package splithttp import ( "context" gotls "crypto/tls" "fmt" "io" "net/http" "net/http/httptrace" "net/url" "strconv" "sync" "sync/atomic" "time" "github.com/xtls/quic-go" "github.com/xtls/quic-go/http3" "github.com/xtls/xray-core/common" "github.com/xtls/xray-core/common/buf" "github.com/xtls/xray-core/common/errors" "github.com/xtls/xray-core/common/net" "github.com/xtls/xray-core/common/signal/done" "github.com/xtls/xray-core/common/uuid" "github.com/xtls/xray-core/transport/internet" "github.com/xtls/xray-core/transport/internet/browser_dialer" "github.com/xtls/xray-core/transport/internet/reality" "github.com/xtls/xray-core/transport/internet/stat" "github.com/xtls/xray-core/transport/internet/tls" "github.com/xtls/xray-core/transport/pipe" "golang.org/x/net/http2" ) // defines the maximum time an idle TCP session can survive in the tunnel, so // it should be consistent across HTTP versions and with other transports. const connIdleTimeout = 300 * time.Second // consistent with quic-go const quicgoH3KeepAlivePeriod = 10 * time.Second // consistent with chrome const chromeH2KeepAlivePeriod = 45 * time.Second type dialerConf struct { net.Destination *internet.MemoryStreamConfig } var ( globalDialerMap map[dialerConf]*XmuxManager globalDialerAccess sync.Mutex ) func getHTTPClient(ctx context.Context, dest net.Destination, streamSettings *internet.MemoryStreamConfig) (DialerClient, *XmuxClient) { realityConfig := reality.ConfigFromStreamSettings(streamSettings) if browser_dialer.HasBrowserDialer() && realityConfig != nil { return &BrowserDialerClient{}, nil } globalDialerAccess.Lock() defer globalDialerAccess.Unlock() if globalDialerMap == nil { globalDialerMap = make(map[dialerConf]*XmuxManager) } key := dialerConf{dest, streamSettings} xmuxManager, found := globalDialerMap[key] if !found { transportConfig := streamSettings.ProtocolSettings.(*Config) var xmuxConfig XmuxConfig if transportConfig.Xmux != nil { xmuxConfig = *transportConfig.Xmux } xmuxManager = NewXmuxManager(xmuxConfig, func() XmuxConn { return createHTTPClient(dest, streamSettings) }) globalDialerMap[key] = xmuxManager } xmuxClient := xmuxManager.GetXmuxClient(ctx) return xmuxClient.XmuxConn.(DialerClient), xmuxClient } func decideHTTPVersion(tlsConfig *tls.Config, realityConfig *reality.Config) string { if realityConfig != nil { return "2" } if tlsConfig == nil { return "1.1" } if len(tlsConfig.NextProtocol) != 1 { return "2" } if tlsConfig.NextProtocol[0] == "http/1.1" { return "1.1" } if tlsConfig.NextProtocol[0] == "h3" { return "3" } return "2" } func createHTTPClient(dest net.Destination, streamSettings *internet.MemoryStreamConfig) DialerClient { tlsConfig := tls.ConfigFromStreamSettings(streamSettings) realityConfig := reality.ConfigFromStreamSettings(streamSettings) httpVersion := decideHTTPVersion(tlsConfig, realityConfig) if httpVersion == "3" { dest.Network = net.Network_UDP // better to keep this line } var gotlsConfig *gotls.Config if tlsConfig != nil { gotlsConfig = tlsConfig.GetTLSConfig(tls.WithDestination(dest)) } transportConfig := streamSettings.ProtocolSettings.(*Config) dialContext := func(ctxInner context.Context) (net.Conn, error) { conn, err := internet.DialSystem(ctxInner, dest, streamSettings.SocketSettings) if err != nil { return nil, err } if realityConfig != nil { return reality.UClient(conn, realityConfig, ctxInner, dest) } if gotlsConfig != nil { if fingerprint := tls.GetFingerprint(tlsConfig.Fingerprint); fingerprint != nil { conn = tls.UClient(conn, gotlsConfig, fingerprint) if err := conn.(*tls.UConn).HandshakeContext(ctxInner); err != nil { return nil, err } } else { conn = tls.Client(conn, gotlsConfig) } } return conn, nil } var keepAlivePeriod time.Duration if streamSettings.ProtocolSettings.(*Config).Xmux != nil { keepAlivePeriod = time.Duration(streamSettings.ProtocolSettings.(*Config).Xmux.HKeepAlivePeriod) * time.Second } var transport http.RoundTripper if httpVersion == "3" { if keepAlivePeriod == 0 { keepAlivePeriod = quicgoH3KeepAlivePeriod } if keepAlivePeriod < 0 { keepAlivePeriod = 0 } quicConfig := &quic.Config{ MaxIdleTimeout: connIdleTimeout, // these two are defaults of quic-go/http3. the default of quic-go (no // http3) is different, so it is hardcoded here for clarity. // https://github.com/quic-go/quic-go/blob/b8ea5c798155950fb5bbfdd06cad1939c9355878/http3/client.go#L36-L39 MaxIncomingStreams: -1, KeepAlivePeriod: keepAlivePeriod, } transport = &http3.RoundTripper{ QUICConfig: quicConfig, TLSClientConfig: gotlsConfig, Dial: func(ctx context.Context, addr string, tlsCfg *gotls.Config, cfg *quic.Config) (quic.EarlyConnection, error) { conn, err := internet.DialSystem(ctx, dest, streamSettings.SocketSettings) if err != nil { return nil, err } var udpConn net.PacketConn var udpAddr *net.UDPAddr switch c := conn.(type) { case *internet.PacketConnWrapper: var ok bool udpConn, ok = c.Conn.(*net.UDPConn) if !ok { return nil, errors.New("PacketConnWrapper does not contain a UDP connection") } udpAddr, err = net.ResolveUDPAddr("udp", c.Dest.String()) if err != nil { return nil, err } case *net.UDPConn: udpConn = c udpAddr, err = net.ResolveUDPAddr("udp", c.RemoteAddr().String()) if err != nil { return nil, err } default: udpConn = &internet.FakePacketConn{c} udpAddr, err = net.ResolveUDPAddr("udp", c.RemoteAddr().String()) if err != nil { return nil, err } } return quic.DialEarly(ctx, udpConn, udpAddr, tlsCfg, cfg) }, } } else if httpVersion == "2" { if keepAlivePeriod == 0 { keepAlivePeriod = chromeH2KeepAlivePeriod } if keepAlivePeriod < 0 { keepAlivePeriod = 0 } transport = &http2.Transport{ DialTLSContext: func(ctxInner context.Context, network string, addr string, cfg *gotls.Config) (net.Conn, error) { return dialContext(ctxInner) }, IdleConnTimeout: connIdleTimeout, ReadIdleTimeout: keepAlivePeriod, } } else { httpDialContext := func(ctxInner context.Context, network string, addr string) (net.Conn, error) { return dialContext(ctxInner) } transport = &http.Transport{ DialTLSContext: httpDialContext, DialContext: httpDialContext, IdleConnTimeout: connIdleTimeout, // chunked transfer download with KeepAlives is buggy with // http.Client and our custom dial context. DisableKeepAlives: true, } } client := &DefaultDialerClient{ transportConfig: transportConfig, client: &http.Client{ Transport: transport, }, httpVersion: httpVersion, uploadRawPool: &sync.Pool{}, dialUploadConn: dialContext, } return client } func init() { common.Must(internet.RegisterTransportDialer(protocolName, Dial)) } func Dial(ctx context.Context, dest net.Destination, streamSettings *internet.MemoryStreamConfig) (stat.Connection, error) { tlsConfig := tls.ConfigFromStreamSettings(streamSettings) realityConfig := reality.ConfigFromStreamSettings(streamSettings) httpVersion := decideHTTPVersion(tlsConfig, realityConfig) if httpVersion == "3" { dest.Network = net.Network_UDP } transportConfiguration := streamSettings.ProtocolSettings.(*Config) var requestURL url.URL if tlsConfig != nil || realityConfig != nil { requestURL.Scheme = "https" } else { requestURL.Scheme = "http" } requestURL.Host = transportConfiguration.Host if requestURL.Host == "" && tlsConfig != nil { requestURL.Host = tlsConfig.ServerName } if requestURL.Host == "" && realityConfig != nil { requestURL.Host = realityConfig.ServerName } if requestURL.Host == "" { requestURL.Host = dest.Address.String() } sessionIdUuid := uuid.New() requestURL.Path = transportConfiguration.GetNormalizedPath() + sessionIdUuid.String() requestURL.RawQuery = transportConfiguration.GetNormalizedQuery() httpClient, xmuxClient := getHTTPClient(ctx, dest, streamSettings) mode := transportConfiguration.Mode if mode == "" || mode == "auto" { mode = "packet-up" if httpVersion == "2" { mode = "stream-up" } if realityConfig != nil && transportConfiguration.DownloadSettings == nil { mode = "stream-one" } } errors.LogInfo(ctx, fmt.Sprintf("XHTTP is dialing to %s, mode %s, HTTP version %s, host %s", dest, mode, httpVersion, requestURL.Host)) requestURL2 := requestURL httpClient2 := httpClient xmuxClient2 := xmuxClient if transportConfiguration.DownloadSettings != nil { globalDialerAccess.Lock() if streamSettings.DownloadSettings == nil { streamSettings.DownloadSettings = common.Must2(internet.ToMemoryStreamConfig(transportConfiguration.DownloadSettings)).(*internet.MemoryStreamConfig) if streamSettings.DownloadSettings.SocketSettings == nil { streamSettings.DownloadSettings.SocketSettings = streamSettings.SocketSettings } } globalDialerAccess.Unlock() memory2 := streamSettings.DownloadSettings dest2 := *memory2.Destination // just panic tlsConfig2 := tls.ConfigFromStreamSettings(memory2) realityConfig2 := reality.ConfigFromStreamSettings(memory2) httpVersion2 := decideHTTPVersion(tlsConfig2, realityConfig2) if httpVersion2 == "3" { dest2.Network = net.Network_UDP } if tlsConfig2 != nil || realityConfig2 != nil { requestURL2.Scheme = "https" } else { requestURL2.Scheme = "http" } config2 := memory2.ProtocolSettings.(*Config) requestURL2.Host = config2.Host if requestURL2.Host == "" && tlsConfig2 != nil { requestURL2.Host = tlsConfig2.ServerName } if requestURL2.Host == "" && realityConfig2 != nil { requestURL2.Host = realityConfig2.ServerName } if requestURL2.Host == "" { requestURL2.Host = dest2.Address.String() } requestURL2.Path = config2.GetNormalizedPath() + sessionIdUuid.String() requestURL2.RawQuery = config2.GetNormalizedQuery() httpClient2, xmuxClient2 = getHTTPClient(ctx, dest2, memory2) errors.LogInfo(ctx, fmt.Sprintf("XHTTP is downloading from %s, mode %s, HTTP version %s, host %s", dest2, "stream-down", httpVersion2, requestURL2.Host)) } if xmuxClient != nil { xmuxClient.OpenUsage.Add(1) } if xmuxClient2 != nil && xmuxClient2 != xmuxClient { xmuxClient2.OpenUsage.Add(1) } var closed atomic.Int32 reader, writer := io.Pipe() conn := splitConn{ writer: writer, onClose: func() { if closed.Add(1) > 1 { return } if xmuxClient != nil { xmuxClient.OpenUsage.Add(-1) } if xmuxClient2 != nil && xmuxClient2 != xmuxClient { xmuxClient2.OpenUsage.Add(-1) } }, } if mode == "stream-one" { requestURL.Path = transportConfiguration.GetNormalizedPath() if xmuxClient != nil { xmuxClient.LeftRequests.Add(-1) } conn.reader, conn.remoteAddr, conn.localAddr, _ = httpClient.OpenStream(context.WithoutCancel(ctx), requestURL.String(), reader, false) return stat.Connection(&conn), nil } else { // stream-down var err error if xmuxClient2 != nil { xmuxClient2.LeftRequests.Add(-1) } conn.reader, conn.remoteAddr, conn.localAddr, err = httpClient2.OpenStream(context.WithoutCancel(ctx), requestURL2.String(), nil, false) if err != nil { // browser dialer only return nil, err } } if mode == "stream-up" { if xmuxClient != nil { xmuxClient.LeftRequests.Add(-1) } httpClient.OpenStream(ctx, requestURL.String(), reader, true) return stat.Connection(&conn), nil } scMaxEachPostBytes := transportConfiguration.GetNormalizedScMaxEachPostBytes() scMinPostsIntervalMs := transportConfiguration.GetNormalizedScMinPostsIntervalMs() if scMaxEachPostBytes.From <= buf.Size { panic("`scMaxEachPostBytes` should be bigger than " + strconv.Itoa(buf.Size)) } maxUploadSize := scMaxEachPostBytes.rand() // WithSizeLimit(0) will still allow single bytes to pass, and a lot of // code relies on this behavior. Subtract 1 so that together with // uploadWriter wrapper, exact size limits can be enforced // uploadPipeReader, uploadPipeWriter := pipe.New(pipe.WithSizeLimit(maxUploadSize - 1)) uploadPipeReader, uploadPipeWriter := pipe.New(pipe.WithSizeLimit(maxUploadSize - buf.Size)) conn.writer = uploadWriter{ uploadPipeWriter, maxUploadSize, } go func() { var seq int64 var lastWrite time.Time for { wroteRequest := done.New() ctx := httptrace.WithClientTrace(ctx, &httptrace.ClientTrace{ WroteRequest: func(httptrace.WroteRequestInfo) { wroteRequest.Close() }, }) // this intentionally makes a shallow-copy of the struct so we // can reassign Path (potentially concurrently) url := requestURL url.Path += "/" + strconv.FormatInt(seq, 10) // reassign query to get different padding url.RawQuery = transportConfiguration.GetNormalizedQuery() seq += 1 if scMinPostsIntervalMs.From > 0 { time.Sleep(time.Duration(scMinPostsIntervalMs.rand())*time.Millisecond - time.Since(lastWrite)) } // by offloading the uploads into a buffered pipe, multiple conn.Write // calls get automatically batched together into larger POST requests. // without batching, bandwidth is extremely limited. chunk, err := uploadPipeReader.ReadMultiBuffer() if err != nil { break } lastWrite = time.Now() if xmuxClient != nil && xmuxClient.LeftRequests.Add(-1) <= 0 { httpClient, xmuxClient = getHTTPClient(ctx, dest, streamSettings) } go func() { err := httpClient.PostPacket( context.WithoutCancel(ctx), url.String(), &buf.MultiBufferContainer{MultiBuffer: chunk}, int64(chunk.Len()), ) wroteRequest.Close() if err != nil { errors.LogInfoInner(ctx, err, "failed to send upload") uploadPipeReader.Interrupt() } }() if _, ok := httpClient.(*DefaultDialerClient); ok { <-wroteRequest.Wait() } } }() return stat.Connection(&conn), nil } // A wrapper around pipe that ensures the size limit is exactly honored. // // The MultiBuffer pipe accepts any single WriteMultiBuffer call even if that // single MultiBuffer exceeds the size limit, and then starts blocking on the // next WriteMultiBuffer call. This means that ReadMultiBuffer can return more // bytes than the size limit. We work around this by splitting a potentially // too large write up into multiple. type uploadWriter struct { *pipe.Writer maxLen int32 } func (w uploadWriter) Write(b []byte) (int, error) { /* capacity := int(w.maxLen - w.Len()) if capacity > 0 && capacity < len(b) { b = b[:capacity] } */ buffer := buf.New() n, err := buffer.Write(b) if err != nil { return 0, err } err = w.WriteMultiBuffer([]*buf.Buffer{buffer}) if err != nil { return 0, err } return n, nil }