package sdp import ( "errors" "fmt" "io" "sort" "strconv" "strings" "github.com/pion/randutil" ) const ( attributeKey = "a=" ) var ( errExtractCodecRtpmap = errors.New("could not extract codec from rtpmap") errExtractCodecFmtp = errors.New("could not extract codec from fmtp") errExtractCodecRtcpFb = errors.New("could not extract codec from rtcp-fb") errPayloadTypeNotFound = errors.New("payload type not found") errCodecNotFound = errors.New("codec not found") errSyntaxError = errors.New("SyntaxError") ) // ConnectionRole indicates which of the end points should initiate the connection establishment type ConnectionRole int const ( // ConnectionRoleActive indicates the endpoint will initiate an outgoing connection. ConnectionRoleActive ConnectionRole = iota + 1 // ConnectionRolePassive indicates the endpoint will accept an incoming connection. ConnectionRolePassive // ConnectionRoleActpass indicates the endpoint is willing to accept an incoming connection or to initiate an outgoing connection. ConnectionRoleActpass // ConnectionRoleHoldconn indicates the endpoint does not want the connection to be established for the time being. ConnectionRoleHoldconn ) func (t ConnectionRole) String() string { switch t { case ConnectionRoleActive: return "active" case ConnectionRolePassive: return "passive" case ConnectionRoleActpass: return "actpass" case ConnectionRoleHoldconn: return "holdconn" default: return "Unknown" } } func newSessionID() (uint64, error) { // https://tools.ietf.org/html/draft-ietf-rtcweb-jsep-26#section-5.2.1 // Session ID is recommended to be constructed by generating a 64-bit // quantity with the highest bit set to zero and the remaining 63-bits // being cryptographically random. id, err := randutil.CryptoUint64() return id & (^(uint64(1) << 63)), err } // Codec represents a codec type Codec struct { PayloadType uint8 Name string ClockRate uint32 EncodingParameters string Fmtp string RTCPFeedback []string } const ( unknown = iota ) func (c Codec) String() string { return fmt.Sprintf("%d %s/%d/%s (%s) [%s]", c.PayloadType, c.Name, c.ClockRate, c.EncodingParameters, c.Fmtp, strings.Join(c.RTCPFeedback, ", ")) } func parseRtpmap(rtpmap string) (Codec, error) { var codec Codec parsingFailed := errExtractCodecRtpmap // a=rtpmap: /[/] split := strings.Split(rtpmap, " ") if len(split) != 2 { return codec, parsingFailed } ptSplit := strings.Split(split[0], ":") if len(ptSplit) != 2 { return codec, parsingFailed } ptInt, err := strconv.Atoi(ptSplit[1]) if err != nil { return codec, parsingFailed } codec.PayloadType = uint8(ptInt) split = strings.Split(split[1], "/") codec.Name = split[0] parts := len(split) if parts > 1 { rate, err := strconv.Atoi(split[1]) if err != nil { return codec, parsingFailed } codec.ClockRate = uint32(rate) } if parts > 2 { codec.EncodingParameters = split[2] } return codec, nil } func parseFmtp(fmtp string) (Codec, error) { var codec Codec parsingFailed := errExtractCodecFmtp // a=fmtp: split := strings.Split(fmtp, " ") if len(split) != 2 { return codec, parsingFailed } formatParams := split[1] split = strings.Split(split[0], ":") if len(split) != 2 { return codec, parsingFailed } ptInt, err := strconv.Atoi(split[1]) if err != nil { return codec, parsingFailed } codec.PayloadType = uint8(ptInt) codec.Fmtp = formatParams return codec, nil } func parseRtcpFb(rtcpFb string) (Codec, error) { var codec Codec parsingFailed := errExtractCodecRtcpFb // a=ftcp-fb: [] split := strings.SplitN(rtcpFb, " ", 2) if len(split) != 2 { return codec, parsingFailed } ptSplit := strings.Split(split[0], ":") if len(ptSplit) != 2 { return codec, parsingFailed } ptInt, err := strconv.Atoi(ptSplit[1]) if err != nil { return codec, parsingFailed } codec.PayloadType = uint8(ptInt) codec.RTCPFeedback = append(codec.RTCPFeedback, split[1]) return codec, nil } func mergeCodecs(codec Codec, codecs map[uint8]Codec) { savedCodec := codecs[codec.PayloadType] if savedCodec.PayloadType == 0 { savedCodec.PayloadType = codec.PayloadType } if savedCodec.Name == "" { savedCodec.Name = codec.Name } if savedCodec.ClockRate == 0 { savedCodec.ClockRate = codec.ClockRate } if savedCodec.EncodingParameters == "" { savedCodec.EncodingParameters = codec.EncodingParameters } if savedCodec.Fmtp == "" { savedCodec.Fmtp = codec.Fmtp } savedCodec.RTCPFeedback = append(savedCodec.RTCPFeedback, codec.RTCPFeedback...) codecs[savedCodec.PayloadType] = savedCodec } func (s *SessionDescription) buildCodecMap() map[uint8]Codec { codecs := make(map[uint8]Codec) for _, m := range s.MediaDescriptions { for _, a := range m.Attributes { attr := a.String() switch { case strings.HasPrefix(attr, "rtpmap:"): codec, err := parseRtpmap(attr) if err == nil { mergeCodecs(codec, codecs) } case strings.HasPrefix(attr, "fmtp:"): codec, err := parseFmtp(attr) if err == nil { mergeCodecs(codec, codecs) } case strings.HasPrefix(attr, "rtcp-fb:"): codec, err := parseRtcpFb(attr) if err == nil { mergeCodecs(codec, codecs) } } } } return codecs } func equivalentFmtp(want, got string) bool { wantSplit := strings.Split(want, ";") gotSplit := strings.Split(got, ";") if len(wantSplit) != len(gotSplit) { return false } sort.Strings(wantSplit) sort.Strings(gotSplit) for i, wantPart := range wantSplit { wantPart = strings.TrimSpace(wantPart) gotPart := strings.TrimSpace(gotSplit[i]) if gotPart != wantPart { return false } } return true } func codecsMatch(wanted, got Codec) bool { if wanted.Name != "" && !strings.EqualFold(wanted.Name, got.Name) { return false } if wanted.ClockRate != 0 && wanted.ClockRate != got.ClockRate { return false } if wanted.EncodingParameters != "" && wanted.EncodingParameters != got.EncodingParameters { return false } if wanted.Fmtp != "" && !equivalentFmtp(wanted.Fmtp, got.Fmtp) { return false } return true } // GetCodecForPayloadType scans the SessionDescription for the given payload type and returns the codec func (s *SessionDescription) GetCodecForPayloadType(payloadType uint8) (Codec, error) { codecs := s.buildCodecMap() codec, ok := codecs[payloadType] if ok { return codec, nil } return codec, errPayloadTypeNotFound } // GetPayloadTypeForCodec scans the SessionDescription for a codec that matches the provided codec // as closely as possible and returns its payload type func (s *SessionDescription) GetPayloadTypeForCodec(wanted Codec) (uint8, error) { codecs := s.buildCodecMap() for payloadType, codec := range codecs { if codecsMatch(wanted, codec) { return payloadType, nil } } return 0, errCodecNotFound } type stateFn func(*lexer) (stateFn, error) type lexer struct { desc *SessionDescription baseLexer } type keyToState func(key string) stateFn func (l *lexer) handleType(fn keyToState) (stateFn, error) { key, err := l.readType() if err == io.EOF && key == "" { return nil, nil } else if err != nil { return nil, err } if res := fn(key); res != nil { return res, nil } return nil, l.syntaxError() }