package rpcserver import ( "bytes" "encoding/json" "errors" "fmt" "io/ioutil" "net/http" "reflect" "sort" "time" "github.com/tendermint/tendermint/Godeps/_workspace/src/github.com/gorilla/websocket" . "github.com/tendermint/tendermint/common" "github.com/tendermint/tendermint/events" ctypes "github.com/tendermint/tendermint/rpc/core/types" . "github.com/tendermint/tendermint/rpc/types" "github.com/tendermint/tendermint/types" "github.com/tendermint/tendermint/wire" ) func RegisterRPCFuncs(mux *http.ServeMux, funcMap map[string]*RPCFunc) { // HTTP endpoints for funcName, rpcFunc := range funcMap { mux.HandleFunc("/"+funcName, makeHTTPHandler(rpcFunc)) } // JSONRPC endpoints mux.HandleFunc("/", makeJSONRPCHandler(funcMap)) } //------------------------------------- // function introspection // holds all type information for each function type RPCFunc struct { f reflect.Value // underlying rpc function args []reflect.Type // type of each function arg returns []reflect.Type // type of each return arg argNames []string // name of each argument } // wraps a function for quicker introspection func NewRPCFunc(f interface{}, args []string) *RPCFunc { return &RPCFunc{ f: reflect.ValueOf(f), args: funcArgTypes(f), returns: funcReturnTypes(f), argNames: args, } } // return a function's argument types func funcArgTypes(f interface{}) []reflect.Type { t := reflect.TypeOf(f) n := t.NumIn() typez := make([]reflect.Type, n) for i := 0; i < n; i++ { typez[i] = t.In(i) } return typez } // return a function's return types func funcReturnTypes(f interface{}) []reflect.Type { t := reflect.TypeOf(f) n := t.NumOut() typez := make([]reflect.Type, n) for i := 0; i < n; i++ { typez[i] = t.Out(i) } return typez } // function introspection //----------------------------------------------------------------------------- // rpc.json // jsonrpc calls grab the given method's function info and runs reflect.Call func makeJSONRPCHandler(funcMap map[string]*RPCFunc) http.HandlerFunc { return func(w http.ResponseWriter, r *http.Request) { b, _ := ioutil.ReadAll(r.Body) // if its an empty request (like from a browser), // just display a list of functions if len(b) == 0 { writeListOfEndpoints(w, r, funcMap) return } var request RPCRequest err := json.Unmarshal(b, &request) if err != nil { WriteRPCResponse(w, NewRPCResponse("", nil, err.Error())) return } if len(r.URL.Path) > 1 { WriteRPCResponse(w, NewRPCResponse(request.ID, nil, fmt.Sprintf("Invalid JSONRPC endpoint %s", r.URL.Path))) return } rpcFunc := funcMap[request.Method] if rpcFunc == nil { WriteRPCResponse(w, NewRPCResponse(request.ID, nil, "RPC method unknown: "+request.Method)) return } args, err := jsonParamsToArgs(rpcFunc, request.Params) if err != nil { WriteRPCResponse(w, NewRPCResponse(request.ID, nil, err.Error())) return } returns := rpcFunc.f.Call(args) log.Info("HTTPJSONRPC", "method", request.Method, "args", args, "returns", returns) result, err := unreflectResult(returns) if err != nil { WriteRPCResponse(w, NewRPCResponse(request.ID, nil, err.Error())) return } WriteRPCResponse(w, NewRPCResponse(request.ID, result, "")) } } // covert a list of interfaces to properly typed values func jsonParamsToArgs(rpcFunc *RPCFunc, params []interface{}) ([]reflect.Value, error) { if len(rpcFunc.argNames) != len(params) { return nil, errors.New(fmt.Sprintf("Expected %v parameters (%v), got %v (%v)", len(rpcFunc.argNames), rpcFunc.argNames, len(params), params)) } values := make([]reflect.Value, len(params)) for i, p := range params { ty := rpcFunc.args[i] v, err := _jsonObjectToArg(ty, p) if err != nil { return nil, err } values[i] = v } return values, nil } func _jsonObjectToArg(ty reflect.Type, object interface{}) (reflect.Value, error) { var err error v := reflect.New(ty) wire.ReadJSONObjectPtr(v.Interface(), object, &err) if err != nil { return v, err } v = v.Elem() return v, nil } // rpc.json //----------------------------------------------------------------------------- // rpc.http // convert from a function name to the http handler func makeHTTPHandler(rpcFunc *RPCFunc) func(http.ResponseWriter, *http.Request) { return func(w http.ResponseWriter, r *http.Request) { args, err := httpParamsToArgs(rpcFunc, r) if err != nil { WriteRPCResponse(w, NewRPCResponse("", nil, err.Error())) return } returns := rpcFunc.f.Call(args) log.Info("HTTPRestRPC", "method", r.URL.Path, "args", args, "returns", returns) result, err := unreflectResult(returns) if err != nil { WriteRPCResponse(w, NewRPCResponse("", nil, err.Error())) return } WriteRPCResponse(w, NewRPCResponse("", result, "")) } } // Covert an http query to a list of properly typed values. // To be properly decoded the arg must be a concrete type from tendermint (if its an interface). func httpParamsToArgs(rpcFunc *RPCFunc, r *http.Request) ([]reflect.Value, error) { argTypes := rpcFunc.args argNames := rpcFunc.argNames var err error values := make([]reflect.Value, len(argNames)) for i, name := range argNames { ty := argTypes[i] arg := GetParam(r, name) values[i], err = _jsonStringToArg(ty, arg) if err != nil { return nil, err } } return values, nil } func _jsonStringToArg(ty reflect.Type, arg string) (reflect.Value, error) { var err error v := reflect.New(ty) wire.ReadJSONPtr(v.Interface(), []byte(arg), &err) if err != nil { return v, err } v = v.Elem() return v, nil } // rpc.http //----------------------------------------------------------------------------- // rpc.websocket const ( writeChanCapacity = 20 wsWriteTimeoutSeconds = 30 // each write times out after this wsReadTimeoutSeconds = 30 // connection times out if we haven't received *anything* in this long, not even pings. wsPingTickerSeconds = 10 // send a ping every PingTickerSeconds. ) // a single websocket connection // contains listener id, underlying ws connection, // and the event switch for subscribing to events type WSConnection struct { QuitService id string baseConn *websocket.Conn writeChan chan RPCResponse readTimeout *time.Timer pingTicker *time.Ticker funcMap map[string]*RPCFunc evsw *events.EventSwitch } // new websocket connection wrapper func NewWSConnection(baseConn *websocket.Conn, funcMap map[string]*RPCFunc, evsw *events.EventSwitch) *WSConnection { wsc := &WSConnection{ id: baseConn.RemoteAddr().String(), baseConn: baseConn, writeChan: make(chan RPCResponse, writeChanCapacity), // error when full. funcMap: funcMap, evsw: evsw, } wsc.QuitService = *NewQuitService(log, "WSConnection", wsc) return wsc } // wsc.Start() blocks until the connection closes. func (wsc *WSConnection) OnStart() error { wsc.QuitService.OnStart() // Read subscriptions/unsubscriptions to events go wsc.readRoutine() // Custom Ping handler to touch readTimeout wsc.readTimeout = time.NewTimer(time.Second * wsReadTimeoutSeconds) wsc.pingTicker = time.NewTicker(time.Second * wsPingTickerSeconds) wsc.baseConn.SetPingHandler(func(m string) error { wsc.baseConn.WriteControl(websocket.PongMessage, []byte(m), time.Now().Add(time.Second*wsWriteTimeoutSeconds)) wsc.readTimeout.Reset(time.Second * wsReadTimeoutSeconds) return nil }) wsc.baseConn.SetPongHandler(func(m string) error { wsc.readTimeout.Reset(time.Second * wsReadTimeoutSeconds) return nil }) go wsc.readTimeoutRoutine() // Write responses, BLOCKING. wsc.writeRoutine() return nil } func (wsc *WSConnection) OnStop() { wsc.QuitService.OnStop() wsc.evsw.RemoveListener(wsc.id) wsc.readTimeout.Stop() wsc.pingTicker.Stop() // The write loop closes the websocket connection // when it exits its loop, and the read loop // closes the writeChan } func (wsc *WSConnection) readTimeoutRoutine() { select { case <-wsc.readTimeout.C: log.Notice("Stopping connection due to read timeout") wsc.Stop() case <-wsc.Quit: return } } // Attempt to write response to writeChan and record failures func (wsc *WSConnection) writeRPCResponse(resp RPCResponse) { select { case wsc.writeChan <- resp: default: log.Notice("Stopping connection due to writeChan overflow", "id", wsc.id) wsc.Stop() // writeChan capacity exceeded, error. } } // Read from the socket and subscribe to or unsubscribe from events func (wsc *WSConnection) readRoutine() { // Do not close writeChan, to allow writeRPCResponse() to fail. // defer close(wsc.writeChan) for { select { case <-wsc.Quit: return default: var in []byte // Do not set a deadline here like below: // wsc.baseConn.SetReadDeadline(time.Now().Add(time.Second * wsReadTimeoutSeconds)) // The client may not send anything for a while. // We use `readTimeout` to handle read timeouts. _, in, err := wsc.baseConn.ReadMessage() if err != nil { log.Notice("Failed to read from connection", "id", wsc.id) // an error reading the connection, // kill the connection wsc.Stop() return } var request RPCRequest err = json.Unmarshal(in, &request) if err != nil { errStr := fmt.Sprintf("Error unmarshaling data: %s", err.Error()) wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, errStr)) continue } switch request.Method { case "subscribe": if len(request.Params) != 1 { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "subscribe takes 1 event parameter string")) continue } if event, ok := request.Params[0].(string); !ok { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "subscribe takes 1 event parameter string")) continue } else { log.Notice("Subscribe to event", "id", wsc.id, "event", event) wsc.evsw.AddListenerForEvent(wsc.id, event, func(msg types.EventData) { // NOTE: RPCResponses of subscribed events have id suffix "#event" wsc.writeRPCResponse(NewRPCResponse(request.ID+"#event", ctypes.ResultEvent{event, msg}, "")) }) continue } case "unsubscribe": if len(request.Params) == 0 { log.Notice("Unsubscribe from all events", "id", wsc.id) wsc.evsw.RemoveListener(wsc.id) wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "")) continue } else if len(request.Params) == 1 { if event, ok := request.Params[0].(string); !ok { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "unsubscribe takes 0 or 1 event parameter strings")) continue } else { log.Notice("Unsubscribe from event", "id", wsc.id, "event", event) wsc.evsw.RemoveListenerForEvent(event, wsc.id) wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "")) continue } } else { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "unsubscribe takes 0 or 1 event parameter strings")) continue } default: rpcFunc := wsc.funcMap[request.Method] if rpcFunc == nil { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, "RPC method unknown: "+request.Method)) continue } args, err := jsonParamsToArgs(rpcFunc, request.Params) if err != nil { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, err.Error())) continue } returns := rpcFunc.f.Call(args) log.Info("WSJSONRPC", "method", request.Method, "args", args, "returns", returns) result, err := unreflectResult(returns) if err != nil { wsc.writeRPCResponse(NewRPCResponse(request.ID, nil, err.Error())) continue } else { wsc.writeRPCResponse(NewRPCResponse(request.ID, result, "")) continue } } } } } // receives on a write channel and writes out on the socket func (wsc *WSConnection) writeRoutine() { defer wsc.baseConn.Close() var n, err = int64(0), error(nil) for { select { case <-wsc.Quit: return case <-wsc.pingTicker.C: err := wsc.baseConn.WriteMessage(websocket.PingMessage, []byte{}) if err != nil { log.Error("Failed to write ping message on websocket", "error", err) wsc.Stop() return } case msg := <-wsc.writeChan: buf := new(bytes.Buffer) wire.WriteJSON(msg, buf, &n, &err) if err != nil { log.Error("Failed to marshal RPCResponse to JSON", "error", err) } else { wsc.baseConn.SetWriteDeadline(time.Now().Add(time.Second * wsWriteTimeoutSeconds)) if err = wsc.baseConn.WriteMessage(websocket.TextMessage, buf.Bytes()); err != nil { log.Warn("Failed to write response on websocket", "error", err) wsc.Stop() return } } } } } //---------------------------------------- // Main manager for all websocket connections // Holds the event switch // NOTE: The websocket path is defined externally, e.g. in node/node.go type WebsocketManager struct { websocket.Upgrader funcMap map[string]*RPCFunc evsw *events.EventSwitch } func NewWebsocketManager(funcMap map[string]*RPCFunc, evsw *events.EventSwitch) *WebsocketManager { return &WebsocketManager{ funcMap: funcMap, evsw: evsw, Upgrader: websocket.Upgrader{ ReadBufferSize: 1024, WriteBufferSize: 1024, CheckOrigin: func(r *http.Request) bool { // TODO return true }, }, } } // Upgrade the request/response (via http.Hijack) and starts the WSConnection. func (wm *WebsocketManager) WebsocketHandler(w http.ResponseWriter, r *http.Request) { wsConn, err := wm.Upgrade(w, r, nil) if err != nil { // TODO - return http error log.Error("Failed to upgrade to websocket connection", "error", err) return } // register connection con := NewWSConnection(wsConn, wm.funcMap, wm.evsw) log.Notice("New websocket connection", "origin", con.id) con.Start() // Blocking } // rpc.websocket //----------------------------------------------------------------------------- // returns is result struct and error. If error is not nil, return it func unreflectResult(returns []reflect.Value) (interface{}, error) { errV := returns[1] if errV.Interface() != nil { return nil, fmt.Errorf("%v", errV.Interface()) } return returns[0].Interface(), nil } // writes a list of available rpc endpoints as an html page func writeListOfEndpoints(w http.ResponseWriter, r *http.Request, funcMap map[string]*RPCFunc) { noArgNames := []string{} argNames := []string{} for name, funcData := range funcMap { if len(funcData.args) == 0 { noArgNames = append(noArgNames, name) } else { argNames = append(argNames, name) } } sort.Strings(noArgNames) sort.Strings(argNames) buf := new(bytes.Buffer) buf.WriteString("
") buf.WriteString("