// 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" "context" "encoding/json" "errors" "fmt" "io" "io/ioutil" "mime" "net" "net/http" "strings" "sync" "time" "github.com/ethereum/go-ethereum/log" "github.com/rs/cors" ) const ( maxRequestContentLength = 1024 * 1024 * 5 contentType = "application/json" ) // https://www.jsonrpc.org/historical/json-rpc-over-http.html#id13 var acceptedContentTypes = []string{contentType, "application/json-rpc", "application/jsonrequest"} type httpConn struct { client *http.Client req *http.Request closeOnce sync.Once closeCh chan interface{} } // httpConn is treated specially by Client. func (hc *httpConn) writeJSON(context.Context, interface{}) error { panic("writeJSON called on httpConn") } func (hc *httpConn) remoteAddr() string { return hc.req.URL.String() } func (hc *httpConn) readBatch() ([]*jsonrpcMessage, bool, error) { <-hc.closeCh return nil, false, io.EOF } func (hc *httpConn) close() { hc.closeOnce.Do(func() { close(hc.closeCh) }) } func (hc *httpConn) closed() <-chan interface{} { return hc.closeCh } // HTTPTimeouts represents the configuration params for the HTTP RPC server. type HTTPTimeouts struct { // ReadTimeout is the maximum duration for reading the entire // request, including the body. // // Because ReadTimeout does not let Handlers make per-request // decisions on each request body's acceptable deadline or // upload rate, most users will prefer to use // ReadHeaderTimeout. It is valid to use them both. ReadTimeout time.Duration // WriteTimeout is the maximum duration before timing out // writes of the response. It is reset whenever a new // request's header is read. Like ReadTimeout, it does not // let Handlers make decisions on a per-request basis. WriteTimeout time.Duration // IdleTimeout is the maximum amount of time to wait for the // next request when keep-alives are enabled. If IdleTimeout // is zero, the value of ReadTimeout is used. If both are // zero, ReadHeaderTimeout is used. IdleTimeout time.Duration } // DefaultHTTPTimeouts represents the default timeout values used if further // configuration is not provided. var DefaultHTTPTimeouts = HTTPTimeouts{ ReadTimeout: 30 * time.Second, WriteTimeout: 30 * time.Second, IdleTimeout: 120 * time.Second, } // DialHTTPWithClient creates a new RPC client that connects to an RPC server over HTTP // using the provided HTTP Client. func DialHTTPWithClient(endpoint string, client *http.Client) (*Client, error) { req, err := http.NewRequest(http.MethodPost, endpoint, nil) if err != nil { return nil, err } req.Header.Set("Content-Type", contentType) req.Header.Set("Accept", contentType) initctx := context.Background() return newClient(initctx, func(context.Context) (ServerCodec, error) { return &httpConn{client: client, req: req, closeCh: make(chan interface{})}, nil }) } // DialHTTP creates a new RPC client that connects to an RPC server over HTTP. func DialHTTP(endpoint string) (*Client, error) { return DialHTTPWithClient(endpoint, new(http.Client)) } func (c *Client) sendHTTP(ctx context.Context, op *requestOp, msg interface{}) error { hc := c.writeConn.(*httpConn) respBody, err := hc.doRequest(ctx, msg) if respBody != nil { defer respBody.Close() } if err != nil { if respBody != nil { buf := new(bytes.Buffer) if _, err2 := buf.ReadFrom(respBody); err2 == nil { return fmt.Errorf("%v %v", err, buf.String()) } } return err } var respmsg jsonrpcMessage if err := json.NewDecoder(respBody).Decode(&respmsg); err != nil { return err } op.resp <- &respmsg return nil } func (c *Client) sendBatchHTTP(ctx context.Context, op *requestOp, msgs []*jsonrpcMessage) error { hc := c.writeConn.(*httpConn) respBody, err := hc.doRequest(ctx, msgs) if err != nil { return err } defer respBody.Close() var respmsgs []jsonrpcMessage if err := json.NewDecoder(respBody).Decode(&respmsgs); err != nil { return err } for i := 0; i < len(respmsgs); i++ { op.resp <- &respmsgs[i] } return nil } func (hc *httpConn) doRequest(ctx context.Context, msg interface{}) (io.ReadCloser, error) { body, err := json.Marshal(msg) if err != nil { return nil, err } req := hc.req.WithContext(ctx) req.Body = ioutil.NopCloser(bytes.NewReader(body)) req.ContentLength = int64(len(body)) resp, err := hc.client.Do(req) if err != nil { return nil, err } if resp.StatusCode < 200 || resp.StatusCode >= 300 { return resp.Body, errors.New(resp.Status) } return resp.Body, nil } // httpServerConn turns a HTTP connection into a Conn. type httpServerConn struct { io.Reader io.Writer r *http.Request } func newHTTPServerConn(r *http.Request, w http.ResponseWriter) ServerCodec { body := io.LimitReader(r.Body, maxRequestContentLength) conn := &httpServerConn{Reader: body, Writer: w, r: r} return NewCodec(conn) } // Close does nothing and always returns nil. func (t *httpServerConn) Close() error { return nil } // RemoteAddr returns the peer address of the underlying connection. func (t *httpServerConn) RemoteAddr() string { return t.r.RemoteAddr } // SetWriteDeadline does nothing and always returns nil. func (t *httpServerConn) SetWriteDeadline(time.Time) error { return nil } // NewHTTPServer creates a new HTTP RPC server around an API provider. // // Deprecated: Server implements http.Handler func NewHTTPServer(cors []string, vhosts []string, timeouts HTTPTimeouts, srv http.Handler) *http.Server { // Wrap the CORS-handler within a host-handler handler := newCorsHandler(srv, cors) handler = newVHostHandler(vhosts, handler) handler = newGzipHandler(handler) // Make sure timeout values are meaningful if timeouts.ReadTimeout < time.Second { log.Warn("Sanitizing invalid HTTP read timeout", "provided", timeouts.ReadTimeout, "updated", DefaultHTTPTimeouts.ReadTimeout) timeouts.ReadTimeout = DefaultHTTPTimeouts.ReadTimeout } if timeouts.WriteTimeout < time.Second { log.Warn("Sanitizing invalid HTTP write timeout", "provided", timeouts.WriteTimeout, "updated", DefaultHTTPTimeouts.WriteTimeout) timeouts.WriteTimeout = DefaultHTTPTimeouts.WriteTimeout } if timeouts.IdleTimeout < time.Second { log.Warn("Sanitizing invalid HTTP idle timeout", "provided", timeouts.IdleTimeout, "updated", DefaultHTTPTimeouts.IdleTimeout) timeouts.IdleTimeout = DefaultHTTPTimeouts.IdleTimeout } // Bundle and start the HTTP server return &http.Server{ Handler: handler, ReadTimeout: timeouts.ReadTimeout, WriteTimeout: timeouts.WriteTimeout, IdleTimeout: timeouts.IdleTimeout, } } // ServeHTTP serves JSON-RPC requests over HTTP. func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) { // Permit dumb empty requests for remote health-checks (AWS) if r.Method == http.MethodGet && r.ContentLength == 0 && r.URL.RawQuery == "" { return } if code, err := validateRequest(r); err != nil { http.Error(w, err.Error(), code) return } // All checks passed, create a codec that reads directly from the request body // until EOF, writes the response to w, and orders the server to process a // single request. ctx := r.Context() ctx = context.WithValue(ctx, "remote", r.RemoteAddr) ctx = context.WithValue(ctx, "scheme", r.Proto) ctx = context.WithValue(ctx, "local", r.Host) if ua := r.Header.Get("User-Agent"); ua != "" { ctx = context.WithValue(ctx, "User-Agent", ua) } if origin := r.Header.Get("Origin"); origin != "" { ctx = context.WithValue(ctx, "Origin", origin) } w.Header().Set("content-type", contentType) codec := newHTTPServerConn(r, w) defer codec.close() s.serveSingleRequest(ctx, codec) } // validateRequest returns a non-zero response code and error message if the // request is invalid. func validateRequest(r *http.Request) (int, error) { if r.Method == http.MethodPut || r.Method == http.MethodDelete { return http.StatusMethodNotAllowed, errors.New("method not allowed") } if r.ContentLength > maxRequestContentLength { err := fmt.Errorf("content length too large (%d>%d)", r.ContentLength, maxRequestContentLength) return http.StatusRequestEntityTooLarge, err } // Allow OPTIONS (regardless of content-type) if r.Method == http.MethodOptions { return 0, nil } // Check content-type if mt, _, err := mime.ParseMediaType(r.Header.Get("content-type")); err == nil { for _, accepted := range acceptedContentTypes { if accepted == mt { return 0, nil } } } // Invalid content-type err := fmt.Errorf("invalid content type, only %s is supported", contentType) return http.StatusUnsupportedMediaType, err } func newCorsHandler(srv http.Handler, allowedOrigins []string) http.Handler { // disable CORS support if user has not specified a custom CORS configuration if len(allowedOrigins) == 0 { return srv } c := cors.New(cors.Options{ AllowedOrigins: allowedOrigins, AllowedMethods: []string{http.MethodPost, http.MethodGet}, MaxAge: 600, AllowedHeaders: []string{"*"}, }) return c.Handler(srv) } // virtualHostHandler is a handler which validates the Host-header of incoming requests. // The virtualHostHandler can prevent DNS rebinding attacks, which do not utilize CORS-headers, // since they do in-domain requests against the RPC api. Instead, we can see on the Host-header // which domain was used, and validate that against a whitelist. type virtualHostHandler struct { vhosts map[string]struct{} next http.Handler } // ServeHTTP serves JSON-RPC requests over HTTP, implements http.Handler func (h *virtualHostHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { // if r.Host is not set, we can continue serving since a browser would set the Host header if r.Host == "" { h.next.ServeHTTP(w, r) return } host, _, err := net.SplitHostPort(r.Host) if err != nil { // Either invalid (too many colons) or no port specified host = r.Host } if ipAddr := net.ParseIP(host); ipAddr != nil { // It's an IP address, we can serve that h.next.ServeHTTP(w, r) return } // Not an IP address, but a hostname. Need to validate if _, exist := h.vhosts["*"]; exist { h.next.ServeHTTP(w, r) return } if _, exist := h.vhosts[host]; exist { h.next.ServeHTTP(w, r) return } http.Error(w, "invalid host specified", http.StatusForbidden) } func newVHostHandler(vhosts []string, next http.Handler) http.Handler { vhostMap := make(map[string]struct{}) for _, allowedHost := range vhosts { vhostMap[strings.ToLower(allowedHost)] = struct{}{} } return &virtualHostHandler{vhostMap, next} }