package v4 import ( "bufio" "bytes" "context" "crypto/tls" "errors" "net" "time" "github.com/go-gost/core/auth" "github.com/go-gost/core/bypass" "github.com/go-gost/core/handler" "github.com/go-gost/core/limiter" "github.com/go-gost/core/limiter/traffic" "github.com/go-gost/core/logger" md "github.com/go-gost/core/metadata" "github.com/go-gost/core/observer" "github.com/go-gost/core/observer/stats" "github.com/go-gost/core/recorder" "github.com/go-gost/gosocks4" xctx "github.com/go-gost/x/ctx" ictx "github.com/go-gost/x/internal/ctx" xnet "github.com/go-gost/x/internal/net" "github.com/go-gost/x/internal/util/sniffing" stats_util "github.com/go-gost/x/internal/util/stats" tls_util "github.com/go-gost/x/internal/util/tls" rate_limiter "github.com/go-gost/x/limiter/rate" cache_limiter "github.com/go-gost/x/limiter/traffic/cache" traffic_wrapper "github.com/go-gost/x/limiter/traffic/wrapper" xstats "github.com/go-gost/x/observer/stats" stats_wrapper "github.com/go-gost/x/observer/stats/wrapper" xrecorder "github.com/go-gost/x/recorder" "github.com/go-gost/x/registry" ) var ( ErrUnknownCmd = errors.New("socks4: unknown command") ErrUnimplemented = errors.New("socks4: unimplemented") ) func init() { registry.HandlerRegistry().Register("socks4", NewHandler) registry.HandlerRegistry().Register("socks4a", NewHandler) } type socks4Handler struct { md metadata options handler.Options stats *stats_util.HandlerStats limiter traffic.TrafficLimiter cancel context.CancelFunc recorder recorder.RecorderObject certPool tls_util.CertPool } func NewHandler(opts ...handler.Option) handler.Handler { options := handler.Options{} for _, opt := range opts { opt(&options) } return &socks4Handler{ options: options, } } func (h *socks4Handler) Init(md md.Metadata) (err error) { if err := h.parseMetadata(md); err != nil { return err } ctx, cancel := context.WithCancel(context.Background()) h.cancel = cancel if h.options.Observer != nil { h.stats = stats_util.NewHandlerStats(h.options.Service, h.md.observerResetTraffic) go h.observeStats(ctx) } if h.options.Limiter != nil { h.limiter = cache_limiter.NewCachedTrafficLimiter(h.options.Limiter, cache_limiter.RefreshIntervalOption(h.md.limiterRefreshInterval), cache_limiter.CleanupIntervalOption(h.md.limiterCleanupInterval), cache_limiter.ScopeOption(limiter.ScopeClient), ) } for _, ro := range h.options.Recorders { if ro.Record == xrecorder.RecorderServiceHandler { h.recorder = ro break } } if h.md.certificate != nil && h.md.privateKey != nil { h.certPool = tls_util.NewMemoryCertPool() } return nil } func (h *socks4Handler) Handle(ctx context.Context, conn net.Conn, opts ...handler.HandleOption) (err error) { defer conn.Close() start := time.Now() ro := &xrecorder.HandlerRecorderObject{ Network: "tcp", Service: h.options.Service, RemoteAddr: conn.RemoteAddr().String(), LocalAddr: conn.LocalAddr().String(), SID: xctx.SidFromContext(ctx).String(), Time: start, } if srcAddr := xctx.SrcAddrFromContext(ctx); srcAddr != nil { ro.ClientAddr = srcAddr.String() } log := h.options.Logger.WithFields(map[string]any{ "network": ro.Network, "remote": conn.RemoteAddr().String(), "local": conn.LocalAddr().String(), "client": ro.ClientAddr, "sid": ro.SID, }) log.Infof("%s <> %s", conn.RemoteAddr(), conn.LocalAddr()) pStats := xstats.Stats{} conn = stats_wrapper.WrapConn(conn, &pStats) defer func() { if err != nil { ro.Err = err.Error() } ro.InputBytes = pStats.Get(stats.KindInputBytes) ro.OutputBytes = pStats.Get(stats.KindOutputBytes) ro.Duration = time.Since(start) if err := ro.Record(ctx, h.recorder.Recorder); err != nil { log.Errorf("record: %v", err) } log.WithFields(map[string]any{ "duration": time.Since(start), "inputBytes": ro.InputBytes, "outputBytes": ro.OutputBytes, }).Infof("%s >< %s", conn.RemoteAddr(), conn.LocalAddr()) }() if !h.checkRateLimit(conn.RemoteAddr()) { return rate_limiter.ErrRateLimit } if h.md.readTimeout > 0 { conn.SetReadDeadline(time.Now().Add(h.md.readTimeout)) } req, err := gosocks4.ReadRequest(conn) if err != nil { log.Error(err) return err } if userid := string(req.Userid); userid != "" { log = log.WithFields(map[string]any{"user": userid}) ro.ClientID = userid } ro.Host = req.Addr.String() log.Trace(req) conn.SetReadDeadline(time.Time{}) if h.options.Auther != nil { clientID, ok := h.options.Auther.Authenticate(ctx, string(req.Userid), "", auth.WithService(h.options.Service)) if !ok { resp := gosocks4.NewReply(gosocks4.RejectedUserid, nil) log.Trace(resp) return resp.Write(conn) } ctx = xctx.ContextWithClientID(ctx, xctx.ClientID(clientID)) ro.ClientID = clientID log = log.WithFields(map[string]any{"clientID": clientID}) } switch req.Cmd { case gosocks4.CmdConnect: return h.handleConnect(ctx, conn, req, ro, log) case gosocks4.CmdBind: return h.handleBind(ctx, conn, req) default: err = ErrUnknownCmd log.Error(err) return err } } func (h *socks4Handler) Close() error { if h.cancel != nil { h.cancel() } return nil } func (h *socks4Handler) handleConnect(ctx context.Context, conn net.Conn, req *gosocks4.Request, ro *xrecorder.HandlerRecorderObject, log logger.Logger) error { addr := req.Addr.String() log = log.WithFields(map[string]any{ "dst": addr, "host": addr, }) log.Debugf("%s >> %s", conn.RemoteAddr(), addr) { clientID := xctx.ClientIDFromContext(ctx) rw := traffic_wrapper.WrapReadWriter( h.limiter, conn, string(clientID), limiter.ScopeOption(limiter.ScopeClient), limiter.ServiceOption(h.options.Service), limiter.NetworkOption("tcp"), limiter.AddrOption(addr), limiter.ClientOption(string(clientID)), limiter.SrcOption(conn.RemoteAddr().String()), ) if h.options.Observer != nil { pstats := h.stats.Stats(string(clientID)) pstats.Add(stats.KindTotalConns, 1) pstats.Add(stats.KindCurrentConns, 1) defer pstats.Add(stats.KindCurrentConns, -1) rw = stats_wrapper.WrapReadWriter(rw, pstats) } conn = xnet.NewReadWriteConn(rw, rw, conn) } if h.options.Bypass != nil && h.options.Bypass.Contains(ctx, "tcp", addr, bypass.WithService(h.options.Service)) { resp := gosocks4.NewReply(gosocks4.Rejected, nil) log.Trace(resp) log.Debug("bypass: ", addr) return resp.Write(conn) } switch h.md.hash { case "host": ctx = xctx.ContextWithHash(ctx, &xctx.Hash{Source: addr}) } var buf bytes.Buffer cc, err := h.options.Router.Dial(ictx.ContextWithBuffer(ctx, &buf), "tcp", addr) ro.Route = buf.String() if err != nil { resp := gosocks4.NewReply(gosocks4.Failed, nil) log.Trace(resp) resp.Write(conn) return err } defer cc.Close() log = log.WithFields(map[string]any{"src": cc.LocalAddr().String(), "dst": cc.RemoteAddr().String()}) ro.SrcAddr = cc.LocalAddr().String() ro.DstAddr = cc.RemoteAddr().String() resp := gosocks4.NewReply(gosocks4.Granted, nil) log.Trace(resp) if err := resp.Write(conn); err != nil { log.Error(err) return err } if h.md.sniffing { if h.md.sniffingTimeout > 0 { conn.SetReadDeadline(time.Now().Add(h.md.sniffingTimeout)) } br := bufio.NewReader(conn) proto, _ := sniffing.Sniff(ctx, br) ro.Proto = proto if h.md.sniffingTimeout > 0 { conn.SetReadDeadline(time.Time{}) } dial := func(ctx context.Context, network, address string) (net.Conn, error) { return cc, nil } dialTLS := func(ctx context.Context, network, address string, cfg *tls.Config) (net.Conn, error) { return cc, nil } sniffer := &sniffing.Sniffer{ Websocket: h.md.sniffingWebsocket, WebsocketSampleRate: h.md.sniffingWebsocketSampleRate, Recorder: h.recorder.Recorder, RecorderOptions: h.recorder.Options, Certificate: h.md.certificate, PrivateKey: h.md.privateKey, NegotiatedProtocol: h.md.alpn, CertPool: h.certPool, MitmBypass: h.md.mitmBypass, ReadTimeout: h.md.readTimeout, } conn = xnet.NewReadWriteConn(br, conn, conn) switch proto { case sniffing.ProtoHTTP: return sniffer.HandleHTTP(ctx, "tcp", conn, sniffing.WithService(h.options.Service), sniffing.WithDial(dial), sniffing.WithDialTLS(dialTLS), sniffing.WithBypass(h.options.Bypass), sniffing.WithRecorderObject(ro), sniffing.WithLog(log), ) case sniffing.ProtoTLS: return sniffer.HandleTLS(ctx, "tcp", conn, sniffing.WithService(h.options.Service), sniffing.WithDial(dial), sniffing.WithDialTLS(dialTLS), sniffing.WithBypass(h.options.Bypass), sniffing.WithRecorderObject(ro), sniffing.WithLog(log), ) } } t := time.Now() log.Infof("%s <-> %s", conn.RemoteAddr(), ro.Host) // xnet.Transport(conn, cc) xnet.Pipe(ctx, conn, cc) log.WithFields(map[string]any{ "duration": time.Since(t), }).Infof("%s >-< %s", conn.RemoteAddr(), ro.Host) return nil } func (h *socks4Handler) handleBind(ctx context.Context, conn net.Conn, req *gosocks4.Request) error { // TODO: bind return ErrUnimplemented } func (h *socks4Handler) checkRateLimit(addr net.Addr) bool { if h.options.RateLimiter == nil { return true } host, _, _ := net.SplitHostPort(addr.String()) if limiter := h.options.RateLimiter.Limiter(host); limiter != nil { return limiter.Allow(1) } return true } func (h *socks4Handler) observeStats(ctx context.Context) { if h.options.Observer == nil { return } var events []observer.Event ticker := time.NewTicker(h.md.observerPeriod) defer ticker.Stop() for { select { case <-ticker.C: // Try to flush any buffered events from a previous failed attempt. if len(events) > 0 { if err := h.options.Observer.Observe(ctx, events); err != nil { continue } } // Collect and send fresh events. if evs := h.stats.Events(); len(evs) > 0 { if err := h.options.Observer.Observe(ctx, evs); err != nil { events = evs continue } } events = nil case <-ctx.Done(): return } } }