示例#1
0
/**
    Issue a MMC READ_CD command.

@param p_cdio  object to read from

@param p_buf   Place to store data. The caller should ensure that
               p_buf can hold at least i_blocksize * i_blocks  bytes.

@param i_lsn   sector to read

@param expected_sector_type restricts reading to a specific CD
  sector type.  Only 3 bits with values 1-5 are used:
    0 all sector types
    1 CD-DA sectors only
    2 Mode 1 sectors only
    3 Mode 2 formless sectors only. Note in contrast to all other
      values an MMC CD-ROM is not required to support this mode.
    4 Mode 2 Form 1 sectors only
    5 Mode 2 Form 2 sectors only

@param b_digital_audio_play Control error concealment when the
  data being read is CD-DA.  If the data being read is not CD-DA,
  this parameter is ignored.  If the data being read is CD-DA and
  DAP is false zero, then the user data returned should not be
  modified by flaw obscuring mechanisms such as audio data mute and
  interpolate.  If the data being read is CD-DA and DAP is true,
  then the user data returned should be modified by flaw obscuring
  mechanisms such as audio data mute and interpolate.

  b_sync_header return the sync header (which will probably have
  the same value as CDIO_SECTOR_SYNC_HEADER of size
  CDIO_CD_SYNC_SIZE).

  @param header_codes Header Codes refer to the sector header and
  the sub-header that is present in mode 2 formed sectors:

   0 No header information is returned.
   1 The 4-byte sector header of data sectors is be returned,
   2 The 8-byte sector sub-header of mode 2 formed sectors is
     returned.
   3 Both sector header and sub-header (12 bytes) is returned.
   The Header preceeds the rest of the bytes (e.g. user-data bytes)
   that might get returned.

   @param b_user_data  Return user data if true.

   For CD-DA, the User Data is CDIO_CD_FRAMESIZE_RAW bytes.

   For Mode 1, The User Data is ISO_BLOCKSIZE bytes beginning at
   offset CDIO_CD_HEADER_SIZE+CDIO_CD_SUBHEADER_SIZE.

   For Mode 2 formless, The User Data is M2RAW_SECTOR_SIZE bytes
   beginning at offset CDIO_CD_HEADER_SIZE+CDIO_CD_SUBHEADER_SIZE.

   For data Mode 2, form 1, User Data is ISO_BLOCKSIZE bytes beginning at
   offset CDIO_CD_XA_SYNC_HEADER.

   For data Mode 2, form 2, User Data is 2 324 bytes beginning at
   offset CDIO_CD_XA_SYNC_HEADER.

   @param b_sync

   @param b_edc_ecc true if we return EDC/ECC error detection/correction bits.

   The presence and size of EDC redundancy or ECC parity is defined
   according to sector type:

   CD-DA sectors have neither EDC redundancy nor ECC parity.

   Data Mode 1 sectors have 288 bytes of EDC redundancy, Pad, and
   ECC parity beginning at offset 2064.

   Data Mode 2 formless sectors have neither EDC redundancy nor ECC
   parity

   Data Mode 2 form 1 sectors have 280 bytes of EDC redundancy and
   ECC parity beginning at offset 2072

   Data Mode 2 form 2 sectors optionally have 4 bytes of EDC
   redundancy beginning at offset 2348.


   @param c2_error_information If true associate a bit with each
   sector for C2 error The resulting bit field is ordered exactly as
   the main channel bytes.  Each 8-bit boundary defines a byte of
   flag bits.

   @param subchannel_selection subchannel-selection bits

     0  No Sub-channel data shall be returned.  (0 bytes)
     1  RAW P-W Sub-channel data shall be returned.  (96 byte)
     2  Formatted Q sub-channel data shall be transferred (16 bytes)
     3  Reserved
     4  Corrected and de-interleaved R-W sub-channel (96 bytes)
     5-7  Reserved

   @param i_blocksize size of the a block expected to be returned

   @param i_blocks number of blocks expected to be returned.

   A DriverOpException is raised on error.
  */
void
mmcReadCd ( void *p_buf, lsn_t i_lsn, int expected_sector_type,
            bool b_digital_audio_play, bool b_sync, uint8_t header_codes,
            bool b_user_data, bool b_edc_ecc, uint8_t c2_error_information,
            uint8_t subchannel_selection, uint16_t i_blocksize,
            uint32_t i_blocks )
{
    driver_return_code_t drc =
        mmc_read_cd ( p_cdio, p_buf, i_lsn, expected_sector_type,
                      b_digital_audio_play, b_sync, header_codes,
                      b_user_data, b_edc_ecc, c2_error_information,
                      subchannel_selection, i_blocksize, i_blocks );
    possible_throw_device_exception(drc);
}
示例#2
0
文件: rip.c 项目: RomanHargrave/cued
driver_return_code_t
mmc_read_cd_leadout ( const CdIo_t *p_cdio, void *p_buf, lsn_t i_lsn,
                  int read_sector_type, bool b_digital_audio_play,
                  bool b_sync, uint8_t header_codes, bool b_user_data,
                  bool b_edc_ecc, uint8_t c2_error_information,
                  uint8_t subchannel_selection, uint16_t i_blocksize,
                  uint32_t i_blocks )
{
    rip_context_t *rip;
    uint8_t *buf;
    driver_return_code_t drc;
    int sectors;

    cdio_warn("reading lead-out");

    rip = (rip_context_t *) util_get_context(p_cdio);
    if (!rip) {
        cdio2_abort("failed to get rip context for reading lead-out");
    }

    // (ab)use the drive's firmware by requesting a read that starts inside
    // the program area, but extends into the lead out (some drives do not
    // check to see if a read terminates inside the program area)
    // 

    sectors = i_lsn - rip->endOfDiscSector + i_blocks + 1;
    buf = (uint8_t *) malloc(sectors * i_blocksize);
    if (!buf) {
        cdio2_abort("out of memory reading %d sectors", sectors);
    }

    drc = mmc_read_cd(
        p_cdio,
        buf, rip->endOfDiscSector - 1,
        read_sector_type, b_digital_audio_play, b_sync, header_codes, b_user_data,
        b_edc_ecc, c2_error_information, subchannel_selection, i_blocksize,
        sectors);
    if (DRIVER_OP_SUCCESS == drc) {
        memcpy(p_buf, buf + i_blocksize * (sectors - i_blocks), i_blocksize * i_blocks);
    }

    free(buf);

    return drc;
}