package node import ( "bytes" "context" "errors" "fmt" "math" "net" "time" dbm "github.com/tendermint/tm-db" abciclient "github.com/tendermint/tendermint/abci/client" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/config" "github.com/tendermint/tendermint/crypto" bcv0 "github.com/tendermint/tendermint/internal/blocksync/v0" bcv2 "github.com/tendermint/tendermint/internal/blocksync/v2" "github.com/tendermint/tendermint/internal/consensus" "github.com/tendermint/tendermint/internal/evidence" "github.com/tendermint/tendermint/internal/mempool" mempoolv0 "github.com/tendermint/tendermint/internal/mempool/v0" mempoolv1 "github.com/tendermint/tendermint/internal/mempool/v1" "github.com/tendermint/tendermint/internal/p2p" "github.com/tendermint/tendermint/internal/p2p/pex" "github.com/tendermint/tendermint/internal/proxy" sm "github.com/tendermint/tendermint/internal/state" "github.com/tendermint/tendermint/internal/state/indexer" "github.com/tendermint/tendermint/internal/state/indexer/sink" "github.com/tendermint/tendermint/internal/statesync" "github.com/tendermint/tendermint/internal/store" "github.com/tendermint/tendermint/libs/log" "github.com/tendermint/tendermint/libs/service" tmstrings "github.com/tendermint/tendermint/libs/strings" protop2p "github.com/tendermint/tendermint/proto/tendermint/p2p" "github.com/tendermint/tendermint/types" "github.com/tendermint/tendermint/version" _ "net/http/pprof" // nolint: gosec // securely exposed on separate, optional port ) func initDBs(cfg *config.Config, dbProvider config.DBProvider) (blockStore *store.BlockStore, stateDB dbm.DB, err error) { //nolint:lll var blockStoreDB dbm.DB blockStoreDB, err = dbProvider(&config.DBContext{ID: "blockstore", Config: cfg}) if err != nil { return nil, nil, fmt.Errorf("unable to initialize blockstore: %w", err) } blockStore = store.NewBlockStore(blockStoreDB) stateDB, err = dbProvider(&config.DBContext{ID: "state", Config: cfg}) if err != nil { return nil, nil, fmt.Errorf("unable to initialize statestore: %w", err) } return blockStore, stateDB, nil } // nolint:lll func createAndStartProxyAppConns(clientCreator abciclient.Creator, logger log.Logger, metrics *proxy.Metrics) (proxy.AppConns, error) { proxyApp := proxy.NewAppConns(clientCreator, metrics) proxyApp.SetLogger(logger.With("module", "proxy")) if err := proxyApp.Start(); err != nil { return nil, fmt.Errorf("error starting proxy app connections: %v", err) } return proxyApp, nil } func createAndStartEventBus(logger log.Logger) (*types.EventBus, error) { eventBus := types.NewEventBus() eventBus.SetLogger(logger.With("module", "events")) if err := eventBus.Start(); err != nil { return nil, err } return eventBus, nil } func createAndStartIndexerService( cfg *config.Config, dbProvider config.DBProvider, eventBus *types.EventBus, logger log.Logger, chainID string, metrics *indexer.Metrics, ) (*indexer.Service, []indexer.EventSink, error) { eventSinks, err := sink.EventSinksFromConfig(cfg, dbProvider, chainID) if err != nil { return nil, nil, err } indexerService := indexer.NewService(indexer.ServiceArgs{ Sinks: eventSinks, EventBus: eventBus, Logger: logger.With("module", "txindex"), Metrics: metrics, }) if err := indexerService.Start(); err != nil { return nil, nil, err } return indexerService, eventSinks, nil } func doHandshake( stateStore sm.Store, state sm.State, blockStore sm.BlockStore, genDoc *types.GenesisDoc, eventBus types.BlockEventPublisher, proxyApp proxy.AppConns, consensusLogger log.Logger) error { handshaker := consensus.NewHandshaker(stateStore, state, blockStore, genDoc) handshaker.SetLogger(consensusLogger) handshaker.SetEventBus(eventBus) if err := handshaker.Handshake(proxyApp); err != nil { return fmt.Errorf("error during handshake: %v", err) } return nil } func logNodeStartupInfo(state sm.State, pubKey crypto.PubKey, logger, consensusLogger log.Logger, mode string) { // Log the version info. logger.Info("Version info", "tmVersion", version.TMVersion, "block", version.BlockProtocol, "p2p", version.P2PProtocol, "mode", mode, ) // If the state and software differ in block version, at least log it. if state.Version.Consensus.Block != version.BlockProtocol { logger.Info("Software and state have different block protocols", "software", version.BlockProtocol, "state", state.Version.Consensus.Block, ) } switch { case mode == config.ModeFull: consensusLogger.Info("This node is a fullnode") case mode == config.ModeValidator: addr := pubKey.Address() // Log whether this node is a validator or an observer if state.Validators.HasAddress(addr) { consensusLogger.Info("This node is a validator", "addr", addr, "pubKey", pubKey.Bytes()) } else { consensusLogger.Info("This node is a validator (NOT in the active validator set)", "addr", addr, "pubKey", pubKey.Bytes()) } } } func onlyValidatorIsUs(state sm.State, pubKey crypto.PubKey) bool { if state.Validators.Size() > 1 { return false } addr, _ := state.Validators.GetByIndex(0) return pubKey != nil && bytes.Equal(pubKey.Address(), addr) } func createMempoolReactor( cfg *config.Config, proxyApp proxy.AppConns, state sm.State, memplMetrics *mempool.Metrics, peerManager *p2p.PeerManager, router *p2p.Router, logger log.Logger, ) (*p2p.ReactorShim, service.Service, mempool.Mempool, error) { logger = logger.With("module", "mempool", "version", cfg.Mempool.Version) channelShims := mempoolv0.GetChannelShims(cfg.Mempool) reactorShim := p2p.NewReactorShim(logger, "MempoolShim", channelShims) var ( channels map[p2p.ChannelID]*p2p.Channel peerUpdates *p2p.PeerUpdates ) if cfg.P2P.UseLegacy { channels = getChannelsFromShim(reactorShim) peerUpdates = reactorShim.PeerUpdates } else { channels = makeChannelsFromShims(router, channelShims) peerUpdates = peerManager.Subscribe() } switch cfg.Mempool.Version { case config.MempoolV0: mp := mempoolv0.NewCListMempool( cfg.Mempool, proxyApp.Mempool(), state.LastBlockHeight, mempoolv0.WithMetrics(memplMetrics), mempoolv0.WithPreCheck(sm.TxPreCheck(state)), mempoolv0.WithPostCheck(sm.TxPostCheck(state)), ) mp.SetLogger(logger) reactor := mempoolv0.NewReactor( logger, cfg.Mempool, peerManager, mp, channels[mempool.MempoolChannel], peerUpdates, ) if cfg.Consensus.WaitForTxs() { mp.EnableTxsAvailable() } return reactorShim, reactor, mp, nil case config.MempoolV1: mp := mempoolv1.NewTxMempool( logger, cfg.Mempool, proxyApp.Mempool(), state.LastBlockHeight, mempoolv1.WithMetrics(memplMetrics), mempoolv1.WithPreCheck(sm.TxPreCheck(state)), mempoolv1.WithPostCheck(sm.TxPostCheck(state)), ) reactor := mempoolv1.NewReactor( logger, cfg.Mempool, peerManager, mp, channels[mempool.MempoolChannel], peerUpdates, ) if cfg.Consensus.WaitForTxs() { mp.EnableTxsAvailable() } return reactorShim, reactor, mp, nil default: return nil, nil, nil, fmt.Errorf("unknown mempool version: %s", cfg.Mempool.Version) } } func createEvidenceReactor( cfg *config.Config, dbProvider config.DBProvider, stateDB dbm.DB, blockStore *store.BlockStore, peerManager *p2p.PeerManager, router *p2p.Router, logger log.Logger, ) (*p2p.ReactorShim, *evidence.Reactor, *evidence.Pool, error) { evidenceDB, err := dbProvider(&config.DBContext{ID: "evidence", Config: cfg}) if err != nil { return nil, nil, nil, fmt.Errorf("unable to initialize evidence db: %w", err) } logger = logger.With("module", "evidence") reactorShim := p2p.NewReactorShim(logger, "EvidenceShim", evidence.ChannelShims) evidencePool, err := evidence.NewPool(logger, evidenceDB, sm.NewStore(stateDB), blockStore) if err != nil { return nil, nil, nil, fmt.Errorf("creating evidence pool: %w", err) } var ( channels map[p2p.ChannelID]*p2p.Channel peerUpdates *p2p.PeerUpdates ) if cfg.P2P.UseLegacy { channels = getChannelsFromShim(reactorShim) peerUpdates = reactorShim.PeerUpdates } else { channels = makeChannelsFromShims(router, evidence.ChannelShims) peerUpdates = peerManager.Subscribe() } evidenceReactor := evidence.NewReactor( logger, channels[evidence.EvidenceChannel], peerUpdates, evidencePool, ) return reactorShim, evidenceReactor, evidencePool, nil } func createBlockchainReactor( logger log.Logger, cfg *config.Config, state sm.State, blockExec *sm.BlockExecutor, blockStore *store.BlockStore, csReactor *consensus.Reactor, peerManager *p2p.PeerManager, router *p2p.Router, blockSync bool, metrics *consensus.Metrics, ) (*p2p.ReactorShim, service.Service, error) { logger = logger.With("module", "blockchain") switch cfg.BlockSync.Version { case config.BlockSyncV0: reactorShim := p2p.NewReactorShim(logger, "BlockchainShim", bcv0.ChannelShims) var ( channels map[p2p.ChannelID]*p2p.Channel peerUpdates *p2p.PeerUpdates ) if cfg.P2P.UseLegacy { channels = getChannelsFromShim(reactorShim) peerUpdates = reactorShim.PeerUpdates } else { channels = makeChannelsFromShims(router, bcv0.ChannelShims) peerUpdates = peerManager.Subscribe() } reactor, err := bcv0.NewReactor( logger, state.Copy(), blockExec, blockStore, csReactor, channels[bcv0.BlockSyncChannel], peerUpdates, blockSync, metrics, ) if err != nil { return nil, nil, err } return reactorShim, reactor, nil case config.BlockSyncV2: return nil, nil, errors.New("block sync version v2 is no longer supported. Please use v0") default: return nil, nil, fmt.Errorf("unknown block sync version %s", cfg.BlockSync.Version) } } func createConsensusReactor( cfg *config.Config, state sm.State, blockExec *sm.BlockExecutor, blockStore sm.BlockStore, mp mempool.Mempool, evidencePool *evidence.Pool, privValidator types.PrivValidator, csMetrics *consensus.Metrics, waitSync bool, eventBus *types.EventBus, peerManager *p2p.PeerManager, router *p2p.Router, logger log.Logger, ) (*p2p.ReactorShim, *consensus.Reactor, *consensus.State) { consensusState := consensus.NewState( cfg.Consensus, state.Copy(), blockExec, blockStore, mp, evidencePool, consensus.StateMetrics(csMetrics), ) consensusState.SetLogger(logger) if privValidator != nil && cfg.Mode == config.ModeValidator { consensusState.SetPrivValidator(privValidator) } reactorShim := p2p.NewReactorShim(logger, "ConsensusShim", consensus.ChannelShims) var ( channels map[p2p.ChannelID]*p2p.Channel peerUpdates *p2p.PeerUpdates ) if cfg.P2P.UseLegacy { channels = getChannelsFromShim(reactorShim) peerUpdates = reactorShim.PeerUpdates } else { channels = makeChannelsFromShims(router, consensus.ChannelShims) peerUpdates = peerManager.Subscribe() } reactor := consensus.NewReactor( logger, consensusState, channels[consensus.StateChannel], channels[consensus.DataChannel], channels[consensus.VoteChannel], channels[consensus.VoteSetBitsChannel], peerUpdates, waitSync, consensus.ReactorMetrics(csMetrics), ) // Services which will be publishing and/or subscribing for messages (events) // consensusReactor will set it on consensusState and blockExecutor. reactor.SetEventBus(eventBus) return reactorShim, reactor, consensusState } func createTransport(logger log.Logger, cfg *config.Config) *p2p.MConnTransport { return p2p.NewMConnTransport( logger, p2p.MConnConfig(cfg.P2P), []*p2p.ChannelDescriptor{}, p2p.MConnTransportOptions{ MaxAcceptedConnections: uint32(cfg.P2P.MaxNumInboundPeers + len(tmstrings.SplitAndTrimEmpty(cfg.P2P.UnconditionalPeerIDs, ",", " ")), ), }, ) } func createPeerManager( cfg *config.Config, dbProvider config.DBProvider, p2pLogger log.Logger, nodeID types.NodeID, ) (*p2p.PeerManager, error) { selfAddr, err := p2p.ParseNodeAddress(nodeID.AddressString(cfg.P2P.ExternalAddress)) if err != nil { return nil, fmt.Errorf("couldn't parse ExternalAddress %q: %w", cfg.P2P.ExternalAddress, err) } var maxConns uint16 switch { case cfg.P2P.MaxConnections > 0: maxConns = cfg.P2P.MaxConnections case cfg.P2P.MaxNumInboundPeers > 0 && cfg.P2P.MaxNumOutboundPeers > 0: x := cfg.P2P.MaxNumInboundPeers + cfg.P2P.MaxNumOutboundPeers if x > math.MaxUint16 { return nil, fmt.Errorf( "max inbound peers (%d) + max outbound peers (%d) exceeds maximum (%d)", cfg.P2P.MaxNumInboundPeers, cfg.P2P.MaxNumOutboundPeers, math.MaxUint16, ) } maxConns = uint16(x) default: maxConns = 64 } privatePeerIDs := make(map[types.NodeID]struct{}) for _, id := range tmstrings.SplitAndTrimEmpty(cfg.P2P.PrivatePeerIDs, ",", " ") { privatePeerIDs[types.NodeID(id)] = struct{}{} } options := p2p.PeerManagerOptions{ SelfAddress: selfAddr, MaxConnected: maxConns, MaxConnectedUpgrade: 4, MaxPeers: 1000, MinRetryTime: 100 * time.Millisecond, MaxRetryTime: 8 * time.Hour, MaxRetryTimePersistent: 5 * time.Minute, RetryTimeJitter: 3 * time.Second, PrivatePeers: privatePeerIDs, } peers := []p2p.NodeAddress{} for _, p := range tmstrings.SplitAndTrimEmpty(cfg.P2P.PersistentPeers, ",", " ") { address, err := p2p.ParseNodeAddress(p) if err != nil { return nil, fmt.Errorf("invalid peer address %q: %w", p, err) } peers = append(peers, address) options.PersistentPeers = append(options.PersistentPeers, address.NodeID) } for _, p := range tmstrings.SplitAndTrimEmpty(cfg.P2P.BootstrapPeers, ",", " ") { address, err := p2p.ParseNodeAddress(p) if err != nil { return nil, fmt.Errorf("invalid peer address %q: %w", p, err) } peers = append(peers, address) } peerDB, err := dbProvider(&config.DBContext{ID: "peerstore", Config: cfg}) if err != nil { return nil, fmt.Errorf("unable to initialize peer store: %w", err) } peerManager, err := p2p.NewPeerManager(nodeID, peerDB, options) if err != nil { return nil, fmt.Errorf("failed to create peer manager: %w", err) } for _, peer := range peers { if _, err := peerManager.Add(peer); err != nil { return nil, fmt.Errorf("failed to add peer %q: %w", peer, err) } } return peerManager, nil } func createRouter( p2pLogger log.Logger, p2pMetrics *p2p.Metrics, nodeInfo types.NodeInfo, privKey crypto.PrivKey, peerManager *p2p.PeerManager, transport p2p.Transport, options p2p.RouterOptions, ) (*p2p.Router, error) { return p2p.NewRouter( p2pLogger, p2pMetrics, nodeInfo, privKey, peerManager, []p2p.Transport{transport}, options, ) } func createSwitch( cfg *config.Config, transport p2p.Transport, p2pMetrics *p2p.Metrics, mempoolReactor *p2p.ReactorShim, bcReactor p2p.Reactor, stateSyncReactor *p2p.ReactorShim, consensusReactor *p2p.ReactorShim, evidenceReactor *p2p.ReactorShim, proxyApp proxy.AppConns, nodeInfo types.NodeInfo, nodeKey types.NodeKey, p2pLogger log.Logger, ) *p2p.Switch { var ( connFilters = []p2p.ConnFilterFunc{} peerFilters = []p2p.PeerFilterFunc{} ) if !cfg.P2P.AllowDuplicateIP { connFilters = append(connFilters, p2p.ConnDuplicateIPFilter) } // Filter peers by addr or pubkey with an ABCI query. // If the query return code is OK, add peer. if cfg.FilterPeers { connFilters = append( connFilters, // ABCI query for address filtering. func(_ p2p.ConnSet, c net.Conn, _ []net.IP) error { res, err := proxyApp.Query().QuerySync(context.Background(), abci.RequestQuery{ Path: fmt.Sprintf("/p2p/filter/addr/%s", c.RemoteAddr().String()), }) if err != nil { return err } if res.IsErr() { return fmt.Errorf("error querying abci app: %v", res) } return nil }, ) peerFilters = append( peerFilters, // ABCI query for ID filtering. func(_ p2p.IPeerSet, p p2p.Peer) error { res, err := proxyApp.Query().QuerySync(context.Background(), abci.RequestQuery{ Path: fmt.Sprintf("/p2p/filter/id/%s", p.ID()), }) if err != nil { return err } if res.IsErr() { return fmt.Errorf("error querying abci app: %v", res) } return nil }, ) } sw := p2p.NewSwitch( cfg.P2P, transport, p2p.WithMetrics(p2pMetrics), p2p.SwitchPeerFilters(peerFilters...), p2p.SwitchConnFilters(connFilters...), ) sw.SetLogger(p2pLogger) if cfg.Mode != config.ModeSeed { sw.AddReactor("MEMPOOL", mempoolReactor) sw.AddReactor("BLOCKCHAIN", bcReactor) sw.AddReactor("CONSENSUS", consensusReactor) sw.AddReactor("EVIDENCE", evidenceReactor) sw.AddReactor("STATESYNC", stateSyncReactor) } sw.SetNodeInfo(nodeInfo) sw.SetNodeKey(nodeKey) p2pLogger.Info("P2P Node ID", "ID", nodeKey.ID, "file", cfg.NodeKeyFile()) return sw } func createAddrBookAndSetOnSwitch(cfg *config.Config, sw *p2p.Switch, p2pLogger log.Logger, nodeKey types.NodeKey) (pex.AddrBook, error) { addrBook := pex.NewAddrBook(cfg.P2P.AddrBookFile(), cfg.P2P.AddrBookStrict) addrBook.SetLogger(p2pLogger.With("book", cfg.P2P.AddrBookFile())) // Add ourselves to addrbook to prevent dialing ourselves if cfg.P2P.ExternalAddress != "" { addr, err := types.NewNetAddressString(nodeKey.ID.AddressString(cfg.P2P.ExternalAddress)) if err != nil { return nil, fmt.Errorf("p2p.external_address is incorrect: %w", err) } addrBook.AddOurAddress(addr) } if cfg.P2P.ListenAddress != "" { addr, err := types.NewNetAddressString(nodeKey.ID.AddressString(cfg.P2P.ListenAddress)) if err != nil { return nil, fmt.Errorf("p2p.laddr is incorrect: %w", err) } addrBook.AddOurAddress(addr) } sw.SetAddrBook(addrBook) return addrBook, nil } func createPEXReactorAndAddToSwitch(addrBook pex.AddrBook, cfg *config.Config, sw *p2p.Switch, logger log.Logger) *pex.Reactor { reactorConfig := &pex.ReactorConfig{ Seeds: tmstrings.SplitAndTrimEmpty(cfg.P2P.Seeds, ",", " "), //nolint: staticcheck SeedMode: cfg.Mode == config.ModeSeed, // See consensus/reactor.go: blocksToContributeToBecomeGoodPeer 10000 // blocks assuming 10s blocks ~ 28 hours. // TODO (melekes): make it dynamic based on the actual block latencies // from the live network. // https://github.com/tendermint/tendermint/issues/3523 SeedDisconnectWaitPeriod: 28 * time.Hour, PersistentPeersMaxDialPeriod: cfg.P2P.PersistentPeersMaxDialPeriod, } // TODO persistent peers ? so we can have their DNS addrs saved pexReactor := pex.NewReactor(addrBook, reactorConfig) pexReactor.SetLogger(logger.With("module", "pex")) sw.AddReactor("PEX", pexReactor) return pexReactor } func createPEXReactorV2( cfg *config.Config, logger log.Logger, peerManager *p2p.PeerManager, router *p2p.Router, ) (service.Service, error) { channel, err := router.OpenChannel(pex.ChannelDescriptor(), &protop2p.PexMessage{}, 128) if err != nil { return nil, err } peerUpdates := peerManager.Subscribe() return pex.NewReactorV2(logger, peerManager, channel, peerUpdates), nil } func makeNodeInfo( cfg *config.Config, nodeKey types.NodeKey, eventSinks []indexer.EventSink, genDoc *types.GenesisDoc, state sm.State, ) (types.NodeInfo, error) { txIndexerStatus := "off" if indexer.IndexingEnabled(eventSinks) { txIndexerStatus = "on" } var bcChannel byte switch cfg.BlockSync.Version { case config.BlockSyncV0: bcChannel = byte(bcv0.BlockSyncChannel) case config.BlockSyncV2: bcChannel = bcv2.BlockchainChannel default: return types.NodeInfo{}, fmt.Errorf("unknown blocksync version %s", cfg.BlockSync.Version) } nodeInfo := types.NodeInfo{ ProtocolVersion: types.ProtocolVersion{ P2P: version.P2PProtocol, // global Block: state.Version.Consensus.Block, App: state.Version.Consensus.App, }, NodeID: nodeKey.ID, Network: genDoc.ChainID, Version: version.TMVersion, Channels: []byte{ bcChannel, byte(consensus.StateChannel), byte(consensus.DataChannel), byte(consensus.VoteChannel), byte(consensus.VoteSetBitsChannel), byte(mempool.MempoolChannel), byte(evidence.EvidenceChannel), byte(statesync.SnapshotChannel), byte(statesync.ChunkChannel), byte(statesync.LightBlockChannel), byte(statesync.ParamsChannel), }, Moniker: cfg.Moniker, Other: types.NodeInfoOther{ TxIndex: txIndexerStatus, RPCAddress: cfg.RPC.ListenAddress, }, } if cfg.P2P.PexReactor { nodeInfo.Channels = append(nodeInfo.Channels, pex.PexChannel) } lAddr := cfg.P2P.ExternalAddress if lAddr == "" { lAddr = cfg.P2P.ListenAddress } nodeInfo.ListenAddr = lAddr err := nodeInfo.Validate() return nodeInfo, err } func makeSeedNodeInfo( cfg *config.Config, nodeKey types.NodeKey, genDoc *types.GenesisDoc, state sm.State, ) (types.NodeInfo, error) { nodeInfo := types.NodeInfo{ ProtocolVersion: types.ProtocolVersion{ P2P: version.P2PProtocol, // global Block: state.Version.Consensus.Block, App: state.Version.Consensus.App, }, NodeID: nodeKey.ID, Network: genDoc.ChainID, Version: version.TMVersion, Channels: []byte{}, Moniker: cfg.Moniker, Other: types.NodeInfoOther{ TxIndex: "off", RPCAddress: cfg.RPC.ListenAddress, }, } if cfg.P2P.PexReactor { nodeInfo.Channels = append(nodeInfo.Channels, pex.PexChannel) } lAddr := cfg.P2P.ExternalAddress if lAddr == "" { lAddr = cfg.P2P.ListenAddress } nodeInfo.ListenAddr = lAddr err := nodeInfo.Validate() return nodeInfo, err }