/* @(#)edc_ecc.c 1.21 03/04/04 Copyright 1998-2002 Heiko Eissfeldt, Joerg Schilling */
#ifndef lint
static char sccsid[] =
"@(#)edc_ecc.c 1.21 03/04/04 Copyright 1998-2002 Heiko Eissfeldt, Joerg Schilling";
#endif
/*
* Copyright 1998-2002 by Heiko Eissfeldt
* Copyright 2002 by Joerg Schilling
*
* This file contains protected intellectual property.
*
* reed-solomon encoder / decoder for compact discs.
*
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; see the file COPYING. If not, write to the Free Software
* Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <mconfig.h>
#include <stdio.h>
#include <align.h>
#include <utypes.h>
#include <stdxlib.h>
#include <strdefs.h>
#include "ecc.h"
#ifndef HAVE_MEMMOVE
/*#define memmove(dst, src, size) movebytes((src), (dst), (size))*/
#define memmove(d, s, n) bcopy ((s), (d), (n))
#endif
/* these prototypes will become public when the function are implemented */
static int do_decode_L2 __PR((unsigned char in[(L2_RAW+L2_Q+L2_P)],
unsigned char out[L2_RAW]));
static int do_decode_L1 __PR((unsigned char in[(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR],
unsigned char out[L1_RAW*FRAMES_PER_SECTOR],
int delay1, int delay2, int delay3, int scramble));
/* ------------- tables generated by gen_encodes --------------*/
#include "scramble_table"
#define DO4(a) a;a;a;a;
#define DO13(a) a;a;a;a;a;a;a;a;a;a;a;a;a;
/*
* Scrambles 2352 - 12 = 2340 bytes
*/
int scramble_L2 __PR((unsigned char *inout));
int
scramble_L2(inout)
unsigned char *inout;
{
#ifndef EDC_SCRAMBLE_NOSWAP
unsigned int *f = (unsigned int *)inout;
#endif
if (!xaligned(inout + 12, sizeof(UInt32_t)-1)) {
Uchar *r = inout + 12;
const Uchar *s = yellowbook_scrambler;
register int i;
for (i = (L2_RAW + L2_Q + L2_P +16)/sizeof(unsigned char)/4; --i >= 0;) {
DO4(*r++ ^= *s++);
}
} else {
UInt32_t *r = (UInt32_t *) (inout + 12);
const UInt32_t *s = yellowbook_scrambler_uint32;
register int i;
for (i = (L2_RAW + L2_Q + L2_P +16)/sizeof(UInt32_t)/13; --i >= 0;) {
DO13(*r++ ^= *s++);
}
}
#ifndef EDC_SCRAMBLE_NOSWAP
/* generate F1 frames */
for (i = 2352/sizeof(unsigned int); i; i--) {
*f++ = ((*f & 0xff00ff00UL) >> 8) | ((*f & 0x00ff00ffUL) << 8);
}
#endif
return (0);
}
#include "l2sq_table"
static int encode_L2_Q __PR((unsigned char inout[4 + L2_RAW + 4 + 8 + L2_P + L2_Q]));
static int
encode_L2_Q(inout)
unsigned char inout[4 + L2_RAW + 4 + 8 + L2_P + L2_Q];
{
unsigned char *dps;
unsigned char *dp;
unsigned char *Q;
register int i;
int j;
Q = inout + 4 + L2_RAW + 4 + 8 + L2_P;
dps = inout;
for (j = 0; j < 26; j++) {
register unsigned short a;
register unsigned short b;
a = b = 0;
dp = dps;
for (i = 0; i < 43; i++) {
/* LSB */
a ^= L2sq[i][*dp++];
/* MSB */
b ^= L2sq[i][*dp];
dp += 2*44-1;
if (dp >= &inout[(4 + L2_RAW + 4 + 8 + L2_P)]) {
dp -= (4 + L2_RAW + 4 + 8 + L2_P);
}
}
Q[0] = a >> 8;
Q[26*2] = a;
Q[1] = b >> 8;
Q[26*2+1] = b;
Q += 2;
dps += 2*43;
}
return (0);
}
static int encode_L2_P __PR((unsigned char inout[4 + L2_RAW + 4 + 8 + L2_P]));
static int
encode_L2_P(inout)
unsigned char inout[4 + L2_RAW + 4 + 8 + L2_P];
{
unsigned char *dp;
unsigned char *P;
register int i;
int j;
P = inout + 4 + L2_RAW + 4 + 8;
for (j = 0; j < 43; j++) {
register unsigned short a;
register unsigned short b;
a = b = 0;
dp = inout;
for (i = 19; i < 43; i++) {
/* LSB */
a ^= L2sq[i][*dp++];
/* MSB */
b ^= L2sq[i][*dp];
dp += 2*43 -1;
}
P[0] = a >> 8;
P[43*2] = a;
P[1] = b >> 8;
P[43*2+1] = b;
P += 2;
inout += 2;
}
return (0);
}
static unsigned char bin2bcd __PR((unsigned p));
static unsigned char
bin2bcd(p)
unsigned p;
{
return ((p/10)<<4)|(p%10);
}
static int build_address __PR((unsigned char inout[], int sectortype, unsigned address));
static int
build_address(inout, sectortype, address)
unsigned char inout[];
int sectortype;
unsigned address;
{
inout[12] = bin2bcd(address / (60*75));
inout[13] = bin2bcd((address / 75) % 60);
inout[14] = bin2bcd(address % 75);
if (sectortype == MODE_0)
inout[15] = 0;
else if (sectortype == MODE_1)
inout[15] = 1;
else if (sectortype == MODE_2)
inout[15] = 2;
else if (sectortype == MODE_2_FORM_1)
inout[15] = 2;
else if (sectortype == MODE_2_FORM_2)
inout[15] = 2;
else
return (-1);
return (0);
}
#include "crctable.out"
/*
* Called with 2064, 2056 or 2332 byte difference - all dividable by 4.
*/
unsigned int build_edc __PR((unsigned char inout[], int from, int upto));
unsigned int
build_edc(inout, from, upto)
unsigned char inout[];
int from;
int upto;
{
unsigned char *p = inout+from;
unsigned int result = 0;
upto -= from-1;
upto /= 4;
while (--upto >= 0) {
result = EDC_crctable[(result ^ *p++) & 0xffL] ^ (result >> 8);
result = EDC_crctable[(result ^ *p++) & 0xffL] ^ (result >> 8);
result = EDC_crctable[(result ^ *p++) & 0xffL] ^ (result >> 8);
result = EDC_crctable[(result ^ *p++) & 0xffL] ^ (result >> 8);
}
return (result);
}
/* Layer 2 Product code en/decoder */
int do_encode_L2 __PR((unsigned char inout[(12 + 4 + L2_RAW+4+8+L2_Q+L2_P)], int sectortype, unsigned address));
int
do_encode_L2(inout, sectortype, address)
unsigned char inout[(12 + 4 + L2_RAW+4+8+L2_Q+L2_P)];
int sectortype;
unsigned address;
{
unsigned int result;
/* SYNCPATTERN "\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff" */
#define SYNCPATTERN "\000\377\377\377\377\377\377\377\377\377\377"
/* supply initial sync pattern */
memcpy(inout, SYNCPATTERN, sizeof(SYNCPATTERN));
if (sectortype == MODE_0) {
memset(inout + sizeof(SYNCPATTERN), 0, 4 + L2_RAW + 12 + L2_P + L2_Q);
build_address(inout, sectortype, address);
return (0);
}
switch (sectortype) {
case MODE_1:
build_address(inout, sectortype, address);
result = build_edc(inout, 0, 16+2048-1);
inout[2064+0] = result >> 0L;
inout[2064+1] = result >> 8L;
inout[2064+2] = result >> 16L;
inout[2064+3] = result >> 24L;
memset(inout+2064+4, 0, 8);
encode_L2_P(inout+12);
encode_L2_Q(inout+12);
break;
case MODE_2:
build_address(inout, sectortype, address);
break;
case MODE_2_FORM_1:
result = build_edc(inout, 16, 16+8+2048-1);
inout[2072+0] = result >> 0L;
inout[2072+1] = result >> 8L;
inout[2072+2] = result >> 16L;
inout[2072+3] = result >> 24L;
/* clear header for P/Q parity calculation */
inout[12] = 0;
inout[12+1] = 0;
inout[12+2] = 0;
inout[12+3] = 0;
encode_L2_P(inout+12);
encode_L2_Q(inout+12);
build_address(inout, sectortype, address);
break;
case MODE_2_FORM_2:
build_address(inout, sectortype, address);
result = build_edc(inout, 16, 16+8+2324-1);
inout[2348+0] = result >> 0L;
inout[2348+1] = result >> 8L;
inout[2348+2] = result >> 16L;
inout[2348+3] = result >> 24L;
break;
default:
return (-1);
}
return (0);
}
/*--------------------------------------------------------------------------*/
#include "encoder_tables"
static int encode_L1_Q __PR((unsigned char inout[L1_RAW + L1_Q]));
static int
encode_L1_Q(inout)
unsigned char inout[L1_RAW + L1_Q];
{
unsigned char *Q;
int i;
memmove(inout+L1_RAW/2+L1_Q, inout+L1_RAW/2, L1_RAW/2);
Q = inout + L1_RAW/2;
memset(Q, 0, L1_Q);
for (i = 0; i < L1_RAW + L1_Q; i++) {
unsigned char data;
if (i == L1_RAW/2) i += L1_Q;
data = inout[i];
if (data != 0) {
unsigned char base = rs_l12_log[data];
Q[0] ^= rs_l12_alog[(base+AQ[0][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
Q[1] ^= rs_l12_alog[(base+AQ[1][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
Q[2] ^= rs_l12_alog[(base+AQ[2][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
Q[3] ^= rs_l12_alog[(base+AQ[3][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
}
}
return (0);
}
static int encode_L1_P __PR((unsigned char inout[L1_RAW + L1_Q + L1_P]));
static int
encode_L1_P(inout)
unsigned char inout[L1_RAW + L1_Q + L1_P];
{
unsigned char *P;
int i;
P = inout + L1_RAW + L1_Q;
memset(P, 0, L1_P);
for (i = 0; i < L2_RAW + L2_Q + L2_P; i++) {
unsigned char data;
data = inout[i];
if (data != 0) {
unsigned char base = rs_l12_log[data];
P[0] ^= rs_l12_alog[(base+AP[0][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
P[1] ^= rs_l12_alog[(base+AP[1][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
P[2] ^= rs_l12_alog[(base+AP[2][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
P[3] ^= rs_l12_alog[(base+AP[3][i]) % (unsigned)((1 << RS_L12_BITS)-1)];
}
}
return (0);
}
static int decode_L1_Q __PR((unsigned char inout[L1_RAW + L1_Q]));
static int
decode_L1_Q(inout)
unsigned char inout[L1_RAW + L1_Q];
{
return (0);
}
static int decode_L1_P __PR((unsigned char in[L1_RAW + L1_Q + L1_P]));
static int
decode_L1_P(in)
unsigned char in[L1_RAW + L1_Q + L1_P];
{
return (0);
}
int decode_L2_Q __PR((unsigned char inout[4 + L2_RAW + 12 + L2_Q]));
int
decode_L2_Q(inout)
unsigned char inout[4 + L2_RAW + 12 + L2_Q];
{
return (0);
}
int decode_L2_P __PR((unsigned char inout[4 + L2_RAW + 12 + L2_Q + L2_P]));
int
decode_L2_P(inout)
unsigned char inout[4 + L2_RAW + 12 + L2_Q + L2_P];
{
return (0);
}
static int encode_LSUB_Q __PR((unsigned char inout[LSUB_RAW + LSUB_Q]));
static int
encode_LSUB_Q(inout)
unsigned char inout[LSUB_RAW + LSUB_Q];
{
unsigned char *Q;
int i;
memmove(inout+LSUB_QRAW+LSUB_Q, inout+LSUB_QRAW, LSUB_RAW-LSUB_QRAW);
Q = inout + LSUB_QRAW;
memset(Q, 0, LSUB_Q);
for (i = 0; i < LSUB_QRAW; i++) {
unsigned char data;
data = inout[i] & 0x3f;
if (data != 0) {
unsigned char base = rs_sub_rw_log[data];
Q[0] ^= rs_sub_rw_alog[(base+SQ[0][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
Q[1] ^= rs_sub_rw_alog[(base+SQ[1][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
}
}
return (0);
}
static int encode_LSUB_P __PR((unsigned char inout[LSUB_RAW + LSUB_Q + LSUB_P]));
static int
encode_LSUB_P(inout)
unsigned char inout[LSUB_RAW + LSUB_Q + LSUB_P];
{
unsigned char *P;
int i;
P = inout + LSUB_RAW + LSUB_Q;
memset(P, 0, LSUB_P);
for (i = 0; i < LSUB_RAW + LSUB_Q; i++) {
unsigned char data;
data = inout[i] & 0x3f;
if (data != 0) {
unsigned char base = rs_sub_rw_log[data];
P[0] ^= rs_sub_rw_alog[(base+SP[0][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[1] ^= rs_sub_rw_alog[(base+SP[1][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[2] ^= rs_sub_rw_alog[(base+SP[2][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[3] ^= rs_sub_rw_alog[(base+SP[3][i]) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
}
}
return (0);
}
int decode_LSUB_Q __PR((unsigned char inout[LSUB_QRAW + LSUB_Q]));
int
decode_LSUB_Q(inout)
unsigned char inout[LSUB_QRAW + LSUB_Q];
{
unsigned char Q[LSUB_Q];
int i;
memset(Q, 0, LSUB_Q);
for (i = LSUB_QRAW + LSUB_Q -1; i>=0; i--) {
unsigned char data;
data = inout[LSUB_QRAW + LSUB_Q -1 -i] & 0x3f;
if (data != 0) {
unsigned char base = rs_sub_rw_log[data];
Q[0] ^= rs_sub_rw_alog[(base+0*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
Q[1] ^= rs_sub_rw_alog[(base+1*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
}
}
return (Q[0] != 0 || Q[1] != 0);
}
int decode_LSUB_P __PR((unsigned char inout[LSUB_RAW + LSUB_Q + LSUB_P]));
int
decode_LSUB_P(inout)
unsigned char inout[LSUB_RAW + LSUB_Q + LSUB_P];
{
unsigned char P[LSUB_P];
int i;
memset(P, 0, LSUB_P);
for (i = LSUB_RAW + LSUB_Q + LSUB_P-1; i>=0; i--) {
unsigned char data;
data = inout[LSUB_RAW + LSUB_Q + LSUB_P -1 -i] & 0x3f;
if (data != 0) {
unsigned char base = rs_sub_rw_log[data];
P[0] ^= rs_sub_rw_alog[(base+0*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[1] ^= rs_sub_rw_alog[(base+1*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[2] ^= rs_sub_rw_alog[(base+2*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
P[3] ^= rs_sub_rw_alog[(base+3*i) % (unsigned)((1 << RS_SUB_RW_BITS)-1)];
}
}
return (P[0] != 0 || P[1] != 0 || P[2] != 0 || P[3] != 0);
}
/* Layer 1 CIRC en/decoder */
#define MAX_L1_DEL1 2
static unsigned char l1_delay_line1[MAX_L1_DEL1][L1_RAW];
#define MAX_L1_DEL2 108
static unsigned char l1_delay_line2[MAX_L1_DEL2][L1_RAW+L1_Q];
#define MAX_L1_DEL3 1
static unsigned char l1_delay_line3[MAX_L1_DEL3][L1_RAW+L1_Q+L1_P];
static unsigned l1_del_index;
int do_encode_L1 __PR((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 permute));
int do_encode_L1(in, out, delay1, delay2, delay3, permute)
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 permute;
{
int i;
for (i = 0; i < FRAMES_PER_SECTOR; i++) {
int j;
unsigned char t;
if (in != out)
memcpy(out, in, L1_RAW);
if (delay1) {
/* shift through delay line 1 */
for (j = 0; j < L1_RAW; j++) {
if (((j/4) % MAX_L1_DEL1) == 0) {
t = l1_delay_line1[l1_del_index % (MAX_L1_DEL1)][j];
l1_delay_line1[l1_del_index % (MAX_L1_DEL1)][j] = out[j];
out[j] = t;
}
}
}
if (permute) {
/* permute */
t = out[2]; out[2] = out[8]; out[8] = out[10]; out[10] = out[18];
out[18] = out[6]; out [6] = t;
t = out[3]; out[3] = out[9]; out[9] = out[11]; out[11] = out[19];
out[19] = out[7]; out [7] = t;
t = out[4]; out[4] = out[16]; out[16] = out[20]; out[20] = out[14];
out[14] = out[12]; out [12] = t;
t = out[5]; out[5] = out[17]; out[17] = out[21]; out[21] = out[15];
out[15] = out[13]; out [13] = t;
}
/* build Q parity */
encode_L1_Q(out);
if (delay2) {
/* shift through delay line 2 */
for (j = 0; j < L1_RAW+L1_Q; j++) {
if (j != 0) {
t = l1_delay_line2[(l1_del_index) % MAX_L1_DEL2][j];
l1_delay_line2[(l1_del_index + j*4) % MAX_L1_DEL2][j] = out[j];
out[j] = t;
}
}
}
/* build P parity */
encode_L1_P(out);
if (delay3) {
/* shift through delay line 3 */
for (j = 0; j < L1_RAW+L1_Q+L1_P; j++) {
if (((j) & MAX_L1_DEL3) == 0) {
t = l1_delay_line3[0][j];
l1_delay_line3[0][j] = out[j];
out[j] = t;
}
}
}
/* invert Q and P parity */
for (j = 0; j < L1_Q; j++)
out[j+12] = ~out[j+12];
for (j = 0; j < L1_P; j++)
out[j+28] = ~out[j+28];
l1_del_index++;
out += L1_RAW+L1_Q+L1_P;
in += L1_RAW;
}
return (0);
}
static
int do_decode_L1 __PR((unsigned char in[(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR],
unsigned char out[L1_RAW*FRAMES_PER_SECTOR],
int delay1, int delay2, int delay3, int permute));
static /* XXX should be non static XXX*/
int
do_decode_L1(in, out, delay1, delay2, delay3, permute)
unsigned char in[(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR];
unsigned char out[L1_RAW*FRAMES_PER_SECTOR];
int delay1;
int delay2;
int delay3;
int permute;
{
int i;
for (i = 0; i < FRAMES_PER_SECTOR; i++) {
int j;
unsigned char t;
if (delay3) {
/* shift through delay line 3 */
for (j = 0; j < L1_RAW+L1_Q+L1_P; j++) {
if (((j) & MAX_L1_DEL3) != 0) {
t = l1_delay_line3[0][j];
l1_delay_line3[0][j] = in[j];
in[j] = t;
}
}
}
/* invert Q and P parity */
for (j = 0; j < L1_Q; j++)
in[j+12] = ~in[j+12];
for (j = 0; j < L1_P; j++)
in[j+28] = ~in[j+28];
/* build P parity */
decode_L1_P(in);
if (delay2) {
/* shift through delay line 2 */
for (j = 0; j < L1_RAW+L1_Q; j++) {
if (j != L1_RAW+L1_Q-1) {
t = l1_delay_line2[(l1_del_index) % MAX_L1_DEL2][j];
l1_delay_line2[(l1_del_index + (MAX_L1_DEL2 - j*4)) % MAX_L1_DEL2][j] = in[j];
in[j] = t;
}
}
}
/* build Q parity */
decode_L1_Q(in);
if (permute) {
/* permute */
t = in[2]; in[2] = in[6]; in[6] = in[18]; in[18] = in[10];
in[10] = in[8]; in [8] = t;
t = in[3]; in[3] = in[7]; in[7] = in[19]; in[19] = in[11];
in[11] = in[9]; in [9] = t;
t = in[4]; in[4] = in[12]; in[12] = in[14]; in[14] = in[20];
in[20] = in[16]; in [16] = t;
t = in[5]; in[5] = in[13]; in[13] = in[15]; in[15] = in[21];
in[21] = in[17]; in [17] = t;
}
if (delay1) {
/* shift through delay line 1 */
for (j = 0; j < L1_RAW; j++) {
if (((j/4) % MAX_L1_DEL1) != 0) {
t = l1_delay_line1[l1_del_index % (MAX_L1_DEL1)][j];
l1_delay_line1[l1_del_index % (MAX_L1_DEL1)][j] = in[j];
in[j] = t;
}
}
}
if (in != out)
memcpy(out, in, (L1_RAW));
l1_del_index++;
in += L1_RAW+L1_Q+L1_P;
out += L1_RAW;
}
return (0);
}
static int do_decode_L2 __PR((unsigned char in[(L2_RAW+L2_Q+L2_P)],
unsigned char out[L2_RAW]));
static int
do_decode_L2(in, out)
unsigned char in[(L2_RAW+L2_Q+L2_P)];
unsigned char out[L2_RAW];
{
return (0);
}
#define MAX_SUB_DEL 8
static unsigned char sub_delay_line[MAX_SUB_DEL][LSUB_RAW+LSUB_Q+LSUB_P];
static unsigned sub_del_index;
/* R-W Subchannel en/decoder */
int do_encode_sub __PR((unsigned char in[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME],
unsigned char out[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME],
int delay1, int permute));
int
do_encode_sub(in, out, delay1, permute)
unsigned char in[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME];
unsigned char out[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME];
int delay1;
int permute;
{
int i;
if (in == out) return -1;
for (i = 0; i < PACKETS_PER_SUBCHANNELFRAME; i++) {
int j;
unsigned char t;
memcpy(out, in, (LSUB_RAW));
/* build Q parity */
encode_LSUB_Q(out);
/* build P parity */
encode_LSUB_P(out);
if (permute) {
/* permute */
t = out[1]; out[1] = out[18]; out[18] = t;
t = out[2]; out[2] = out[ 5]; out[ 5] = t;
t = out[3]; out[3] = out[23]; out[23] = t;
}
if (delay1) {
/* shift through delay_line */
for (j = 0; j < LSUB_RAW+LSUB_Q+LSUB_P; j++) {
if ((j % MAX_SUB_DEL) != 0) {
t = sub_delay_line[(sub_del_index) % MAX_SUB_DEL][j];
sub_delay_line[(sub_del_index + j) % MAX_SUB_DEL][j] = out[j];
out[j] = t;
}
}
}
sub_del_index++;
out += LSUB_RAW+LSUB_Q+LSUB_P;
in += LSUB_RAW;
}
return (0);
}
int
do_decode_sub __PR((
unsigned char in[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME],
unsigned char out[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME],
int delay1, int permute));
int
do_decode_sub(in, out, delay1, permute)
unsigned char in[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME];
unsigned char out[LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME];
int delay1;
int permute;
{
int i;
if (in == out) return -1;
for (i = 0; i < PACKETS_PER_SUBCHANNELFRAME; i++) {
int j;
unsigned char t;
if (delay1) {
/* shift through delay_line */
for (j = 0; j < LSUB_RAW+LSUB_Q+LSUB_P; j++) {
if ((j % MAX_SUB_DEL) != MAX_SUB_DEL-1) {
t = sub_delay_line[(sub_del_index) % MAX_SUB_DEL][j];
sub_delay_line[(sub_del_index + (MAX_SUB_DEL - j)) % MAX_SUB_DEL][j] = in[j];
in[j] = t;
}
}
}
if (permute) {
/* permute */
t = in[1]; in[1] = in[18]; in[18] = t;
t = in[2]; in[2] = in[ 5]; in[ 5] = t;
t = in[3]; in[3] = in[23]; in[23] = t;
}
/* build P parity */
decode_LSUB_P(in);
/* build Q parity */
decode_LSUB_Q(in);
memcpy(out, in, LSUB_QRAW);
memcpy(out+LSUB_QRAW, in+LSUB_QRAW+LSUB_Q, LSUB_RAW-LSUB_QRAW);
sub_del_index++;
in += LSUB_RAW+LSUB_Q+LSUB_P;
out += LSUB_RAW;
}
return (0);
}
static int sectortype = MODE_0;
int get_sector_type __PR((void));
int
get_sector_type()
{
return (sectortype);
}
int set_sector_type __PR((int st));
int
set_sector_type(st)
int st;
{
switch(st) {
case MODE_0:
case MODE_1:
case MODE_2:
case MODE_2_FORM_1:
case MODE_2_FORM_2:
sectortype = st;
return 0;
default:
return -1;
}
}
/* ------------- --------------*/
#ifdef MAIN
#define DO_L1 1
#define DO_L2 2
#define DO_SUB 4
static const unsigned sect_size[8][2] = {
/* nothing */
{0,0},
/* Layer 1 decode/encode */
{ (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR, L1_RAW*FRAMES_PER_SECTOR},
/* Layer 2 decode/encode */
{ 16+L2_RAW+12+L2_Q+L2_P, L2_RAW},
/* Layer 1 and 2 decode/encode */
{ (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR, L1_RAW*FRAMES_PER_SECTOR},
/* Subchannel decode/encode */
{ (LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME,
LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME},
/* Layer 1 and subchannel decode/encode */
{ (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR +
(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME,
LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME +
L1_RAW*FRAMES_PER_SECTOR},
/* Layer 2 and subchannel decode/encode */
{ L2_RAW+L2_Q+L2_P+
(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME,
LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME +
L2_RAW},
/* Layer 1, 2 and subchannel decode/encode */
{ (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR +
(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME,
LSUB_RAW*PACKETS_PER_SUBCHANNELFRAME +
L1_RAW*FRAMES_PER_SECTOR},
};
int main __PR(((int argc, char **argv));
int
main(argc, argv)
int argc;
char **argv;
{
int encode = 1;
int mask = DO_L2;
FILE *infp;
FILE *outfp;
unsigned address = 0;
unsigned char *l1_inbuf;
unsigned char *l1_outbuf;
unsigned char *l2_inbuf;
unsigned char *l2_outbuf;
unsigned char *sub_inbuf;
unsigned char *sub_outbuf;
unsigned char *last_outbuf;
unsigned char inbuf[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME +
(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR];
unsigned char outbuf[(LSUB_RAW+LSUB_Q+LSUB_P)*PACKETS_PER_SUBCHANNELFRAME +
(L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR];
unsigned load_offset;
l1_inbuf = l2_inbuf = sub_inbuf = inbuf;
l1_outbuf = l2_outbuf = sub_outbuf = last_outbuf = outbuf;
infp = fopen("sectors_in", "rb");
outfp = fopen("sectors_out", "wb");
sectortype= MODE_1;
address = 0 + 75*2;
switch (sectortype) {
case MODE_1:
case MODE_2:
load_offset = 16;
break;
case MODE_2_FORM_1:
case MODE_2_FORM_2:
load_offset = 24;
break;
default:
load_offset = 0;
}
while(1) {
if (1 != fread(inbuf+load_offset,
sect_size[mask][encode], 1, infp)) {
perror("");
break;
}
if (encode == 1) {
if (mask & DO_L2) {
switch (sectortype) {
case MODE_0:
break;
case MODE_1:
break;
case MODE_2:
if (1 !=
fread(inbuf+load_offset+
sect_size[mask][encode],
2336 - sect_size[mask][encode],
1, infp)) { perror(""); break; }
break;
case MODE_2_FORM_1:
break;
case MODE_2_FORM_2:
if (1 !=
fread(inbuf+load_offset+
sect_size[mask][encode],
2324 - sect_size[mask][encode],
1, infp)) { perror(""); break; }
break;
default:
if (1 !=
fread(inbuf+load_offset+
sect_size[mask][encode],
2448 - sect_size[mask][encode],
1, infp)) { perror(""); break; }
memset(inbuf,0,16);
/*memset(inbuf+16+2048,0,12+272);*/
break;
}
do_encode_L2(l2_inbuf, MODE_1, address);
if (0) scramble_L2(l2_inbuf);
last_outbuf = l1_inbuf = l2_inbuf;
l1_outbuf = l2_inbuf;
sub_inbuf = l2_inbuf + L2_RAW;
sub_outbuf = l2_outbuf + 12 + 4+ L2_RAW+4+ 8+ L2_Q+L2_P;
}
if (mask & DO_L1) {
do_encode_L1(l1_inbuf, l1_outbuf,1,1,1,1);
last_outbuf = l1_outbuf;
sub_inbuf = l1_inbuf + L1_RAW*FRAMES_PER_SECTOR;
sub_outbuf = l1_outbuf + (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR;
}
if (mask & DO_SUB) {
do_encode_sub(sub_inbuf, sub_outbuf, 0, 0);
}
} else {
if (mask & DO_L1) {
do_decode_L1(l1_inbuf, l1_outbuf,1,1,1,1);
last_outbuf = l2_inbuf = l1_outbuf;
l2_outbuf = l1_inbuf;
sub_inbuf = l1_inbuf + (L1_RAW+L1_Q+L1_P)*FRAMES_PER_SECTOR;
sub_outbuf = l1_outbuf + L1_RAW*FRAMES_PER_SECTOR;
}
if (mask & DO_L2) {
do_decode_L2(l2_inbuf, l2_outbuf);
last_outbuf = l2_outbuf;
sub_inbuf = l2_inbuf + L2_RAW+L2_Q+L2_P;
sub_outbuf = l2_outbuf + L2_RAW;
}
if (mask & DO_SUB) {
do_decode_sub(sub_inbuf, sub_outbuf, 1, 1);
}
}
if (1 != fwrite(last_outbuf, sect_size[mask][1 - encode], 1, outfp)) {
perror("");
break;
}
address++;
}
#if 0
/* flush the data from the delay lines with zeroed sectors, if necessary */
#endif
return (0);
}
#endif
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