package splithttp import ( "context" "crypto/tls" "io" gonet "net" "net/http" "strconv" "strings" "sync" "time" "github.com/quic-go/quic-go" "github.com/quic-go/quic-go/http3" goreality "github.com/xtls/reality" "github.com/xtls/xray-core/common" "github.com/xtls/xray-core/common/errors" "github.com/xtls/xray-core/common/net" http_proto "github.com/xtls/xray-core/common/protocol/http" "github.com/xtls/xray-core/common/signal/done" "github.com/xtls/xray-core/transport/internet" "github.com/xtls/xray-core/transport/internet/reality" "github.com/xtls/xray-core/transport/internet/stat" v2tls "github.com/xtls/xray-core/transport/internet/tls" "golang.org/x/net/http2" "golang.org/x/net/http2/h2c" ) type requestHandler struct { config *Config host string path string ln *Listener sessionMu *sync.Mutex sessions sync.Map localAddr gonet.TCPAddr } type httpSession struct { uploadQueue *uploadQueue // for as long as the GET request is not opened by the client, this will be // open ("undone"), and the session may be expired within a certain TTL. // after the client connects, this becomes "done" and the session lives as // long as the GET request. isFullyConnected *done.Instance } func (h *requestHandler) maybeReapSession(isFullyConnected *done.Instance, sessionId string) { shouldReap := done.New() go func() { time.Sleep(30 * time.Second) shouldReap.Close() }() select { case <-isFullyConnected.Wait(): return case <-shouldReap.Wait(): h.sessions.Delete(sessionId) } } func (h *requestHandler) upsertSession(sessionId string) *httpSession { // fast path currentSessionAny, ok := h.sessions.Load(sessionId) if ok { return currentSessionAny.(*httpSession) } // slow path h.sessionMu.Lock() defer h.sessionMu.Unlock() currentSessionAny, ok = h.sessions.Load(sessionId) if ok { return currentSessionAny.(*httpSession) } s := &httpSession{ uploadQueue: NewUploadQueue(int(h.ln.config.GetNormalizedScMaxConcurrentPosts().To)), isFullyConnected: done.New(), } h.sessions.Store(sessionId, s) go h.maybeReapSession(s.isFullyConnected, sessionId) return s } func (h *requestHandler) ServeHTTP(writer http.ResponseWriter, request *http.Request) { if len(h.host) > 0 && !internet.IsValidHTTPHost(request.Host, h.host) { errors.LogInfo(context.Background(), "failed to validate host, request:", request.Host, ", config:", h.host) writer.WriteHeader(http.StatusNotFound) return } if !strings.HasPrefix(request.URL.Path, h.path) { errors.LogInfo(context.Background(), "failed to validate path, request:", request.URL.Path, ", config:", h.path) writer.WriteHeader(http.StatusNotFound) return } h.config.WriteResponseHeader(writer) validRange := h.config.GetNormalizedXPaddingBytes() x_padding := int32(len(request.URL.Query().Get("x_padding"))) if validRange.To > 0 && (x_padding < validRange.From || x_padding > validRange.To) { errors.LogInfo(context.Background(), "invalid x_padding length:", x_padding) writer.WriteHeader(http.StatusBadRequest) return } sessionId := "" subpath := strings.Split(request.URL.Path[len(h.path):], "/") if len(subpath) > 0 { sessionId = subpath[0] } if sessionId == "" && h.config.Mode != "" && h.config.Mode != "auto" && h.config.Mode != "stream-one" && h.config.Mode != "stream-up" { errors.LogInfo(context.Background(), "stream-one mode is not allowed") writer.WriteHeader(http.StatusBadRequest) return } forwardedAddrs := http_proto.ParseXForwardedFor(request.Header) remoteAddr, err := gonet.ResolveTCPAddr("tcp", request.RemoteAddr) if err != nil { remoteAddr = &gonet.TCPAddr{} } if len(forwardedAddrs) > 0 && forwardedAddrs[0].Family().IsIP() { remoteAddr = &net.TCPAddr{ IP: forwardedAddrs[0].IP(), Port: int(0), } } var currentSession *httpSession if sessionId != "" { currentSession = h.upsertSession(sessionId) } scMaxEachPostBytes := int(h.ln.config.GetNormalizedScMaxEachPostBytes().To) if request.Method == "POST" && sessionId != "" { seq := "" if len(subpath) > 1 { seq = subpath[1] } if seq == "" { if h.config.Mode != "" && h.config.Mode != "auto" && h.config.Mode != "stream-up" { errors.LogInfo(context.Background(), "stream-up mode is not allowed") writer.WriteHeader(http.StatusBadRequest) return } err = currentSession.uploadQueue.Push(Packet{ Reader: request.Body, }) if err != nil { errors.LogInfoInner(context.Background(), err, "failed to upload (PushReader)") writer.WriteHeader(http.StatusConflict) } else { writer.WriteHeader(http.StatusOK) <-request.Context().Done() } return } if h.config.Mode != "" && h.config.Mode != "auto" && h.config.Mode != "packet-up" { errors.LogInfo(context.Background(), "packet-up mode is not allowed") writer.WriteHeader(http.StatusBadRequest) return } payload, err := io.ReadAll(request.Body) if len(payload) > scMaxEachPostBytes { errors.LogInfo(context.Background(), "Too large upload. scMaxEachPostBytes is set to ", scMaxEachPostBytes, "but request had size ", len(payload), ". Adjust scMaxEachPostBytes on the server to be at least as large as client.") writer.WriteHeader(http.StatusRequestEntityTooLarge) return } if err != nil { errors.LogInfoInner(context.Background(), err, "failed to upload (ReadAll)") writer.WriteHeader(http.StatusInternalServerError) return } seqInt, err := strconv.ParseUint(seq, 10, 64) if err != nil { errors.LogInfoInner(context.Background(), err, "failed to upload (ParseUint)") writer.WriteHeader(http.StatusInternalServerError) return } err = currentSession.uploadQueue.Push(Packet{ Payload: payload, Seq: seqInt, }) if err != nil { errors.LogInfoInner(context.Background(), err, "failed to upload (PushPayload)") writer.WriteHeader(http.StatusInternalServerError) return } writer.WriteHeader(http.StatusOK) } else if request.Method == "GET" || sessionId == "" { responseFlusher, ok := writer.(http.Flusher) if !ok { panic("expected http.ResponseWriter to be an http.Flusher") } if sessionId != "" { // after GET is done, the connection is finished. disable automatic // session reaping, and handle it in defer currentSession.isFullyConnected.Close() defer h.sessions.Delete(sessionId) } // magic header instructs nginx + apache to not buffer response body writer.Header().Set("X-Accel-Buffering", "no") // A web-compliant header telling all middleboxes to disable caching. // Should be able to prevent overloading the cache, or stop CDNs from // teeing the response stream into their cache, causing slowdowns. writer.Header().Set("Cache-Control", "no-store") if !h.config.NoSSEHeader { // magic header to make the HTTP middle box consider this as SSE to disable buffer writer.Header().Set("Content-Type", "text/event-stream") } writer.WriteHeader(http.StatusOK) responseFlusher.Flush() downloadDone := done.New() conn := splitConn{ writer: &httpResponseBodyWriter{ responseWriter: writer, downloadDone: downloadDone, responseFlusher: responseFlusher, }, reader: request.Body, remoteAddr: remoteAddr, } if sessionId != "" { conn.reader = currentSession.uploadQueue } h.ln.addConn(stat.Connection(&conn)) // "A ResponseWriter may not be used after [Handler.ServeHTTP] has returned." select { case <-request.Context().Done(): case <-downloadDone.Wait(): } conn.Close() } else { errors.LogInfo(context.Background(), "unsupported method: ", request.Method) writer.WriteHeader(http.StatusMethodNotAllowed) } } type httpResponseBodyWriter struct { sync.Mutex responseWriter http.ResponseWriter responseFlusher http.Flusher downloadDone *done.Instance } func (c *httpResponseBodyWriter) Write(b []byte) (int, error) { c.Lock() defer c.Unlock() if c.downloadDone.Done() { return 0, io.ErrClosedPipe } n, err := c.responseWriter.Write(b) if err == nil { c.responseFlusher.Flush() } return n, err } func (c *httpResponseBodyWriter) Close() error { c.Lock() defer c.Unlock() c.downloadDone.Close() return nil } type Listener struct { sync.Mutex server http.Server h3server *http3.Server listener net.Listener h3listener *quic.EarlyListener config *Config addConn internet.ConnHandler isH3 bool } func ListenSH(ctx context.Context, address net.Address, port net.Port, streamSettings *internet.MemoryStreamConfig, addConn internet.ConnHandler) (internet.Listener, error) { l := &Listener{ addConn: addConn, } shSettings := streamSettings.ProtocolSettings.(*Config) l.config = shSettings if l.config != nil { if streamSettings.SocketSettings == nil { streamSettings.SocketSettings = &internet.SocketConfig{} } } var listener net.Listener var err error var localAddr = gonet.TCPAddr{} handler := &requestHandler{ config: shSettings, host: shSettings.Host, path: shSettings.GetNormalizedPath(), ln: l, sessionMu: &sync.Mutex{}, sessions: sync.Map{}, localAddr: localAddr, } tlsConfig := getTLSConfig(streamSettings) l.isH3 = len(tlsConfig.NextProtos) == 1 && tlsConfig.NextProtos[0] == "h3" if port == net.Port(0) { // unix listener, err = internet.ListenSystem(ctx, &net.UnixAddr{ Name: address.Domain(), Net: "unix", }, streamSettings.SocketSettings) if err != nil { return nil, errors.New("failed to listen unix domain socket(for SH) on ", address).Base(err) } errors.LogInfo(ctx, "listening unix domain socket(for SH) on ", address) } else if l.isH3 { // quic Conn, err := internet.ListenSystemPacket(context.Background(), &net.UDPAddr{ IP: address.IP(), Port: int(port), }, streamSettings.SocketSettings) if err != nil { return nil, errors.New("failed to listen UDP(for SH3) on ", address, ":", port).Base(err) } h3listener, err := quic.ListenEarly(Conn, tlsConfig, nil) if err != nil { return nil, errors.New("failed to listen QUIC(for SH3) on ", address, ":", port).Base(err) } l.h3listener = h3listener errors.LogInfo(ctx, "listening QUIC(for SH3) on ", address, ":", port) l.h3server = &http3.Server{ Handler: handler, } go func() { if err := l.h3server.ServeListener(l.h3listener); err != nil { errors.LogWarningInner(ctx, err, "failed to serve http3 for splithttp") } }() } else { // tcp localAddr = gonet.TCPAddr{ IP: address.IP(), Port: int(port), } listener, err = internet.ListenSystem(ctx, &net.TCPAddr{ IP: address.IP(), Port: int(port), }, streamSettings.SocketSettings) if err != nil { return nil, errors.New("failed to listen TCP(for SH) on ", address, ":", port).Base(err) } errors.LogInfo(ctx, "listening TCP(for SH) on ", address, ":", port) } // tcp/unix (h1/h2) if listener != nil { if config := v2tls.ConfigFromStreamSettings(streamSettings); config != nil { if tlsConfig := config.GetTLSConfig(); tlsConfig != nil { listener = tls.NewListener(listener, tlsConfig) } } if config := reality.ConfigFromStreamSettings(streamSettings); config != nil { listener = goreality.NewListener(listener, config.GetREALITYConfig()) } // h2cHandler can handle both plaintext HTTP/1.1 and h2c h2cHandler := h2c.NewHandler(handler, &http2.Server{}) l.listener = listener l.server = http.Server{ Handler: h2cHandler, ReadHeaderTimeout: time.Second * 4, MaxHeaderBytes: 8192, } go func() { if err := l.server.Serve(l.listener); err != nil { errors.LogWarningInner(ctx, err, "failed to serve http for splithttp") } }() } return l, err } // Addr implements net.Listener.Addr(). func (ln *Listener) Addr() net.Addr { if ln.h3listener != nil { return ln.h3listener.Addr() } if ln.listener != nil { return ln.listener.Addr() } return nil } // Close implements net.Listener.Close(). func (ln *Listener) Close() error { if ln.h3server != nil { if err := ln.h3server.Close(); err != nil { return err } } else if ln.listener != nil { return ln.listener.Close() } return errors.New("listener does not have an HTTP/3 server or a net.listener") } func getTLSConfig(streamSettings *internet.MemoryStreamConfig) *tls.Config { config := v2tls.ConfigFromStreamSettings(streamSettings) if config == nil { return &tls.Config{} } return config.GetTLSConfig() } func init() { common.Must(internet.RegisterTransportListener(protocolName, ListenSH)) }