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lxdream.org :: lxdream/src/drivers/cdrom/README.LIBEDC
lxdream 0.9.1
released Jun 29
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filename src/drivers/cdrom/README.LIBEDC
changeset 1097:d4807997e450
prevsrc/gdrom/README.LIBEDC@644:ccae4bfa5f82
author nkeynes
date Sun Jan 31 18:35:06 2010 +1000 (12 years ago)
permissions -rw-r--r--
last change Refactor CDROM host support
- Completely separate GDROM hardware (in gdrom/gdrom.c) from generic CDROM
support (now in drivers/cdrom)
- Add concept of 'sector sources' that can be mixed and matched to create
cdrom discs (makes support of arbitrary disc types much simpler)
view annotate diff log raw
     1 This describes the program as shipped with cdrkit, a spinoff from the
     2 cdrtools project. However, the cdrtools developers are no longer 
     3 involved in the development of this spinoff and therefore shall not
     4 be made responsible for any problem caused by it. Do not try to get 
     5 support for this program by contacting the original authors.
     7 This is a small description for the Reed-Solomon library intended for
     8 CD sector formatting.
    10 Basics:
    11 It is assumed that you have a basic knowledge of cd sector formats.
    13 The library can handle three types of sector data:
    14   data sectors,
    15   audio sectors, and
    16   sub channel r-w sectors
    18 Currently only encoding is implemented. Decoding and optionally
    19 error correction is planned for later.
    21 Stages:
    23 The process of sector formatting has several stages. Beginning with
    24 a data sector (2048, 2324, or 2336 bytes) a sector of 2352 bytes is
    25 built. This format can be read raw by SCSI MMC-2 and ATAPI drives and
    26 is accepted by cd burners. The additions are an optionally 32 bit CRC
    27 checksum and two layers of Reed-Solomon codes (called Reed-Solomon
    28 Product Code RSPC).
    29 This sector is then scrambled (exor'ed with a bitstream).
    30 The result is called F1 frames. Afterwards even and odd bytes are
    31 swapped, this is called F2 frames. The result is equivalent to an
    32 audio sector and is treated as such by the cd burner.
    33 So, if we wrote a series of sectors (F2 frames) into a CDR file and
    34 later burned them as 'audio', they would turn up as perfect data sectors.
    36 So, now we are at the level of audio sectors. Audio sectors get their
    37 own error correction data (called CIRC). Sector size goes up to 
    38 3136 bytes (that is 4/3 times 2352 bytes). Furthermore different
    39 words get delayed differently and swap positions. The result is ready
    40 to be fed into the so-called EightFourteenModulator (when subchannels
    41 have been added).
    43 Now, only sub channels are missing. While the p and q sub
    44 channels have to be generated elsewhere, any supplied r-w subchannel
    45 user data is protected by two levels of error correction
    46 codes. This format is read by cd burners when burning cd+graphics.
    47 The cdimage is a sequence of sectors, each containing audio data and
    48 after that subchannel data.
    49 Similar to audio sectors delaying and permutation of words
    50 takes place. After that the cd burner would mix sub channel data with
    51 the formatted audio sectors to feed the EFModulator.
    53 NOTE: Most of the described stages need not to be done in order to
    54 prepare sectors for burning, since all cd burners do at least CIRC,
    55 delaying and swaps. For data sectors they also do scrambling and f2
    56 frame generation.
    58 Encoding routines:
    60 For data sectors
    61  int do_encode_L2(unsigned char *inout, int sectortype, unsigned address);
    63  encodes data sectors. The returned data is __unscrambled__ and not in
    64  F2-frame format.
    66 Parameters are:
    67   inout        pointer to an array of at least 2352 bytes.
    68   sectortype   One of the MODE_* constants from ecc.h. This defines
    69                how to format the sector.
    70   address      The logical address to be used in the header 
    71                (150 = 0:2.0 MSF).
    73 NOTE: the data portion has be to aligned properly for performance
    74 reasons (see ecc.h for details). So, no moves are necessary here.
    76 Generating f2 frames to be used like audio sectors
    77  int scramble_L2(unsigned char *inout)
    79  generates f2 frames in place from sectors generated by do_encode_L2().
    81 Parameters are:
    82   inout        pointer to an array of at least 2352 bytes.
    86 For sub channels
    87  int do_encode_sub(unsigned char in[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME],
    88 		unsigned char out[(LSUB_RAW+LSUB_Q+LSUB_P)*
    89 					PACKETS_PER_SUBCHANNELFRAME],
    90 		int delay1, int permute);
    92  repack user data and add error correction data. P and q subchannels
    93 should be added later, since all bytes are in place then.
    95 Parameters are:
    96   in           pointer to an array of at least 72 bytes. It contains
    97                the user data for one frame.
    98   out          pointer to an array of at least 96 bytes. Here is
    99                output frame is placed.
   100   delay1       do low level delaying, when set to 1.
   101   permute      do low level permutations, when set to 1.
   103 NOTE: Probably both options need either to be set on (1) or off (0) together.
   105 There is more, but that is seldomly used.
   107 Tests:
   108 The library is accompanied by small verify programs, that compare real
   109 raw sectors with the formatted results. They are also intended as demo
   110 applications (how to use the library). In order to be able to feed
   111 real raw sectors into them, the package read2448 is recommended/needed.
   112 You can only verify sector streams of one sector type, currently no mix.
   114 For more information have a look into ecc.h
   116 recommended Documents:
   117 Yellow Book or ISO 10149
   118 Appendix Red Book
   119 Red Book or IEC 908
   121 Source: libedc/README from cdrtools package
   122 Edited for cdrkit by Christian Fromme <kaner@strace.org>
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