mpv/DOCS/tech/mpcf.txt

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========================================
NUT Open Container Format DRAFT 20051118
========================================
Intro:
======
Features / goals:
(supported by the format, not necessarily by a specific implementation)
Simple
use the same encoding for nearly all fields
simple decoding, so slow CPUs (and embedded systems) can handle it
Extendible
no limit for the possible values of 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)
a usual header for a file is about 100 bytes (audio + video headers together)
a packet header is about ~1-8 bytes
Error resistant
seeking / playback without an index
headers & index can be repeated
damaged files can be played back with minimal data loss and fast
resync times
Definitions:
============
MUST the specific part must be done to conform to this standard
SHOULD it is recommended to be done that way, but not strictly required
Syntax:
=======
Since NUT heavily uses variable length fields, the simplest way to describe it
is using a pseudocode approach.
Conventions:
============
The data types have a name, used in the bitstream syntax description, a short
text description and a pseudocode (functional) definition, optional notes may
follow:
name (text description)
functional definition
[Optional notes]
The bitstream syntax elements have a tagname and a functional definition, they
are presented in a bottom up approach, again optional notes may follow and
are reproduced in the tag description:
name: (optional note)
functional definition
[Optional notes]
The in-depth tag description follows the bitstream syntax.
The functional definition has a C-like syntax.
Type definitions:
=================
f(n) (n fixed bits in big-endian order)
u(n) (unsigned number encoded in n bits in MSB-first order)
v (variable length value, unsigned)
value=0
do{
more_data u(1)
data u(7)
value= 128*value + data
}while(more_data)
s (variable length value, signed)
temp v
temp++
if(temp&1) value= -(temp>>1)
else value= (temp>>1)
b (binary data or string, to be use in vb, see below)
for(i=0; i<length; i++){
data[i] u(8)
}
[Note: strings MUST be encoded in UTF-8]
vb (variable length binary data or string)
length v
value b
Bitstream syntax:
=================
Common elements:
----------------
packet header:
forward ptr v
align_byte:
while(not byte aligned)
one f(1)
reserved_bytes:
for(i=0; i<forward_ptr - length_of_non_reserved; i++)
reserved u(8)
[a demuxer MUST ignore any reserved bytes
a muxer MUST NOT write any reserved bytes, as this would make it
impossible to add new fields at the end of packets in the future
in a compatible way]
Headers:
main header:
main_startcode f(64)
packet header
version v
stream_count v
max_distance v
max_index_distance v
global_time_base_nom v
global_time_base_denom v
for(i=0; i<256; ){
tmp_flag v
tmp_fields v
if(tmp_fields>0) tmp_pts s
if(tmp_fields>1) tmp_mul v
if(tmp_fields>2) tmp_stream v
if(tmp_fields>3) tmp_size v
else tmp_size=0
if(tmp_fields>4) tmp_res v
else tmp_res=0
if(tmp_fields>5) count v
else count= tmp_mul - tmp_size
for(j=6; j<tmp_fields; j++){
tmp_reserved[i] v
}
for(j=0; j<count && i<256; j++, i++){
flags[i]= tmp_flag;
stream_id_plus1[i]= tmp_stream;
data_size_mul[i]= tmp_mul;
data_size_lsb[i]= tmp_size + j;
pts_delta[i]= tmp_pts;
reserved_count[i]= tmp_res;
}
}
reserved_bytes
checksum u(32)
stream_header:
stream_startcode f(64)
packet_header
stream_id v
stream_class v
fourcc vb
time_base_nom v
time_base_denom v
msb_pts_shift v
decode_delay v
fixed_fps u(1)
reserved u(7)
codec_specific_data vb
video_stream_header:
stream_header
width v
height v
sample_width v
sample_height v
colorspace_type v
reserved_bytes
checksum u(32)
audio_stream_header:
stream_header
samplerate_nom v
samplerate_denom v
channel_count v
reserved_bytes
checksum u(32)
other_stream_header:
stream_header
reserved_bytes
checksum u(32)
Basic Packets:
frame:
frame_code f(8)
if(stream_id_plus1[frame_code]==0){
stream_id v
}
if(pts_delta[frame_code]==0){
coded_pts v
}
if(flags[frame_code]&1){
data_size_msb v
}
for(i=0; i<reserved_count[frame_code]; i++)
reserved v
data
index:
index_startcode f(64)
packet header
stream_id v
max_pts v
index_length v
for(i=0; i<index_length; i++){
index_pts v
index_position v
}
reserved_bytes
checksum u(32)
info_frame: (optional)
for(;;){
id v
if(id==0) break
name= info_table[id][0]
type= info_table[id][1]
if(type==NULL)
type vb
if(name==NULL)
name vb
if(type=="v")
value v
else
value vb
}
reserved_bytes
checksum u(32)
info_packet: (optional)
info_startcode f(64)
packet header
info_frame
sync_point:
frame_startcode f(64)
global_timestamp v
back_ptr v
Complete definition:
file:
file_id_string
while(!eof && next_code != index_startcode){
main_header
for(i=0; i<stream_count; i++){
if(next_packet==video_stream_header)
video_stream_header
else if(next_packet==audio_stream_header)
audio_stream_header
else
other_stream_header
}
while(next_code == info_startcode){
info_packet
}
while(next_code != main_startcode){
if(next_code == frame_startcode)
sync_point
frame
}
}
if (next_code == index_startcode){
while(!eof){
index
}
index_ptr u(64)
}
Tag description:
----------------
forward_ptr
size of the packet data (exactly the distance from the first byte
after the forward_ptr to the first byte of the next packet)
back_ptr
real_back_ptr = back_ptr * 8 + 7
real_back_ptr must point to a position such that a syncpoint
startcode begins within the next 8 bytes, and such that at least
one keyframe for each stream lies between the syncpoint to which
real_back_ptr points, and the current syncpoint.
file_id_string
"nut/multimedia container\0"
*_startcode
all startcodes start with 'N'
main_startcode
0x7A561F5F04ADULL + (((uint64_t)('N'<<8) + 'M')<<48)
stream_starcode
0x11405BF2F9DBULL + (((uint64_t)('N'<<8) + 'S')<<48)
frame_startcode
0xE4ADEECA4569ULL + (((uint64_t)('N'<<8) + 'K')<<48)
frame_startcodes SHOULD be placed immediately before a keyframe if the
previous frame of the same stream was a non-keyframe, unless such
non-keyframe - keyframe transitions are very frequent
index_startcode
0xDD672F23E64EULL + (((uint64_t)('N'<<8) + 'X')<<48)
info_startcode
0xAB68B596BA78ULL + (((uint64_t)('N'<<8) + 'I')<<48)
version
NUT version. The current value is 2.
max_distance
max distance of frame_startcodes, the distance may only be larger if
there is only a single frame between the two frame_startcodes this can
be used by the demuxer to detect damaged frame headers if the damage
results in too long of a chain
SHOULD be set to <=32768 or at least <=65536 unless there is a very
good reason to set it higher, otherwise reasonable error recovery will
be impossible
max_index_distance
max distance of keyframes which are represented in the index, the
distance between consecutive entries A and B may only be larger if
there are no keyframes within this stream between A and B
SHOULD be set to <=32768 or at least <=65536 unless there is a very
good reason to set it higher
stream_id
Stream identifier
stream_id MUST be < stream_count
stream_class
0 video
1 audio
2 subtiles
3 metadata
4 userdata
in metadata streams each frame contains exactly one info frame
Note: the remaining values are reserved and MUST NOT be used
a demuxer MUST ignore streams with reserved classes
fourcc
identification for the codec
example: "H264"
MUST contain 2 or 4 bytes, note, this might be increased in the future
if needed
time_base_nom / time_base_denom = time_base
the length of a timer tick in seconds, this MUST be equal to the 1/fps
if fixed_fps is 1
time_base_nom and time_base_denom MUST NOT be 0
time_base_nom and time_base_denom MUST be relatively prime
time_base_denom MUST be < 2^31
examples:
fps time_base_nom time_base_denom
30 1 30
29.97 1001 30000
23.976 1001 24000
global_time_base_nom / global_time_base_denom = global_time_base
the length of a timer tick in seconds
global_time_base_nom and global_time_base_denom MUST NOT be 0
global_time_base_nom and global_time_base_denom MUST be relatively prime
global_time_base_denom MUST be < 2^31
global_timestamp
timestamp in global_time_base units
when a global_timestamp is encountered the last_pts of all
streams is set to the following:
ln = global_time_base_nom*time_base_denom
sn = global_timestamp
d1 = global_time_base_denom
d2 = time_base_nom
last_pts = (ln/d1*sn + ln%d1*sn/d1)/d2
Note: this calculation MUST be done with unsigned 64 bit integers, and
is equivalent to (ln*sn)/(d1*d2) but this would require a 96bit integer
msb_pts_shift
amount of bits in lsb_pts
MUST be <16
decode_delay
maximum time between input and output for a codec, used to generate
dts from pts
is set to 0 for streams without B-frames, and set to 1 for streams with
B-frames, may be larger for future codecs
fixed_fps
1 indicates that the fps is fixed
codec_specific_data
private global data for a codec (could be huffman tables or ...)
frame_code
the meaning of this byte is stored in the main header
the value 78 ('N') is forbidden to ensure that the byte is always
different from the first byte of any startcode
flags[frame_code]
first of the flags from MSB to LSB are called KD
if D is 1 then data_size_msb is coded, otherwise data_size_msb is 0
K is the keyframe_type
0 -> no keyframe,
1 -> keyframe,
flags=4 can be used to mark illegal frame_code bytes
frame_code=78 must have flags=4
Note: frames MUST NOT depend(1) upon frames prior to the last
frame_startcode
Important: depend(1) means dependency on the container level (NUT) not
dependency on the codec level
stream_id_plus1[frame_code]
must be <250
if it is 0, then the stream_id is coded in the frame
data_size_mul[frame_code]
must be <16384
data_size_lsb[frame_code]
must be <16384
pts_delta[frame_code]
must be <16384 and >-16384
data_size
data_size= data_size_lsb + data_size_msb*data_size_mul;
coded_pts
if coded_pts < (1<<msb_pts_shift) then it is an lsb
pts, otherwise it is a full pts + (1<<msb_pts_shift)
lsb pts is converted to a full pts by:
mask = (1<<msb_pts_shift)-1;
delta = last_pts - mask/2
pts = ((pts_lsb-delta)&mask) + delta
lsb_pts
least significant bits of the pts in time_base precision
Example: IBBP display order
keyframe pts=0 -> pts=0
frame lsb_pts=3 -> pts=3
frame lsb_pts=1 -> pts=1
frame lsb_pts=2 -> pts=2
...
keyframe msb_pts=257 -> pts=257
frame lsb_pts=255 -> pts=255
frame lsb_pts=0 -> pts=256
frame lsb_pts=4 -> pts=260
frame lsb_pts=2 -> pts=258
frame lsb_pts=3 -> pts=259
all pts's of keyframes of a single stream MUST be monotone
dts
dts is calculated by using a decode_delay+1 sized buffer for each
stream, into which the current pts is inserted and the element with
the smallest value is removed, this is then the current dts
this buffer is initalized with decode_delay -1 elements
all frames must be monotone, that means a frame
which occurs later in the stream must have a larger or equal dts
than an earlier frame
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 relatively prime if not zero
MUST be 0 if unknown
colorspace_type
0 unknown
1 ITU Rec 624 / ITU Rec 601 Y range: 16..235 Cb/Cr range: 16..240
2 ITU Rec 709 Y range: 16..235 Cb/Cr range: 16..240
17 ITU Rec 624 / ITU Rec 601 Y range: 0..255 Cb/Cr range: 0..255
18 ITU Rec 709 Y range: 0..255 Cb/Cr range: 0..255
samplerate_nom / samplerate_denom = samplerate
the number of samples per second
checksum
adler32 checksum
checksum is calculated for the area pointed to by forward_ptr not
including the checksum itself (from first byte after the
forward_ptr until last byte before the checksum).
max_pts
The highest pts in the stream.
index_pts
value of the pts of a keyframe relative to the last keyframe
stored in this index
index_position
position in bytes of the first byte of a keyframe, relative to the
last keyframe stored in this index
there MUST be no keyframe with the same stream_id as this index between
two consecutive index entries if they are more than max_index_distance
apart
index_ptr
Length in bytes from the first byte of the first index startcode
to the first byte of the index_ptr. If there is no index, index_ptr
MUST NOT be written.
id
the ID of the type/name pair, so it is more compact
0 means end
type
for example: "UTF8" -> string or "JPEG" -> JPEG image
Note: nonstandard fields should be prefixed by "X-"
Note: MUST be less than 6 byte long (might be increased to 64 later)
info packet types
the name of the info entry, valid names are
"StreamId"
the stream(s) to which the info packet applies
"Author"
"Description"
"Copyright"
"Encoder"
the name & version of the software used for encoding
"Title"
"Cover"
image of the (CD, DVD, VHS, ..) cover (preferably 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: do not forget the timezone
"Keywords"
"TotalTime"
total length of the stream in msecs
"Language"
ISO 639 and ISO 3166 for language/country code
something like "eng" (US english), can be 0 if unknown
and "multi" if several languages
see http://www.loc.gov/standards/iso639-2/englangn.html
and http://www.din.de/gremien/nas/nabd/iso3166ma/codlstp1/en_listp1.html
the language code
"Disposition"
"original", "dub" (translated), "comment", "lyrics", "karaoke"
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-"
Note: MUST be less than 64 bytes long
value
value of this name/type pair
stuffing
0x80 can be placed in front of any type v entry for stuffing purposes
info_table[][2]={
{NULL , NULL }, // end
{NULL , NULL },
{NULL , "UTF8"},
{NULL , "v"},
{NULL , "s"},
{"StreamId" , "v"},
{"Author" , "UTF8"},
{"Title" , "UTF8"},
{"Language" , "UTF8"},
{"Description" , "UTF8"},
{"Copyright" , "UTF8"},
{"Encoder" , "UTF8"},
{"Keyword" , "UTF8"},
{"Cover" , "JPEG"},
{"Cover" , "PNG"},
{"Disposition" , "UTF8"},
};
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 repeated, but if they are, then they MUST all be repeated
together and repeated headers MUST be identical
headers MAY only repeat at the closest possible positions after 2^x where x is
an integer and the file end, so the headers may be repeated at 4102 if that is
the closest position after 2^12=4096 at which the headers can be placed
headers MUST be placed at least at the start of the file and immediately before
the index or at the file end if there is no index
headers MUST be repeated at least twice (so they exist three times in a file)
there MUST be a sync point immediately before the first frame after any headers
Index:
------
Note: with realtime streaming, there is no end, so no index there either
An index SHOULD be written for every stream. Indices MUST be placed at end
of file. Indices MAY be repeated for a stream.
Info frames:
------------
Info frames can be used to describe the file or some part of it (chapters)
Unknown packets:
----------------
MUST be ignored by the demuxer
demuxer (non-normative):
------------------------
in the absence of a valid header at the beginning, players SHOULD search for
backup headers starting at offset 2^x; for each x players SHOULD end their
search at a particular offset when any startcode is found (including syncpoint)
Semantic requirements:
======================
If more than one stream of a given stream class is present, each one SHOULD
have info tags specifying disposition, and if applicable, language.
It often highly improves usability and is therefore strongly encouraged.
A demuxer MUST NOT demux a stream which contains more than one stream, or which
is wrapped in a structure to facilitate more than one stream or otherwise
duplicate the role of a container. any such file is to be considered invalid.
Sample code (Public Domain, & 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; i<count; i++){
val <<=8;
val += *(bc->buf_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(; space_left(bc) > 0; ){
int tmp= *(bc->buf_ptr++);
if(tmp&0x80)
val= (val<<7) + tmp - 0x80;
else
return (val<<7) + tmp;
}
return -1;
}
static inline int put_v(BufferContext *bc, uint64_t val){
int i;
if(space_left(bc) < 9) return -1;
val &= 0x7FFFFFFFFFFFFFFFULL; // FIXME can only encode upto 63 bits currently
for(i=7; ; i+=7){
if(val>>i == 0) break;
}
for(i-=7; i>0; i-=7){
*(bc->buf_ptr++)= 0x80 | (val>>i);
}
*(bc->buf_ptr++)= val&0x7F;
return 0;
}
static int64_t get_dts(int64_t pts, int64_t *pts_cache, int delay, int reset){
if(reset) memset(pts_cache, -1, delay*sizeof(int64_t));
while(delay--){
int64_t t= pts_cache[delay];
if(t < pts){
pts_cache[delay]= pts;
pts= t;
}
}
return pts;
}
Authors:
========
Folks from the MPlayer developers mailing list (http://www.mplayerhq.hu/).
Authors in alphabetical order: (FIXME! Tell us if we left you out)
Beregszaszi, Alex (alex@fsn.hu)
Bunkus, Moritz (moritz@bunkus.org)
Diedrich, Tobias (ranma+mplayer@tdiedrich.de)
Felker, Rich (dalias@aerifal.cx)
Franz, Fabian (FabianFranz@gmx.de)
Gereoffy, Arpad (arpi@thot.banki.hu)
Hess, Andreas (jaska@gmx.net)
Niedermayer, Michael (michaelni@gmx.at)
Shimon, Oded (ods15@ods15.dyndns.org)