Genesis-Plus-GX/core/cd_hw/cdd.c

2281 lines
70 KiB
C

/***************************************************************************************
* Genesis Plus
* CD drive processor & CD-DA fader
*
* Copyright (C) 2012-2021 Eke-Eke (Genesis Plus GX)
*
* Redistribution and use of this code or any derivative works are permitted
* provided that the following conditions are met:
*
* - Redistributions may not be sold, nor may they be used in a commercial
* product or activity.
*
* - Redistributions that are modified from the original source must include the
* complete source code, including the source code for all components used by a
* binary built from the modified sources. However, as a special exception, the
* source code distributed need not include anything that is normally distributed
* (in either source or binary form) with the major components (compiler, kernel,
* and so on) of the operating system on which the executable runs, unless that
* component itself accompanies the executable.
*
* - Redistributions must reproduce the above copyright notice, this list of
* conditions and the following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************************/
#include "shared.h"
#include "megasd.h"
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
#define SUPPORTED_EXT 20
#else
#define SUPPORTED_EXT 10
#endif
/* CD blocks scanning speed */
#define CD_SCAN_SPEED 30
/* CD tracks type (CD-DA by default) */
#define TYPE_AUDIO 0x00
#define TYPE_MODE1 0x01
#define TYPE_MODE2 0x02
/* BCD conversion lookup tables */
static const uint8 lut_BCD_8[100] =
{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09,
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19,
0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29,
0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39,
0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49,
0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59,
0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69,
0x70, 0x71, 0x72, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x79,
0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89,
0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98, 0x99,
};
static const uint16 lut_BCD_16[100] =
{
0x0000, 0x0001, 0x0002, 0x0003, 0x0004, 0x0005, 0x0006, 0x0007, 0x0008, 0x0009,
0x0100, 0x0101, 0x0102, 0x0103, 0x0104, 0x0105, 0x0106, 0x0107, 0x0108, 0x0109,
0x0200, 0x0201, 0x0202, 0x0203, 0x0204, 0x0205, 0x0206, 0x0207, 0x0208, 0x0209,
0x0300, 0x0301, 0x0302, 0x0303, 0x0304, 0x0305, 0x0306, 0x0307, 0x0308, 0x0309,
0x0400, 0x0401, 0x0402, 0x0403, 0x0404, 0x0405, 0x0406, 0x0407, 0x0408, 0x0409,
0x0500, 0x0501, 0x0502, 0x0503, 0x0504, 0x0505, 0x0506, 0x0507, 0x0508, 0x0509,
0x0600, 0x0601, 0x0602, 0x0603, 0x0604, 0x0605, 0x0606, 0x0607, 0x0608, 0x0609,
0x0700, 0x0701, 0x0702, 0x0703, 0x0704, 0x0705, 0x0706, 0x0707, 0x0708, 0x0709,
0x0800, 0x0801, 0x0802, 0x0803, 0x0804, 0x0805, 0x0806, 0x0807, 0x0808, 0x0809,
0x0900, 0x0901, 0x0902, 0x0903, 0x0904, 0x0905, 0x0906, 0x0907, 0x0908, 0x0909,
};
/* pre-build TOC */
static const uint16 toc_snatcher[21] =
{
56014, 495, 10120, 20555, 1580, 5417, 12502, 16090, 6553, 9681,
8148, 20228, 8622, 6142, 5858, 1287, 7424, 3535, 31697, 2485,
31380
};
static const uint16 toc_lunar[52] =
{
5422, 1057, 7932, 5401, 6380, 6592, 5862, 5937, 5478, 5870,
6673, 6613, 6429, 4996, 4977, 5657, 3720, 5892, 3140, 3263,
6351, 5187, 3249, 1464, 1596, 1750, 1751, 6599, 4578, 5205,
1550, 1827, 2328, 1346, 1569, 1613, 7199, 4928, 1656, 2549,
1875, 3901, 1850, 2399, 2028, 1724, 4889, 14551, 1184, 2132,
685, 3167
};
static const uint32 toc_shadow[15] =
{
10226, 70054, 11100, 12532, 12444, 11923, 10059, 10167, 10138, 13792,
11637, 2547, 2521, 3856, 900
};
static const uint32 toc_dungeon[13] =
{
2250, 22950, 16350, 24900, 13875, 19950, 13800, 15375, 17400, 17100,
3325, 6825, 25275
};
static const uint32 toc_ffight[26] =
{
11994, 9742, 10136, 9685, 9553, 14588, 9430, 8721, 9975, 9764,
9704, 12796, 585, 754, 951, 624, 9047, 1068, 817, 9191, 1024,
14562, 10320, 8627, 3795, 3047
};
static const uint32 toc_ffightj[29] =
{
11994, 9752, 10119, 9690, 9567, 14575, 9431, 8731, 9965, 9763,
9716, 12791, 579, 751, 958, 630, 9050, 1052, 825, 9193, 1026,
14553, 9834, 10542, 1699, 1792, 1781, 3783, 3052
};
/* supported audio file extensions */
static const char extensions[SUPPORTED_EXT][16] =
{
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
"%02d.ogg",
" %02d.ogg",
"-%02d.ogg",
"_%02d.ogg",
" - %02d.ogg",
"%d.ogg",
" %d.ogg",
"-%d.ogg",
"_%d.ogg",
" - %d.ogg",
#endif
"%02d.wav",
" %02d.wav",
"-%02d.wav",
"_%02d.wav",
" - %02d.wav",
"%d.wav",
" %d.wav",
"-%d.wav",
"_%d.wav",
" - %d.wav"
};
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
static int seek64_wrap(void *f,ogg_int64_t off,int whence){
return cdStreamSeek(f,off,whence);
}
static ov_callbacks cb =
{
(size_t (*)(void *, size_t, size_t, void *)) cdStreamRead,
(int (*)(void *, ogg_int64_t, int)) seek64_wrap,
(int (*)(void *)) cdStreamClose,
(long (*)(void *)) cdStreamTell
};
#ifdef DISABLE_MANY_OGG_OPEN_FILES
static void ogg_free(int i)
{
/* clear OGG file descriptor to prevent file from being closed */
cdd.toc.tracks[i].vf.datasource = NULL;
/* close VORBIS file structure */
ov_clear(&cdd.toc.tracks[i].vf);
/* indicates that the track is a seekable VORBIS file */
cdd.toc.tracks[i].vf.seekable = 1;
/* reset file reading position */
cdStreamSeek(cdd.toc.tracks[i].fd, 0, SEEK_SET);
}
#endif
#endif
void cdd_init(int samplerate)
{
/* CD-DA is running by default at 44100 Hz */
/* Audio stream is resampled to desired rate using Blip Buffer */
blip_set_rates(snd.blips[2], 44100, samplerate);
}
void cdd_reset(void)
{
/* reset drive access latency */
cdd.latency = 0;
/* reset track index */
cdd.index = 0;
/* reset logical block address */
cdd.lba = 0;
/* reset status */
cdd.status = cdd.loaded ? CD_TOC : NO_DISC;
/* reset CD-DA fader (full volume) */
cdd.fader[0] = cdd.fader[1] = 0x400;
/* clear CD-DA output */
cdd.audio[0] = cdd.audio[1] = 0;
}
int cdd_context_save(uint8 *state)
{
int bufferptr = 0;
unsigned int offset = 0;
save_param(&cdd.cycles, sizeof(cdd.cycles));
save_param(&cdd.latency, sizeof(cdd.latency));
save_param(&cdd.index, sizeof(cdd.index));
save_param(&cdd.lba, sizeof(cdd.lba));
save_param(&cdd.scanOffset, sizeof(cdd.scanOffset));
save_param(&cdd.fader, sizeof(cdd.fader));
save_param(&cdd.status, sizeof(cdd.status));
/* current track is an audio track ? */
if (cdd.toc.tracks[cdd.index].type == TYPE_AUDIO)
{
/* get file read offset */
#if defined(USE_LIBCHDR)
if (cdd.chd.file)
{
/* CHD file offset */
offset = cdd.chd.hunkofs;
}
else
#endif
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[cdd.index].vf.seekable)
{
/* VORBIS file sample offset */
offset = ov_pcm_tell(&cdd.toc.tracks[cdd.index].vf);
}
else
#endif
if (cdd.toc.tracks[cdd.index].fd)
{
/* PCM file offset */
offset = cdStreamTell(cdd.toc.tracks[cdd.index].fd);
}
}
save_param(&offset, sizeof(offset));
save_param(&cdd.audio, sizeof(cdd.audio));
return bufferptr;
}
int cdd_context_load(uint8 *state, char *version)
{
unsigned int offset, lba, index;
int bufferptr = 0;
load_param(&cdd.cycles, sizeof(cdd.cycles));
load_param(&cdd.latency, sizeof(cdd.latency));
load_param(&index, sizeof(cdd.index));
load_param(&lba, sizeof(cdd.lba));
load_param(&cdd.scanOffset, sizeof(cdd.scanOffset));
load_param(&cdd.fader, sizeof(cdd.fader));
load_param(&cdd.status, sizeof(cdd.status));
/* update current sector */
cdd.lba = lba;
/* support for previous state version (1.7.5) */
if ((version[11] == 0x31) && (version[13] == 0x37) && (version[15] == 0x35))
{
/* current track is an audio track ? */
if (cdd.toc.tracks[index].type == TYPE_AUDIO)
{
/* stay within track limits when seeking files */
if (lba < cdd.toc.tracks[index].start)
{
lba = cdd.toc.tracks[index].start;
}
/* seek to current track sector */
cdd_seek_audio(index, lba);
}
}
else
{
load_param(&offset, sizeof(offset));
load_param(&cdd.audio, sizeof(cdd.audio));
/* current track is an audio track ? */
if (cdd.toc.tracks[index].type == TYPE_AUDIO)
{
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
#ifdef DISABLE_MANY_OGG_OPEN_FILES
/* check if track index has changed */
if (index != cdd.index)
{
/* close previous track VORBIS file structure to save memory */
if (cdd.toc.tracks[cdd.index].vf.datasource)
{
ogg_free(cdd.index);
}
/* open current track VORBIS file */
if (cdd.toc.tracks[index].vf.seekable)
{
ov_open_callbacks(cdd.toc.tracks[index].fd,&cdd.toc.tracks[index].vf,0,0,cb);
}
}
#endif
#endif
/* seek to current file read offset */
#if defined(USE_LIBCHDR)
if (cdd.chd.file)
{
/* CHD file offset */
cdd.chd.hunkofs = offset;
}
else
#endif
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[index].vf.seekable)
{
/* VORBIS file sample offset */
ov_pcm_seek(&cdd.toc.tracks[index].vf, offset);
}
else
#endif
if (cdd.toc.tracks[index].fd)
{
/* PCM file offset */
cdStreamSeek(cdd.toc.tracks[index].fd, offset, SEEK_SET);
}
}
}
/* seek to current subcode position */
if (cdd.toc.sub)
{
/* 96 bytes per sector */
cdStreamSeek(cdd.toc.sub, lba * 96, SEEK_SET);
}
/* update current track index */
cdd.index = index;
return bufferptr;
}
int cdd_load(char *filename, char *header)
{
char fname[256+10];
char line[128];
char *ptr, *lptr;
cdStream *fd;
/* assume normal CD image file by default */
int isCDfile = 1;
int isMSDfile = 0;
/* first unmount any loaded disc */
cdd_unload();
/* open file */
fd = cdStreamOpen(filename);
if (!fd)
{
/* do not return an error as this could be a ROM loaded in memory */
/* which should be handled by load_archive function */
return (0);
}
#if defined(USE_LIBCHDR)
if (!memcmp("chd", &filename[strlen(filename) - 3], 3) || !memcmp("CHD", &filename[strlen(filename) - 3], 3))
{
int sectors = 0;
char metadata[256];
const chd_header *head;
/* open CHD file */
if (chd_open_file(fd, CHD_OPEN_READ, NULL, &cdd.chd.file) != CHDERR_NONE)
{
chd_close(cdd.chd.file);
cdStreamClose(fd);
return -1;
}
/* retrieve CHD header */
head = chd_get_header(cdd.chd.file);
/* detect invalid hunk size */
if ((head->hunkbytes == 0) || (head->hunkbytes % CD_FRAME_SIZE))
{
chd_close(cdd.chd.file);
cdStreamClose(fd);
return -1;
}
/* allocate hunk buffer */
cdd.chd.hunk = (uint8 *)malloc(head->hunkbytes);
if (!cdd.chd.hunk)
{
chd_close(cdd.chd.file);
cdStreamClose(fd);
return -1;
}
/* initialize hunk size (usually fixed to 8 sectors) */
cdd.chd.hunkbytes = head->hunkbytes;
/* initialize buffered hunk index */
cdd.chd.hunknum = -1;
/* retrieve tracks informations */
for (cdd.toc.last = 0; cdd.toc.last < 99; cdd.toc.last++)
{
int tracknum = 0, frames = 0, pregap = 0, postgap = 0;
char type[16], subtype[16], pgtype[16], pgsub[16];
type[0] = subtype[0] = pgtype[0] = pgsub[0] = 0;
/* attempt fetch either complete or partial metadata for current track */
if (chd_get_metadata(cdd.chd.file, CDROM_TRACK_METADATA2_TAG, cdd.toc.last, metadata, 256, 0, 0, 0) == CHDERR_NONE)
{
if (sscanf(metadata, CDROM_TRACK_METADATA2_FORMAT, &tracknum, &type[0], &subtype[0], &frames, &pregap, &pgtype[0], &pgsub[0], &postgap) != 8)
break;
}
else if (chd_get_metadata(cdd.chd.file, CDROM_TRACK_METADATA_TAG, cdd.toc.last, metadata, 256, 0, 0, 0) == CHDERR_NONE)
{
if (sscanf(metadata, CDROM_TRACK_METADATA_FORMAT, &tracknum, &type[0], &subtype[0], &frames) != 4)
break;
}
/* no more track */
else break;
/* detect out of order track number or invalid parameter */
if ((tracknum != (cdd.toc.last + 1)) || (frames < 0) || (pregap < 0) || (postgap < 0))
break;
/* detect track type */
if (cdd.toc.last)
{
/* CD-ROM track supported only for first track */
if (strcmp(type, "AUDIO"))
break;
/* Audio track start LBA (adjusted with pregap length) */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end + pregap;
}
else
{
if (!strcmp(type, "MODE1_RAW"))
{
/* Mode 1 RAW format (2352 bytes data blocks) */
cdd.sectorSize = 2352;
cdd.toc.tracks[0].type = TYPE_MODE1;
}
else if (!strcmp(type, "MODE1"))
{
/* Mode 1 COOKED format (2048 bytes data blocks) */
cdd.sectorSize = 2048;
cdd.toc.tracks[0].type = TYPE_MODE1;
}
else if (!strcmp(type, "MODE2_RAW"))
{
/* Mode 2 RAW format (2352 bytes data blocks) */
cdd.sectorSize = 2352;
cdd.toc.tracks[0].type = TYPE_MODE2;
}
else if (strcmp(type, "AUDIO"))
{
/* unsupported track format */
break;
}
/* First track start LBA (2s pause assumed by default) */
cdd.toc.tracks[0].start = 0;
}
/* detect pregap type */
if (pgtype[0] != 'V')
{
/* clear pause length for further calculations (not included in CHD file) */
pregap = 0;
}
/* track end LBA (remove included pause from CHD track length) */
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + frames - pregap;
/* CHD file offset for current track */
cdd.toc.tracks[cdd.toc.last].offset = (sectors + pregap - cdd.toc.tracks[cdd.toc.last].start) * CD_FRAME_SIZE;
/* update TOC end with postgap length */
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end + postgap;
/* update CHD file sector count (adjusted with end of the track padding) */
sectors += (((frames + CD_TRACK_PADDING - 1) / CD_TRACK_PADDING) * CD_TRACK_PADDING);
/* indicate valid track file */
cdd.toc.tracks[cdd.toc.last].fd = fd;
}
/* valid CD-ROM image file ? */
if (cdd.sectorSize)
{
/* read first chunk of data */
cdd.chd.hunknum = cdd.toc.tracks[0].offset / cdd.chd.hunkbytes;
chd_read(cdd.chd.file, cdd.chd.hunknum, cdd.chd.hunk);
/* copy CD image header + security code (skip RAW sector 16-byte header) */
memcpy(header, cdd.chd.hunk + (cdd.toc.tracks[0].offset % cdd.chd.hunkbytes) + ((cdd.sectorSize == 2048) ? 0 : 16), 0x210);
}
/* valid CD image ? */
if (cdd.toc.last && (cdd.toc.end < (100*60*75)))
{
/* Lead-out */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
/* CD mounted */
cdd.loaded = HW_ADDON_MEGACD;
return 1;
}
/* invalid CHD file */
chd_close(cdd.chd.file);
cdStreamClose(fd);
return -1;
}
#endif
/* save a copy of base filename (max. 255 characters) */
strncpy(fname, filename, 255);
fname[256] = 0;
/* check loaded file extension */
if (memcmp("cue", &filename[strlen(filename) - 3], 3) && memcmp("CUE", &filename[strlen(filename) - 3], 3))
{
int len;
static const uint8 sync[12] = {0x00,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x00};
/* read first 16 bytes */
cdStreamRead(header, 0x10, 1, fd);
/* auto-detect valid Sega CD image */
if (!memcmp("SEGADISCSYSTEM", header, 14))
{
/* COOKED CD-ROM image (2048 bytes data blocks) */
cdd.sectorSize = 2048;
/* CD-ROM Mode 1 by default */
cdd.toc.tracks[0].type = TYPE_MODE1;
}
/* auto-detect CD-ROM synchro pattern */
else if (!memcmp(sync, header, 12))
{
/* RAW CD-ROM image (2352 bytes data blocks) */
cdd.sectorSize = 2352;
/* auto-detect CD-ROM mode from block header (byte 15) */
cdd.toc.tracks[0].type = header[15];
/* read next 16 bytes (start of user data) */
cdStreamRead(header, 0x10, 1, fd);
}
/* supported CD-ROM image file ? */
if ((cdd.toc.tracks[0].type == TYPE_MODE1) || (cdd.toc.tracks[0].type == TYPE_MODE2))
{
/* read Sega CD image header + security code */
cdStreamRead(header + 0x10, 0x200, 1, fd);
/* initialize first track file descriptor */
cdd.toc.tracks[0].fd = fd;
/* DATA track end LBA (based on DATA file length) */
cdStreamSeek(fd, 0, SEEK_END);
cdd.toc.tracks[0].end = cdStreamTell(fd) / cdd.sectorSize;
/* DATA track length should be at least 2s (BIOS requirement) */
if (cdd.toc.tracks[0].end < 150)
{
cdd.toc.tracks[0].end = 150;
}
/* DATA track start LBA (logical block 0) */
cdStreamSeek(fd, 0, SEEK_SET);
cdd.toc.tracks[0].start = 0;
/* initialize TOC */
cdd.toc.end = cdd.toc.tracks[0].end;
cdd.toc.last = 1;
}
else
{
/* this is not a supported CD-ROM image file */
isCDfile = 0;
/* close file */
cdStreamClose(fd);
}
/* automatically try to mount CD associated CUE file */
len = strlen(fname);
while ((len && (fname[len] != '.')) || (len > 251)) len--;
strcpy(&fname[len], ".cue");
fd = cdStreamOpen(fname);
}
/* parse CUE file */
if (fd)
{
int mm, ss, bb, pregap = 0;
int index = 0;
/* DATA track already loaded ? */
if (cdd.toc.last)
{
/* skip first track */
while (cdStreamGets(line, 128, fd))
{
if (strstr(line, "INDEX 01") && !strstr(line, "INDEX 1"))
break;
}
}
/* read lines until end of file */
while (cdStreamGets(line, 128, fd))
{
/* skip any SPACE characters */
lptr = line;
while (*lptr == 0x20) lptr++;
/* decode FILE commands */
if (!(memcmp(lptr, "FILE", 4)))
{
/* retrieve current path */
ptr = fname + strlen(fname) - 1;
while ((ptr - fname) && (*ptr != '/') && (*ptr != '\\')) ptr--;
if (ptr - fname) ptr++;
/* skip "FILE" attribute */
lptr += 4;
/* skip SPACE characters */
while (*lptr == 0x20) lptr++;
/* retrieve full filename */
if (*lptr == '\"')
{
/* skip first DOUBLE QUOTE character */
lptr++;
while ((*lptr != '\"') && (lptr <= (line + 128)) && (ptr < (fname + 255)))
*ptr++ = *lptr++;
}
else
{
/* no DOUBLE QUOTE used */
while ((*lptr != 0x20) && (lptr <= (line + 128)) && (ptr < (fname + 255)))
*ptr++ = *lptr++;
}
*ptr = 0;
/* open current track file descriptor */
cdd.toc.tracks[cdd.toc.last].fd = cdStreamOpen(fname);
if (!cdd.toc.tracks[cdd.toc.last].fd)
{
/* error opening file */
break;
}
/* reset current file PREGAP length */
pregap = 0;
/* reset current track file read offset */
cdd.toc.tracks[cdd.toc.last].offset = 0;
/* check supported audio file types */
if (!strstr(lptr,"BINARY") && !strstr(lptr,"MOTOROLA"))
{
/* read file header */
unsigned char head[12];
cdStreamRead(head, 12, 1, cdd.toc.tracks[cdd.toc.last].fd);
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, 0, SEEK_SET);
/* autodetect WAVE file */
if (!memcmp(head, "RIFF", 4) && !memcmp(head + 8, "WAVE", 4))
{
/* look for 'data' chunk */
int chunkSize, dataOffset = 0;
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, 12, SEEK_SET);
while (cdStreamRead(head, 8, 1, cdd.toc.tracks[cdd.toc.last].fd))
{
if (!memcmp(head, "data", 4))
{
dataOffset = cdStreamTell(cdd.toc.tracks[cdd.toc.last].fd);
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, 0, SEEK_SET);
break;
}
chunkSize = head[4] + (head[5] << 8) + (head[6] << 16) + (head[7] << 24);
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, chunkSize, SEEK_CUR);
}
/* check if 'data' chunk has not been found */
if (!dataOffset)
{
/* invalid WAVE file */
cdStreamClose(cdd.toc.tracks[cdd.toc.last].fd);
cdd.toc.tracks[cdd.toc.last].fd = 0;
break;
}
/* adjust current track file read offset with WAVE header length */
cdd.toc.tracks[cdd.toc.last].offset -= dataOffset;
}
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
else if (!ov_open_callbacks(cdd.toc.tracks[cdd.toc.last].fd,&cdd.toc.tracks[cdd.toc.last].vf,0,0,cb))
{
/* retrieve stream infos */
vorbis_info *info = ov_info(&cdd.toc.tracks[cdd.toc.last].vf,-1);
if (!info || (info->rate != 44100) || (info->channels != 2))
{
/* unsupported VORBIS file format (stereo @44.1kHz only) */
ov_clear(&cdd.toc.tracks[cdd.toc.last].vf);
cdd.toc.tracks[cdd.toc.last].fd = 0;
break;
}
}
#endif
else
{
/* unsupported audio file */
cdStreamClose(cdd.toc.tracks[cdd.toc.last].fd);
cdd.toc.tracks[cdd.toc.last].fd = 0;
break;
}
}
}
/* decode TRACK commands */
else if ((sscanf(lptr, "TRACK %02d %*s", &bb)) || (sscanf(lptr, "TRACK %d %*s", &bb)))
{
/* autodetect DATA track type (first track only) */
if (!cdd.toc.last)
{
if (strstr(lptr,"MODE1/2048"))
{
/* Mode 1 COOKED format (2048 bytes / block) */
cdd.sectorSize = 2048;
cdd.toc.tracks[0].type = TYPE_MODE1;
}
else if (strstr(lptr,"MODE1/2352"))
{
/* Mode 1 RAW format (2352 bytes / block) */
cdd.sectorSize = 2352;
cdd.toc.tracks[0].type = TYPE_MODE1;
}
else if (strstr(lptr,"MODE2/2352"))
{
/* Mode 2 RAW format (2352 bytes / block) */
cdd.sectorSize = 2352;
cdd.toc.tracks[0].type = TYPE_MODE2;
}
if (cdd.sectorSize)
{
if (cdd.sectorSize == 2352)
{
/* skip 16-byte header */
cdStreamSeek(cdd.toc.tracks[0].fd, 0x10, SEEK_SET);
}
/* read CD image header + security code */
cdStreamRead(header, 0x210, 1, cdd.toc.tracks[0].fd);
cdStreamSeek(cdd.toc.tracks[0].fd, 0, SEEK_SET);
}
}
else
{
/* check if same file is used for consecutive tracks */
if (!cdd.toc.tracks[cdd.toc.last].fd)
{
/* clear previous track end time */
cdd.toc.tracks[cdd.toc.last - 1].end = 0;
}
}
/* save current track index */
index = cdd.toc.last;
}
/* decode REM LOOP xxx command (MegaSD specific command) */
else if (sscanf(lptr, "REM LOOP %d", &bb) == 1)
{
cdd.toc.tracks[index].loopEnabled = 1;
cdd.toc.tracks[index].loopOffset = bb;
isMSDfile = 1;
}
/* decode REM LOOP command (MegaSD specific command) */
else if (strstr(lptr,"REM LOOP"))
{
cdd.toc.tracks[index].loopEnabled = 1;
isMSDfile = 1;
}
/* decode REM NOLOOP command (MegaSD specific command) */
else if (strstr(lptr,"REM NOLOOP"))
{
cdd.toc.tracks[index].loopEnabled = -1;
isMSDfile = 1;
}
/* decode PREGAP commands */
else if (sscanf(lptr, "PREGAP %02d:%02d:%02d", &mm, &ss, &bb) == 3)
{
/* increment current file PREGAP length */
pregap += bb + ss*75 + mm*60*75;
}
/* decode INDEX commands */
else if ((sscanf(lptr, "INDEX 00 %02d:%02d:%02d", &mm, &ss, &bb) == 3) ||
(sscanf(lptr, "INDEX 0 %02d:%02d:%02d", &mm, &ss, &bb) == 3))
{
/* check if previous track end time needs to be set */
if (cdd.toc.last && !cdd.toc.tracks[cdd.toc.last - 1].end)
{
/* set previous track end time (current file absolute time + PREGAP length) */
cdd.toc.tracks[cdd.toc.last - 1].end = bb + ss*75 + mm*60*75 + pregap;
}
}
else if ((sscanf(lptr, "INDEX 01 %02d:%02d:%02d", &mm, &ss, &bb) == 3) ||
(sscanf(lptr, "INDEX 1 %02d:%02d:%02d", &mm, &ss, &bb) == 3))
{
/* adjust current track file read offset with current file PREGAP length (only used for AUDIO track) */
cdd.toc.tracks[cdd.toc.last].offset += pregap * 2352;
/* check if a single file is used for consecutive tracks */
if (!cdd.toc.tracks[cdd.toc.last].fd && cdd.toc.last)
{
/* use common file descriptor */
cdd.toc.tracks[cdd.toc.last].fd = cdd.toc.tracks[cdd.toc.last - 1].fd;
/* current track start time (based on current file absolute time + PREGAP length) */
cdd.toc.tracks[cdd.toc.last].start = bb + ss*75 + mm*60*75 + pregap;
/* check if previous track end time needs to be set */
if (!cdd.toc.tracks[cdd.toc.last - 1].end)
{
/* set previous track end time (based on current track start time, ignoring any "PREGAP"-type pause if no INDEX00) */
cdd.toc.tracks[cdd.toc.last - 1].end = cdd.toc.tracks[cdd.toc.last].start;
}
}
else
{
/* current file start time (based on previous track end time + PREGAP length) */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end + pregap;
/* adjust current track file read offset with previous track end time (only used for AUDIO track) */
cdd.toc.tracks[cdd.toc.last].offset += cdd.toc.end * 2352;
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[cdd.toc.last].vf.datasource)
{
/* convert read offset to PCM sample offset */
cdd.toc.tracks[cdd.toc.last].offset = cdd.toc.tracks[cdd.toc.last].offset / 4;
/* current track end time */
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + ov_pcm_total(&cdd.toc.tracks[cdd.toc.last].vf,-1)/588;
if (cdd.toc.tracks[cdd.toc.last].end <= cdd.toc.tracks[cdd.toc.last].start)
{
/* invalid length */
ov_clear(&cdd.toc.tracks[cdd.toc.last].vf);
cdd.toc.tracks[cdd.toc.last].fd = 0;
cdd.toc.tracks[cdd.toc.last].end = 0;
cdd.toc.tracks[cdd.toc.last].start = 0;
cdd.toc.tracks[cdd.toc.last].offset = 0;
break;
}
#ifdef DISABLE_MANY_OGG_OPEN_FILES
/* close VORBIS file structure to save memory */
ogg_free(cdd.toc.last);
#endif
}
else
#endif
{
/* current track end time */
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, 0, SEEK_END);
if (cdd.toc.tracks[cdd.toc.last].type)
{
/* DATA track length */
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + ((cdStreamTell(cdd.toc.tracks[cdd.toc.last].fd) + cdd.sectorSize - 1) / cdd.sectorSize);
}
else
{
/* AUDIO track length */
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + ((cdStreamTell(cdd.toc.tracks[cdd.toc.last].fd) + 2351) / 2352);
}
cdStreamSeek(cdd.toc.tracks[cdd.toc.last].fd, 0, SEEK_SET);
}
/* adjust track start time (based on current file start time + index absolute time) */
cdd.toc.tracks[cdd.toc.last].start += (bb + ss*75 + mm*60*75);
/* update TOC end */
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
}
/* increment track number */
cdd.toc.last++;
/* max. 99 tracks */
if (cdd.toc.last == 99) break;
}
}
/* check if last track end time needs to be set */
if (cdd.toc.last && !cdd.toc.tracks[cdd.toc.last - 1].end)
{
/* adjust TOC end with current file PREGAP length */
cdd.toc.end += pregap;
/* last track end time */
cdd.toc.tracks[cdd.toc.last - 1].end = cdd.toc.end;
}
/* close any incomplete track file */
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[cdd.toc.last].vf.datasource)
{
ov_clear(&cdd.toc.tracks[cdd.toc.last].vf);
}
else
#endif
if (cdd.toc.tracks[cdd.toc.last].fd)
{
cdStreamClose(cdd.toc.tracks[cdd.toc.last].fd);
}
/* close CUE file */
cdStreamClose(fd);
}
else if (cdd.toc.last)
{
int i, offset = 1;
/* set pointer at the end of filename */
ptr = fname + strlen(fname) - 4;
/* autodetect audio track file extensions */
for (i=0; i<SUPPORTED_EXT; i++)
{
/* auto-detect wrong initial track index */
sprintf(ptr, extensions[i], cdd.toc.last);
fd = cdStreamOpen(fname);
if (fd)
{
offset = 0;
break;
}
sprintf(ptr, extensions[i], cdd.toc.last + 1);
fd = cdStreamOpen(fname);
if (fd) break;
}
/* repeat until no more valid track files can be found */
while (fd)
{
/* read file header */
unsigned char head[12];
cdStreamRead(head, 12, 1, fd);
cdStreamSeek(fd, 0, SEEK_SET);
/* autodetect WAVE file */
if (!memcmp(head, "RIFF", 4) && !memcmp(head + 8, "WAVE", 4))
{
/* look for 'data' chunk */
int chunkSize, dataOffset = 0;
cdStreamSeek(fd, 12, SEEK_SET);
while (cdStreamRead(head, 8, 1, fd))
{
if (!memcmp(head, "data", 4))
{
dataOffset = cdStreamTell(fd);
cdStreamSeek(fd, 0, SEEK_SET);
break;
}
chunkSize = head[4] + (head[5] << 8) + (head[6] << 16) + (head[7] << 24);
cdStreamSeek(fd, chunkSize, SEEK_CUR);
}
/* check if 'data' chunk has not been found */
if (!dataOffset)
{
/* invalid WAVE file */
cdStreamClose(fd);
break;
}
/* initialize current track file descriptor */
cdd.toc.tracks[cdd.toc.last].fd = fd;
/* initialize current track start time (based on previous track end time) */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
/* add default 2s PAUSE between tracks */
cdd.toc.tracks[cdd.toc.last].start += 150;
/* current track end time */
cdStreamSeek(fd, 0, SEEK_END);
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + ((cdStreamTell(fd) - dataOffset + 2351) / 2352);
/* initialize file read offset for current track */
cdd.toc.tracks[cdd.toc.last].offset = cdd.toc.tracks[cdd.toc.last].start * 2352;
/* auto-detect PAUSE within audio files */
cdStreamSeek(fd, 100 * 2352, SEEK_SET);
cdStreamRead(head, 4, 1, fd);
cdStreamSeek(fd, 0, SEEK_SET);
if (*(int32 *)head == 0)
{
/* assume 2s PAUSE is included at the beginning of the file */
cdd.toc.tracks[cdd.toc.last].offset -= 150 * 2352;
cdd.toc.tracks[cdd.toc.last].end -= 150;
}
/* update TOC end */
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
/* adjust file read offset for current track with WAVE header length */
cdd.toc.tracks[cdd.toc.last].offset -= dataOffset;
/* increment track number */
cdd.toc.last++;
}
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
else if (!ov_open_callbacks(fd,&cdd.toc.tracks[cdd.toc.last].vf,0,0,cb))
{
/* retrieve stream infos */
vorbis_info *info = ov_info(&cdd.toc.tracks[cdd.toc.last].vf,-1);
if (!info || (info->rate != 44100) || (info->channels != 2))
{
/* unsupported OGG file */
ov_clear(&cdd.toc.tracks[cdd.toc.last].vf);
break;
}
/* initialize current track file descriptor */
cdd.toc.tracks[cdd.toc.last].fd = fd;
/* initialize current track start time (based on previous track end time) */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
/* add default 2s PAUSE between tracks */
cdd.toc.tracks[cdd.toc.last].start += 150;
/* current track end time */
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + ((ov_pcm_total(&cdd.toc.tracks[cdd.toc.last].vf,-1) + 587) / 588);
if (cdd.toc.tracks[cdd.toc.last].end <= cdd.toc.tracks[cdd.toc.last].start)
{
/* invalid file length */
ov_clear(&cdd.toc.tracks[cdd.toc.last].vf);
cdd.toc.tracks[cdd.toc.last].fd = 0;
cdd.toc.tracks[cdd.toc.last].end = 0;
cdd.toc.tracks[cdd.toc.last].start = 0;
break;
}
/* initialize file read offset for current track */
cdd.toc.tracks[cdd.toc.last].offset = cdd.toc.tracks[cdd.toc.last].start * 588;
/* auto-detect PAUSE within audio files */
ov_pcm_seek(&cdd.toc.tracks[cdd.toc.last].vf, 100 * 588);
#if defined(USE_LIBVORBIS)
ov_read(&cdd.toc.tracks[cdd.toc.last].vf, (char *)head, 32, 0, 2, 1, 0);
#else
ov_read(&cdd.toc.tracks[cdd.toc.last].vf, (char *)head, 32, 0);
#endif
ov_pcm_seek(&cdd.toc.tracks[cdd.toc.last].vf, 0);
if (*(int32 *)head == 0)
{
/* assume 2s PAUSE is included at the beginning of the file */
cdd.toc.tracks[cdd.toc.last].offset -= 150 * 588;
cdd.toc.tracks[cdd.toc.last].end -= 150;
}
#ifdef DISABLE_MANY_OGG_OPEN_FILES
/* close VORBIS file structure to save memory */
ogg_free(cdd.toc.last);
#endif
/* update TOC end */
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
/* increment track number */
cdd.toc.last++;
}
#endif
else
{
/* unsupported audio file format */
cdStreamClose(fd);
break;
}
/* max. 99 tracks */
if (cdd.toc.last == 99) break;
/* try to open next audio track file */
sprintf(ptr, extensions[i], cdd.toc.last + offset);
fd = cdStreamOpen(fname);
}
/* Valid CD-ROM Mode 1 track found ? */
if (cdd.toc.tracks[0].type == TYPE_MODE1)
{
/* simulate audio tracks if none found */
if (cdd.toc.last == 1)
{
/* some games require exact TOC infos */
if (strstr(header + 0x180,"T-95035") != NULL)
{
/* Snatcher */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_snatcher[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 21);
}
else if (strstr(header + 0x180,"T-127015") != NULL)
{
/* Lunar - The Silver Star */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_lunar[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 52);
}
else if (strstr(header + 0x180,"T-113045") != NULL)
{
/* Shadow of the Beast II */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_shadow[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 15);
}
else if (strstr(header + 0x180,"T-143025") != NULL)
{
/* Dungeon Explorer */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_dungeon[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 13);
}
else if (strstr(header + 0x180,"MK-4410") != NULL)
{
/* Final Fight CD (USA, Europe) */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_ffight[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 26);
}
else if (strstr(header + 0x180,"G-6013") != NULL)
{
/* Final Fight CD (Japan) */
cdd.toc.last = cdd.toc.end = 0;
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + toc_ffightj[cdd.toc.last];
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while (cdd.toc.last < 29);
}
else if (strstr(header + 0x180,"T-06201-01") != NULL)
{
/* Sewer Shark (USA) (REV1) */
/* no audio track */
}
else
{
/* default TOC (99 tracks & 2s per audio tracks) */
do
{
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end + 2*75;
cdd.toc.tracks[cdd.toc.last].end = cdd.toc.tracks[cdd.toc.last].start + 2*75;
cdd.toc.end = cdd.toc.tracks[cdd.toc.last].end;
cdd.toc.last++;
}
while ((cdd.toc.last < 99) && (cdd.toc.end < 56*60*75));
}
}
}
}
/* CD tracks found ? */
if (cdd.toc.last)
{
/* Lead-out */
cdd.toc.tracks[cdd.toc.last].start = cdd.toc.end;
/* CD mounted */
cdd.loaded = isMSDfile ? HW_ADDON_MEGASD : HW_ADDON_MEGACD;
/* Automatically try to open associated subcode data file */
memcpy(&fname[strlen(fname) - 4], ".sub", 4);
cdd.toc.sub = cdStreamOpen(fname);
/* return 1 if loaded file is CD image file */
return (isCDfile);
}
/* no CD image file loaded */
return 0;
}
void cdd_unload(void)
{
if (cdd.loaded)
{
int i;
#if defined(USE_LIBCHDR)
chd_close(cdd.chd.file);
if (cdd.chd.hunk)
free(cdd.chd.hunk);
#endif
/* close CD tracks */
for (i=0; i<cdd.toc.last; i++)
{
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[i].vf.datasource)
{
/* close any opened VORBIS file */
ov_clear(&cdd.toc.tracks[i].vf);
}
else
#endif
if (cdd.toc.tracks[i].fd)
{
/* check if single file is used for consecutive tracks */
if ((i > 0) && (cdd.toc.tracks[i].fd == cdd.toc.tracks[i-1].fd))
{
/* skip track */
i++;
}
else
{
/* close file */
cdStreamClose(cdd.toc.tracks[i].fd);
}
}
}
/* close any opened subcode file */
if (cdd.toc.sub)
cdStreamClose(cdd.toc.sub);
/* CD unloaded */
cdd.loaded = 0;
}
/* reset TOC */
memset(&cdd.toc, 0x00, sizeof(cdd.toc));
#if defined(USE_LIBCHDR)
/* reset CHD data */
memset(&cdd.chd, 0x00, sizeof(cdd.chd));
#endif
/* no CD-ROM track */
cdd.sectorSize = 0;
}
void cdd_read_data(uint8 *dst, uint8 *subheader)
{
/* only allow reading (first) CD-ROM track sectors */
if (cdd.toc.tracks[cdd.index].type && (cdd.lba >= 0))
{
#if defined(USE_LIBCHDR)
if (cdd.chd.file)
{
/* CHD file offset */
int offset = cdd.toc.tracks[0].offset + (cdd.lba * CD_FRAME_SIZE);
/* CHD hunk index */
int hunknum = offset / cdd.chd.hunkbytes;
/* update CHD hunk cache if necessary */
if (hunknum != cdd.chd.hunknum)
{
chd_read(cdd.chd.file, hunknum, cdd.chd.hunk);
cdd.chd.hunknum = hunknum;
}
/* check sector size */
if (cdd.sectorSize == 2048)
{
/* read Mode 1 user data (2048 bytes) */
memcpy(dst, cdd.chd.hunk + (offset % cdd.chd.hunkbytes), 2048);
}
else
{
/* check if sub-header is required (Mode 2 sector only) */
if (!subheader)
{
/* read Mode 1 user data (2048 bytes), skipping block sync pattern (12 bytes) + block header (4 bytes)*/
memcpy(dst, cdd.chd.hunk + (offset % cdd.chd.hunkbytes) + 12 + 4, 2048);
}
else
{
/* read Mode 2 sub-header (first 4 bytes), skipping block sync pattern (12 bytes) + block header (4 bytes)*/
memcpy(subheader, cdd.chd.hunk + (offset % cdd.chd.hunkbytes) + 12 + 4, 4);
/* read Mode 2 user data (max 2328 bytes), skipping Mode 2 sub-header (8 bytes) */
memcpy(dst, cdd.chd.hunk + (offset % cdd.chd.hunkbytes) + 12 + 4 + 8, 2328);
}
}
return;
}
#endif
/* check sector size */
if (cdd.sectorSize == 2048)
{
/* read Mode 1 user data (2048 bytes) */
cdStreamSeek(cdd.toc.tracks[0].fd, cdd.lba * 2048, SEEK_SET);
cdStreamRead(dst, 2048, 1, cdd.toc.tracks[0].fd);
}
else
{
/* check if sub-header is required (Mode 2 sector only) */
if (!subheader)
{
/* skip block sync pattern (12 bytes) + block header (4 bytes) then read Mode 1 user data (2048 bytes) */
cdStreamSeek(cdd.toc.tracks[0].fd, (cdd.lba * 2352) + 12 + 4, SEEK_SET);
cdStreamRead(dst, 2048, 1, cdd.toc.tracks[0].fd);
}
else
{
/* skip block sync pattern (12 bytes) + block header (4 bytes) + Mode 2 sub-header (first 4 bytes) then read Mode 2 sub-header (last 4 bytes) */
cdStreamSeek(cdd.toc.tracks[0].fd, (cdd.lba * 2352) + 12 + 4 + 4, SEEK_SET);
cdStreamRead(subheader, 4, 1, cdd.toc.tracks[0].fd);
/* read Mode 2 user data (max 2328 bytes) */
cdStreamRead(dst, 2328, 1, cdd.toc.tracks[0].fd);
}
}
}
}
void cdd_seek_audio(int index, int lba)
{
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
#ifdef DISABLE_MANY_OGG_OPEN_FILES
/* check if track index has changed */
if (index != cdd.index)
{
/* close previous track VORBIS file structure to save memory */
if (cdd.toc.tracks[cdd.index].vf.datasource)
{
ogg_free(cdd.index);
}
/* open current track VORBIS file */
if (cdd.toc.tracks[index].vf.seekable)
{
ov_open_callbacks(cdd.toc.tracks[index].fd,&cdd.toc.tracks[index].vf,0,0,cb);
}
}
#endif
#endif
/* seek to track position */
#if defined(USE_LIBCHDR)
if (cdd.chd.file)
{
/* CHD file offset */
cdd.chd.hunkofs = cdd.toc.tracks[index].offset + (lba * CD_FRAME_SIZE);
}
else
#endif
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[index].vf.seekable)
{
/* VORBIS AUDIO track */
ov_pcm_seek(&cdd.toc.tracks[index].vf, (lba * 588) - cdd.toc.tracks[index].offset);
}
else
#endif
if (cdd.toc.tracks[index].fd)
{
/* PCM AUDIO track */
cdStreamSeek(cdd.toc.tracks[index].fd, (lba * 2352) - cdd.toc.tracks[index].offset, SEEK_SET);
}
}
void cdd_read_audio(unsigned int samples)
{
/* previous audio outputs */
int prev_l = cdd.audio[0];
int prev_r = cdd.audio[1];
/* get number of internal clocks (CD-DA samples) needed */
samples = blip_clocks_needed(snd.blips[2], samples);
/* audio track playing ? */
if (!scd.regs[0x36>>1].byte.h && cdd.toc.tracks[cdd.index].fd)
{
int i, mul, l, r;
/* current CD-DA fader volume */
int curVol = cdd.fader[0];
/* CD-DA fader volume setup (0-1024) */
int endVol = cdd.fader[1];
/* read samples from current block */
#if defined(USE_LIBCHDR)
if (cdd.chd.file)
{
#ifndef LSB_FIRST
int16 *ptr = (int16 *) (cdd.chd.hunk + (cdd.chd.hunkofs % cdd.chd.hunkbytes));
#else
uint8 *ptr = cdd.chd.hunk + (cdd.chd.hunkofs % cdd.chd.hunkbytes);
#endif
/* process 16-bit (big-endian) stereo samples */
for (i=0; i<samples; i++)
{
/* CHD hunk index */
int hunknum = cdd.chd.hunkofs / cdd.chd.hunkbytes;
/* update CHD hunk cache if necessary */
if (hunknum != cdd.chd.hunknum)
{
chd_read(cdd.chd.file, hunknum, cdd.chd.hunk);
cdd.chd.hunknum = hunknum;
}
/* CD-DA fader multiplier (cf. LC7883 datasheet) */
/* (MIN) 0,1,2,3,4,8,12,16,20...,1020,1024 (MAX) */
mul = (curVol & 0x7fc) ? (curVol & 0x7fc) : (curVol & 0x03);
/* left & right channels */
#ifndef LSB_FIRST
l = ((ptr[0] * mul) / 1024);
r = ((ptr[1] * mul) / 1024);
ptr+=2;
#else
l = (((int16)((ptr[1] + ptr[0]*256)) * mul) / 1024);
r = (((int16)((ptr[3] + ptr[2]*256)) * mul) / 1024);
ptr+=4;
#endif
blip_add_delta_fast(snd.blips[2], i, l-prev_l, r-prev_r);
prev_l = l;
prev_r = r;
/* update CHD file offset */
cdd.chd.hunkofs += 4;
/* detect end of sector data (2352 bytes) */
if ((cdd.chd.hunkofs % CD_FRAME_SIZE) == CD_MAX_SECTOR_DATA)
{
/* skip subcode data (96 bytes) */
cdd.chd.hunkofs += CD_MAX_SUBCODE_DATA;
/* reinitialize hunk cache pointer */
#ifndef LSB_FIRST
ptr = (int16 *) (cdd.chd.hunk + (cdd.chd.hunkofs % cdd.chd.hunkbytes));
#else
ptr = cdd.chd.hunk + (cdd.chd.hunkofs % cdd.chd.hunkbytes);
#endif
}
/* update CD-DA fader volume (one step/sample) */
if (curVol < endVol)
{
/* fade-in */
curVol++;
}
else if (curVol > endVol)
{
/* fade-out */
curVol--;
}
else if (!curVol)
{
/* audio will remain muted until next setup */
break;
}
}
}
else
#endif
#if defined(USE_LIBTREMOR) || defined(USE_LIBVORBIS)
if (cdd.toc.tracks[cdd.index].vf.datasource)
{
int len, done = 0;
int16 *ptr = (int16 *) (cdc.ram);
samples = samples * 4;
while (done < samples)
{
#ifdef USE_LIBVORBIS
len = ov_read(&cdd.toc.tracks[cdd.index].vf, (char *)(cdc.ram + done), samples - done, 0, 2, 1, 0);
#else
len = ov_read(&cdd.toc.tracks[cdd.index].vf, (char *)(cdc.ram + done), samples - done, 0);
#endif
if (len <= 0)
{
done = samples;
break;
}
done += len;
}
samples = done / 4;
/* process 16-bit (host-endian) stereo samples */
for (i=0; i<samples; i++)
{
/* CD-DA fader multiplier (cf. LC7883 datasheet) */
/* (MIN) 0,1,2,3,4,8,12,16,20...,1020,1024 (MAX) */
mul = (curVol & 0x7fc) ? (curVol & 0x7fc) : (curVol & 0x03);
/* left & right channels */
l = ((ptr[0] * mul) / 1024);
r = ((ptr[1] * mul) / 1024);
blip_add_delta_fast(snd.blips[2], i, l-prev_l, r-prev_r);
prev_l = l;
prev_r = r;
ptr+=2;
/* update CD-DA fader volume (one step/sample) */
if (curVol < endVol)
{
/* fade-in */
curVol++;
}
else if (curVol > endVol)
{
/* fade-out */
curVol--;
}
else if (!curVol)
{
/* audio will remain muted until next setup */
break;
}
}
}
else
#endif
{
#ifdef LSB_FIRST
int16 *ptr = (int16 *) (cdc.ram);
#else
uint8 *ptr = cdc.ram;
#endif
cdStreamRead(cdc.ram, 1, samples * 4, cdd.toc.tracks[cdd.index].fd);
/* process 16-bit (little-endian) stereo samples */
for (i=0; i<samples; i++)
{
/* CD-DA fader multiplier (cf. LC7883 datasheet) */
/* (MIN) 0,1,2,3,4,8,12,16,20...,1020,1024 (MAX) */
mul = (curVol & 0x7fc) ? (curVol & 0x7fc) : (curVol & 0x03);
/* left & right channels */
#ifdef LSB_FIRST
l = ((ptr[0] * mul) / 1024);
r = ((ptr[1] * mul) / 1024);
ptr+=2;
#else
l = (((int16)((ptr[0] + ptr[1]*256)) * mul) / 1024);
r = (((int16)((ptr[2] + ptr[3]*256)) * mul) / 1024);
ptr+=4;
#endif
blip_add_delta_fast(snd.blips[2], i, l-prev_l, r-prev_r);
prev_l = l;
prev_r = r;
/* update CD-DA fader volume (one step/sample) */
if (curVol < endVol)
{
/* fade-in */
curVol++;
}
else if (curVol > endVol)
{
/* fade-out */
curVol--;
}
else if (!curVol)
{
/* audio will remain muted until next setup */
break;
}
}
}
/* save current CD-DA fader volume */
cdd.fader[0] = curVol;
/* save last audio output for next frame */
cdd.audio[0] = prev_l;
cdd.audio[1] = prev_r;
/* check CD-DA track end (Mega SD add-on specific)*/
if (cart.special & HW_MEGASD)
{
megasd_update_cdda(samples);
}
}
else
{
/* no audio output */
if (prev_l | prev_r)
{
blip_add_delta_fast(snd.blips[2], 0, -prev_l, -prev_r);
/* save audio output for next frame */
cdd.audio[0] = 0;
cdd.audio[1] = 0;
}
}
/* end of Blip Buffer timeframe */
blip_end_frame(snd.blips[2], samples);
}
static void cdd_read_subcode(void)
{
uint8 subc[96];
int i,j,index;
/* update subcode buffer pointer address */
scd.regs[0x68>>1].byte.l = (scd.regs[0x68>>1].byte.l + 98) & 0x7e;
/* 16-bit register index */
index = (scd.regs[0x68>>1].byte.l + 0x100) >> 1;
/* read interleaved subcode data from .sub file (12 x 8-bit of P subchannel first, then Q subchannel, etc) */
cdStreamRead(subc, 1, 96, cdd.toc.sub);
/* convert back to raw subcode format (96 bytes with 8 x P-W subchannel bits per byte) */
for (i=0; i<96; i+=2)
{
int code = 0;
for (j=0; j<8; j++)
{
int bits = (subc[(j*12)+(i/8)] >> (6 - (i & 6))) & 3;
code |= ((bits & 1) << (7 - j));
code |= ((bits >> 1) << (15 - j));
}
/* subcode buffer is accessed as 16-bit words */
scd.regs[index].w = code;
/* subcode buffer is limited to 64 x 16-bit words */
index = (index + 1) & 0xbf;
}
/* level 6 interrupt enabled ? */
if (scd.regs[0x32>>1].byte.l & 0x40)
{
/* trigger level 6 interrupt */
scd.pending |= (1 << 6);
/* update IRQ level */
s68k_update_irq((scd.pending & scd.regs[0x32>>1].byte.l) >> 1);
}
}
void cdd_update(void)
{
#ifdef LOG_CDD
error("LBA = %d (track %d)(latency=%d)\n", cdd.lba, cdd.index, cdd.latency);
#endif
/* drive latency */
if (cdd.latency > 0)
{
cdd.latency--;
return;
}
/* reading disc */
if (cdd.status == CD_PLAY)
{
/* end of disc detection */
if (cdd.index >= cdd.toc.last)
{
cdd.status = CD_END;
return;
}
/* subcode data processing */
if (cdd.toc.sub)
{
cdd_read_subcode();
}
/* track type */
if (cdd.toc.tracks[cdd.index].type)
{
/* CD-ROM sector header */
uint8 header[4];
uint32 msf = cdd.lba + 150;
header[0] = lut_BCD_8[(msf / 75) / 60];
header[1] = lut_BCD_8[(msf / 75) % 60];
header[2] = lut_BCD_8[(msf % 75)];
header[3] = cdd.toc.tracks[cdd.index].type;
/* decode CD-ROM track sector */
cdc_decoder_update(*(uint32 *)(header));
}
else
{
/* check against audio track start index */
if (cdd.lba >= cdd.toc.tracks[cdd.index].start)
{
/* audio track playing */
scd.regs[0x36>>1].byte.h = 0x00;
}
/* audio blocks are still sent to CDC as well as CD DAC/Fader */
cdc_decoder_update(0);
}
/* read next sector */
cdd.lba++;
/* check end of current track */
if (cdd.lba >= cdd.toc.tracks[cdd.index].end)
{
/* seek to next track start (assuming it can only be an audio track) */
cdd_seek_audio(cdd.index + 1, cdd.toc.tracks[cdd.index + 1].start);
/* increment current track index */
cdd.index++;
/* PAUSE between tracks */
scd.regs[0x36>>1].byte.h = 0x01;
}
}
/* scanning disc */
else if (cdd.status == CD_SCAN)
{
/* current track index */
int index = cdd.index;
/* fast-forward or fast-rewind */
cdd.lba += cdd.scanOffset;
/* check current track limits */
if (cdd.lba >= cdd.toc.tracks[index].end)
{
/* next track */
index++;
/* check disc limits */
if (index < cdd.toc.last)
{
/* skip directly to next track start position */
cdd.lba = cdd.toc.tracks[index].start;
}
else
{
/* end of disc */
cdd.lba = cdd.toc.end;
cdd.index = cdd.toc.last;
cdd.status = CD_END;
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
return;
}
}
else if (cdd.lba < cdd.toc.tracks[index].start)
{
/* check disc limits */
if (index > 0)
{
/* previous track */
index--;
/* skip directly to previous track end position */
cdd.lba = cdd.toc.tracks[index].end;
}
else
{
/* start of first track */
cdd.lba = 0;
}
}
/* seek to current subcode position */
if (cdd.toc.sub)
{
cdStreamSeek(cdd.toc.sub, cdd.lba * 96, SEEK_SET);
}
/* current track is an audio track ? */
if (cdd.toc.tracks[index].type == TYPE_AUDIO)
{
/* seek to current track sector */
cdd_seek_audio(index, cdd.lba);
/* audio track playing */
scd.regs[0x36>>1].byte.h = 0x00;
}
else
{
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
}
/* udpate current track index */
cdd.index = index;
}
}
void cdd_process(void)
{
/* Process CDD command */
switch (scd.regs[0x42>>1].byte.h & 0x0f)
{
case 0x00: /* Get Drive Status */
{
/* RS0-RS1 are normally unchanged unless reported drive status needs to be updated (i.e previous drive command has been processed) */
/* Note: this function is called one 75hz frame ahead of CDD update so latency counter is always one step ahead of upcoming status */
/* Radical Rex and Annet Futatabi both need at least respectively 2 and 3 interrupts with 'playing' status returned before sectors start getting incremented */
if (cdd.latency <= 3)
{
/* update reported drive status */
scd.regs[0x38>>1].byte.h = cdd.status;
/* check if RS1 indicated invalid track infos (during seeking) */
if (scd.regs[0x38>>1].byte.l == 0x0f)
{
/* seeking has ended so we return valid track infos, e.g current absolute time by default (fixes Lunar - The Silver Star) */
int lba = cdd.lba + 150;
scd.regs[0x38>>1].byte.l = 0x00;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = cdd.toc.tracks[cdd.index].type ? 0x04 : 0x00; /* Current block flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
}
/* otherwise, check if RS2-RS8 need to be updated */
else if (scd.regs[0x38>>1].byte.l == 0x00)
{
/* current absolute time */
int lba = cdd.lba + 150;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = cdd.toc.tracks[cdd.index].type ? 0x04 : 0x00; /* Current block flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
}
else if (scd.regs[0x38>>1].byte.l == 0x01)
{
/* current track relative time */
int lba = abs(cdd.lba - cdd.toc.tracks[cdd.index].start);
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = cdd.toc.tracks[cdd.index].type ? 0x04 : 0x00; /* Current block flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
}
else if (scd.regs[0x38>>1].byte.l == 0x02)
{
/* current track number */
scd.regs[0x3a>>1].w = (cdd.index < cdd.toc.last) ? lut_BCD_16[cdd.index + 1] : 0x0A0A;
}
}
break;
}
case 0x01: /* Stop Drive */
{
/* update status */
cdd.status = cdd.loaded ? CD_TOC : NO_DISC;
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* RS1-RS8 ignored, expects 0x0 (CD_STOP) in RS0 once */
scd.regs[0x38>>1].w = CD_STOP << 8;
scd.regs[0x3a>>1].w = 0x0000;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].w = ~CD_STOP & 0x0f;
return;
}
case 0x02: /* Report TOC infos */
{
/* Infos automatically retrieved by CDD processor from Q-Channel */
/* commands 0x00-0x02 (current block) and 0x03-0x05 (Lead-In) */
switch (scd.regs[0x44>>1].byte.l)
{
case 0x00: /* Current Absolute Time (MM:SS:FF) */
{
int lba = cdd.lba + 150;
scd.regs[0x38>>1].w = cdd.status << 8;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = cdd.toc.tracks[cdd.index].type ? 0x04 : 0x00; /* Current block flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
break;
}
case 0x01: /* Current Track Relative Time (MM:SS:FF) */
{
int lba = abs(cdd.lba - cdd.toc.tracks[cdd.index].start);
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x01;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = cdd.toc.tracks[cdd.index].type ? 0x04 : 0x00; /* Current block flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
break;
}
case 0x02: /* Current Track Number */
{
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x02;
scd.regs[0x3a>>1].w = (cdd.index < cdd.toc.last) ? lut_BCD_16[cdd.index + 1] : 0x0A0A;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000; /* Disk Control Code (?) in RS6 */
scd.regs[0x40>>1].byte.h = 0x00;
break;
}
case 0x03: /* Total length (MM:SS:FF) */
{
int lba = cdd.toc.end + 150;
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x03;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x40>>1].byte.h = 0x00;
break;
}
case 0x04: /* First & Last Track Numbers */
{
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x04;
scd.regs[0x3a>>1].w = 0x0001;
scd.regs[0x3c>>1].w = lut_BCD_16[cdd.toc.last];
scd.regs[0x3e>>1].w = 0x0000; /* Drive Version (?) in RS6-RS7 */
scd.regs[0x40>>1].byte.h = 0x00; /* Lead-In flags in RS8 (bit0 = mute status, bit1: pre-emphasis status, bit2: track type) */
break;
}
case 0x05: /* Track Start Time (MM:SS:FF) */
{
int track = scd.regs[0x46>>1].byte.h * 10 + scd.regs[0x46>>1].byte.l;
int lba = cdd.toc.tracks[track-1].start + 150;
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x05;
scd.regs[0x3a>>1].w = lut_BCD_16[(lba/75)/60];
scd.regs[0x3c>>1].w = lut_BCD_16[(lba/75)%60];
scd.regs[0x3e>>1].w = lut_BCD_16[(lba%75)];
scd.regs[0x3e>>1].byte.h |= cdd.toc.tracks[track-1].type ? 0x08 : 0x00; /* RS6 bit 3 is set for CD-ROM track */
scd.regs[0x40>>1].byte.h = track % 10; /* Track Number (low digit) */
break;
}
case 0x06: /* Latest Error Information */
{
scd.regs[0x38>>1].w = (cdd.status << 8) | 0x06;
scd.regs[0x3a>>1].w = 0x0000; /* no error */
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].byte.h = 0x00;
break;
}
default:
{
#ifdef LOG_ERROR
error("Invalid CDD request code %02X (%X)\n", scd.regs[0x44>>1].byte.l, s68k.pc);
#endif
return;
}
}
break;
}
case 0x03: /* Play */
{
/* reset track index */
int index = 0;
/* new LBA position */
int lba = ((scd.regs[0x44>>1].byte.h * 10 + scd.regs[0x44>>1].byte.l) * 60 +
(scd.regs[0x46>>1].byte.h * 10 + scd.regs[0x46>>1].byte.l)) * 75 +
(scd.regs[0x48>>1].byte.h * 10 + scd.regs[0x48>>1].byte.l) - 150;
/* CD drive latency */
if (!cdd.latency)
{
/* Fixes a few games hanging because they expect data to be read with some delay */
/* Wolf Team games (Annet Futatabi, Aisle Lord, Cobra Command, Earnest Evans, Road Avenger & Time Gal) need at least 11 interrupts delay */
/* Space Adventure Cobra (2nd morgue scene) needs at least 13 interrupts delay (incl. seek time, so 11 is OK) */
cdd.latency = 11;
}
/* CD drive seek time */
/* max. seek time = 1.5 s = 1.5 x 75 = 112.5 CDD interrupts (rounded to 120) for 270000 sectors max on disc. */
/* Note: This is only a rough approximation since, on real hardware, seek time is much likely not linear and */
/* latency much larger than above value, but this model works fine for Sonic CD (track 26 playback needs to */
/* be enough delayed to start in sync with intro sequence, as compared with real hardware recording). */
if (lba > cdd.lba)
{
cdd.latency += (((lba - cdd.lba) * 120) / 270000);
}
else
{
cdd.latency += (((cdd.lba - lba) * 120) / 270000);
}
/* update current LBA */
cdd.lba = lba;
/* get track index */
while ((cdd.toc.tracks[index].end <= lba) && (index < cdd.toc.last)) index++;
/* audio track ? */
if (cdd.toc.tracks[index].type == TYPE_AUDIO)
{
/* stay within track limits when seeking files */
if (lba < cdd.toc.tracks[index].start)
{
lba = cdd.toc.tracks[index].start;
}
/* seek to current track sector */
cdd_seek_audio(index, lba);
}
/* update current track index */
cdd.index = index;
/* seek to current subcode position */
if (cdd.toc.sub)
{
cdStreamSeek(cdd.toc.sub, lba * 96, SEEK_SET);
}
/* no audio track playing (yet) */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status (reported to host once seeking has ended) */
cdd.status = CD_PLAY;
/* RS0 should indicates seeking until drive is ready (fixes audio delay in Bari Arm) */
/* RS1=0xf to invalidate track infos in RS2-RS8 until drive is ready (fixes Snatcher Act 2 start cutscene) */
scd.regs[0x38>>1].w = (CD_SEEK << 8) | 0x0f;
scd.regs[0x3a>>1].w = 0x0000;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].w = ~(CD_SEEK + 0xf) & 0x0f;
return;
}
case 0x04: /* Seek */
{
/* reset track index */
int index = 0;
/* new LBA position */
int lba = ((scd.regs[0x44>>1].byte.h * 10 + scd.regs[0x44>>1].byte.l) * 60 +
(scd.regs[0x46>>1].byte.h * 10 + scd.regs[0x46>>1].byte.l)) * 75 +
(scd.regs[0x48>>1].byte.h * 10 + scd.regs[0x48>>1].byte.l) - 150;
/* CD drive seek time */
/* We are using similar linear model as above, although still not exactly accurate, */
/* it works fine for Switch/Panic! intro (Switch needs at least 30 interrupts while */
/* seeking from 00:05:63 to 24:03:19, Panic! when seeking from 00:05:60 to 24:06:07) */
if (lba > cdd.lba)
{
cdd.latency = ((lba - cdd.lba) * 120) / 270000;
}
else
{
cdd.latency = ((cdd.lba - lba) * 120) / 270000;
}
/* update current LBA */
cdd.lba = lba;
/* get current track index */
while ((cdd.toc.tracks[index].end <= lba) && (index < cdd.toc.last)) index++;
/* audio track ? */
if (cdd.toc.tracks[index].type == TYPE_AUDIO)
{
/* stay within track limits when seeking files */
if (lba < cdd.toc.tracks[index].start)
{
lba = cdd.toc.tracks[index].start;
}
/* seek to current track sector */
cdd_seek_audio(index, lba);
}
/* update current track index */
cdd.index = index;
/* seek to current subcode position */
if (cdd.toc.sub)
{
cdStreamSeek(cdd.toc.sub, lba * 96, SEEK_SET);
}
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status (reported to host once seeking has ended) */
cdd.status = CD_PAUSE;
/* RS1=0xf to invalidate track infos in RS2-RS8 while seeking (fixes Final Fight CD intro when seek time is emulated) */
scd.regs[0x38>>1].w = (CD_SEEK << 8) | 0x0f;
scd.regs[0x3a>>1].w = 0x0000;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].w = ~(CD_SEEK + 0xf) & 0x0f;
return;
}
case 0x06: /* Pause */
{
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status (RS1-RS8 unchanged) */
cdd.status = scd.regs[0x38>>1].byte.h = CD_PAUSE;
break;
}
case 0x07: /* Resume */
{
/* update status (RS1-RS8 unchanged) */
cdd.status = scd.regs[0x38>>1].byte.h = CD_PLAY;
break;
}
case 0x08: /* Forward Scan */
{
/* reset scanning direction / speed */
cdd.scanOffset = CD_SCAN_SPEED;
/* update status (RS1-RS8 unchanged) */
cdd.status = scd.regs[0x38>>1].byte.h = CD_SCAN;
break;
}
case 0x09: /* Rewind Scan */
{
/* reset scanning direction / speed */
cdd.scanOffset = -CD_SCAN_SPEED;
/* update status (RS1-RS8 unchanged) */
cdd.status = scd.regs[0x38>>1].byte.h = CD_SCAN;
break;
}
case 0x0a: /* N-Track Jump Control ? (usually sent before CD_SEEK or CD_PLAY commands) */
{
/* TC3 corresponds to seek direction (00=forward, FF=reverse) */
/* TC4-TC7 are related to seek length (4x4 bits i.e parameter values are between -65535 and +65535) */
/* Maybe related to number of auto-sequenced track jumps/moves for CD DSP (cf. CXD2500BQ datasheet) */
/* also see US Patent nr. 5222054 for a detailled description of seeking operation using Track Jump */
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status (RS1-RS8 unchanged) */
cdd.status = scd.regs[0x38>>1].byte.h = CD_PAUSE;
break;
}
case 0x0c: /* Close Tray */
{
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status */
cdd.status = cdd.loaded ? CD_TOC : NO_DISC;
/* RS1-RS8 ignored, expects CD_STOP in RS0 once */
scd.regs[0x38>>1].w = CD_STOP << 8;
scd.regs[0x3a>>1].w = 0x0000;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].w = ~CD_STOP & 0x0f;
#ifdef CD_TRAY_CALLBACK
CD_TRAY_CALLBACK
#endif
return;
}
case 0x0d: /* Open Tray */
{
/* no audio track playing */
scd.regs[0x36>>1].byte.h = 0x01;
/* update status (RS1-RS8 ignored) */
cdd.status = CD_OPEN;
scd.regs[0x38>>1].w = CD_OPEN << 8;
scd.regs[0x3a>>1].w = 0x0000;
scd.regs[0x3c>>1].w = 0x0000;
scd.regs[0x3e>>1].w = 0x0000;
scd.regs[0x40>>1].w = ~CD_OPEN & 0x0f;
#ifdef CD_TRAY_CALLBACK
CD_TRAY_CALLBACK
#endif
return;
}
default: /* Unknown command */
#ifdef LOG_ERROR
error("Unsupported CDD command %02X (%X)\n", scd.regs[0x42>>1].byte.h & 0x0f, s68k.pc);
#endif
scd.regs[0x38>>1].byte.h = cdd.status;
break;
}
/* only compute checksum when necessary */
scd.regs[0x40>>1].byte.l = ~(scd.regs[0x38>>1].byte.h + scd.regs[0x38>>1].byte.l +
scd.regs[0x3a>>1].byte.h + scd.regs[0x3a>>1].byte.l +
scd.regs[0x3c>>1].byte.h + scd.regs[0x3c>>1].byte.l +
scd.regs[0x3e>>1].byte.h + scd.regs[0x3e>>1].byte.l +
scd.regs[0x40>>1].byte.h) & 0x0f;
}