// 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 ( "bytes" "encoding/json" "fmt" "io" "reflect" "strconv" "strings" "sync" "github.com/ethereum/go-ethereum/log" ) const ( jsonrpcVersion = "2.0" serviceMethodSeparator = "_" subscribeMethodSuffix = "_subscribe" unsubscribeMethodSuffix = "_unsubscribe" notificationMethodSuffix = "_subscription" ) type jsonRequest struct { Method string `json:"method"` Version string `json:"jsonrpc"` Id json.RawMessage `json:"id,omitempty"` Payload json.RawMessage `json:"params,omitempty"` } type jsonSuccessResponse struct { Version string `json:"jsonrpc"` Id interface{} `json:"id,omitempty"` Result interface{} `json:"result"` } type jsonError struct { Code int `json:"code"` Message string `json:"message"` Data interface{} `json:"data,omitempty"` } type jsonErrResponse struct { Version string `json:"jsonrpc"` Id interface{} `json:"id,omitempty"` Error jsonError `json:"error"` } type jsonSubscription struct { Subscription string `json:"subscription"` Result interface{} `json:"result,omitempty"` } type jsonNotification struct { Version string `json:"jsonrpc"` Method string `json:"method"` Params jsonSubscription `json:"params"` } // jsonCodec reads and writes JSON-RPC messages to the underlying connection. It // also has support for parsing arguments and serializing (result) objects. type jsonCodec struct { closer sync.Once // close closed channel once closed chan interface{} // closed on Close decMu sync.Mutex // guards the decoder decode func(v interface{}) error // decoder to allow multiple transports encMu sync.Mutex // guards the encoder encode func(v interface{}) error // encoder to allow multiple transports rw io.ReadWriteCloser // connection } func (err *jsonError) Error() string { if err.Message == "" { return fmt.Sprintf("json-rpc error %d", err.Code) } return err.Message } func (err *jsonError) ErrorCode() int { return err.Code } // NewCodec creates a new RPC server codec with support for JSON-RPC 2.0 based // on explicitly given encoding and decoding methods. func NewCodec(rwc io.ReadWriteCloser, encode, decode func(v interface{}) error) ServerCodec { return &jsonCodec{ closed: make(chan interface{}), encode: encode, decode: decode, rw: rwc, } } // NewJSONCodec creates a new RPC server codec with support for JSON-RPC 2.0. func NewJSONCodec(rwc io.ReadWriteCloser) ServerCodec { enc := json.NewEncoder(rwc) dec := json.NewDecoder(rwc) dec.UseNumber() return &jsonCodec{ closed: make(chan interface{}), encode: enc.Encode, decode: dec.Decode, rw: rwc, } } // isBatch returns true when the first non-whitespace characters is '[' func isBatch(msg json.RawMessage) bool { for _, c := range msg { // skip insignificant whitespace (http://www.ietf.org/rfc/rfc4627.txt) if c == 0x20 || c == 0x09 || c == 0x0a || c == 0x0d { continue } return c == '[' } return false } // ReadRequestHeaders will read new requests without parsing the arguments. It will // return a collection of requests, an indication if these requests are in batch // form or an error when the incoming message could not be read/parsed. func (c *jsonCodec) ReadRequestHeaders() ([]rpcRequest, bool, Error) { c.decMu.Lock() defer c.decMu.Unlock() var incomingMsg json.RawMessage if err := c.decode(&incomingMsg); err != nil { return nil, false, &invalidRequestError{err.Error()} } if isBatch(incomingMsg) { return parseBatchRequest(incomingMsg) } return parseRequest(incomingMsg) } // checkReqId returns an error when the given reqId isn't valid for RPC method calls. // valid id's are strings, numbers or null func checkReqId(reqId json.RawMessage) error { if len(reqId) == 0 { return fmt.Errorf("missing request id") } if _, err := strconv.ParseFloat(string(reqId), 64); err == nil { return nil } var str string if err := json.Unmarshal(reqId, &str); err == nil { return nil } return fmt.Errorf("invalid request id") } // parseRequest will parse a single request from the given RawMessage. It will return // the parsed request, an indication if the request was a batch or an error when // the request could not be parsed. func parseRequest(incomingMsg json.RawMessage) ([]rpcRequest, bool, Error) { var in jsonRequest if err := json.Unmarshal(incomingMsg, &in); err != nil { return nil, false, &invalidMessageError{err.Error()} } if err := checkReqId(in.Id); err != nil { return nil, false, &invalidMessageError{err.Error()} } // subscribe are special, they will always use `subscribeMethod` as first param in the payload if strings.HasSuffix(in.Method, subscribeMethodSuffix) { reqs := []rpcRequest{{id: &in.Id, isPubSub: true}} if len(in.Payload) > 0 { // first param must be subscription name var subscribeMethod [1]string if err := json.Unmarshal(in.Payload, &subscribeMethod); err != nil { log.Debug(fmt.Sprintf("Unable to parse subscription method: %v\n", err)) return nil, false, &invalidRequestError{"Unable to parse subscription request"} } reqs[0].service, reqs[0].method = strings.TrimSuffix(in.Method, subscribeMethodSuffix), subscribeMethod[0] reqs[0].params = in.Payload return reqs, false, nil } return nil, false, &invalidRequestError{"Unable to parse subscription request"} } if strings.HasSuffix(in.Method, unsubscribeMethodSuffix) { return []rpcRequest{{id: &in.Id, isPubSub: true, method: in.Method, params: in.Payload}}, false, nil } elems := strings.Split(in.Method, serviceMethodSeparator) if len(elems) != 2 { return nil, false, &methodNotFoundError{in.Method, ""} } // regular RPC call if len(in.Payload) == 0 { return []rpcRequest{{service: elems[0], method: elems[1], id: &in.Id}}, false, nil } return []rpcRequest{{service: elems[0], method: elems[1], id: &in.Id, params: in.Payload}}, false, nil } // parseBatchRequest will parse a batch request into a collection of requests from the given RawMessage, an indication // if the request was a batch or an error when the request could not be read. func parseBatchRequest(incomingMsg json.RawMessage) ([]rpcRequest, bool, Error) { var in []jsonRequest if err := json.Unmarshal(incomingMsg, &in); err != nil { return nil, false, &invalidMessageError{err.Error()} } requests := make([]rpcRequest, len(in)) for i, r := range in { if err := checkReqId(r.Id); err != nil { return nil, false, &invalidMessageError{err.Error()} } id := &in[i].Id // subscribe are special, they will always use `subscriptionMethod` as first param in the payload if strings.HasSuffix(r.Method, subscribeMethodSuffix) { requests[i] = rpcRequest{id: id, isPubSub: true} if len(r.Payload) > 0 { // first param must be subscription name var subscribeMethod [1]string if err := json.Unmarshal(r.Payload, &subscribeMethod); err != nil { log.Debug(fmt.Sprintf("Unable to parse subscription method: %v\n", err)) return nil, false, &invalidRequestError{"Unable to parse subscription request"} } requests[i].service, requests[i].method = strings.TrimSuffix(r.Method, subscribeMethodSuffix), subscribeMethod[0] requests[i].params = r.Payload continue } return nil, true, &invalidRequestError{"Unable to parse (un)subscribe request arguments"} } if strings.HasSuffix(r.Method, unsubscribeMethodSuffix) { requests[i] = rpcRequest{id: id, isPubSub: true, method: r.Method, params: r.Payload} continue } if len(r.Payload) == 0 { requests[i] = rpcRequest{id: id, params: nil} } else { requests[i] = rpcRequest{id: id, params: r.Payload} } if elem := strings.Split(r.Method, serviceMethodSeparator); len(elem) == 2 { requests[i].service, requests[i].method = elem[0], elem[1] } else { requests[i].err = &methodNotFoundError{r.Method, ""} } } return requests, true, nil } // ParseRequestArguments tries to parse the given params (json.RawMessage) with the given // types. It returns the parsed values or an error when the parsing failed. func (c *jsonCodec) ParseRequestArguments(argTypes []reflect.Type, params interface{}) ([]reflect.Value, Error) { if args, ok := params.(json.RawMessage); !ok { return nil, &invalidParamsError{"Invalid params supplied"} } else { return parsePositionalArguments(args, argTypes) } } // parsePositionalArguments tries to parse the given args to an array of values with the // given types. It returns the parsed values or an error when the args could not be // parsed. Missing optional arguments are returned as reflect.Zero values. func parsePositionalArguments(rawArgs json.RawMessage, types []reflect.Type) ([]reflect.Value, Error) { // Read beginning of the args array. dec := json.NewDecoder(bytes.NewReader(rawArgs)) if tok, _ := dec.Token(); tok != json.Delim('[') { return nil, &invalidParamsError{"non-array args"} } // Read args. args := make([]reflect.Value, 0, len(types)) for i := 0; dec.More(); i++ { if i >= len(types) { return nil, &invalidParamsError{fmt.Sprintf("too many arguments, want at most %d", len(types))} } argval := reflect.New(types[i]) if err := dec.Decode(argval.Interface()); err != nil { return nil, &invalidParamsError{fmt.Sprintf("invalid argument %d: %v", i, err)} } if argval.IsNil() && types[i].Kind() != reflect.Ptr { return nil, &invalidParamsError{fmt.Sprintf("missing value for required argument %d", i)} } args = append(args, argval.Elem()) } // Read end of args array. if _, err := dec.Token(); err != nil { return nil, &invalidParamsError{err.Error()} } // Set any missing args to nil. for i := len(args); i < len(types); i++ { if types[i].Kind() != reflect.Ptr { return nil, &invalidParamsError{fmt.Sprintf("missing value for required argument %d", i)} } args = append(args, reflect.Zero(types[i])) } return args, nil } // CreateResponse will create a JSON-RPC success response with the given id and reply as result. func (c *jsonCodec) CreateResponse(id interface{}, reply interface{}) interface{} { return &jsonSuccessResponse{Version: jsonrpcVersion, Id: id, Result: reply} } // CreateErrorResponse will create a JSON-RPC error response with the given id and error. func (c *jsonCodec) CreateErrorResponse(id interface{}, err Error) interface{} { return &jsonErrResponse{Version: jsonrpcVersion, Id: id, Error: jsonError{Code: err.ErrorCode(), Message: err.Error()}} } // CreateErrorResponseWithInfo will create a JSON-RPC error response with the given id and error. // info is optional and contains additional information about the error. When an empty string is passed it is ignored. func (c *jsonCodec) CreateErrorResponseWithInfo(id interface{}, err Error, info interface{}) interface{} { return &jsonErrResponse{Version: jsonrpcVersion, Id: id, Error: jsonError{Code: err.ErrorCode(), Message: err.Error(), Data: info}} } // CreateNotification will create a JSON-RPC notification with the given subscription id and event as params. func (c *jsonCodec) CreateNotification(subid, namespace string, event interface{}) interface{} { return &jsonNotification{Version: jsonrpcVersion, Method: namespace + notificationMethodSuffix, Params: jsonSubscription{Subscription: subid, Result: event}} } // Write message to client func (c *jsonCodec) Write(res interface{}) error { c.encMu.Lock() defer c.encMu.Unlock() return c.encode(res) } // Close the underlying connection func (c *jsonCodec) Close() { c.closer.Do(func() { close(c.closed) c.rw.Close() }) } // Closed returns a channel which will be closed when Close is called func (c *jsonCodec) Closed() <-chan interface{} { return c.closed }