// loop for reading messages from frpc after control connection is established func msgReader(cli *client.ProxyClient, c *conn.Conn, msgSendChan chan interface{}) error { // for heartbeat var heartbeatTimeout bool = false timer := time.AfterFunc(time.Duration(client.HeartBeatTimeout)*time.Second, func() { heartbeatTimeout = true c.Close() log.Error("ProxyName [%s], heartbeatRes from frps timeout", cli.Name) }) defer timer.Stop() for { buf, err := c.ReadLine() if err == io.EOF || c == nil || c.IsClosed() { c.Close() log.Warn("ProxyName [%s], frps close this control conn!", cli.Name) var delayTime time.Duration = 1 // loop until reconnect to frps for { log.Info("ProxyName [%s], try to reconnect to frps [%s:%d]...", cli.Name, client.ServerAddr, client.ServerPort) c, err = loginToServer(cli) if err == nil { close(msgSendChan) msgSendChan = make(chan interface{}, 1024) go heartbeatSender(c, msgSendChan) go msgSender(cli, c, msgSendChan) break } if delayTime < 60 { delayTime = delayTime * 2 } time.Sleep(delayTime * time.Second) } continue } else if err != nil { log.Warn("ProxyName [%s], read from frps error: %v", cli.Name, err) continue } ctlRes := &msg.ControlRes{} if err := json.Unmarshal([]byte(buf), &ctlRes); err != nil { log.Warn("ProxyName [%s], parse msg from frps error: %v : %s", cli.Name, err, buf) continue } switch ctlRes.Type { case consts.HeartbeatRes: log.Debug("ProxyName [%s], receive heartbeat response", cli.Name) timer.Reset(time.Duration(client.HeartBeatTimeout) * time.Second) case consts.NoticeUserConn: log.Debug("ProxyName [%s], new user connection", cli.Name) // join local and remote connections, async go cli.StartTunnel(client.ServerAddr, client.ServerPort) default: log.Warn("ProxyName [%s}, unsupport msgType [%d]", cli.Name, ctlRes.Type) } } return nil }
// loop for sending messages from channel to frps func msgSender(cli *client.ProxyClient, c *conn.Conn, msgSendChan chan interface{}) { for { msg, ok := <-msgSendChan if !ok { break } buf, _ := json.Marshal(msg) err := c.Write(string(buf) + "\n") if err != nil { log.Warn("ProxyName [%s], write to server error, proxy exit", cli.Name) c.Close() break } } }
// connection from every client and server func controlWorker(c *conn.Conn) { // if login message type is NewWorkConn, don't close this connection var closeFlag bool = true var s *server.ProxyServer defer func() { if closeFlag { c.Close() if s != nil { s.Close() } } }() // get login message buf, err := c.ReadLine() if err != nil { log.Warn("Read error, %v", err) return } log.Debug("Get msg from frpc: %s", buf) cliReq := &msg.ControlReq{} if err := json.Unmarshal([]byte(buf), &cliReq); err != nil { log.Warn("Parse msg from frpc error: %v : %s", err, buf) return } // login when type is NewCtlConn or NewWorkConn ret, info := doLogin(cliReq, c) s, ok := server.ProxyServers[cliReq.ProxyName] if !ok { log.Warn("ProxyName [%s] is not exist", cliReq.ProxyName) return } // if login type is NewWorkConn, nothing will be send to frpc if cliReq.Type != consts.NewWorkConn { cliRes := &msg.ControlRes{ Type: consts.NewCtlConnRes, Code: ret, Msg: info, } byteBuf, _ := json.Marshal(cliRes) err = c.Write(string(byteBuf) + "\n") if err != nil { log.Warn("ProxyName [%s], write to client error, proxy exit", s.Name) time.Sleep(1 * time.Second) return } } else { closeFlag = false return } // if login failed, just return if ret > 0 { return } // create a channel for sending messages msgSendChan := make(chan interface{}, 1024) go msgSender(s, c, msgSendChan) go noticeUserConn(s, msgSendChan) // loop for reading control messages from frpc and deal with different types msgReader(s, c, msgSendChan) close(msgSendChan) log.Info("ProxyName [%s], I'm dead!", s.Name) return }
// start listening for user conns func (p *ProxyServer) Start(c *conn.Conn) (err error) { p.CtlConn = c p.Init() if p.Type == "tcp" { l, err := conn.Listen(p.BindAddr, p.ListenPort) if err != nil { return err } p.listeners = append(p.listeners, l) } else if p.Type == "http" { for _, domain := range p.CustomDomains { l, err := VhostMuxer.Listen(domain) if err != nil { return err } p.listeners = append(p.listeners, l) } } p.Lock() p.Status = consts.Working p.Unlock() // start a goroutine for every listener to accept user connection for _, listener := range p.listeners { go func(l Listener) { for { // block // if listener is closed, err returned c, err := l.Accept() if err != nil { log.Info("ProxyName [%s], listener is closed", p.Name) return } log.Debug("ProxyName [%s], get one new user conn [%s]", p.Name, c.GetRemoteAddr()) if p.Status != consts.Working { log.Debug("ProxyName [%s] is not working, new user conn close", p.Name) c.Close() return } // start another goroutine for join two conns from frpc and user go func() { workConn, err := p.getWorkConn() if err != nil { return } userConn := c // msg will transfer to another without modifying // l means local, r means remote log.Debug("Join two connections, (l[%s] r[%s]) (l[%s] r[%s])", workConn.GetLocalAddr(), workConn.GetRemoteAddr(), userConn.GetLocalAddr(), userConn.GetRemoteAddr()) if p.UseEncryption { go conn.JoinMore(userConn, workConn, p.AuthToken) } else { go conn.Join(userConn, workConn) } }() } }(listener) } return nil }