nut format draft 0.02 Intro: Features / goals: (supported by the format, not necessary by a specific implementation) Simple use the same encoding for nearly all fields simple decoding, so slow cpus can handle it Extendible no limit for the possible values for all fields (using universal vlc) allow adding of new headers in the future allow adding more fields at the end of headers Compact ~0.2% overhead, for normal bitrates index is <10kb per hour (1 keyframe every 3sec) Error resistant seeking / playback without an index headers & index can be repeated audio packet reshuffle checksums to allow quick redownloading of damaged parts Definitions: MUST the specific part must be done to conform to this standard SHOULD its recommanded to be done that way but its not strictly required Syntax: Type definitions: v value=0 do{ more_data u(1) data u(7) value= 128*value + data }while(more_data) b (binary data or string) length v for(i=0; i 0 streams should use low ids stream_class 0 video 32 audio 64 subtiles Note the remaining values are reserved and MUST NOT be used a decoder MUST ignore streams with reserved classes fourcc identification for the codec example: "H264" MUST contain 4 bytes, note, this might be increasd in the future if needed language_code ISO 639 and ISO 3166 for language/country code something like "usen" (US english), can be 0 if unknown see http://www.loc.gov/standards/iso639-2/englangn.html and http://www.din.de/gremien/nas/nabd/iso3166ma/codlstp1/en_listp1.html time_base_nom / time_base_denom = time_base the number of timer ticks per second, this MUST be equal to the fps if the fixed_fps is 1 time_base_denom MUST not be 0 time_base_nom and time_base_denom MUST be relative prime time_base_nom MUST be < 2^15 examples: fps time_base_nom time_base_denom 30 30 1 29.97 30000 1001 23.976 24000 1001 lsb_timestamp_length length in bits of the lsb_timestamp MUST be <16 fixed_fps 1 indicates that the fps is fixed codec_specific_data_type 0 end 1 native 2 bitmapinfoheader 3 waveformatex 4 imagedesc 5 sounddesc "native", means a simple api & container independanet storage form, for example some mpeg4-es headers codec_specific_data private global data for a codec (could be huffman tables or ...) msb_timestamp_flag indicates that the msb_timestamp is coded MUST be 1 for keyframes msb_timestamp most significant bits of the timestamp, SHOULD be 0 for the first frame lsb_timestamp most significant bits of the timestamp in time_base precission, with lsb_timestamp_length bits Example: IBBP display order keyframe msb_timestamp=0 lsb_timestamp=0 -> timestamp=0 frame lsb_timestamp=3 -> timestamp=3 frame lsb_timestamp=1 -> timestamp=1 frame lsb_timestamp=2 -> timestamp=2 ... keyframe msb_timestamp=1 lsb_timestamp=1 -> timestamp=257 frame msb_timestamp=0 lsb_timestamp=255->timestamp=255 frame msb_timestamp=1 lsb_timestamp=0 -> timestamp=256 frame lsb_timestamp=4 -> timestamp=260 frame lsb_timestamp=2 -> timestamp=258 frame lsb_timestamp=3 -> timestamp=259 width/height MUST be set to the coded width/height sample_width/sample_height (aspect ratio) sample_width is the horizontal distance between samples sample_width and sample_height MUST be relative prime if not zero MUST be 0 if unknown depth for compatibility with some win32 codecs zero_bit MUST be 0, its there to distinguish non keyframes from other packets, Note: all packets have a 64-bit startcode except non-keyframes to reduce their size, and all startcodes start with a 1 bit priority if 0 then the frame isnt used as reference (b frame) and can be droped MUST be > 0 for keyframes sub_packet_size size of an audio packet Note a subpacket MUST be in exactly one packet, it cannot be split shuffle_type audio is often encoded in small fixed size packets, and to increase the error robustness these can be shuffled 0 -> no shuffle 1-16 -> interleave packets by 2^n checksum crc32 checksum using the generator polynomial 0x104c11db7 (same as ogg) checksum_flag indicates that the frame_checksum is coded must be 1 for the last non keyframe before a keyframe frame_checksum identical to checksum, but instead of covering just the current packet, it covers all frames of the same stream id since the last frame_checksum this field is only coded if checksum_flag=1 index_timestamp value in time_base precission, relative to the last index_timestamp index_position position in bytes of the first byte of the keyframe header, relative to the last index_position start_time, stop_time the time range in msecs to which the info applies Note: can be used to mark chapters start_stream_id / end_stream_id the stream(s) to which the info packet applies type the fourcc of the type for example: "UTF8" -> String or "JPEG" -> jpeg image 0 length means end name the name of the info entry, valid names are "Author" "Description" "Copyright" "Encoder" the name & version of the software used for encoding "Title" "Cover" an image of the (cd,dvd,vhs,..) cover (preferable PNG or JPEG) "Source" "DVD", "VCD", "CD", "MD", "FM radio", "VHS", "TV", "LD" Optional: appended PAL,NTSC,SECAM, ... in parentheses "CaptureDevice" "BT878", "BT848", "webcam", ... (more exact names are fine too) "CreationTime" "2003-01-20 20:13:15Z", ... (ISO 8601 format, see http://www.cl.cam.ac.uk/~mgk25/iso-time.html) Note: dont forget the timezone "Keywords" Note: if someone needs some others, please tell us about them, so we can add them to the official standard (if they are sane) Note: nonstandard fields should be prefixed by "X-" value stuffing 0xFF Structure: the headers MUST be in exactly the following order (to simplify demuxer design) main header stream_header (id=0) stream_header (id=1) ... stream_header (id=n) headers may be repated, but if they are then they MUST all be repeated together and repeated headers MUST be identical headers MUST be repeated every 10sec at least ? FIXME headers MUST be repeated at least twice (so they exist 3 times in a file) Index the index can be repeated but there SHOULD be at least one at the end Note: in case of realtime streaming there is no end, so no index there either Info packets the info_packet can be repeated, it can also contain different names & values each time but only if allso the time is different Info packets can be used to describe the file or some part of it (chapters) info packets, SHOULD be placed at the begin of the file at least for realtime streaming info packets will normally be transmitted when they apply for example, the current song title & artist of the currently shown music video Stuffing packets can be used as a filler, for example to leave some empty space at the begin for a copy of the index Unknown packets MUST be ignored by the decoder Sample code (GPL, & untested) typedef BufferContext{ uint8_t *buf; uint8_t *buf_ptr; }BufferContext; static inline uint64_t get_bytes(BufferContext *bc, int count){ uint64_t val=0; assert(count>0 && count<9) for(i=0; ibuf_ptr++); } return val; } static inline void put_bytes(BufferContext *bc, int count, uint64_t val){ uint64_t val=0; assert(count>0 && count<9) for(i=count-1; i>=0; i--){ *(bc->buf_ptr++)= val >> (8*i); } return val; } static inline uint64_t get_v(BufferContext *bc){ uint64_t val= 0; for(;;){ int tmp= *(bc->buf_ptr++); if(tmp&0x80) val= (val<<7) + tmp - 0x80; else return (val<<7) + tmp; } } static inline void put_v(BufferContext *bc, uint64_t val){ int i; assert(val); for(i=56;; i-=8){ if(val>>i) break; } for(;i>0; i-=8){ *(bc->buf_ptr++)= 0x80 | (val>>i); } *(bc->buf_ptr++)= val&0x7F; } Example stream main header video_stream_header (stream 0, video jpjp, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 1 subtitle usen, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 2 subtitle atde, timebase 30, lsb_timestamp_length=8) audio_stream_header (stream 3, audio jpjp, timebase 1 , lsb_timestamp_length=8) audio_stream_header (stream 4, audio usen, timebase 1 , lsb_timestamp_length=8) index (stream 0) keyframe (stream 0, msb_timestamp=0, lsb_timestamp=0) keyframe (stream 1, msb_timestamp=0, lsb_timestamp=0) keyframe (stream 2, msb_timestamp=0, lsb_timestamp=0) keyframe (stream 3, msb_timestamp=0, lsb_timestamp=0) keyframe (stream 4, msb_timestamp=0, lsb_timestamp=0) frame (stream 0, lsb_timestamp=1) frame (stream 0, lsb_timestamp=2) ... frame (stream 0, lsb_timestamp=30) keyframe (stream 3, msb_timestamp=0, lsb_timestamp=1) keyframe (stream 4, msb_timestamp=0, lsb_timestamp=1) frame (stream 0, lsb_timestamp=31) frame (stream 0, lsb_timestamp=32) ... frame (stream 0, lsb_timestamp=60) frame (stream 1, lsb_timestamp=60) frame (stream 2, lsb_timestamp=60) keyframe (stream 3, msb_timestamp=0, lsb_timestamp=2) keyframe (stream 4, msb_timestamp=0, lsb_timestamp=2) frame (stream 0, lsb_timestamp=61) frame (stream 0, lsb_timestamp=62) ... main header video_stream_header (stream 0, video jpjp, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 1 subtitle usen, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 2 subtitle atde, timebase 30, lsb_timestamp_length=8) audio_stream_header (stream 3, audio jpjp, timebase 1 , lsb_timestamp_length=8) audio_stream_header (stream 4, audio usen, timebase 1 , lsb_timestamp_length=8) frame (stream 0, lsb_timestamp=255) frame (stream 0, msb_timestamp=1 lsb_timestamp=0) frame (stream 0, lsb_timestamp=1) frame (stream 0, lsb_timestamp=2) frame (stream 1, msb_timestamp=1 lsb_timestamp=2) frame (stream 2, msb_timestamp=1 lsb_timestamp=2) frame (stream 0, lsb_timestamp=3) frame (stream 0, lsb_timestamp=4) ... keyframe (stream 3, msb_timestamp=0, lsb_timestamp=9) keyframe (stream 4, msb_timestamp=0, lsb_timestamp=9) main header video_stream_header (stream 0, video jpjp, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 1 subtitle usen, timebase 30, lsb_timestamp_length=8) video_stream_header (stream 2 subtitle atde, timebase 30, lsb_timestamp_length=8) audio_stream_header (stream 3, audio jpjp, timebase 1 , lsb_timestamp_length=8) audio_stream_header (stream 4, audio usen, timebase 1 , lsb_timestamp_length=8) index (stream 0)