// Copyright 2015 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . // Package node represents the Ethereum protocol stack container. package node import ( "errors" "net" "os" "path/filepath" "reflect" "sync" "syscall" "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/internal/debug" "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/p2p" "github.com/ethereum/go-ethereum/rpc" ) var ( ErrDatadirUsed = errors.New("datadir already used") ErrNodeStopped = errors.New("node not started") ErrNodeRunning = errors.New("node already running") ErrServiceUnknown = errors.New("unknown service") datadirInUseErrnos = map[uint]bool{11: true, 32: true, 35: true} ) // Node represents a P2P node into which arbitrary (uniquely typed) services might // be registered. type Node struct { datadir string // Path to the currently used data directory eventmux *event.TypeMux // Event multiplexer used between the services of a stack serverConfig p2p.Config server *p2p.Server // Currently running P2P networking layer serviceFuncs []ServiceConstructor // Service constructors (in dependency order) services map[reflect.Type]Service // Currently running services rpcAPIs []rpc.API // List of APIs currently provided by the node inprocHandler *rpc.Server // In-process RPC request handler to process the API requests ipcEndpoint string // IPC endpoint to listen at (empty = IPC disabled) ipcListener net.Listener // IPC RPC listener socket to serve API requests ipcHandler *rpc.Server // IPC RPC request handler to process the API requests httpHost string // HTTP hostname httpPort int // HTTP post httpEndpoint string // HTTP endpoint (interface + port) to listen at (empty = HTTP disabled) httpWhitelist []string // HTTP RPC modules to allow through this endpoint httpCors string // HTTP RPC Cross-Origin Resource Sharing header httpListener net.Listener // HTTP RPC listener socket to server API requests httpHandler *rpc.Server // HTTP RPC request handler to process the API requests wsHost string // Websocket host wsPort int // Websocket post wsEndpoint string // Websocket endpoint (interface + port) to listen at (empty = websocket disabled) wsWhitelist []string // Websocket RPC modules to allow through this endpoint wsOrigins string // Websocket RPC allowed origin domains wsListener net.Listener // Websocket RPC listener socket to server API requests wsHandler *rpc.Server // Websocket RPC request handler to process the API requests stop chan struct{} // Channel to wait for termination notifications lock sync.RWMutex } // New creates a new P2P node, ready for protocol registration. func New(conf *Config) (*Node, error) { // Ensure the data directory exists, failing if it cannot be created if conf.DataDir != "" { if err := os.MkdirAll(conf.DataDir, 0700); err != nil { return nil, err } } // Assemble the networking layer and the node itself nodeDbPath := "" if conf.DataDir != "" { nodeDbPath = filepath.Join(conf.DataDir, datadirNodeDatabase) } return &Node{ datadir: conf.DataDir, serverConfig: p2p.Config{ PrivateKey: conf.NodeKey(), Name: conf.Name, Discovery: !conf.NoDiscovery, BootstrapNodes: conf.BootstrapNodes, StaticNodes: conf.StaticNodes(), TrustedNodes: conf.TrusterNodes(), NodeDatabase: nodeDbPath, ListenAddr: conf.ListenAddr, NAT: conf.NAT, Dialer: conf.Dialer, NoDial: conf.NoDial, MaxPeers: conf.MaxPeers, MaxPendingPeers: conf.MaxPendingPeers, }, serviceFuncs: []ServiceConstructor{}, ipcEndpoint: conf.IPCEndpoint(), httpHost: conf.HTTPHost, httpPort: conf.HTTPPort, httpEndpoint: conf.HTTPEndpoint(), httpWhitelist: conf.HTTPModules, httpCors: conf.HTTPCors, wsHost: conf.WSHost, wsPort: conf.WSPort, wsEndpoint: conf.WSEndpoint(), wsWhitelist: conf.WSModules, wsOrigins: conf.WSOrigins, eventmux: new(event.TypeMux), }, nil } // Register injects a new service into the node's stack. The service created by // the passed constructor must be unique in its type with regard to sibling ones. func (n *Node) Register(constructor ServiceConstructor) error { n.lock.Lock() defer n.lock.Unlock() if n.server != nil { return ErrNodeRunning } n.serviceFuncs = append(n.serviceFuncs, constructor) return nil } // Start create a live P2P node and starts running it. func (n *Node) Start() error { n.lock.Lock() defer n.lock.Unlock() // Short circuit if the node's already running if n.server != nil { return ErrNodeRunning } // Otherwise copy and specialize the P2P configuration running := &p2p.Server{Config: n.serverConfig} services := make(map[reflect.Type]Service) for _, constructor := range n.serviceFuncs { // Create a new context for the particular service ctx := &ServiceContext{ datadir: n.datadir, services: make(map[reflect.Type]Service), EventMux: n.eventmux, } for kind, s := range services { // copy needed for threaded access ctx.services[kind] = s } // Construct and save the service service, err := constructor(ctx) if err != nil { return err } kind := reflect.TypeOf(service) if _, exists := services[kind]; exists { return &DuplicateServiceError{Kind: kind} } services[kind] = service } // Gather the protocols and start the freshly assembled P2P server for _, service := range services { running.Protocols = append(running.Protocols, service.Protocols()...) } if err := running.Start(); err != nil { if errno, ok := err.(syscall.Errno); ok && datadirInUseErrnos[uint(errno)] { return ErrDatadirUsed } return err } // Start each of the services started := []reflect.Type{} for kind, service := range services { // Start the next service, stopping all previous upon failure if err := service.Start(running); err != nil { for _, kind := range started { services[kind].Stop() } running.Stop() return err } // Mark the service started for potential cleanup started = append(started, kind) } // Lastly start the configured RPC interfaces if err := n.startRPC(services); err != nil { for _, service := range services { service.Stop() } running.Stop() return err } // Finish initializing the startup n.services = services n.server = running n.stop = make(chan struct{}) return nil } // startRPC is a helper method to start all the various RPC endpoint during node // startup. It's not meant to be called at any time afterwards as it makes certain // assumptions about the state of the node. func (n *Node) startRPC(services map[reflect.Type]Service) error { // Gather all the possible APIs to surface apis := n.apis() for _, service := range services { apis = append(apis, service.APIs()...) } // Start the various API endpoints, terminating all in case of errors if err := n.startInProc(apis); err != nil { return err } if err := n.startIPC(apis); err != nil { n.stopInProc() return err } if err := n.startHTTP(n.httpEndpoint, apis, n.httpWhitelist, n.httpCors); err != nil { n.stopIPC() n.stopInProc() return err } if err := n.startWS(n.wsEndpoint, apis, n.wsWhitelist, n.wsOrigins); err != nil { n.stopHTTP() n.stopIPC() n.stopInProc() return err } // All API endpoints started successfully n.rpcAPIs = apis return nil } // startInProc initializes an in-process RPC endpoint. func (n *Node) startInProc(apis []rpc.API) error { // Register all the APIs exposed by the services handler := rpc.NewServer() for _, api := range apis { if err := handler.RegisterName(api.Namespace, api.Service); err != nil { return err } glog.V(logger.Debug).Infof("InProc registered %T under '%s'", api.Service, api.Namespace) } n.inprocHandler = handler return nil } // stopInProc terminates the in-process RPC endpoint. func (n *Node) stopInProc() { if n.inprocHandler != nil { n.inprocHandler.Stop() n.inprocHandler = nil } } // startIPC initializes and starts the IPC RPC endpoint. func (n *Node) startIPC(apis []rpc.API) error { // Short circuit if the IPC endpoint isn't being exposed if n.ipcEndpoint == "" { return nil } // Register all the APIs exposed by the services handler := rpc.NewServer() for _, api := range apis { if err := handler.RegisterName(api.Namespace, api.Service); err != nil { return err } glog.V(logger.Debug).Infof("IPC registered %T under '%s'", api.Service, api.Namespace) } // All APIs registered, start the IPC listener var ( listener net.Listener err error ) if listener, err = rpc.CreateIPCListener(n.ipcEndpoint); err != nil { return err } go func() { glog.V(logger.Info).Infof("IPC endpoint opened: %s", n.ipcEndpoint) for { conn, err := listener.Accept() if err != nil { // Terminate if the listener was closed n.lock.RLock() closed := n.ipcListener == nil n.lock.RUnlock() if closed { return } // Not closed, just some error; report and continue glog.V(logger.Error).Infof("IPC accept failed: %v", err) continue } go handler.ServeCodec(rpc.NewJSONCodec(conn), rpc.OptionMethodInvocation|rpc.OptionSubscriptions) } }() // All listeners booted successfully n.ipcListener = listener n.ipcHandler = handler return nil } // stopIPC terminates the IPC RPC endpoint. func (n *Node) stopIPC() { if n.ipcListener != nil { n.ipcListener.Close() n.ipcListener = nil glog.V(logger.Info).Infof("IPC endpoint closed: %s", n.ipcEndpoint) } if n.ipcHandler != nil { n.ipcHandler.Stop() n.ipcHandler = nil } } // startHTTP initializes and starts the HTTP RPC endpoint. func (n *Node) startHTTP(endpoint string, apis []rpc.API, modules []string, cors string) error { // Short circuit if the HTTP endpoint isn't being exposed if endpoint == "" { return nil } // Generate the whitelist based on the allowed modules whitelist := make(map[string]bool) for _, module := range modules { whitelist[module] = true } // Register all the APIs exposed by the services handler := rpc.NewServer() for _, api := range apis { if whitelist[api.Namespace] || (len(whitelist) == 0 && api.Public) { if err := handler.RegisterName(api.Namespace, api.Service); err != nil { return err } glog.V(logger.Debug).Infof("HTTP registered %T under '%s'", api.Service, api.Namespace) } } // All APIs registered, start the HTTP listener var ( listener net.Listener err error ) if listener, err = net.Listen("tcp", endpoint); err != nil { return err } go rpc.NewHTTPServer(cors, handler).Serve(listener) glog.V(logger.Info).Infof("HTTP endpoint opened: http://%s", endpoint) // All listeners booted successfully n.httpEndpoint = endpoint n.httpListener = listener n.httpHandler = handler n.httpCors = cors return nil } // stopHTTP terminates the HTTP RPC endpoint. func (n *Node) stopHTTP() { if n.httpListener != nil { n.httpListener.Close() n.httpListener = nil glog.V(logger.Info).Infof("HTTP endpoint closed: http://%s", n.httpEndpoint) } if n.httpHandler != nil { n.httpHandler.Stop() n.httpHandler = nil } } // startWS initializes and starts the websocket RPC endpoint. func (n *Node) startWS(endpoint string, apis []rpc.API, modules []string, wsOrigins string) error { // Short circuit if the WS endpoint isn't being exposed if endpoint == "" { return nil } // Generate the whitelist based on the allowed modules whitelist := make(map[string]bool) for _, module := range modules { whitelist[module] = true } // Register all the APIs exposed by the services handler := rpc.NewServer() for _, api := range apis { if whitelist[api.Namespace] || (len(whitelist) == 0 && api.Public) { if err := handler.RegisterName(api.Namespace, api.Service); err != nil { return err } glog.V(logger.Debug).Infof("WebSocket registered %T under '%s'", api.Service, api.Namespace) } } // All APIs registered, start the HTTP listener var ( listener net.Listener err error ) if listener, err = net.Listen("tcp", endpoint); err != nil { return err } go rpc.NewWSServer(wsOrigins, handler).Serve(listener) glog.V(logger.Info).Infof("WebSocket endpoint opened: ws://%s", endpoint) // All listeners booted successfully n.wsEndpoint = endpoint n.wsListener = listener n.wsHandler = handler n.wsOrigins = wsOrigins return nil } // stopWS terminates the websocket RPC endpoint. func (n *Node) stopWS() { if n.wsListener != nil { n.wsListener.Close() n.wsListener = nil glog.V(logger.Info).Infof("WebSocket endpoint closed: ws://%s", n.wsEndpoint) } if n.wsHandler != nil { n.wsHandler.Stop() n.wsHandler = nil } } // Stop terminates a running node along with all it's services. In the node was // not started, an error is returned. func (n *Node) Stop() error { n.lock.Lock() defer n.lock.Unlock() // Short circuit if the node's not running if n.server == nil { return ErrNodeStopped } // Otherwise terminate the API, all services and the P2P server too n.stopWS() n.stopHTTP() n.stopIPC() n.rpcAPIs = nil failure := &StopError{ Services: make(map[reflect.Type]error), } for kind, service := range n.services { if err := service.Stop(); err != nil { failure.Services[kind] = err } } n.server.Stop() n.services = nil n.server = nil close(n.stop) if len(failure.Services) > 0 { return failure } return nil } // Wait blocks the thread until the node is stopped. If the node is not running // at the time of invocation, the method immediately returns. func (n *Node) Wait() { n.lock.RLock() if n.server == nil { return } stop := n.stop n.lock.RUnlock() <-stop } // Restart terminates a running node and boots up a new one in its place. If the // node isn't running, an error is returned. func (n *Node) Restart() error { if err := n.Stop(); err != nil { return err } if err := n.Start(); err != nil { return err } return nil } // Attach creates an RPC client attached to an in-process API handler. func (n *Node) Attach() (rpc.Client, error) { n.lock.RLock() defer n.lock.RUnlock() // Short circuit if the node's not running if n.server == nil { return nil, ErrNodeStopped } // Otherwise attach to the API and return return rpc.NewInProcRPCClient(n.inprocHandler), nil } // Server retrieves the currently running P2P network layer. This method is meant // only to inspect fields of the currently running server, life cycle management // should be left to this Node entity. func (n *Node) Server() *p2p.Server { n.lock.RLock() defer n.lock.RUnlock() return n.server } // Service retrieves a currently running service registered of a specific type. func (n *Node) Service(service interface{}) error { n.lock.RLock() defer n.lock.RUnlock() // Short circuit if the node's not running if n.server == nil { return ErrNodeStopped } // Otherwise try to find the service to return element := reflect.ValueOf(service).Elem() if running, ok := n.services[element.Type()]; ok { element.Set(reflect.ValueOf(running)) return nil } return ErrServiceUnknown } // DataDir retrieves the current datadir used by the protocol stack. func (n *Node) DataDir() string { return n.datadir } // IPCEndpoint retrieves the current IPC endpoint used by the protocol stack. func (n *Node) IPCEndpoint() string { return n.ipcEndpoint } // HTTPEndpoint retrieves the current HTTP endpoint used by the protocol stack. func (n *Node) HTTPEndpoint() string { return n.httpEndpoint } // WSEndpoint retrieves the current WS endpoint used by the protocol stack. func (n *Node) WSEndpoint() string { return n.wsEndpoint } // EventMux retrieves the event multiplexer used by all the network services in // the current protocol stack. func (n *Node) EventMux() *event.TypeMux { return n.eventmux } // apis returns the collection of RPC descriptors this node offers. func (n *Node) apis() []rpc.API { return []rpc.API{ { Namespace: "admin", Version: "1.0", Service: NewPrivateAdminAPI(n), }, { Namespace: "admin", Version: "1.0", Service: NewPublicAdminAPI(n), Public: true, }, { Namespace: "debug", Version: "1.0", Service: debug.Handler, }, { Namespace: "debug", Version: "1.0", Service: NewPublicDebugAPI(n), Public: true, }, { Namespace: "web3", Version: "1.0", Service: NewPublicWeb3API(n), Public: true, }, } }