// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package jsonrpc2 is a minimal implementation of the JSON RPC 2 spec. // https://www.jsonrpc.org/specification // It is intended to be compatible with other implementations at the wire level. package jsonrpc2 import ( "context" "encoding/json" "fmt" "sync" "sync/atomic" ) // Conn is a JSON RPC 2 client server connection. // Conn is bidirectional; it does not have a designated server or client end. type Conn struct { seq int64 // must only be accessed using atomic operations handlers []Handler stream Stream err error pendingMu sync.Mutex // protects the pending map pending map[ID]chan *WireResponse handlingMu sync.Mutex // protects the handling map handling map[ID]*Request } type requestState int const ( requestWaiting = requestState(iota) requestSerial requestParallel requestReplied requestDone ) // Request is sent to a server to represent a Call or Notify operaton. type Request struct { conn *Conn cancel context.CancelFunc state requestState nextRequest chan struct{} // The Wire values of the request. WireRequest } // NewErrorf builds a Error struct for the supplied message and code. // If args is not empty, message and args will be passed to Sprintf. func NewErrorf(code int64, format string, args ...interface{}) *Error { return &Error{ Code: code, Message: fmt.Sprintf(format, args...), } } // NewConn creates a new connection object around the supplied stream. // You must call Run for the connection to be active. func NewConn(s Stream) *Conn { conn := &Conn{ handlers: []Handler{defaultHandler{}}, stream: s, pending: make(map[ID]chan *WireResponse), handling: make(map[ID]*Request), } return conn } // AddHandler adds a new handler to the set the connection will invoke. // Handlers are invoked in the reverse order of how they were added, this // allows the most recent addition to be the first one to attempt to handle a // message. func (c *Conn) AddHandler(handler Handler) { // prepend the new handlers so we use them first c.handlers = append([]Handler{handler}, c.handlers...) } // Cancel cancels a pending Call on the server side. // The call is identified by its id. // JSON RPC 2 does not specify a cancel message, so cancellation support is not // directly wired in. This method allows a higher level protocol to choose how // to propagate the cancel. func (c *Conn) Cancel(id ID) { c.handlingMu.Lock() handling, found := c.handling[id] c.handlingMu.Unlock() if found { handling.cancel() } } // Notify is called to send a notification request over the connection. // It will return as soon as the notification has been sent, as no response is // possible. func (c *Conn) Notify(ctx context.Context, method string, params interface{}) (err error) { jsonParams, err := marshalToRaw(params) if err != nil { return fmt.Errorf("marshalling notify parameters: %v", err) } request := &WireRequest{ Method: method, Params: jsonParams, } data, err := json.Marshal(request) if err != nil { return fmt.Errorf("marshalling notify request: %v", err) } for _, h := range c.handlers { ctx = h.Request(ctx, c, Send, request) } defer func() { for _, h := range c.handlers { h.Done(ctx, err) } }() n, err := c.stream.Write(ctx, data) for _, h := range c.handlers { ctx = h.Wrote(ctx, n) } return err } // Call sends a request over the connection and then waits for a response. // If the response is not an error, it will be decoded into result. // result must be of a type you an pass to json.Unmarshal. func (c *Conn) Call(ctx context.Context, method string, params, result interface{}) (err error) { // generate a new request identifier id := ID{Number: atomic.AddInt64(&c.seq, 1)} jsonParams, err := marshalToRaw(params) if err != nil { return fmt.Errorf("marshalling call parameters: %v", err) } request := &WireRequest{ ID: &id, Method: method, Params: jsonParams, } // marshal the request now it is complete data, err := json.Marshal(request) if err != nil { return fmt.Errorf("marshalling call request: %v", err) } for _, h := range c.handlers { ctx = h.Request(ctx, c, Send, request) } // We have to add ourselves to the pending map before we send, otherwise we // are racing the response. Also add a buffer to rchan, so that if we get a // wire response between the time this call is cancelled and id is deleted // from c.pending, the send to rchan will not block. rchan := make(chan *WireResponse, 1) c.pendingMu.Lock() c.pending[id] = rchan c.pendingMu.Unlock() defer func() { c.pendingMu.Lock() delete(c.pending, id) c.pendingMu.Unlock() for _, h := range c.handlers { h.Done(ctx, err) } }() // now we are ready to send n, err := c.stream.Write(ctx, data) for _, h := range c.handlers { ctx = h.Wrote(ctx, n) } if err != nil { // sending failed, we will never get a response, so don't leave it pending return err } // now wait for the response select { case response := <-rchan: for _, h := range c.handlers { ctx = h.Response(ctx, c, Receive, response) } // is it an error response? if response.Error != nil { return response.Error } if result == nil || response.Result == nil { return nil } if err := json.Unmarshal(*response.Result, result); err != nil { return fmt.Errorf("unmarshalling result: %v", err) } return nil case <-ctx.Done(): // Allow the handler to propagate the cancel. cancelled := false for _, h := range c.handlers { if h.Cancel(ctx, c, id, cancelled) { cancelled = true } } return ctx.Err() } } // Conn returns the connection that created this request. func (r *Request) Conn() *Conn { return r.conn } // IsNotify returns true if this request is a notification. func (r *Request) IsNotify() bool { return r.ID == nil } // Parallel indicates that the system is now allowed to process other requests // in parallel with this one. // It is safe to call any number of times, but must only be called from the // request handling go routine. // It is implied by both reply and by the handler returning. func (r *Request) Parallel() { if r.state >= requestParallel { return } r.state = requestParallel close(r.nextRequest) } // Reply sends a reply to the given request. // It is an error to call this if request was not a call. // You must call this exactly once for any given request. // It should only be called from the handler go routine. // If err is set then result will be ignored. // If the request has not yet dropped into parallel mode // it will be before this function returns. func (r *Request) Reply(ctx context.Context, result interface{}, err error) error { if r.state >= requestReplied { return fmt.Errorf("reply invoked more than once") } if r.IsNotify() { return fmt.Errorf("reply not invoked with a valid call: %v, %s", r.Method, r.Params) } // reply ends the handling phase of a call, so if we are not yet // parallel we should be now. The go routine is allowed to continue // to do work after replying, which is why it is important to unlock // the rpc system at this point. r.Parallel() r.state = requestReplied var raw *json.RawMessage if err == nil { raw, err = marshalToRaw(result) } response := &WireResponse{ Result: raw, ID: r.ID, } if err != nil { if callErr, ok := err.(*Error); ok { response.Error = callErr } else { response.Error = NewErrorf(0, "%s", err) } } data, err := json.Marshal(response) if err != nil { return err } for _, h := range r.conn.handlers { ctx = h.Response(ctx, r.conn, Send, response) } n, err := r.conn.stream.Write(ctx, data) for _, h := range r.conn.handlers { ctx = h.Wrote(ctx, n) } if err != nil { // TODO(iancottrell): if a stream write fails, we really need to shut down // the whole stream return err } return nil } func (c *Conn) setHandling(r *Request, active bool) { if r.ID == nil { return } r.conn.handlingMu.Lock() defer r.conn.handlingMu.Unlock() if active { r.conn.handling[*r.ID] = r } else { delete(r.conn.handling, *r.ID) } } // combined has all the fields of both Request and Response. // We can decode this and then work out which it is. type combined struct { VersionTag VersionTag `json:"jsonrpc"` ID *ID `json:"id,omitempty"` Method string `json:"method"` Params *json.RawMessage `json:"params,omitempty"` Result *json.RawMessage `json:"result,omitempty"` Error *Error `json:"error,omitempty"` } // Run blocks until the connection is terminated, and returns any error that // caused the termination. // It must be called exactly once for each Conn. // It returns only when the reader is closed or there is an error in the stream. func (c *Conn) Run(runCtx context.Context) error { // we need to make the next request "lock" in an unlocked state to allow // the first incoming request to proceed. All later requests are unlocked // by the preceding request going to parallel mode. nextRequest := make(chan struct{}) close(nextRequest) for { // get the data for a message data, n, err := c.stream.Read(runCtx) if err != nil { // The stream failed, we cannot continue. If the client disconnected // normally, we should get ErrDisconnected here. return err } // read a combined message msg := &combined{} if err := json.Unmarshal(data, msg); err != nil { // a badly formed message arrived, log it and continue // we trust the stream to have isolated the error to just this message for _, h := range c.handlers { h.Error(runCtx, fmt.Errorf("unmarshal failed: %v", err)) } continue } // Work out whether this is a request or response. switch { case msg.Method != "": // If method is set it must be a request. reqCtx, cancelReq := context.WithCancel(runCtx) thisRequest := nextRequest nextRequest = make(chan struct{}) req := &Request{ conn: c, cancel: cancelReq, nextRequest: nextRequest, WireRequest: WireRequest{ VersionTag: msg.VersionTag, Method: msg.Method, Params: msg.Params, ID: msg.ID, }, } for _, h := range c.handlers { reqCtx = h.Request(reqCtx, c, Receive, &req.WireRequest) reqCtx = h.Read(reqCtx, n) } c.setHandling(req, true) go func() { <-thisRequest req.state = requestSerial defer func() { c.setHandling(req, false) if !req.IsNotify() && req.state < requestReplied { req.Reply(reqCtx, nil, NewErrorf(CodeInternalError, "method %q did not reply", req.Method)) } req.Parallel() for _, h := range c.handlers { h.Done(reqCtx, err) } cancelReq() }() delivered := false for _, h := range c.handlers { if h.Deliver(reqCtx, req, delivered) { delivered = true } } }() case msg.ID != nil: // If method is not set, this should be a response, in which case we must // have an id to send the response back to the caller. c.pendingMu.Lock() rchan, ok := c.pending[*msg.ID] c.pendingMu.Unlock() if ok { response := &WireResponse{ Result: msg.Result, Error: msg.Error, ID: msg.ID, } rchan <- response } default: for _, h := range c.handlers { h.Error(runCtx, fmt.Errorf("message not a call, notify or response, ignoring")) } } } } func marshalToRaw(obj interface{}) (*json.RawMessage, error) { data, err := json.Marshal(obj) if err != nil { return nil, err } raw := json.RawMessage(data) return &raw, nil }