package flvio import ( "fmt" "io" "time" "gitlab.com/ics_cinnamon/joy4/av" "gitlab.com/ics_cinnamon/joy4/utils/bits/pio" ) func TsToTime(ts int32) time.Duration { return time.Millisecond * time.Duration(ts) } func TimeToTs(tm time.Duration) int32 { return int32(tm / time.Millisecond) } const MaxTagSubHeaderLength = 16 const ( TAG_AUDIO = 8 TAG_VIDEO = 9 TAG_SCRIPTDATA = 18 ) const ( SOUND_MP3 = 2 SOUND_NELLYMOSER_16KHZ_MONO = 4 SOUND_NELLYMOSER_8KHZ_MONO = 5 SOUND_NELLYMOSER = 6 SOUND_ALAW = 7 SOUND_MULAW = 8 SOUND_AAC = 10 SOUND_SPEEX = 11 SOUND_5_5Khz = 0 SOUND_11Khz = 1 SOUND_22Khz = 2 SOUND_44Khz = 3 SOUND_8BIT = 0 SOUND_16BIT = 1 SOUND_MONO = 0 SOUND_STEREO = 1 AAC_SEQHDR = 0 AAC_RAW = 1 ) const ( AVC_SEQHDR = 0 AVC_NALU = 1 AVC_EOS = 2 FRAME_KEY = 1 FRAME_INTER = 2 VIDEO_H264 = 7 ) type Tag struct { Type uint8 /* SoundFormat: UB[4] 0 = Linear PCM, platform endian 1 = ADPCM 2 = MP3 3 = Linear PCM, little endian 4 = Nellymoser 16-kHz mono 5 = Nellymoser 8-kHz mono 6 = Nellymoser 7 = G.711 A-law logarithmic PCM 8 = G.711 mu-law logarithmic PCM 9 = reserved 10 = AAC 11 = Speex 14 = MP3 8-Khz 15 = Device-specific sound Formats 7, 8, 14, and 15 are reserved for internal use AAC is supported in Flash Player 9,0,115,0 and higher. Speex is supported in Flash Player 10 and higher. */ SoundFormat uint8 /* SoundRate: UB[2] Sampling rate 0 = 5.5-kHz For AAC: always 3 1 = 11-kHz 2 = 22-kHz 3 = 44-kHz */ SoundRate uint8 /* SoundSize: UB[1] 0 = snd8Bit 1 = snd16Bit Size of each sample. This parameter only pertains to uncompressed formats. Compressed formats always decode to 16 bits internally */ SoundSize uint8 /* SoundType: UB[1] 0 = sndMono 1 = sndStereo Mono or stereo sound For Nellymoser: always 0 For AAC: always 1 */ SoundType uint8 /* 0: AAC sequence header 1: AAC raw */ AACPacketType uint8 /* 1: keyframe (for AVC, a seekable frame) 2: inter frame (for AVC, a non- seekable frame) 3: disposable inter frame (H.263 only) 4: generated keyframe (reserved for server use only) 5: video info/command frame */ FrameType uint8 /* 1: JPEG (currently unused) 2: Sorenson H.263 3: Screen video 4: On2 VP6 5: On2 VP6 with alpha channel 6: Screen video version 2 7: AVC */ CodecID uint8 /* 0: AVC sequence header 1: AVC NALU 2: AVC end of sequence (lower level NALU sequence ender is not required or supported) */ AVCPacketType uint8 CompositionTime int32 Data []byte } func (self Tag) ChannelLayout() av.ChannelLayout { if self.SoundType == SOUND_MONO { return av.CH_MONO } else { return av.CH_STEREO } } func (self *Tag) audioParseHeader(b []byte) (n int, err error) { if len(b) < n+1 { err = fmt.Errorf("audiodata: parse invalid") return } flags := b[n] n++ self.SoundFormat = flags >> 4 self.SoundRate = (flags >> 2) & 0x3 self.SoundSize = (flags >> 1) & 0x1 self.SoundType = flags & 0x1 switch self.SoundFormat { case SOUND_AAC: if len(b) < n+1 { err = fmt.Errorf("audiodata: parse invalid") return } self.AACPacketType = b[n] n++ } return } func (self Tag) audioFillHeader(b []byte) (n int) { var flags uint8 flags |= self.SoundFormat << 4 flags |= self.SoundRate << 2 flags |= self.SoundSize << 1 flags |= self.SoundType b[n] = flags n++ switch self.SoundFormat { case SOUND_AAC: b[n] = self.AACPacketType n++ } return } func (self *Tag) videoParseHeader(b []byte) (n int, err error) { if len(b) < n+1 { err = fmt.Errorf("videodata: parse invalid") return } flags := b[n] self.FrameType = flags >> 4 self.CodecID = flags & 0xf n++ if self.FrameType == FRAME_INTER || self.FrameType == FRAME_KEY { if len(b) < n+4 { err = fmt.Errorf("videodata: parse invalid") return } self.AVCPacketType = b[n] n++ self.CompositionTime = pio.I24BE(b[n:]) n += 3 } return } func (self Tag) videoFillHeader(b []byte) (n int) { flags := self.FrameType<<4 | self.CodecID b[n] = flags n++ b[n] = self.AVCPacketType n++ pio.PutI24BE(b[n:], self.CompositionTime) n += 3 return } func (self Tag) FillHeader(b []byte) (n int) { switch self.Type { case TAG_AUDIO: return self.audioFillHeader(b) case TAG_VIDEO: return self.videoFillHeader(b) } return } func (self *Tag) ParseHeader(b []byte) (n int, err error) { switch self.Type { case TAG_AUDIO: return self.audioParseHeader(b) case TAG_VIDEO: return self.videoParseHeader(b) } return } const ( // TypeFlagsReserved UB[5] // TypeFlagsAudio UB[1] Audio tags are present // TypeFlagsReserved UB[1] Must be 0 // TypeFlagsVideo UB[1] Video tags are present FILE_HAS_AUDIO = 0x4 FILE_HAS_VIDEO = 0x1 ) const TagHeaderLength = 11 const TagTrailerLength = 4 func ParseTagHeader(b []byte) (tag Tag, ts int32, datalen int, err error) { tagtype := b[0] switch tagtype { case TAG_AUDIO, TAG_VIDEO, TAG_SCRIPTDATA: tag = Tag{Type: tagtype} default: err = fmt.Errorf("flvio: ReadTag tagtype=%d invalid", tagtype) return } datalen = int(pio.U24BE(b[1:4])) var tslo uint32 var tshi uint8 tslo = pio.U24BE(b[4:7]) tshi = b[7] ts = int32(tslo | uint32(tshi)<<24) return } func ReadTag(r io.Reader, b []byte) (tag Tag, ts int32, err error) { if _, err = io.ReadFull(r, b[:TagHeaderLength]); err != nil { return } var datalen int if tag, ts, datalen, err = ParseTagHeader(b); err != nil { return } data := make([]byte, datalen) if _, err = io.ReadFull(r, data); err != nil { return } var n int if n, err = (&tag).ParseHeader(data); err != nil { return } tag.Data = data[n:] if _, err = io.ReadFull(r, b[:4]); err != nil { return } return } func FillTagHeader(b []byte, tagtype uint8, datalen int, ts int32) (n int) { b[n] = tagtype n++ pio.PutU24BE(b[n:], uint32(datalen)) n += 3 pio.PutU24BE(b[n:], uint32(ts&0xffffff)) n += 3 b[n] = uint8(ts >> 24) n++ pio.PutI24BE(b[n:], 0) n += 3 return } func FillTagTrailer(b []byte, datalen int) (n int) { pio.PutU32BE(b[n:], uint32(datalen+TagHeaderLength)) n += 4 return } func WriteTag(w io.Writer, tag Tag, ts int32, b []byte) (err error) { data := tag.Data n := tag.FillHeader(b[TagHeaderLength:]) datalen := len(data) + n n += FillTagHeader(b, tag.Type, datalen, ts) if _, err = w.Write(b[:n]); err != nil { return } if _, err = w.Write(data); err != nil { return } n = FillTagTrailer(b, datalen) if _, err = w.Write(b[:n]); err != nil { return } return } const FileHeaderLength = 9 func FillFileHeader(b []byte, flags uint8) (n int) { // 'FLV', version 1 pio.PutU32BE(b[n:], 0x464c5601) n += 4 b[n] = flags n++ // DataOffset: UI32 Offset in bytes from start of file to start of body (that is, size of header) // The DataOffset field usually has a value of 9 for FLV version 1. pio.PutU32BE(b[n:], 9) n += 4 // PreviousTagSize0: UI32 Always 0 pio.PutU32BE(b[n:], 0) n += 4 return } func ParseFileHeader(b []byte) (flags uint8, skip int, err error) { flv := pio.U24BE(b[0:3]) if flv != 0x464c56 { // 'FLV' err = fmt.Errorf("flvio: file header cc3 invalid") return } flags = b[4] skip = int(pio.U32BE(b[5:9])) - 9 + 4 if skip < 0 { err = fmt.Errorf("flvio: file header datasize invalid") return } return }