#ifndef _flv_proto_h_ #define _flv_proto_h_ // FLV Tag Type #define FLV_TYPE_AUDIO 8 #define FLV_TYPE_VIDEO 9 #define FLV_TYPE_SCRIPT 18 // FLV Audio Type #define FLV_AUDIO_LPCM (0 << 4) // Linear PCM, platform endian #define FLV_AUDIO_ADPCM (1 << 4) #define FLV_AUDIO_MP3 (2 << 4) #define FLV_AUDIO_LLPCM (3 << 4) // Linear PCM, little endian #define FLV_AUDIO_G711A (7 << 4) // G711 A-law #define FLV_AUDIO_G711U (8 << 4) // G711 mu-law #define FLV_AUDIO_AAC (10 << 4) #define FLV_AUDIO_SPEEX (11 << 4) #define FLV_AUDIO_OPUS (13 << 4) #define FLV_AUDIO_MP3_8K (14 << 4) // MP3 8 kHz #define FLV_AUDIO_DEVIDE (15 << 4) // Device-specific sound #define FLV_AUDIO_ASC (0x1000 | FLV_AUDIO_AAC) // AudioSpecificConfig(ISO-14496-3) #define FLV_AUDIO_OPUS_HEAD (0x1100 | FLV_AUDIO_OPUS)// opus-codec.org // FLV Video Type #define FLV_VIDEO_H263 2 // Sorenson H.263 #define FLV_VIDEO_SCREEN 3 // Screen video #define FLV_VIDEO_VP6 4 // On2 VP6 #define FLV_VIDEO_H264 7 // AVC #define FLV_VIDEO_H265 12 // https://github.com/CDN-Union/H265 #define FLV_VIDEO_AV1 13 // https://aomediacodec.github.io/av1-isobmff #define FLV_VIDEO_AVS3 14 #define FLV_VIDEO_H266 15 #define FLV_VIDEO_AVCC (0x2000 | FLV_VIDEO_H264) // AVCDecoderConfigurationRecord(ISO-14496-15) #define FLV_VIDEO_HVCC (0x2100 | FLV_VIDEO_H265) // HEVCDecoderConfigurationRecord(ISO-14496-15) #define FLV_VIDEO_AV1C (0x2200 | FLV_VIDEO_AV1) // AV1CodecConfigurationRecord(av1-isobmff) #define FLV_VIDEO_AVSC (0x2300 | FLV_VIDEO_AVS3) // AVS3DecoderConfigurationRecord #define FLV_VIDEO_VVCC (0x2400 | FLV_VIDEO_H266) // VVCDecoderConfigurationRecord(ISO-14496-15) #define FLV_SCRIPT_METADATA 0x4000 // onMetaData enum { FLV_SEQUENCE_HEADER = 0, // AVC/AAC sequence header FLV_AVPACKET = 1, // AVC NALU / AAC raw FLV_END_OF_SEQUENCE = 2, // AVC end of sequence (lower level NALU sequence ender is not required or supported) // CompositionTime Offset is implied to equal zero. This is // an optimization to save putting SI24 composition time value of zero on // the wire. See pseudo code below in the VideoTagBody section FLV_PACKET_TYPE_CODED_FRAMES_X = 3, // VideoTagBody does not contain video data. VideoTagBody // instead contains an AMF encoded metadata. See Metadata Frame // section for an illustration of its usage. As an example, the metadata // can be HDR information. This is a good way to signal HDR // information. This also opens up future ways to express additional // metadata that is meant for the next video sequence. // // note: presence of PacketTypeMetadata means that FrameType // flags at the top of this table should be ignored FLV_PACKET_TYPE_METADATA = 4, // Carriage of bitstream in MPEG-2 TS format // note: PacketTypeSequenceStart and PacketTypeMPEG2TSSequenceStart // are mutually exclusive FLV_PACKET_TYPE_MPEG2TS_SEQUENCE_START = 5, }; enum { FLV_VIDEO_KEY_FRAME = 1, // key frame (for AVC, a seekable frame) FLV_VIDEO_INTER_FRAME = 2, // inter frame (for AVC, a non-seekable frame) FLV_VIDEO_DISPOSABLE_INTER_FRAME = 3, // H.263 only FLV_VIDEO_GENERATED_KEY_FRAME = 4, // generated key frame (reserved for server use only) FLV_VIDEO_COMMAND_FRAME = 5, // video info/command frame }; enum { FLV_SOUND_RATE_5500 = 0, // 5.5 kHz FLV_SOUND_RATE_11025 = 1, // 11 kHz FLV_SOUND_RATE_22050 = 2, // 22 kHz FLV_SOUND_RATE_44100 = 3, // 44 kHz }; enum { FLV_SOUND_BIT_8 = 0, // 8-bit samples FLV_SOUND_BIT_16 = 1, // 16-bit samples }; enum { FLV_SOUND_CHANNEL_MONO = 0, // 1-channel FLV_SOUND_CHANNEL_STEREO = 1, // 2-channels }; #define FLV_VIDEO_FOURCC(a, b, c, d) (((a) << 24) | ((b) << 16) | ((c) << 8) | (d)) #define FLV_VIDEO_FOURCC_AV1 FLV_VIDEO_FOURCC('a', 'v', '0', '1') #define FLV_VIDEO_FOURCC_VP9 FLV_VIDEO_FOURCC('v', 'p', '0', '9') #define FLV_VIDEO_FOURCC_HEVC FLV_VIDEO_FOURCC('h', 'v', 'c', '1') #define FLV_VIDEO_FOURCC_VVC FLV_VIDEO_FOURCC('v', 'v', 'c', '1') #endif /* !_flv_proto_h_ */