package session import ( "bytes" "encoding/binary" "fmt" "log" "net" portUtil "tunnel_pls/internal/port" "tunnel_pls/internal/random" "tunnel_pls/types" "golang.org/x/crypto/ssh" ) var blockedReservedPorts = []uint16{1080, 1433, 1521, 1900, 2049, 3306, 3389, 5432, 5900, 6379, 8080, 8443, 9000, 9200, 27017} func (s *SSHSession) HandleGlobalRequest(GlobalRequest <-chan *ssh.Request) { for req := range GlobalRequest { switch req.Type { case "shell", "pty-req": err := req.Reply(true, nil) if err != nil { log.Println("Failed to reply to request:", err) return } case "window-change": p := req.Payload if len(p) < 16 { log.Println("invalid window-change payload") err := req.Reply(false, nil) if err != nil { log.Println("Failed to reply to request:", err) return } return } cols := binary.BigEndian.Uint32(p[0:4]) rows := binary.BigEndian.Uint32(p[4:8]) s.interaction.SetWH(int(cols), int(rows)) err := req.Reply(true, nil) if err != nil { log.Println("Failed to reply to request:", err) return } default: log.Println("Unknown request type:", req.Type) err := req.Reply(false, nil) if err != nil { log.Println("Failed to reply to request:", err) return } } } } func (s *SSHSession) HandleTCPIPForward(req *ssh.Request) { log.Println("Port forwarding request detected") fail := func(msg string) { log.Println(msg) if err := req.Reply(false, nil); err != nil { log.Println("Failed to reply to request:", err) return } if err := s.lifecycle.Close(); err != nil { log.Printf("failed to close session: %v", err) } } reader := bytes.NewReader(req.Payload) addr, err := readSSHString(reader) if err != nil { fail(fmt.Sprintf("Failed to read address from payload: %v", err)) return } var rawPortToBind uint32 if err = binary.Read(reader, binary.BigEndian, &rawPortToBind); err != nil { fail(fmt.Sprintf("Failed to read port from payload: %v", err)) return } if rawPortToBind > 65535 { fail(fmt.Sprintf("Port %d is larger than allowed port of 65535", rawPortToBind)) return } portToBind := uint16(rawPortToBind) if isBlockedPort(portToBind) { fail(fmt.Sprintf("Port %d is blocked or restricted", portToBind)) return } switch portToBind { case 80, 443: s.HandleHTTPForward(req, portToBind) default: s.HandleTCPForward(req, addr, portToBind) } } func (s *SSHSession) HandleHTTPForward(req *ssh.Request, portToBind uint16) { fail := func(msg string, key *types.SessionKey) { log.Println(msg) if key != nil { s.registry.Remove(*key) } if err := req.Reply(false, nil); err != nil { log.Println("Failed to reply to request:", err) } } slug := random.GenerateRandomString(20) key := types.SessionKey{Id: slug, Type: types.HTTP} if !s.registry.Register(key, s) { fail(fmt.Sprintf("Failed to register client with slug: %s", slug), nil) return } buf := new(bytes.Buffer) err := binary.Write(buf, binary.BigEndian, uint32(portToBind)) if err != nil { fail(fmt.Sprintf("Failed to write port to buffer: %v", err), &key) return } log.Printf("HTTP forwarding approved on port: %d", portToBind) err = req.Reply(true, buf.Bytes()) if err != nil { fail(fmt.Sprintf("Failed to reply to request: %v", err), &key) return } s.forwarder.SetType(types.HTTP) s.forwarder.SetForwardedPort(portToBind) s.slugManager.Set(slug) s.lifecycle.SetStatus(types.RUNNING) } func (s *SSHSession) HandleTCPForward(req *ssh.Request, addr string, portToBind uint16) { fail := func(msg string) { log.Println(msg) if err := req.Reply(false, nil); err != nil { log.Println("Failed to reply to request:", err) return } if err := s.lifecycle.Close(); err != nil { log.Printf("failed to close session: %v", err) } } cleanup := func(msg string, port uint16, listener net.Listener, key *types.SessionKey) { log.Println(msg) if key != nil { s.registry.Remove(*key) } if port != 0 { if setErr := portUtil.Default.SetPortStatus(port, false); setErr != nil { log.Printf("Failed to reset port status: %v", setErr) } } if listener != nil { if closeErr := listener.Close(); closeErr != nil { log.Printf("Failed to close listener: %v", closeErr) } } if err := req.Reply(false, nil); err != nil { log.Println("Failed to reply to request:", err) } _ = s.lifecycle.Close() } if portToBind == 0 { unassigned, ok := portUtil.Default.GetUnassignedPort() if !ok { fail("No available port") return } portToBind = unassigned } if claimed := portUtil.Default.ClaimPort(portToBind); !claimed { fail(fmt.Sprintf("Port %d is already in use or restricted", portToBind)) return } log.Printf("Requested forwarding on %s:%d", addr, portToBind) listener, err := net.Listen("tcp", fmt.Sprintf("0.0.0.0:%d", portToBind)) if err != nil { cleanup(fmt.Sprintf("Port %d is already in use or restricted", portToBind), portToBind, nil, nil) return } key := types.SessionKey{Id: fmt.Sprintf("%d", portToBind), Type: types.TCP} if !s.registry.Register(key, s) { cleanup(fmt.Sprintf("Failed to register TCP client with id: %s", key.Id), portToBind, listener, nil) return } buf := new(bytes.Buffer) err = binary.Write(buf, binary.BigEndian, uint32(portToBind)) if err != nil { cleanup(fmt.Sprintf("Failed to write port to buffer: %v", err), portToBind, listener, &key) return } log.Printf("TCP forwarding approved on port: %d", portToBind) err = req.Reply(true, buf.Bytes()) if err != nil { cleanup(fmt.Sprintf("Failed to reply to request: %v", err), portToBind, listener, &key) return } s.forwarder.SetType(types.TCP) s.forwarder.SetListener(listener) s.forwarder.SetForwardedPort(portToBind) s.slugManager.Set(key.Id) s.lifecycle.SetStatus(types.RUNNING) go s.forwarder.AcceptTCPConnections() } func readSSHString(reader *bytes.Reader) (string, error) { var length uint32 if err := binary.Read(reader, binary.BigEndian, &length); err != nil { return "", err } strBytes := make([]byte, length) if _, err := reader.Read(strBytes); err != nil { return "", err } return string(strBytes), nil } func isBlockedPort(port uint16) bool { if port == 80 || port == 443 { return false } if port < 1024 && port != 0 { return true } for _, p := range blockedReservedPorts { if p == port { return true } } return false }