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/* compact disc reed-solomon routines
* (c) 1998 by Heiko Eissfeldt, heiko@colossus.escape.de
*/
#define RS_L12_BITS 8
/* audio sector definitions for CIRC */
#define FRAMES_PER_SECTOR 98
/* user data bytes per frame */
#define L1_RAW 24
/* parity bytes with 8 bit */
#define L1_Q 4
#define L1_P 4
/* audio sector Cross Interleaved Reed-Solomon Code (CIRC) encoder (layer 1) */
/* adds P- and Q- parity information to audio (f2) frames. Also
optionally handles the various delays and permutations. The output with all
stages enabled can be fed into the Eight-Fourteen-Modulator.
On input: 2352 bytes of audio data is given.
On output: 3136 bytes of CIRC enriched audio data are returned.
*/
int do_encode_L1(unsigned char in[L1_RAW*FRAMES_PER_SECTOR],
unsigned char out[(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR],
int delay1, int delay2, int delay3, int scramble);
/* data sector definitions for RSPC */
/* user data bytes per frame */
#define L2_RAW (1024*2)
/* parity bytes for 16 bit units */
#define L2_Q (26*2*2)
#define L2_P (43*2*2)
/* known sector types */
#define MODE_0 0
#define MODE_1 1
#define MODE_2 2
#define MODE_2_FORM_1 3
#define MODE_2_FORM_2 4
#ifdef __cplusplus
extern "C" {
#endif
/* set one of the MODE_* constants for subsequent data sector formatting */
int set_sector_type(int st);
/* get the current sector type setting for data sector formatting */
int get_sector_type(void);
/* data sector layer 2 Reed-Solomon Product Code encoder */
/* encode the given data portion depending on sector type (see
get/set_sector_type() functions). Use the given address for the header.
The returned data is __unscrambled__ and not in F2-frame format (for that
see function scramble_L2()).
Supported sector types:
MODE_0: a 12-byte sync field, a header and 2336 zeros are returned.
MODE_1: the user data portion (2048 bytes) has to be given
at offset 16 in the inout array.
Sync-, header-, edc-, spare-, p- and q- fields will be added.
MODE_2: the user data portion (2336 bytes) has to be given
at offset 16 in the inout array.
Sync- and header- fields will be added.
MODE_2_FORM_1: the user data portion (8 bytes subheader followed
by 2048 bytes data) has to be given at offset 16
in the inout array.
Sync-, header-, edc-, p- and q- fields will be added.
MODE_2_FORM_2: the user data portion (8 bytes subheader followed
by 2324 bytes data) has to be given at offset 16
in the inout array.
Sync-, header- and edc- fields will be added.
*/
int do_encode_L2(unsigned char *inout, int sectortype, unsigned address);
int decode_L2_Q(unsigned char inout[4 + L2_RAW + 12 + L2_Q]);
int decode_L2_P(unsigned char inout[4 + L2_RAW + 12 + L2_Q + L2_P]);
unsigned int build_edc(unsigned char inout[], int from, int upto);
/* generates f2 frames from otherwise fully formatted sectors (generated by
do_encode_L2()). */
int scramble_L2(unsigned char *inout);
#ifdef __cplusplus
}
#endif
/* r-w sub channel definitions */
#define RS_SUB_RW_BITS 6
#define PACKETS_PER_SUBCHANNELFRAME 4
#define LSUB_RAW 18
#define LSUB_QRAW 2
/* 6 bit */
#define LSUB_Q 2
#define LSUB_P 4
#ifdef __cplusplus
extern "C" {
#endif
/* R-W subchannel encoder */
/* On input: 72 bytes packed user data, four frames with each 18 bytes.
On output: per frame: 2 bytes user data, 2 bytes Q parity,
16 bytes user data, 4 bytes P parity.
Options:
delay1: use low level delay line
scramble: perform low level permutations
*/
int do_encode_sub(unsigned char in[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME],
unsigned char out[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME],
int delay1, int scramble);
int do_decode_sub(unsigned char in[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME],
unsigned char out[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME],
int delay1, int scramble);
int decode_LSUB_Q(unsigned char inout[LSUB_QRAW + LSUB_Q]);
int decode_LSUB_P(unsigned char inout[LSUB_RAW + LSUB_Q + LSUB_P]);
#ifdef __cplusplus
}
#endif
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