package geth import ( "errors" "fmt" "io" "os" "path" "reflect" "runtime" "runtime/debug" "strings" "syscall" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/les" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p/discover" "github.com/ethereum/go-ethereum/p2p/discv5" "github.com/ethereum/go-ethereum/p2p/nat" gethparams "github.com/ethereum/go-ethereum/params" whisper "github.com/ethereum/go-ethereum/whisper/whisperv2" "github.com/status-im/status-go/geth/params" ) const ( EventNodeStarted = "node.started" EventNodeCrashed = "node.crashed" ) // node-related errors var ( ErrEthServiceRegistrationFailure = errors.New("failed to register the Ethereum service") ErrSshServiceRegistrationFailure = errors.New("failed to register the Whisper service") ErrLightEthRegistrationFailure = errors.New("failed to register the LES service") ) // Node represents running node (serves as a wrapper around P2P node) type Node struct { config *params.NodeConfig // configuration used to create Status node geth *node.Node // reference to the running Geth node gethConfig *node.Config // configuration used to create P2P node started chan struct{} // channel to wait for node to start } // Inited checks whether status node has been properly initialized func (n *Node) Inited() bool { return n != nil && n.geth != nil } // GethStack returns reference to Geth stack func (n *Node) GethStack() *node.Node { return n.geth } // MakeNode create a geth node entity func MakeNode(config *params.NodeConfig) *Node { // setup logging glog.CopyStandardLogTo("INFO") glog.SetToStderr(true) if _, err := params.SetupLogger(config); err != nil { Fatalf(err) } // configure required node (should you need to update node's config, e.g. add bootstrap nodes, see node.Config) stackConfig := &node.Config{ DataDir: config.DataDir, UseLightweightKDF: true, Name: config.Name, Version: config.Version, NoDiscovery: true, DiscoveryV5: false, DiscoveryV5Addr: ":0", BootstrapNodes: makeBootstrapNodes(), BootstrapNodesV5: makeBootstrapNodesV5(), ListenAddr: ":0", NAT: nat.Any(), MaxPeers: config.MaxPeers, MaxPendingPeers: config.MaxPendingPeers, IPCPath: makeIPCPath(config), HTTPHost: config.HTTPHost, HTTPPort: config.HTTPPort, HTTPCors: "*", HTTPModules: strings.Split(config.APIModules, ","), WSHost: makeWSHost(config), WSPort: config.WSPort, WSOrigins: "*", WSModules: strings.Split(config.APIModules, ","), } stack, err := node.New(stackConfig) if err != nil { Fatalf(ErrNodeMakeFailure) } // start Ethereum service if err := activateEthService(stack, config); err != nil { Fatalf(fmt.Errorf("%v: %v", ErrEthServiceRegistrationFailure, err)) } // start Whisper service if err := activateShhService(stack, config); err != nil { Fatalf(fmt.Errorf("%v: %v", ErrSshServiceRegistrationFailure, err)) } return &Node{ geth: stack, gethConfig: stackConfig, started: make(chan struct{}), config: config, } } // activateEthService configures and registers the eth.Ethereum service with a given node. func activateEthService(stack *node.Node, config *params.NodeConfig) error { ethConf := ð.Config{ Etherbase: common.Address{}, ChainConfig: makeChainConfig(config), FastSync: false, LightMode: true, MaxPeers: config.MaxPeers, DatabaseCache: config.LightEthConfig.DatabaseCache, DatabaseHandles: makeDatabaseHandles(), NetworkId: config.NetworkId, Genesis: config.LightEthConfig.Genesis, MinerThreads: runtime.NumCPU(), GasPrice: params.GasPrice, GpoMinGasPrice: params.GpoMinGasPrice, GpoMaxGasPrice: params.GpoMaxGasPrice, GpoFullBlockRatio: params.GpoFullBlockRatio, GpobaseStepDown: params.GpobaseStepDown, GpobaseStepUp: params.GpobaseStepUp, GpobaseCorrectionFactor: params.GpobaseCorrectionFactor, SolcPath: "solc", AutoDAG: false, } if err := stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { return les.New(ctx, ethConf) }); err != nil { return fmt.Errorf("%v: %v", ErrLightEthRegistrationFailure, err) } return nil } // activateShhService configures Whisper and adds it to the given node. func activateShhService(stack *node.Node, config *params.NodeConfig) error { serviceConstructor := func(*node.ServiceContext) (node.Service, error) { return whisper.New(), nil } if err := stack.Register(serviceConstructor); err != nil { return err } return nil } // makeIPCPath returns IPC-RPC filename func makeIPCPath(config *params.NodeConfig) string { if !config.IPCEnabled { return "" } return path.Join(config.DataDir, config.IPCFile) } // makeWSHost returns WS-RPC Server host, given enabled/disabled flag func makeWSHost(config *params.NodeConfig) string { if !config.WSEnabled { return "" } return config.WSHost } // makeChainConfig reads the chain configuration from the database in the datadir. func makeChainConfig(config *params.NodeConfig) *gethparams.ChainConfig { chainConfig := new(gethparams.ChainConfig) // Homestead fork chainConfig.HomesteadBlock = config.HomesteadBlock // DAO fork chainConfig.DAOForkBlock = config.DAOForkBlock chainConfig.DAOForkSupport = config.DAOForkSupport // DoS reprice fork chainConfig.EIP150Block = config.EIP150Block chainConfig.EIP150Hash = config.EIP150Hash // DoS state cleanup fork chainConfig.EIP155Block = config.EIP155Block chainConfig.EIP158Block = config.EIP158Block chainConfig.ChainId = config.ChainId return chainConfig } // makeDatabaseHandles makes sure that enough file descriptors are available to the process // (and returns half of them for node's database to use) func makeDatabaseHandles() int { // current limit var limit syscall.Rlimit if err := syscall.Getrlimit(syscall.RLIMIT_NOFILE, &limit); err != nil { Fatalf(err) } // increase limit limit.Cur = limit.Max if limit.Cur > params.DefaultFileDescriptorLimit { limit.Cur = params.DefaultFileDescriptorLimit } if err := syscall.Setrlimit(syscall.RLIMIT_NOFILE, &limit); err != nil { Fatalf(err) } // re-query limit if err := syscall.Getrlimit(syscall.RLIMIT_NOFILE, &limit); err != nil { Fatalf(err) } // cap limit if limit.Cur > params.DefaultFileDescriptorLimit { limit.Cur = params.DefaultFileDescriptorLimit } return int(limit.Cur) / 2 } // makeBootstrapNodes returns default (hence bootstrap) list of peers func makeBootstrapNodes() []*discover.Node { // on desktops params.TestnetBootnodes and params.MainBootnodes, // on mobile client we deliberately keep this list empty enodes := []string{} var bootstapNodes []*discover.Node for _, enode := range enodes { bootstapNodes = append(bootstapNodes, discover.MustParseNode(enode)) } return bootstapNodes } // makeBootstrapNodesV5 returns default (hence bootstrap) list of peers func makeBootstrapNodesV5() []*discv5.Node { // on desktops params.DiscoveryV5Bootnodes, // on mobile client we deliberately keep this list empty enodes := []string{} var bootstapNodes []*discv5.Node for _, enode := range enodes { bootstapNodes = append(bootstapNodes, discv5.MustParseNode(enode)) } return bootstapNodes } func Fatalf(reason interface{}, args ...interface{}) { // decide on output stream w := io.MultiWriter(os.Stdout, os.Stderr) outf, _ := os.Stdout.Stat() errf, _ := os.Stderr.Stat() if outf != nil && errf != nil && os.SameFile(outf, errf) { w = os.Stderr } // find out whether error or string has been passed as a reason r := reflect.ValueOf(reason) if r.Kind() == reflect.String { fmt.Fprintf(w, "Fatal Failure: "+reason.(string)+"\n", args) } else { fmt.Fprintf(w, "Fatal Failure: %v\n", reason.(error)) } debug.PrintStack() os.Exit(1) } // HaltOnPanic recovers from panic, logs issue, sends upward notification, and exits func HaltOnPanic() { if r := recover(); r != nil { err := fmt.Errorf("%v: %v", ErrNodeStartFailure, r) // send signal up to native app SendSignal(SignalEnvelope{ Type: EventNodeCrashed, Event: NodeCrashEvent{ Error: err.Error(), }, }) Fatalf(err) // os.exit(1) is called internally } }