package node import ( "context" "net/http" "sync" "time" "github.com/ethereum/go-ethereum/ethclient" "github.com/gin-contrib/cors" "github.com/gin-gonic/gin" "github.com/hermeznetwork/hermez-node/api" "github.com/hermeznetwork/hermez-node/batchbuilder" "github.com/hermeznetwork/hermez-node/common" "github.com/hermeznetwork/hermez-node/config" "github.com/hermeznetwork/hermez-node/coordinator" dbUtils "github.com/hermeznetwork/hermez-node/db" "github.com/hermeznetwork/hermez-node/db/historydb" "github.com/hermeznetwork/hermez-node/db/l2db" "github.com/hermeznetwork/hermez-node/db/statedb" "github.com/hermeznetwork/hermez-node/eth" "github.com/hermeznetwork/hermez-node/log" "github.com/hermeznetwork/hermez-node/synchronizer" "github.com/hermeznetwork/hermez-node/test/debugapi" "github.com/hermeznetwork/hermez-node/txselector" "github.com/jmoiron/sqlx" ) // Mode sets the working mode of the node (synchronizer or coordinator) type Mode string const ( // ModeCoordinator defines the mode of the HermezNode as Coordinator, which // means that the node is set to forge (which also will be synchronizing with // the L1 blockchain state) ModeCoordinator Mode = "coordinator" // ModeSynchronizer defines the mode of the HermezNode as Synchronizer, which // means that the node is set to only synchronize with the L1 blockchain state // and will not forge ModeSynchronizer Mode = "synchronizer" ) // Node is the Hermez Node type Node struct { nodeAPI *NodeAPI debugAPI *debugapi.DebugAPI // Coordinator coord *coordinator.Coordinator coordCfg *config.Coordinator // Synchronizer sync *synchronizer.Synchronizer // General cfg *config.Node mode Mode sqlConn *sqlx.DB ctx context.Context wg sync.WaitGroup cancel context.CancelFunc } // NewNode creates a Node func NewNode(mode Mode, cfg *config.Node, coordCfg *config.Coordinator) (*Node, error) { // Stablish DB connection db, err := dbUtils.InitSQLDB( cfg.PostgreSQL.Port, cfg.PostgreSQL.Host, cfg.PostgreSQL.User, cfg.PostgreSQL.Password, cfg.PostgreSQL.Name, ) if err != nil { return nil, err } historyDB := historydb.NewHistoryDB(db) stateDB, err := statedb.NewStateDB(cfg.StateDB.Path, statedb.TypeSynchronizer, 32) if err != nil { return nil, err } ethClient, err := ethclient.Dial(cfg.Web3.URL) if err != nil { return nil, err } var ethCfg eth.EthereumConfig if mode == ModeCoordinator { ethCfg = eth.EthereumConfig{ CallGasLimit: coordCfg.EthClient.CallGasLimit, DeployGasLimit: coordCfg.EthClient.DeployGasLimit, GasPriceDiv: coordCfg.EthClient.GasPriceDiv, ReceiptTimeout: coordCfg.EthClient.ReceiptTimeout.Duration, IntervalReceiptLoop: coordCfg.EthClient.IntervalReceiptLoop.Duration, } } client, err := eth.NewClient(ethClient, nil, nil, ð.ClientConfig{ Ethereum: ethCfg, Rollup: eth.RollupConfig{ Address: cfg.SmartContracts.Rollup, }, Auction: eth.AuctionConfig{ Address: cfg.SmartContracts.Auction, TokenHEZ: eth.TokenConfig{ Address: cfg.SmartContracts.TokenHEZ, Name: cfg.SmartContracts.TokenHEZName, }, }, WDelayer: eth.WDelayerConfig{ Address: cfg.SmartContracts.WDelayer, }, }) if err != nil { return nil, err } sync, err := synchronizer.NewSynchronizer(client, historyDB, stateDB, synchronizer.Config{ StartBlockNum: cfg.Synchronizer.StartBlockNum, InitialVariables: cfg.Synchronizer.InitialVariables, StatsRefreshPeriod: cfg.Synchronizer.StatsRefreshPeriod.Duration, }) if err != nil { return nil, err } varsRollup, varsAuction, varsWDelayer := sync.SCVars() initSCVars := synchronizer.SCVariables{ Rollup: *varsRollup, Auction: *varsAuction, WDelayer: *varsWDelayer, } scConsts := synchronizer.SCConsts{ Rollup: *sync.RollupConstants(), Auction: *sync.AuctionConstants(), WDelayer: *sync.WDelayerConstants(), } var coord *coordinator.Coordinator var l2DB *l2db.L2DB if mode == ModeCoordinator { l2DB = l2db.NewL2DB( db, coordCfg.L2DB.SafetyPeriod, coordCfg.L2DB.MaxTxs, coordCfg.L2DB.TTL.Duration, ) // TODO: Get (maxL1UserTxs, maxL1OperatorTxs, maxTxs) from the smart contract txSelector, err := txselector.NewTxSelector(coordCfg.TxSelector.Path, stateDB, l2DB, 10, 10, 10) if err != nil { return nil, err } // TODO: Get (configCircuits []ConfigCircuit, batchNum common.BatchNum, nLevels uint64) from smart contract nLevels := uint64(32) //nolint:gomnd batchBuilder, err := batchbuilder.NewBatchBuilder(coordCfg.BatchBuilder.Path, stateDB, nil, 0, nLevels) if err != nil { return nil, err } if err != nil { return nil, err } serverProofs := make([]coordinator.ServerProofInterface, len(coordCfg.ServerProofs)) for i, serverProofCfg := range coordCfg.ServerProofs { serverProofs[i] = coordinator.NewServerProof(serverProofCfg.URL) } coord = coordinator.NewCoordinator( coordinator.Config{ ForgerAddress: coordCfg.ForgerAddress, ConfirmBlocks: coordCfg.ConfirmBlocks, }, historyDB, txSelector, batchBuilder, serverProofs, client, &scConsts, &initSCVars, ) } var nodeAPI *NodeAPI if cfg.API.Address != "" { server := gin.Default() coord := false if mode == ModeCoordinator { coord = coordCfg.API.Coordinator } var err error nodeAPI, err = NewNodeAPI( cfg.API.Address, coord, cfg.API.Explorer, server, historyDB, stateDB, l2DB, &api.Config{ RollupConstants: scConsts.Rollup, AuctionConstants: scConsts.Auction, WDelayerConstants: scConsts.WDelayer, }, ) if err != nil { return nil, err } nodeAPI.api.SetRollupVariables(initSCVars.Rollup) nodeAPI.api.SetAuctionVariables(initSCVars.Auction) nodeAPI.api.SetWDelayerVariables(initSCVars.WDelayer) } var debugAPI *debugapi.DebugAPI if cfg.Debug.APIAddress != "" { debugAPI = debugapi.NewDebugAPI(cfg.Debug.APIAddress, stateDB, sync) } ctx, cancel := context.WithCancel(context.Background()) return &Node{ nodeAPI: nodeAPI, debugAPI: debugAPI, coord: coord, coordCfg: coordCfg, sync: sync, cfg: cfg, mode: mode, sqlConn: db, ctx: ctx, cancel: cancel, }, nil } // NodeAPI holds the node http API type NodeAPI struct { //nolint:golint api *api.API engine *gin.Engine addr string } func handleNoRoute(c *gin.Context) { c.JSON(http.StatusNotFound, gin.H{ "error": "404 page not found", }) } // NewNodeAPI creates a new NodeAPI (which internally calls api.NewAPI) func NewNodeAPI( addr string, coordinatorEndpoints, explorerEndpoints bool, server *gin.Engine, hdb *historydb.HistoryDB, sdb *statedb.StateDB, l2db *l2db.L2DB, config *api.Config, ) (*NodeAPI, error) { engine := gin.Default() engine.NoRoute(handleNoRoute) engine.Use(cors.Default()) _api, err := api.NewAPI( coordinatorEndpoints, explorerEndpoints, engine, hdb, sdb, l2db, config, ) if err != nil { return nil, err } return &NodeAPI{ addr: addr, api: _api, engine: engine, }, nil } // Run starts the http server of the NodeAPI. To stop it, pass a context with // cancelation. func (a *NodeAPI) Run(ctx context.Context) error { server := &http.Server{ Addr: a.addr, Handler: a.engine, // TODO: Figure out best parameters for production ReadTimeout: 30 * time.Second, //nolint:gomnd WriteTimeout: 30 * time.Second, //nolint:gomnd MaxHeaderBytes: 1 << 20, //nolint:gomnd } go func() { log.Infof("NodeAPI is ready at %v", a.addr) if err := server.ListenAndServe(); err != nil && err != http.ErrServerClosed { log.Fatalf("Listen: %s\n", err) } }() <-ctx.Done() log.Info("Stopping NodeAPI...") ctxTimeout, cancel := context.WithTimeout(context.Background(), 10*time.Second) //nolint:gomnd defer cancel() if err := server.Shutdown(ctxTimeout); err != nil { return err } log.Info("NodeAPI done") return nil } // TODO(Edu): Consider keeping the `lastBlock` inside synchronizer so that we // don't have to pass it around. func (n *Node) syncLoopFn(lastBlock *common.Block) (*common.Block, time.Duration) { if blockData, discarded, err := n.sync.Sync2(n.ctx, lastBlock); err != nil { // case: error log.Errorw("Synchronizer.Sync", "error", err) return nil, n.cfg.Synchronizer.SyncLoopInterval.Duration } else if discarded != nil { // case: reorg log.Infow("Synchronizer.Sync reorg", "discarded", *discarded) if n.mode == ModeCoordinator { n.coord.SendMsg(coordinator.MsgSyncReorg{}) } if n.nodeAPI != nil { rollup, auction, wDelayer := n.sync.SCVars() n.nodeAPI.api.SetRollupVariables(*rollup) n.nodeAPI.api.SetAuctionVariables(*auction) n.nodeAPI.api.SetWDelayerVariables(*wDelayer) // TODO: n.nodeAPI.api.UpdateNetworkInfo() } return nil, time.Duration(0) } else if blockData != nil { // case: new block stats := n.sync.Stats() if n.mode == ModeCoordinator { if stats.Synced() && (blockData.Rollup.Vars != nil || blockData.Auction.Vars != nil || blockData.WDelayer.Vars != nil) { n.coord.SendMsg(coordinator.MsgSyncSCVars{ Rollup: blockData.Rollup.Vars, Auction: blockData.Auction.Vars, WDelayer: blockData.WDelayer.Vars, }) } n.coord.SendMsg(coordinator.MsgSyncStats{ Stats: *stats, }) } if n.nodeAPI != nil { if blockData.Rollup.Vars != nil { n.nodeAPI.api.SetRollupVariables(*blockData.Rollup.Vars) } if blockData.Auction.Vars != nil { n.nodeAPI.api.SetAuctionVariables(*blockData.Auction.Vars) } if blockData.WDelayer.Vars != nil { n.nodeAPI.api.SetWDelayerVariables(*blockData.WDelayer.Vars) } // TODO: n.nodeAPI.api.UpdateNetworkInfo() } return &blockData.Block, time.Duration(0) } else { // case: no block return lastBlock, n.cfg.Synchronizer.SyncLoopInterval.Duration } } // StartSynchronizer starts the synchronizer func (n *Node) StartSynchronizer() { log.Info("Starting Synchronizer...") n.wg.Add(1) go func() { var lastBlock *common.Block waitDuration := time.Duration(0) for { select { case <-n.ctx.Done(): log.Info("Synchronizer done") n.wg.Done() return case <-time.After(waitDuration): lastBlock, waitDuration = n.syncLoopFn(lastBlock) } } }() // TODO: Run price updater. This is required by the API and the TxSelector } // StartDebugAPI starts the DebugAPI func (n *Node) StartDebugAPI() { log.Info("Starting DebugAPI...") n.wg.Add(1) go func() { defer func() { log.Info("DebugAPI routine stopped") n.wg.Done() }() if err := n.debugAPI.Run(n.ctx); err != nil { log.Fatalw("DebugAPI.Run", "err", err) } }() } // StartNodeAPI starts the NodeAPI func (n *Node) StartNodeAPI() { log.Info("Starting NodeAPI...") n.wg.Add(1) go func() { defer func() { log.Info("NodeAPI routine stopped") n.wg.Done() }() if err := n.nodeAPI.Run(n.ctx); err != nil { log.Fatalw("NodeAPI.Run", "err", err) } }() } // Start the node func (n *Node) Start() { log.Infow("Starting node...", "mode", n.mode) if n.debugAPI != nil { n.StartDebugAPI() } if n.nodeAPI != nil { n.StartNodeAPI() } if n.mode == ModeCoordinator { log.Info("Starting Coordinator...") n.coord.Start() } n.StartSynchronizer() } // Stop the node func (n *Node) Stop() { log.Infow("Stopping node...") n.cancel() if n.mode == ModeCoordinator { log.Info("Stopping Coordinator...") n.coord.Stop() } n.wg.Wait() }