Chinaunix首页 | 论坛 | 博客
  • 博客访问: 1416962
  • 博文数量: 1334
  • 博客积分: 645
  • 博客等级: 上士
  • 技术积分: 5762
  • 用 户 组: 普通用户
  • 注册时间: 2012-07-25 16:56
文章分类

全部博文(1334)

文章存档

2014年(108)

2013年(1059)

2012年(169)

分类:

2012-12-07 17:36:53

Mp3 Info Tag rev 1 specifications - draft 0

The purpose of this tag is to provide extra information about the mp3 bistream, encoder and parameters used. This tag should, as much as possible, be meaningfull for as many encoders as possible, even if it is unlikely that other encoders than Lame will implement it.

This tag should be backward compatible with tha Xing vbr tag, providing basic support for a lot of already written software. As much as possible the current revision (revision 1) should provide information similar to the one already provided by revision 0.

A few fields, as they could be necessary for some functionnalities of already existing software, should not be moved in any version of the tag. They are indicated as "UNMOVABLE".

 

LAME 3.88 Tag example :

frame at 44.1kHz samplerate:
 

0000:
0010:
0020:
0030:
0040:
0050:
0060:
0070:
0080:
0090:
00A0:
00B0:
00C0:
00D0:
00E0:
00F0:
0100:
0110:
0120:
0130:
0140:
0150:
0160:
0170:
0180:
0190:
01A0:
FF FB 90 64-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-58 69 6E 67-00 00 00 0F-00 00 00 74
00 00 30 C1-00 04 07 09-0B 0D 0F 14-16 18 1A 1D
1F 23 26 28-2A 2C 2E 33-35 37 39 3C-3E 40 44 47
49 4B 4D 4F-54 56 58 5A-5D 5F 63 66-68 6A 6C 6E
73 75 77 79-7C 7E 80 84-87 89 8B 8D-8F 94 96 98
9A 9D 9F A3-A6 A8 AA AC-AE B3 B5 B7-B9 BC BE C0
C4 C7 C9 CB-CD CF D4 D6-D8 DA DD DF-E3 E6 E8 EA
EC EE F3 F5-F7 F9 FC FE-00 00 00 58-4C 41 4D 45
33 2E 38 38-20 28 62 65-74 61 29 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00
 ?Éd

  Xing   ?   t
  0? ?•????¶????
?#&(*,.3579<>@DG
IKMOTVXZ]_cfhjln
suwy|~ÇäçëïìÅöûÿ
Ü¥ƒúª¿¬¼«???????
?????????????µ??
????????   XLAME
3.88 (beta)
 
 
 
 
 
 
 
 
 
 
 
 
 
 

 

/*

//    ZONE A - Traditional Xing VBR Tag data
//    4 bytes for Header Tag
//    4 bytes for Header Flags
//  100 bytes for entry (NUMTOCENTRIES)
//    4 bytes for FRAME SIZE
//    4 bytes for STREAM_SIZE
//    4 bytes for VBR SCALE. a VBR quality indicator: 0=best 100=worst

//   ZONE B - Initial LAME info
//   20 bytes for LAME tag.  for example, "LAME3.12 (beta 6)"
// ___________
//  140 bytes
//

//   ZONE C - LAME Tag
//   208 bytes unused in 128k frame (in 48kHz case)
//
//   using
//   FrameLengthInBytes = 144 * BitRate / SampleRate + Padding
//
//   this gives
//   Layer III, BitRate=128000, SampleRate=44100, Padding=0
//        ==>  FrameSize=417 bytes
//   Layer III, BitRate=128000, SampleRate=48000, Padding=0
//        ==>  FrameSize=384 bytes
//
//   so this would make the minimal frame size 384 bytes ($0-$17F), hence the available bytes for this field are not 241 as in this 44100Hz case, but at most 208 bytes.
*/

frame at a 48.0kHz samplerate:
 

0000:
0010:
0020:
0030:
0040:
0050:
0060:
0070:
0080:
0090:
00A0:
00B0:
00C0:
00D0:
00E0:
00F0:
0100:
0110:
0120:
0130:
0140:
0150:
0160:
0170:
FF FB 94 64-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-58 69 6E 67-00 00 00 0F-00 00 00 7E
00 00 30 C0-00 04 06 08-0C 0E 10 12-16 18 1A 1C
21 23 25 27-2B 2D 2F 31-35 37 39 3B-3F 41 43 47
49 4B 4D 51-53 55 57 5B-5D 5F 62 66-68 6A 6C 70
72 74 76 7A-7C 7E 80 84-86 88 8C 8E-90 92 96 98
9A 9C A1 A3-A5 A7 AB AD-AF B1 B5 B7-B9 BB BF C1
C3 C7 C9 CB-CD D1 D3 D5-D7 DB DD DF-E2 E6 E8 EA
EC F0 F2 F4-F6 FA FC FE-00 00 00 58-4C 41 4D 45
33 2E 38 38-20 28 62 65-74 61 29 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
 ?öd

  Xing   ?   ~
  0? ???????????
!#%'+-/1579;?ACG
IKMQSUW[]_bfhjlp
rtvz|~ÇäåêîÄÉÆûÿ
Ü£íúѺ½¡»???????
?????????????µ??
????÷·??   XLAME
3.88 (beta)
 
 
 
 
 
 
 
 
 
 
 

 



Suggested Info Tag extension fields + layout :
 
REMARK:

In the Info Tag, the "Xing" identification string (mostly at 0x24) of the header is replaced by "Info" in case of a CBR file. 
This was done to avoid CBR files to be recognized as traditional Xing VBR files by some decoders. Although the two identification strings "Xing" and "Info" are both valid, it is suggested that you keep the identification string "Xing" in case of VBR bistream in order to keep compatibility.

now: 

LAME VBR & ABR:

"Xing"

LAME CBR:

"Info"

 
 
 
 
 
 
 
 
00h
00h
00h
"L"
"A"
"M"
"E"
"."


byte $9B  VBR Quality 

This field is there to indicate a quality level, although the scale was not precised in the original Xing specifications.

In case of Lame, the meaning is the following:

int    Quality = (100 - 10 * gfp->VBR_q - gfp->quality)h

examples:

V0 and q0 = 100 - 10 * 0 - 0 = 100 => 64h
V0 and q2 = 100 - 10 * 0 - 2 = 98 => 62h
V2 and q5 = 100 - 10 * 2 - 5 = 75 => 4Bh
V9 and q9 = 100 - 10 * 9 - 9 = 1 => 01h


bytes $9A-$A4  Encoder short VersionString 


9 characters

examples:

"LAME3.90a" : LAME version 3.90 alpha
"GOGO3.02b" : GOGO version 3.02 beta


byte $A5  Info Tag revision + VBR method 


two 4 bits fields:
  • 4 MSB: Info Tag revision, range 0d-15d
    Possible values:
    0: rev0
    1: rev1
    15: reserved


  • 4 LSB: VBR Method, range 0d-15d
    Indicate the VBR method used for encoding.
    Possible values:

  • 0d unknown
    1d constant bitrate
    2d restricted VBR targetting a given average bitrate (ABR)
    3d full VBR method1
    4d full VBR method2
    5d full VBR method3
    6d full VBR method4
    7d
    8d constant bitrate 2 pass
    9d abr 2 pass
    10d
    11d
    12d
    13d
    14d
    15d reserved

In case of Lame, the meaning is the following:
2: abr
3: vbr old / vbr rh
4: vbr mtrh
5: vbr mt

examples:

byte $A5 = 03h

= 0000 0011b =>

  • 4 MSB = 0001b =1d : LAME Tag revision 1
  • 4 LSB = 0011b = 3d : vbr-old / vbr-rh
byte $A5 = 35h

= 0011 0101b =>

  • 4 MSB = 0011b = 3d : LAME Tag revision 3
  • 4 LSB = 0101b = 5d : vbr-new / vbr-mt

byte $A6  Lowpass filter value 

int    lowpass = (lowpass value) / 100

range: 01h = 01d : 100Hz -> FFh = 255d : 25500Hz

value 00h => unknown

examples:

byte $A6 = C3h

C3h = 195d : 19500Hz

byte $A6 = 78h

78h = 120d : 12000Hz


bytes $A7-$AF  Replay Gain 

as defined here: by David Robinson

three fields:

  • bytes $A7-$AA : 32 bit floating point "Peak signal amplitude"  32 bit floating point. 00h00h00h00h : unknown

  •  

     

    1.0 is maximal signal amplitude storeable in decoding format.
    0.8 is 80% of maximal signal amplitude storeable in decoding format.
    1.5 is 150% of maximal signal amplitude storeable in decoding format.

    info + examples: will follow


  • byte $AB-$AC : 16 bit "Radio Replay Gain" field, required to make all tracks equal loudness.

  •    

    from

    bits 0h-2h: NAME of Gain adjustment:
    000 = not set
    001 = radio
    010 = audiophile
    (see - room for plenty more!)

    bits 3h-5h: ORIGINATOR of Gain adjustment:
    000 = not set
    001 = set by artist
    010 = set by user
    011 = set by my model
    100 = set by simple RMS average
    etc etc (see - room for plenty more again!)

    bit 6h: Sign bit
    bits 7h-Fh: ABSOLUTE GAIN ADJUSTMENT
    storing 10x the adjustment (to give the extra decimal place).


  • byte $AD-AE : 16 bit "Audiophile Replay Gain" field, required to give ideal listening loudness

  •  

    from

    bits 0h-2h: NAME of Gain adjustment:
    000 = not set
    001 = radio
    010 = audiophile
    (see - room for plenty more!)

    bits 3h-5h: ORIGINATOR of Gain adjustment:
    000 = not set
    001 = set by artist
    010 = set by user
    011 = set by my model
    100 = set by simple RMS average
    etc etc (see - room for plenty more again!)

    bit 6h: Sign bit
    bits 7h-Fh: ABSOLUTE GAIN ADJUSTMENT
    storing 10x the adjustment (to give the extra decimal place).


byte $AF  Encoding flags + ATH Type 


two 4 bits fields:
  • 4 MSB: 4 encoding flags
  • 000? LAME uses "--nspsytune", 
    ? = 0 : false
    ? = 1 : true 
    00?0 LAME uses "--nssafejoint"
    ? = 0 : false
    ? = 1 : true
    0?00 This track is --nogap continued in a next track
    ? = 0 : false
    ? = 1 : true

    is true for all but the last track in a --nogap album

    ?000 This track is the --nogap continuation of an earlier one
    ? = 0 : false
    ? = 1 : true

    is true for all but the first track in a --nogap album

  • 4 LSB: LAME ATH Type, range 0d-15d
examples:

byte $AF = 03h

= 0000 0011b =>

  • 4 MSB = 0000b = 0d : LAME does NOT use --nspsytune, LAME does NOT use --nssafejoint
  • 4 LSB = 0011b = 3d : ATH type 3 used
byte $AF = 15h

= 0001 0101b =>

  • 4 MSB = 0001b = 3d : LAME does use --nspsytune, LAME does NOT use --nssafejoint
  • 4 LSB = 0101b = 5d : ATH type 5 used

byte $B0  if ABR {specified bitrate} else {minimal bitrate}


IF the file is an ABR file:

range: 01h = 01d : 1 kbit/s (--abr 1)  -> FFh = 255d : 255 kbit/s or larger (--abr 255)

value 00h => unknown

examples:

byte $B0 = C3h

C3h = 195d : --abr 195

byte $B0 = 78h

78h = 128d : --abr 128

byte $B0 = FEh

FEh = 254d : --abr 254

byte $B0 = FFh

FEh = 255d : --abr 255 or higher, eg: --abr 280

IF the file is NOT an ABR file: (CBR/VBR)

the (CBR)/(minimal VBR (-b)) bitrate is stored here 8-255. 255 if bigger.

examples:

  • "LAME -V0 -b224" will store (224)d=(E0)h
  • "LAME -b320" will store (255)d=(FF)h

bytes $B1-$B3  Encoder delays 


store in 3 bytes:

[xxxxxxxx][xxxxyyyy][yyyyyyyy]

the 12 bit values (0-4095) of how many samples were added at start (encoder delay) in X and how many 0-samples were padded at the end in Y to complete the last frame.

so ideally you could do: #frames*(#samples/frame)-(these two values) = exact number of samples in original wav.

so worst case scenario you'd have a 48kHz file which would give it a range of 0.085s at the end and at the start.

example:
[01101100][00010010][11010010]

X = (011011000001)b = (1729)d, so 1729 samples is the encoder delay
Y = (001011010010)b = (722)d, so 722 samples have been padded at the end of the file


byte $B4  Misc 

2 lsb I'd like to add the different noise shapings also in a 2-bit field (0-3)
(00)b: noise shaping: 0
(01)b: noise shaping: 1
(10)b: noise shaping: 2
(11)b: noise shaping: 3
3 bits Stereo mode

msb fist:

(000)b: (m)ono
(001)b: (s)tereo
(010)b: (d)ual
(011)b: (j)oint
(100)b: (f)orce
(101)b: (a)uto
(110)b: (i)ntensity
(111)b: (x)undefined / different
 

1 bit unwise settings used

(0)b: no
(1)b: yes (definition encoder side(*))

2 msb Source (not mp3) sample frequency

(00)b: 32kHz or smaller
(01)b: 44.1kHz
(10)b: 48kHz
(11)b: higher than 48kHz

(*)some settings were used which would likely damage quality in normal circumstances. (like disabling all use of the ATH or forcing only short blocks, -b192 ...)


byte $B5  MP3 Gain 


any mp3 can be amplified by a factor 2 ^ ( x * 0.25) in a lossless manner by a tool like eg.

byte $B5 is set to (00)h by default.

if done so, this 8-bit field can be used to log such transformation happened so that any given time it can be undone.
 

WARNING:

Do NOT alter this field if you do not fully understand its use.  You will damage the Replaygain
fields and musicCRC if you do not implement this correctly.


You can only modify this field if
  1. the checks out
  2. you update all three the fields with the correct number of 1.5dB steps
  3. the is updated after all this
Do NOT change/update the musicCRC.  It will be invalid after you change this mp3gain field.
If an application like mp3gain changes the main music frames of the mp3 then the musicCRC should be invalid. 
The Lame Tag CRC should still be valid however (it could be updated by mp3gain).
only tools like mp3gain should use this field, as it is made for making lossless adjustments to the mp3

after encoding is finished.  No need to support this in LAME or any decoder at all.

2^(a/4) , range of "a" here: -127..0..127
 

[byte $B5]b
a
dB change
amplification factor used was
[11111111]
-127
-190.5dB
0.000000000276883
...
...
 
 
[10000011]
-3
-4.5dB
0.594603557501360533
[10000010]
-2
-3dB
0.707106781186547524
[10000001]
-1
-1.5dB
0.840896415253714543
[00000000]
0
0dB
1.0
[00000001]
1
+1.5dB
1.18920711500272107
[00000010]
2
+3dB
1.41421356237309505
[00000011]
3
+4.5dB
1.68179283050742909
[00000100]
4
+6dB
2.0
[00000101]
5
+7.5dB
2.37841423000544213
...
...
 
 
[00011111]
31
+46.5dB
215.269482304950923
...
...
 
 
[01111111]
127
+190.5dB
3611622602.83833951

the +-190.5dB range is too large, but there was little else to do with the extra bits, so for uniformity we took this range.


bytes $B6-$B7  Preset and surround info

2 most significant bits: unused

 

3 bits: surround info

0: no surround info
1: DPL encoding
2: DPL2 encoding
3: Ambisonic encoding
8: reserved

 

11 least significant bits: Preset used.

0: unknown/ no preset used
This allows a range of 2047 presets. With Lame we would use the value of the internal preset enum.


bytes $B8-$BB  MusicLength 


32 bit integer filed containing the exact length in bytes of the mp3 file originally made by LAME excluded ID3 tag info at the end.

The first byte it counts is the first byte of this LAME Tag and the last byte it counts is the last byte of the last mp3 frame containing music.

Should be filelength at the time of LAME encoding, except when using ID3 tags.

practical example:
[misc+ID3v2 tag info][LAME Tag frame][complete mp3 music data][misc+ID3v1/2 tag info]

remark: applying any (ID3v2) kind of tagging or information in FRONT of the LAME/Xing Tag frame is a very bad idea.  You will disable the functionality of all decoders to read the tag info correctly. (for example: VBR mp3 seek info will no longer be usable)

range (1)d-(4,294,967,295)d [ or about 4294967295/(650*1024*1024)/320*1411 = 27.79 hours of 44.1kHz 320kbit/s music. ]

Musiclength not set / unknown / larger than 4G:

$B8 $B9 $BA $BB
00h 00h 00h 00h

use of this field: together with the next field deliver

  • an effective verification of music's integrity
  • and effective shield from TAGs.


Examples:
 

$B8 $B9 $BA $BB
(29)h (17)h (A3)h (62)h
would be (2917A362)h = (689,415,010)b bytes
$B8 $B9 $BA $BB
(00)h (3B)h (82)h (B5)h
would be (3B82B5)h = (3,900,085)b bytes


bytes $BC-$BD  MusicCRC 


contains a CRC-16 of the complete mp3 music data as made originally by LAME.
  • with as first byte the first byte of the first mp3 frame containing music. (the frame right after this LAME Tag)
  • with as last byte the last byte of the last mp3 frame containing music. (so that additional tags at the end are not included.)
reason : will guarantee that the actual mp3 music data is intact, unregardless people adding ID3 tags to the end (or the start) of the file.

practical example:
[misc+ID3v2 tag info][LAME Tag frame][complete mp3 music data as made by LAME][misc+ID3v1/2 tag info]

remark: applying any (ID3v2) kind of tagging or information in FRONT of the LAME/Xing Tag frame is a very bad idea.  You will disable the functionality of all decoders to read the tag info correctly. (for example: VBR mp3 seek info will no longer be usable)

Meaning of this musicCRC:

"if the musicCRC is correct, then this file (or the music data in it) are identical to when encoded by LAME"

It does not say:

  • this is a valid mp3
  • this mp3 sounds good
  • this mp3 has been downloaded correctly off the internet
  • it has not been retagged (very possible)
This will enable:
  • effective verification method to see if the music data is exactly what it was at time of encoding
  • swift and accurate removal of any sort of ID3 or different tags
    • 1) search for start of a LAME Tag ( pos $xy )
      2) if CRC($(xy+c0)..$(xy+MusicLength)) corrent then cut out $(xy+c0)..$(xy+MusicLength)
CRC-16 should suffice since in the event of total randomness every 65536th defective file on average will be falsely identified as being not defective.  Also, CRC-16 routines are present in both mp3 encoder and decoders.

CRCInitValue := $0000;


bytes $BE-$BF  CRC-16 of Info Tag 


contains a CRC-16 of the first 190 bytes ($00-$BD) of the Info header frame. This field is calculated at the end, once all other fields are completed.

reason : safeguards LAME VBR header against easy tampering.  Improving the header functionality as quality control/verification tool for VBR files.

CRCInitValue := $0000;


Remarks / Ideas:

  • The idea behind storing all this specific (quality significant) LAME settings used to encode in the mp3 itself is to give some kind of quality assurance for (mainly) non-CBR files.  You would download an mp3 from the web and know exactly what kind of setting was used on this file.  Now there is no way to keep find out if your download is a "-V9 --lowpass 12" or a "-V1 --lowpass 19.5" file.  Even though both have a significant quality difference.
  • These headers should also be placed in front of CBR files. Given the Bitrate is >=64 the frame could be housed in a CBR file using the same framesize as the mp3 itself.
  • If limiting the LAME string to 9 bytes "LAME X.YZu", the extension revision 0 could take 27 bytes and it would still fit a 64 kbit 48kHz frame:
  • 0000:
    0010:
    0020:
    0030:
    0040:
    0050:
    0060:
    0070:
    0080:
    0090:
    00A0:
    00B0:
    FF FB 54 04-00 00 00 00-00 00 00 00-00 00 00 00
    00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
    00 00 00 00-58 69 6E 67-00 00 00 0F-00 00 00 7E
    00 00 2F E1-00 04 04 04-04 04 04 05-09 0B 0D 0F
    13 15 17 19-1D 1F 21 23-27 29 2B 2D-31 33 35 39
    3B 3D 3F 43-45 47 49 4D-4F 51 53 57-59 5B 5D 61
    63 65 67 6B-6D 6F 73 75-77 79 7D 7F-81 83 87 89
    8B 8D 91 93-95 97 9B 9D-9F A1 A5 A7-A9 AB AF B1
    B3 B7 B9 BB-BD C1 C3 C5-C7 CB CD CF-D1 D5 D7 D9
    DB DF E1 E3-E5 E9 EB ED-00 00 00 0B-4C 41 4D 45
    33 2E 37 30-00 00 00 00-00 00 00 00-00 00 00 00
    00 00 00 00-00 00 00 00-00 00 00 00-00 00 00 00
     ?T?

      Xing   ?   ~
      /ß ???????????
    ?§????!#')+-1359
    ;=?CEGIMOQSWY[]a
    cegkmosuwy}?üâçë
    ïìæôòù¢¥ƒíѺ?½»?
    ????????????????
    ??ß?????   ?LAME
    3.70
     

  • In these last two cases, instead of the now default 128kbit/s one, in case of non-CBR, LAME could add any (64 .. 320) sized tag to the mp3, being as close as possible to the average bitrate of the file.  So a VBR file averaging 172 kbit would get a 160kbit/s LAME Tag, an ABR file averaging 253 kbit/s a 256kbit/s LAME Tag...  (useful for non-vbr compliant decoders guessing file length based on size first frame)
阅读(296) | 评论(0) | 转发(0) |
0

上一篇:MP3文件格式解析

下一篇:MP3文件格式解析

给主人留下些什么吧!~~