package turn import ( "encoding/binary" "errors" "net" "time" "github.com/pion/stun" "github.com/pion/turn/v2/internal/proto" ) var ( errInvalidTURNFrame = errors.New("data is not a valid TURN frame, no STUN or ChannelData found") errIncompleteTURNFrame = errors.New("data contains incomplete STUN or TURN frame") ) // STUNConn wraps a net.Conn and implements // net.PacketConn by being STUN aware and // packetizing the stream type STUNConn struct { nextConn net.Conn buff []byte } const ( stunHeaderSize = 20 channelDataLengthSize = 2 channelDataNumberSize = channelDataLengthSize channelDataHeaderSize = channelDataLengthSize + channelDataNumberSize channelDataPadding = 4 ) // Given a buffer give the last offset of the TURN frame // If the buffer isn't a valid STUN or ChannelData packet // or the length doesn't match return false func consumeSingleTURNFrame(p []byte) (int, error) { // Too short to determine if ChannelData or STUN if len(p) < 9 { return 0, errIncompleteTURNFrame } var datagramSize uint16 switch { case stun.IsMessage(p): datagramSize = binary.BigEndian.Uint16(p[2:4]) + stunHeaderSize case proto.ChannelNumber(binary.BigEndian.Uint16(p[0:2])).Valid(): datagramSize = binary.BigEndian.Uint16(p[channelDataNumberSize:channelDataHeaderSize]) if paddingOverflow := (datagramSize + channelDataPadding) % channelDataPadding; paddingOverflow != 0 { datagramSize = (datagramSize + channelDataPadding) - paddingOverflow } datagramSize += channelDataHeaderSize case len(p) < stunHeaderSize: return 0, errIncompleteTURNFrame default: return 0, errInvalidTURNFrame } if len(p) < int(datagramSize) { return 0, errIncompleteTURNFrame } return int(datagramSize), nil } // ReadFrom implements ReadFrom from net.PacketConn func (s *STUNConn) ReadFrom(p []byte) (n int, addr net.Addr, err error) { // First pass any buffered data from previous reads n, err = consumeSingleTURNFrame(s.buff) if errors.Is(err, errInvalidTURNFrame) { return 0, nil, err } else if err == nil { copy(p, s.buff[:n]) s.buff = s.buff[n:] return n, s.nextConn.RemoteAddr(), nil } // Then read from the nextConn, appending to our buff n, err = s.nextConn.Read(p) if err != nil { return 0, nil, err } s.buff = append(s.buff, append([]byte{}, p[:n]...)...) return s.ReadFrom(p) } // WriteTo implements WriteTo from net.PacketConn func (s *STUNConn) WriteTo(p []byte, addr net.Addr) (n int, err error) { return s.nextConn.Write(p) } // Close implements Close from net.PacketConn func (s *STUNConn) Close() error { return s.nextConn.Close() } // LocalAddr implements LocalAddr from net.PacketConn func (s *STUNConn) LocalAddr() net.Addr { return s.nextConn.LocalAddr() } // SetDeadline implements SetDeadline from net.PacketConn func (s *STUNConn) SetDeadline(t time.Time) error { return s.nextConn.SetDeadline(t) } // SetReadDeadline implements SetReadDeadline from net.PacketConn func (s *STUNConn) SetReadDeadline(t time.Time) error { return s.nextConn.SetReadDeadline(t) } // SetWriteDeadline implements SetWriteDeadline from net.PacketConn func (s *STUNConn) SetWriteDeadline(t time.Time) error { return s.nextConn.SetWriteDeadline(t) } // NewSTUNConn creates a STUNConn func NewSTUNConn(nextConn net.Conn) *STUNConn { return &STUNConn{nextConn: nextConn} }