// 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 rpc import ( "context" "fmt" "reflect" "runtime" "strings" "sync" "sync/atomic" mapset "github.com/deckarep/golang-set" "github.com/ethereum/go-ethereum/log" ) const MetadataApi = "rpc" // CodecOption specifies which type of messages this codec supports type CodecOption int const ( // OptionMethodInvocation is an indication that the codec supports RPC method calls OptionMethodInvocation CodecOption = 1 << iota // OptionSubscriptions is an indication that the codec suports RPC notifications OptionSubscriptions = 1 << iota // support pub sub ) // NewServer will create a new server instance with no registered handlers. func NewServer() *Server { server := &Server{ services: make(serviceRegistry), codecs: mapset.NewSet(), run: 1, } // register a default service which will provide meta information about the RPC service such as the services and // methods it offers. rpcService := &RPCService{server} server.RegisterName(MetadataApi, rpcService) return server } // RPCService gives meta information about the server. // e.g. gives information about the loaded modules. type RPCService struct { server *Server } // Modules returns the list of RPC services with their version number func (s *RPCService) Modules() map[string]string { modules := make(map[string]string) for name := range s.server.services { modules[name] = "1.0" } return modules } // RegisterName will create a service for the given rcvr type under the given name. When no methods on the given rcvr // match the criteria to be either a RPC method or a subscription an error is returned. Otherwise a new service is // created and added to the service collection this server instance serves. func (s *Server) RegisterName(name string, rcvr interface{}) error { if s.services == nil { s.services = make(serviceRegistry) } svc := new(service) svc.typ = reflect.TypeOf(rcvr) rcvrVal := reflect.ValueOf(rcvr) if name == "" { return fmt.Errorf("no service name for type %s", svc.typ.String()) } if !isExported(reflect.Indirect(rcvrVal).Type().Name()) { return fmt.Errorf("%s is not exported", reflect.Indirect(rcvrVal).Type().Name()) } methods, subscriptions := suitableCallbacks(rcvrVal, svc.typ) if len(methods) == 0 && len(subscriptions) == 0 { return fmt.Errorf("Service %T doesn't have any suitable methods/subscriptions to expose", rcvr) } // already a previous service register under given name, merge methods/subscriptions if regsvc, present := s.services[name]; present { for _, m := range methods { regsvc.callbacks[formatName(m.method.Name)] = m } for _, s := range subscriptions { regsvc.subscriptions[formatName(s.method.Name)] = s } return nil } svc.name = name svc.callbacks, svc.subscriptions = methods, subscriptions s.services[svc.name] = svc return nil } // serveRequest will reads requests from the codec, calls the RPC callback and // writes the response to the given codec. // // If singleShot is true it will process a single request, otherwise it will handle // requests until the codec returns an error when reading a request (in most cases // an EOF). It executes requests in parallel when singleShot is false. func (s *Server) serveRequest(ctx context.Context, codec ServerCodec, singleShot bool, options CodecOption) error { var pend sync.WaitGroup defer func() { if err := recover(); err != nil { const size = 64 << 10 buf := make([]byte, size) buf = buf[:runtime.Stack(buf, false)] log.Error(string(buf)) } s.codecsMu.Lock() s.codecs.Remove(codec) s.codecsMu.Unlock() }() // ctx, cancel := context.WithCancel(context.Background()) ctx, cancel := context.WithCancel(ctx) defer cancel() // if the codec supports notification include a notifier that callbacks can use // to send notification to clients. It is tied to the codec/connection. If the // connection is closed the notifier will stop and cancels all active subscriptions. if options&OptionSubscriptions == OptionSubscriptions { ctx = context.WithValue(ctx, notifierKey{}, newNotifier(codec)) } s.codecsMu.Lock() if atomic.LoadInt32(&s.run) != 1 { // server stopped s.codecsMu.Unlock() return &shutdownError{} } s.codecs.Add(codec) s.codecsMu.Unlock() // test if the server is ordered to stop for atomic.LoadInt32(&s.run) == 1 { reqs, batch, err := s.readRequest(codec) if err != nil { // If a parsing error occurred, send an error if err.Error() != "EOF" { log.Debug(fmt.Sprintf("read error %v\n", err)) codec.Write(codec.CreateErrorResponse(nil, err)) } // Error or end of stream, wait for requests and tear down pend.Wait() return nil } // check if server is ordered to shutdown and return an error // telling the client that his request failed. if atomic.LoadInt32(&s.run) != 1 { err = &shutdownError{} if batch { resps := make([]interface{}, len(reqs)) for i, r := range reqs { resps[i] = codec.CreateErrorResponse(&r.id, err) } codec.Write(resps) } else { codec.Write(codec.CreateErrorResponse(&reqs[0].id, err)) } return nil } // If a single shot request is executing, run and return immediately if singleShot { if batch { s.execBatch(ctx, codec, reqs) } else { s.exec(ctx, codec, reqs[0]) } return nil } // For multi-shot connections, start a goroutine to serve and loop back pend.Add(1) go func(reqs []*serverRequest, batch bool) { defer pend.Done() if batch { s.execBatch(ctx, codec, reqs) } else { s.exec(ctx, codec, reqs[0]) } }(reqs, batch) } return nil } // ServeCodec reads incoming requests from codec, calls the appropriate callback and writes the // response back using the given codec. It will block until the codec is closed or the server is // stopped. In either case the codec is closed. func (s *Server) ServeCodec(codec ServerCodec, options CodecOption) { defer codec.Close() s.serveRequest(context.Background(), codec, false, options) } // ServeSingleRequest reads and processes a single RPC request from the given codec. It will not // close the codec unless a non-recoverable error has occurred. Note, this method will return after // a single request has been processed! func (s *Server) ServeSingleRequest(ctx context.Context, codec ServerCodec, options CodecOption) { s.serveRequest(ctx, codec, true, options) } // Stop will stop reading new requests, wait for stopPendingRequestTimeout to allow pending requests to finish, // close all codecs which will cancel pending requests/subscriptions. func (s *Server) Stop() { if atomic.CompareAndSwapInt32(&s.run, 1, 0) { log.Debug("RPC Server shutdown initiatied") s.codecsMu.Lock() defer s.codecsMu.Unlock() s.codecs.Each(func(c interface{}) bool { c.(ServerCodec).Close() return true }) } } // createSubscription will call the subscription callback and returns the subscription id or error. func (s *Server) createSubscription(ctx context.Context, c ServerCodec, req *serverRequest) (ID, error) { // subscription have as first argument the context following optional arguments args := []reflect.Value{req.callb.rcvr, reflect.ValueOf(ctx)} args = append(args, req.args...) reply := req.callb.method.Func.Call(args) if !reply[1].IsNil() { // subscription creation failed return "", reply[1].Interface().(error) } return reply[0].Interface().(*Subscription).ID, nil } // handle executes a request and returns the response from the callback. func (s *Server) handle(ctx context.Context, codec ServerCodec, req *serverRequest) (interface{}, func()) { if req.err != nil { return codec.CreateErrorResponse(&req.id, req.err), nil } if req.isUnsubscribe { // cancel subscription, first param must be the subscription id if len(req.args) >= 1 && req.args[0].Kind() == reflect.String { notifier, supported := NotifierFromContext(ctx) if !supported { // interface doesn't support subscriptions (e.g. http) return codec.CreateErrorResponse(&req.id, &callbackError{ErrNotificationsUnsupported.Error()}), nil } subid := ID(req.args[0].String()) if err := notifier.unsubscribe(subid); err != nil { return codec.CreateErrorResponse(&req.id, &callbackError{err.Error()}), nil } return codec.CreateResponse(req.id, true), nil } return codec.CreateErrorResponse(&req.id, &invalidParamsError{"Expected subscription id as first argument"}), nil } if req.callb.isSubscribe { subid, err := s.createSubscription(ctx, codec, req) if err != nil { return codec.CreateErrorResponse(&req.id, &callbackError{err.Error()}), nil } // active the subscription after the sub id was successfully sent to the client activateSub := func() { notifier, _ := NotifierFromContext(ctx) notifier.activate(subid, req.svcname) } return codec.CreateResponse(req.id, subid), activateSub } // regular RPC call, prepare arguments if len(req.args) != len(req.callb.argTypes) { rpcErr := &invalidParamsError{fmt.Sprintf("%s%s%s expects %d parameters, got %d", req.svcname, serviceMethodSeparator, req.callb.method.Name, len(req.callb.argTypes), len(req.args))} return codec.CreateErrorResponse(&req.id, rpcErr), nil } //Quorum //Pass the request ID to the method as part of the context, in case the method needs it later contextWithId := context.WithValue(ctx, "id", req.id) //End-Quorum arguments := []reflect.Value{req.callb.rcvr} if req.callb.hasCtx { arguments = append(arguments, reflect.ValueOf(contextWithId)) } if len(req.args) > 0 { arguments = append(arguments, req.args...) } // execute RPC method and return result reply := req.callb.method.Func.Call(arguments) if len(reply) == 0 { return codec.CreateResponse(req.id, nil), nil } if req.callb.errPos >= 0 { // test if method returned an error if !reply[req.callb.errPos].IsNil() { e := reply[req.callb.errPos].Interface().(error) res := codec.CreateErrorResponse(&req.id, &callbackError{e.Error()}) return res, nil } } return codec.CreateResponse(req.id, reply[0].Interface()), nil } // exec executes the given request and writes the result back using the codec. func (s *Server) exec(ctx context.Context, codec ServerCodec, req *serverRequest) { var response interface{} var callback func() if req.err != nil { response = codec.CreateErrorResponse(&req.id, req.err) } else { response, callback = s.handle(ctx, codec, req) } if err := codec.Write(response); err != nil { log.Error(fmt.Sprintf("%v\n", err)) codec.Close() } // when request was a subscribe request this allows these subscriptions to be actived if callback != nil { callback() } } // execBatch executes the given requests and writes the result back using the codec. // It will only write the response back when the last request is processed. func (s *Server) execBatch(ctx context.Context, codec ServerCodec, requests []*serverRequest) { responses := make([]interface{}, len(requests)) var callbacks []func() for i, req := range requests { if req.err != nil { responses[i] = codec.CreateErrorResponse(&req.id, req.err) } else { var callback func() if responses[i], callback = s.handle(ctx, codec, req); callback != nil { callbacks = append(callbacks, callback) } } } if err := codec.Write(responses); err != nil { log.Error(fmt.Sprintf("%v\n", err)) codec.Close() } // when request holds one of more subscribe requests this allows these subscriptions to be activated for _, c := range callbacks { c() } } // readRequest requests the next (batch) request from the codec. It will return the collection // of requests, an indication if the request was a batch, the invalid request identifier and an // error when the request could not be read/parsed. func (s *Server) readRequest(codec ServerCodec) ([]*serverRequest, bool, Error) { reqs, batch, err := codec.ReadRequestHeaders() if err != nil { return nil, batch, err } requests := make([]*serverRequest, len(reqs)) // verify requests for i, r := range reqs { var ok bool var svc *service if r.err != nil { requests[i] = &serverRequest{id: r.id, err: r.err} continue } if r.isPubSub && strings.HasSuffix(r.method, unsubscribeMethodSuffix) { requests[i] = &serverRequest{id: r.id, isUnsubscribe: true} argTypes := []reflect.Type{reflect.TypeOf("")} // expect subscription id as first arg if args, err := codec.ParseRequestArguments(argTypes, r.params); err == nil { requests[i].args = args } else { requests[i].err = &invalidParamsError{err.Error()} } continue } if svc, ok = s.services[r.service]; !ok { // rpc method isn't available requests[i] = &serverRequest{id: r.id, err: &methodNotFoundError{r.service, r.method}} continue } if r.isPubSub { // eth_subscribe, r.method contains the subscription method name if callb, ok := svc.subscriptions[r.method]; ok { requests[i] = &serverRequest{id: r.id, svcname: svc.name, callb: callb} if r.params != nil && len(callb.argTypes) > 0 { argTypes := []reflect.Type{reflect.TypeOf("")} argTypes = append(argTypes, callb.argTypes...) if args, err := codec.ParseRequestArguments(argTypes, r.params); err == nil { requests[i].args = args[1:] // first one is service.method name which isn't an actual argument } else { requests[i].err = &invalidParamsError{err.Error()} } } } else { requests[i] = &serverRequest{id: r.id, err: &methodNotFoundError{r.service, r.method}} } continue } if callb, ok := svc.callbacks[r.method]; ok { // lookup RPC method requests[i] = &serverRequest{id: r.id, svcname: svc.name, callb: callb} if r.params != nil && len(callb.argTypes) > 0 { if args, err := codec.ParseRequestArguments(callb.argTypes, r.params); err == nil { requests[i].args = args } else { requests[i].err = &invalidParamsError{err.Error()} } } continue } requests[i] = &serverRequest{id: r.id, err: &methodNotFoundError{r.service, r.method}} } return requests, batch, nil }