p"
rpc "github.com/tendermint/go-rpc"
rpcserver "github.com/tendermint/go-rpc/server"
wire "github.com/tendermint/go-wire"
bc "github.com/tendermint/tendermint/blockchain"
"github.com/tendermint/tendermint/consensus"
mempl "github.com/tendermint/tendermint/mempool"
"github.com/tendermint/tendermint/proxy"
rpccore "github.com/tendermint/tendermint/rpc/core"
grpccore "github.com/tendermint/tendermint/rpc/grpc"
sm "github.com/tendermint/tendermint/state"
"github.com/tendermint/tendermint/state/txindex"
"github.com/tendermint/tendermint/state/txindex/kv"
"github.com/tendermint/tendermint/state/txindex/null"
"github.com/tendermint/tendermint/types"
"github.com/tendermint/tendermint/version"
_ "net/http/pprof"
)
type Node struct {
cmn.BaseService
// config
config cfg.Config // user config
genesisDoc *types.GenesisDoc // initial validator set
privValidator *types.PrivValidator // local node's validator key
// network
privKey crypto.PrivKeyEd25519 // local node's p2p key
sw *p2p.Switch // p2p connections
addrBook *p2p.AddrBook // known peers
// services
evsw types.EventSwitch // pub/sub for services
blockStore *bc.BlockStore // store the blockchain to disk
bcReactor *bc.BlockchainReactor // for fast-syncing
mempoolReactor *mempl.MempoolReactor // for gossipping transactions
consensusState *consensus.ConsensusState // latest consensus state
consensusReactor *consensus.ConsensusReactor // for participating in the consensus
proxyApp proxy.AppConns // connection to the application
rpcListeners []net.Listener // rpc servers
txIndexer txindex.TxIndexer
}
func NewNodeDefault(config cfg.Config) *Node {
// Get PrivValidator
privValidatorFile := config.GetString("priv_validator_file")
privValidator := types.LoadOrGenPrivValidator(privValidatorFile)
return NewNode(config, privValidator, proxy.DefaultClientCreator(config))
}
func NewNode(config cfg.Config, privValidator *types.PrivValidator, clientCreator proxy.ClientCreator) *Node {
// Get BlockStore
blockStoreDB := dbm.NewDB("blockstore", config.GetString("db_backend"), config.GetString("db_dir"))
blockStore := bc.NewBlockStore(blockStoreDB)
// Get State
stateDB := dbm.NewDB("state", config.GetString("db_backend"), config.GetString("db_dir"))
state := sm.GetState(config, stateDB)
// add the chainid and number of validators to the global config
config.Set("chain_id", state.ChainID)
config.Set("num_vals", state.Validators.Size())
// Create the proxyApp, which manages connections (consensus, mempool, query)
// and sync tendermint and the app by replaying any necessary blocks
proxyApp := proxy.NewAppConns(config, clientCreator, consensus.NewHandshaker(config, state, blockStore))
if _, err := proxyApp.Start(); err != nil {
cmn.Exit(cmn.Fmt("Error starting proxy app connections: %v", err))
}
// reload the state (it may have been updated by the handshake)
state = sm.LoadState(stateDB)
// Transaction indexing
var txIndexer txindex.TxIndexer
switch config.GetString("tx_index") {
case "kv":
store := dbm.NewDB("tx_index", config.GetString("db_backend"), config.GetString("db_dir"))
txIndexer = kv.NewTxIndex(store)
default:
txIndexer = &null.TxIndex{}
}
state.TxIndexer = txIndexer
// Generate node PrivKey
privKey := crypto.GenPrivKeyEd25519()
// Make event switch
eventSwitch := types.NewEventSwitch()
_, err := eventSwitch.Start()
if err != nil {
cmn.Exit(cmn.Fmt("Failed to start switch: %v", err))
}
// Decide whether to fast-sync or not
// We don't fast-sync when the only validator is us.
fastSync := config.GetBool("fast_sync")
if state.Validators.Size() == 1 {
addr, _ := state.Validators.GetByIndex(0)
if bytes.Equal(privValidator.Address, addr) {
fastSync = false
}
}
// Make BlockchainReactor
bcReactor := bc.NewBlockchainReactor(config, state.Copy(), proxyApp.Consensus(), blockStore, fastSync)
// Make MempoolReactor
mempool := mempl.NewMempool(config, proxyApp.Mempool())
mempoolReactor := mempl.NewMempoolReactor(config, mempool)
// Make ConsensusReactor
consensusState := consensus.NewConsensusState(config, state.Copy(), proxyApp.Consensus(), blockStore, mempool)
if privValidator != nil {
consensusState.SetPrivValidator(privValidator)
}
consensusReactor := consensus.NewConsensusReactor(consensusState, fastSync)
// Make p2p network switch
sw := p2p.NewSwitch(config.GetConfig("p2p"))
sw.AddReactor("MEMPOOL", mempoolReactor)
sw.AddReactor("BLOCKCHAIN", bcReactor)
sw.AddReactor("CONSENSUS", consensusReactor)
// Optionally, start the pex reactor
var addrBook *p2p.AddrBook
if config.GetBool("pex_reactor") {
addrBook = p2p.NewAddrBook(config.GetString("addrbook_file"), config.GetBool("addrbook_strict"))
pexReactor := p2p.NewPEXReactor(addrBook)
sw.AddReactor("PEX", pexReactor)
}
// Filter peers by addr or pubkey with an ABCI query.
// If the query return code is OK, add peer.
// XXX: Query format subject to change
if config.GetBool("filter_peers") {
// NOTE: addr is ip:port
sw.SetAddrFilter(func(addr net.Addr) error {
resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: cmn.Fmt("/p2p/filter/addr/%s", addr.String())})
if err != nil {
return err
}
if resQuery.Code.IsOK() {
return nil
}
return errors.New(resQuery.Code.String())
})
sw.SetPubKeyFilter(func(pubkey crypto.PubKeyEd25519) error {
resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: cmn.Fmt("/p2p/filter/pubkey/%X", pubkey.Bytes())})
if err != nil {
return err
}
if resQuery.Code.IsOK() {
return nil
}
return errors.New(resQuery.Code.String())
})
}
// add the event switch to all services
// they should all satisfy events.Eventable
SetEventSwitch(eventSwitch, bcReactor, mempoolReactor, consensusReactor)
// run the profile server
profileHost := config.GetString("prof_laddr")
if profileHost != "" {
go func() {
log.Warn("Profile server", "error", http.ListenAndServe(profileHost, nil))
}()
}
node := &Node{
config: config,
genesisDoc: state.GenesisDoc,
privValidator: privValidator,
privKey: privKey,
sw: sw,
addrBook: addrBook,
evsw: eventSwitch,
blockStore: blockStore,
bcReactor: bcReactor,
mempoolReactor: mempoolReactor,
consensusState: consensusState,
consensusReactor: consensusReactor,
proxyApp: proxyApp,
txIndexer: txIndexer,
}
node.BaseService = *cmn.NewBaseService(log, "Node", node)
return node
}
func (n *Node) OnStart() error {
// Create & add listener
protocol, address := ProtocolAndAddress(n.config.GetString("node_laddr"))
l := p2p.NewDefaultListener(protocol, address, n.config.GetBool("skip_upnp"))
n.sw.AddListener(l)
// Start the switch
n.sw.SetNodeInfo(n.makeNodeInfo())
n.sw.SetNodePrivKey(n.privKey)
_, err := n.sw.Start()
if err != nil {
return err
}
// If seeds exist, add them to the address book and dial out
if n.config.GetString("seeds") != "" {
// dial out
seeds := strings.Split(n.config.GetString("seeds"), ",")
if err := n.DialSeeds(seeds); err != nil {
return err
}
}
// Run the RPC server
if n.config.GetString("rpc_laddr") != "" {
listeners, err := n.startRPC()
if err != nil {
return err
}
n.rpcListeners = listeners
}
return nil
}
func (n *Node) OnStop() {
n.BaseService.OnStop()
log.Notice("Stopping Node")
// TODO: gracefully disconnect from peers.
n.sw.Stop()
for _, l := range n.rpcListeners {
log.Info("Closing rpc listener", "listener", l)
if err := l.Close(); err != nil {
log.Error("Error closing listener", "listener", l, "error", err)
}
}
}
func (n *Node) RunForever() {
// Sleep forever and then...
cmn.TrapSignal(func() {
n.Stop()
})
}
// Add the event switch to reactors, mempool, etc.
func SetEventSwitch(evsw types.EventSwitch, eventables ...types.Eventable) {
for _, e := range eventables {
e.SetEventSwitch(evsw)
}
}
// Add a Listener to accept inbound peer connections.
// Add listeners before starting the Node.
// The first listener is the primary listener (in NodeInfo)
func (n *Node) AddListener(l p2p.Listener) {
n.sw.AddListener(l)
}
// ConfigureRPC sets all variables in rpccore so they will serve
// rpc calls from this node
func (n *Node) ConfigureRPC() {
rpccore.SetConfig(n.config)
rpccore.SetEventSwitch(n.evsw)
rpccore.SetBlockStore(n.blockStore)
rpccore.SetConsensusState(n.consensusState)
rpccore.SetMempool(n.mempoolReactor.Mempool)
rpccore.SetSwitch(n.sw)
rpccore.SetPubKey(n.privValidator.PubKey)
rpccore.SetGenesisDoc(n.genesisDoc)
rpccore.SetAddrBook(n.addrBook)
rpccore.SetProxyAppQuery(n.proxyApp.Query())
rpccore.SetTxIndexer(n.txIndexer)
}
func (n *Node) startRPC() ([]net.Listener, error) {
n.ConfigureRPC()
listenAddrs := strings.Split(n.config.GetString("rpc_laddr"), ",")
// we may expose the rpc over both a unix and tcp socket
listeners := make([]net.Listener, len(listenAddrs))
for i, listenAddr := range listenAddrs {
mux := http.NewServeMux()
wm := rpcserver.NewWebsocketManager(rpccore.Routes, n.evsw)
mux.HandleFunc("/websocket", wm.WebsocketHandler)
rpcserver.RegisterRPCFuncs(mux, rpccore.Routes)
listener, err := rpcserver.StartHTTPServer(listenAddr, mux)
if err != nil {
return nil, err
}
listeners[i] = listener
}
// we expose a simplified api over grpc for convenience to app devs
grpcListenAddr := n.config.GetString("grpc_laddr")
if grpcListenAddr != "" {
listener, err := grpccore.StartGRPCServer(grpcListenAddr)
if err != nil {
return nil, err
}
listeners = append(listeners, listener)
}
return listeners, nil
}
func (n *Node) Switch() *p2p.Switch {
return n.sw
}
func (n *Node) BlockStore() *bc.BlockStore {
return n.blockStore
}
func (n *Node) ConsensusState() *consensus.ConsensusState {
return n.consensusState
}
func (n *Node) ConsensusReactor() *consensus.ConsensusReactor {
return n.consensusReactor
}
func (n *Node) MempoolReactor() *mempl.MempoolReactor {
return n.mempoolReactor
}
func (n *Node) EventSwitch() types.EventSwitch {
return n.evsw
}
// XXX: for convenience
func (n *Node) PrivValidator() *types.PrivValidator {
return n.privValidator
}
func (n *Node) GenesisDoc() *types.GenesisDoc {
return n.genesisDoc
}
func (n *Node) ProxyApp() proxy.AppConns {
return n.proxyApp
}
func (n *Node) makeNodeInfo() *p2p.NodeInfo {
txIndexerStatus := "on"
if _, ok := n.txIndexer.(*null.TxIndex); ok {
txIndexerStatus = "off"
}
nodeInfo := &p2p.NodeInfo{
PubKey: n.privKey.PubKey().Unwrap().(crypto.PubKeyEd25519),
Moniker: n.config.GetString("moniker"),
Network: n.config.GetString("chain_id"),
Version: version.Version,
Other: []string{
cmn.Fmt("wire_version=%v", wire.Version),
cmn.Fmt("p2p_version=%v", p2p.Version),
cmn.Fmt("consensus_version=%v", consensus.Version),
cmn.Fmt("rpc_version=%v/%v", rpc.Version, rpccore.Version),
cmn.Fmt("tx_index=%v", txIndexerStatus),
},
}
// include git hash in the nodeInfo if available
if rev, err := cmn.ReadFile(n.config.GetString("revision_file")); err == nil {
nodeInfo.Other = append(nodeInfo.Other, cmn.Fmt("revision=%v", string(rev)))
}
if !n.sw.IsListening() {
return nodeInfo
}
p2pListener := n.sw.Listeners()[0]
p2pHost := p2pListener.ExternalAddress().IP.String()
p2pPort := p2pListener.ExternalAddress().Port
rpcListenAddr := n.config.GetString("rpc_laddr")
// We assume that the rpcListener has the same ExternalAddress.
// This is probably true because both P2P and RPC listeners use UPnP,
// except of course if the rpc is only bound to localhost
nodeInfo.ListenAddr = cmn.Fmt("%v:%v", p2pHost, p2pPort)
nodeInfo.Other = append(nodeInfo.Other, cmn.Fmt("rpc_addr=%v", rpcListenAddr))
return nodeInfo
}
//------------------------------------------------------------------------------
func (n *Node) NodeInfo() *p2p.NodeInfo {
return n.sw.NodeInfo()
}
func (n *Node) DialSeeds(seeds []string) error {
return n.sw.DialSeeds(n.addrBook, seeds)
}
// Defaults to tcp
func ProtocolAndAddress(listenAddr string) (string, string) {
protocol, address := "tcp", listenAddr
parts := strings.SplitN(address, "://", 2)
if len(parts) == 2 {
protocol, address = parts[0], parts[1]
}
return protocol, address
}