/* * 86Box A hypervisor and IBM PC system emulator that specializes in * running old operating systems and software designed for IBM * PC systems and compatibles from 1981 through fairly recent * system designs based on the PCI bus. * * This file is part of the 86Box distribution. * * Generic CD-ROM drive core. * * Version: @(#)cdrom.c 1.0.9 2019/12/13 * * Author: Miran Grca, * * Copyright 2018,2019 Miran Grca. */ #include #include #include #include #include #include #include #define HAVE_STDARG_H #include "../86box.h" #include "../config.h" #include "cdrom.h" #include "cdrom_image.h" #include "../plat.h" #include "../sound/sound.h" /* The addresses sent from the guest are absolute, ie. a LBA of 0 corresponds to a MSF of 00:00:00. Otherwise, the counter displayed by the guest is wrong: there is a seeming 2 seconds in which audio plays but counter does not move, while a data track before audio jumps to 2 seconds before the actual start of the audio while audio still plays. With an absolute conversion, the counter is fine. */ #define MSFtoLBA(m,s,f) ((((m*60)+s)*75)+f) #define RAW_SECTOR_SIZE 2352 #define COOKED_SECTOR_SIZE 2048 #define MIN_SEEK 2000 #define MAX_SEEK 333333 #pragma pack(push,1) typedef struct { uint8_t user_data[2048], ecc[288]; } m1_data_t; typedef struct { uint8_t sub_header[8], user_data[2328]; } m2_data_t; typedef union { m1_data_t m1_data; m2_data_t m2_data; uint8_t raw_data[2336]; } sector_data_t; typedef struct { uint8_t sync[12]; uint8_t header[4]; sector_data_t data; } sector_raw_data_t; typedef union { sector_raw_data_t sector_data; uint8_t raw_data[2352]; } sector_t; typedef struct { sector_t sector; uint8_t c2[296]; uint8_t subchannel_raw[96]; uint8_t subchannel_q[16]; uint8_t subchannel_rw[96]; } cdrom_sector_t; typedef union { cdrom_sector_t cdrom_sector; uint8_t buffer[2856]; } sector_buffer_t; #pragma pack(pop) static int cdrom_sector_size; static uint8_t raw_buffer[2856]; /* Needs to be the same size as sector_buffer_t in the structs. */ static uint8_t extra_buffer[296]; cdrom_t cdrom[CDROM_NUM]; #ifdef ENABLE_CDROM_LOG int cdrom_do_log = ENABLE_CDROM_LOG; void cdrom_log(const char *fmt, ...) { va_list ap; if (cdrom_do_log) { va_start(ap, fmt); pclog_ex(fmt, ap); va_end(ap); } } #else #define cdrom_log(fmt, ...) #endif int cdrom_lba_to_msf_accurate(int lba) { int pos; int m, s, f; pos = lba + 150; f = pos % 75; pos -= f; pos /= 75; s = pos % 60; pos -= s; pos /= 60; m = pos; return ((m << 16) | (s << 8) | f); } static double cdrom_get_short_seek(cdrom_t *dev) { switch(dev->cur_speed) { case 0: fatal("CD-ROM %i: 0x speed\n", dev->id); return 0.0; case 1: return 240.0; case 2: return 160.0; case 3: return 150.0; case 4: case 5: case 6: case 7: case 8: case 9: case 10: case 11: return 112.0; case 12: case 13: case 14: case 15: return 75.0; case 16: case 17: case 18: case 19: return 58.0; case 20: case 21: case 22: case 23: case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: case 48: return 50.0; default: /* 24-32, 52+ */ return 45.0; } } static double cdrom_get_long_seek(cdrom_t *dev) { switch(dev->cur_speed) { case 0: fatal("CD-ROM %i: 0x speed\n", dev->id); return 0.0; case 1: return 1446.0; case 2: return 1000.0; case 3: return 900.0; case 4: case 5: case 6: case 7: case 8: case 9: case 10: case 11: return 675.0; case 12: case 13: case 14: case 15: return 400.0; case 16: case 17: case 18: case 19: return 350.0; case 20: case 21: case 22: case 23: case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: case 48: return 300.0; default: /* 24-32, 52+ */ return 270.0; } } double cdrom_seek_time(cdrom_t *dev) { uint32_t diff = dev->seek_diff; double sd = (double) (MAX_SEEK - MIN_SEEK); if (diff < MIN_SEEK) return 0.0; if (diff > MAX_SEEK) diff = MAX_SEEK; diff -= MIN_SEEK; return cdrom_get_short_seek(dev) + ((cdrom_get_long_seek(dev) * ((double) diff)) / sd); } void cdrom_stop(cdrom_t *dev) { if (dev->cd_status > CD_STATUS_DATA_ONLY) dev->cd_status = CD_STATUS_STOPPED; } void cdrom_seek(cdrom_t *dev, uint32_t pos) { if (!dev) return; cdrom_log("CD-ROM %i: Seek to LBA %08X\n", dev->id, pos); dev->seek_pos = pos; cdrom_stop(dev); } int cdrom_audio_callback(cdrom_t *dev, int16_t *output, int len) { int ret = 1; if (!dev->sound_on || (dev->cd_status != CD_STATUS_PLAYING)) { cdrom_log("CD-ROM %i: Audio callback while not playing\n", dev->id); if (dev->cd_status == CD_STATUS_PLAYING) dev->seek_pos += (len >> 11); memset(output, 0, len * 2); return 0; } while (dev->cd_buflen < len) { if (dev->seek_pos < dev->cd_end) { if (dev->ops->read_sector(dev, CD_READ_AUDIO, (uint8_t *) &(dev->cd_buffer[dev->cd_buflen]), dev->seek_pos)) { cdrom_log("CD-ROM %i: Read LBA %08X successful\n", dev->id, dev->seek_pos); dev->seek_pos++; dev->cd_buflen += (RAW_SECTOR_SIZE / 2); ret = 1; } else { cdrom_log("CD-ROM %i: Read LBA %08X failed\n", dev->id, dev->seek_pos); memset(&(dev->cd_buffer[dev->cd_buflen]), 0x00, (BUF_SIZE - dev->cd_buflen) * 2); dev->cd_status = CD_STATUS_STOPPED; dev->cd_buflen = len; ret = 0; } } else { cdrom_log("CD-ROM %i: Playing completed\n", dev->id); memset(&dev->cd_buffer[dev->cd_buflen], 0x00, (BUF_SIZE - dev->cd_buflen) * 2); dev->cd_status = CD_STATUS_PLAYING_COMPLETED; dev->cd_buflen = len; ret = 0; } } memcpy(output, dev->cd_buffer, len * 2); memmove(dev->cd_buffer, &dev->cd_buffer[len], (BUF_SIZE - len) * 2); dev->cd_buflen -= len; cdrom_log("CD-ROM %i: Audio callback returning %i\n", dev->id, ret); return ret; } uint8_t cdrom_audio_play(cdrom_t *dev, uint32_t pos, uint32_t len, int ismsf) { track_info_t ti; int m = 0, s = 0, f = 0; if (dev->cd_status == CD_STATUS_DATA_ONLY) return 0; cdrom_log("CD-ROM %i: Play audio - %08X %08X %i\n", dev->id, pos, len, ismsf); if (ismsf & 0x100) { /* Track-relative audio play. */ dev->ops->get_track_info(dev, ismsf & 0xff, 0, &ti); pos += MSFtoLBA(ti.m, ti.s, ti.f) - 150; } else if (ismsf == 2) { dev->ops->get_track_info(dev, pos, 0, &ti); pos = MSFtoLBA(ti.m, ti.s, ti.f) - 150; /* We have to end at the *end* of the specified track, not at the beginning. */ dev->ops->get_track_info(dev, len, 1, &ti); len = MSFtoLBA(ti.m, ti.s, ti.f) - 150; } else if (ismsf == 1) { m = (pos >> 16) & 0xff; s = (pos >> 8) & 0xff; f = pos & 0xff; if (pos == 0xffffff) { cdrom_log("CD-ROM %i: Playing from current position (MSF)\n", dev->id); pos = dev->seek_pos; } else pos = MSFtoLBA(m, s, f) - 150; m = (len >> 16) & 0xff; s = (len >> 8) & 0xff; f = len & 0xff; len = MSFtoLBA(m, s, f) - 150; cdrom_log("CD-ROM %i: MSF - pos = %08X len = %08X\n", dev->id, pos, len); } else if (ismsf == 0) { if (pos == 0xffffffff) { cdrom_log("CD-ROM %i: Playing from current position\n", dev->id); pos = dev->seek_pos; } len += pos; } /* Do this at this point, since it's at this point that we know the actual LBA position to start playing from. */ if (!(dev->ops->track_type(dev, pos) & CD_TRACK_AUDIO)) { cdrom_log("CD-ROM %i: LBA %08X not on an audio track\n", dev->id, pos); cdrom_stop(dev); return 0; } dev->seek_pos = pos; dev->cd_end = len; dev->cd_status = CD_STATUS_PLAYING; dev->cd_buflen = 0; return 1; } void cdrom_audio_pause_resume(cdrom_t *dev, uint8_t resume) { if ((dev->cd_status == CD_STATUS_PLAYING) || (dev->cd_status == CD_STATUS_PAUSED)) dev->cd_status = (dev->cd_status & 0xfe) | (resume & 0x01); } uint8_t cdrom_get_current_subchannel(cdrom_t *dev, uint8_t *b, int msf) { uint8_t ret; subchannel_t subc; int pos = 1; dev->ops->get_subchannel(dev, dev->seek_pos, &subc); cdrom_log("CD-ROM %i: Returned subchannel at %02i:%02i.%02i\n", subc.abs_m, subc.abs_s, subc.abs_f); if (dev->cd_status == CD_STATUS_DATA_ONLY) ret = 0x15; else { if (dev->cd_status == CD_STATUS_PLAYING) ret = 0x11; else if (dev->cd_status == CD_STATUS_PAUSED) ret = 0x12; else ret = 0x13; } if (b[pos] > 1) return ret; b[pos++] = subc.attr; b[pos++] = subc.track; b[pos++] = subc.index; if (msf) { b[pos] = 0; b[pos + 1] = subc.abs_m; b[pos + 2] = subc.abs_s; b[pos + 3] = subc.abs_f; pos += 4; b[pos] = 0; b[pos + 1] = subc.rel_m; b[pos + 2] = subc.rel_s; b[pos + 3] = subc.rel_f; pos += 4; } else { uint32_t dat = MSFtoLBA(subc.abs_m, subc.abs_s, subc.abs_f) - 150; b[pos++] = (dat >> 24) & 0xff; b[pos++] = (dat >> 16) & 0xff; b[pos++] = (dat >> 8) & 0xff; b[pos++] = dat & 0xff; dat = MSFtoLBA(subc.rel_m, subc.rel_s, subc.rel_f); b[pos++] = (dat >> 24) & 0xff; b[pos++] = (dat >> 16) & 0xff; b[pos++] = (dat >> 8) & 0xff; b[pos++] = dat & 0xff; } return ret; } static int read_toc_normal(cdrom_t *dev, unsigned char *b, unsigned char start_track, int msf) { track_info_t ti; int len = 4; int c, d, first_track, last_track; uint32_t temp; dev->ops->get_tracks(dev, &first_track, &last_track); b[2] = first_track; b[3] = last_track; d = 0; for (c = 0; c <= last_track; c++) { dev->ops->get_track_info(dev, c + 1, 0, &ti); if (ti.number >= start_track) { d = c; break; } } if (start_track != 0xAA) { dev->ops->get_track_info(dev, c + 1, 0, &ti); b[2] = ti.number; } for (c = d; c <= last_track; c++) { dev->ops->get_track_info(dev, c + 1, 0, &ti); b[len++] = 0; /* reserved */ b[len++] = ti.attr; b[len++] = ti.number; /* track number */ b[len++] = 0; /* reserved */ if (msf) { b[len++] = 0; b[len++] = ti.m; b[len++] = ti.s; b[len++] = ti.f; } else { temp = MSFtoLBA(ti.m, ti.s, ti.f) - 150; b[len++] = temp >> 24; b[len++] = temp >> 16; b[len++] = temp >> 8; b[len++] = temp; } } return len; } static int read_toc_session(cdrom_t *dev, unsigned char *b, int msf) { track_info_t ti; int len = 4; uint32_t temp; dev->ops->get_track_info(dev, 1, 0, &ti); if (ti.number == 0) ti.number = 1; b[2] = b[3] = 1; b[len++] = 0; /* reserved */ b[len++] = ti.attr; b[len++] = ti.number; /* track number */ b[len++] = 0; /* reserved */ if (msf) { b[len++] = 0; b[len++] = ti.m; b[len++] = ti.s; b[len++] = ti.f; } else { temp = MSFtoLBA(ti.m, ti.s, ti.f) - 150; /* Do the - 150. */ b[len++] = temp >> 24; b[len++] = temp >> 16; b[len++] = temp >> 8; b[len++] = temp; } return len; } static int read_toc_raw(cdrom_t *dev, unsigned char *b) { track_info_t ti; int first_track, last_track; int track, len = 4; dev->ops->get_tracks(dev, &first_track, &last_track); b[2] = first_track; b[3] = last_track; for (track = first_track; track <= last_track; track++) { dev->ops->get_track_info(dev, track, 0, &ti); b[len++] = track; b[len++] = ti.attr; b[len++] = 0; b[len++] = 0; b[len++] = 0; b[len++] = 0; b[len++] = 0; b[len++] = 0; b[len++] = ti.m; b[len++] = ti.s; b[len++] = ti.f; } return len; } int cdrom_read_toc(cdrom_t *dev, unsigned char *b, int type, unsigned char start_track, int msf, int max_len) { int len; switch(type) { case CD_TOC_NORMAL: len = read_toc_normal(dev, b, start_track, msf); break; case CD_TOC_SESSION: len = read_toc_session(dev, b, msf); break; case CD_TOC_RAW: len = read_toc_raw(dev, b); break; default: cdrom_log("CD-ROM %i: Unknown TOC read type: %i\n", dev->id, type); return 0; } len = MIN(len, max_len); b[0] = (uint8_t) (((len - 2) >> 8) & 0xff); b[1] = (uint8_t) ((len - 2) & 0xff); return len; } static int track_type_is_valid(uint8_t id, int type, int flags, int audio, int mode2) { if (!(flags & 0x70)) { /* 0x00/0x08/0x80/0x88 are illegal modes */ cdrom_log("CD-ROM %i: [Any Mode] 0x00/0x08/0x80/0x88 are illegal modes\n", id); return 0; } if ((type != 1) && !audio) { if (!(flags & 0x70)) { /* 0x00/0x08/0x80/0x88 are illegal modes */ cdrom_log("CD-ROM %i: [Any Data Mode] 0x00/0x08/0x80/0x88 are illegal modes\n", id); return 0; } if ((flags & 0x06) == 0x06) { cdrom_log("CD-ROM %i: [Any Data Mode] Invalid error flags\n", id); return 0; } if (((flags & 0x700) == 0x300) || ((flags & 0x700) > 0x400)) { cdrom_log("CD-ROM %i: [Any Data Mode] Invalid subchannel data flags (%02X)\n", id, flags & 0x700); return 0; } if ((flags & 0x18) == 0x08) { /* EDC/ECC without user data is an illegal mode */ cdrom_log("CD-ROM %i: [Any Data Mode] EDC/ECC without user data is an illegal mode\n", id); return 0; } if (((flags & 0xf0) == 0x90) || ((flags & 0xf0) == 0xc0)) { /* 0x90/0x98/0xC0/0xC8 are illegal modes */ cdrom_log("CD-ROM %i: [Any Data Mode] 0x90/0x98/0xC0/0xC8 are illegal modes\n", id); return 0; } if (((type > 3) && (type != 8)) || (mode2 && (mode2 & 0x03))) { if ((flags & 0xf0) == 0x30) { /* 0x30/0x38 are illegal modes */ cdrom_log("CD-ROM %i: [Any XA Mode 2] 0x30/0x38 are illegal modes\n", id); return 0; } if (((flags & 0xf0) == 0xb0) || ((flags & 0xf0) == 0xd0)) { /* 0xBx and 0xDx are illegal modes */ cdrom_log("CD-ROM %i: [Any XA Mode 2] 0xBx and 0xDx are illegal modes\n", id); return 0; } } } return 1; } static void read_sector_to_buffer(cdrom_t *dev, uint8_t *rbuf, uint32_t msf, uint32_t lba, int mode2, int len) { uint8_t *bb = rbuf; dev->ops->read_sector(dev, CD_READ_DATA, rbuf + 16, lba); /* Sync bytes */ bb[0] = 0; memset(bb + 1, 0xff, 10); bb[11] = 0; bb += 12; /* Sector header */ bb[0] = (msf >> 16) & 0xff; bb[1] = (msf >> 8) & 0xff; bb[2] = msf & 0xff; bb[3] = 1; /* mode 1 data */ bb += mode2 ? 12 : 4; bb += len; if (mode2 && ((mode2 & 0x03) == 1)) memset(bb, 0, 280); else if (!mode2) memset(bb, 0, 288); } static void read_audio(cdrom_t *dev, uint32_t lba, uint8_t *b) { dev->ops->read_sector(dev, CD_READ_RAW, raw_buffer, lba); memcpy(b, raw_buffer, 2352); cdrom_sector_size = 2352; } static void read_mode1(cdrom_t *dev, int cdrom_sector_flags, uint32_t lba, uint32_t msf, int mode2, uint8_t *b) { if ((dev->cd_status == CD_STATUS_DATA_ONLY) || (dev->ops->sector_size(dev, lba) == 2048)) read_sector_to_buffer(dev, raw_buffer, msf, lba, mode2, 2048); else dev->ops->read_sector(dev, CD_READ_RAW, raw_buffer, lba); cdrom_sector_size = 0; if (cdrom_sector_flags & 0x80) { /* Sync */ cdrom_log("CD-ROM %i: [Mode 1] Sync\n", dev->id); memcpy(b, raw_buffer, 12); cdrom_sector_size += 12; b += 12; } if (cdrom_sector_flags & 0x20) { /* Header */ cdrom_log("CD-ROM %i: [Mode 1] Header\n", dev->id); memcpy(b, raw_buffer + 12, 4); cdrom_sector_size += 4; b += 4; } if (cdrom_sector_flags & 0x40) { /* Sub-header */ if (!(cdrom_sector_flags & 0x10)) { /* No user data */ cdrom_log("CD-ROM %i: [Mode 1] Sub-header\n", dev->id); memcpy(b, raw_buffer + 16, 8); cdrom_sector_size += 8; b += 8; } } if (cdrom_sector_flags & 0x10) { /* User data */ cdrom_log("CD-ROM %i: [Mode 1] User data\n", dev->id); memcpy(b, raw_buffer + 16, 2048); cdrom_sector_size += 2048; b += 2048; } if (cdrom_sector_flags & 0x08) { /* EDC/ECC */ cdrom_log("CD-ROM %i: [Mode 1] EDC/ECC\n", dev->id); memcpy(b, raw_buffer + 2064, 288); cdrom_sector_size += 288; b += 288; } } static void read_mode2_non_xa(cdrom_t *dev, int cdrom_sector_flags, uint32_t lba, uint32_t msf, int mode2, uint8_t *b) { if ((dev->cd_status == CD_STATUS_DATA_ONLY) || (dev->ops->sector_size(dev, lba) == 2336)) read_sector_to_buffer(dev, raw_buffer, msf, lba, mode2, 2336); else dev->ops->read_sector(dev, CD_READ_RAW, raw_buffer, lba); cdrom_sector_size = 0; if (cdrom_sector_flags & 0x80) { /* Sync */ cdrom_log("CD-ROM %i: [Mode 2 Formless] Sync\n", dev->id); memcpy(b, raw_buffer, 12); cdrom_sector_size += 12; b += 12; } if (cdrom_sector_flags & 0x20) { /* Header */ cdrom_log("CD-ROM %i: [Mode 2 Formless] Header\n", dev->id); memcpy(b, raw_buffer + 12, 4); cdrom_sector_size += 4; b += 4; } /* Mode 1 sector, expected type is 1 type. */ if (cdrom_sector_flags & 0x40) { /* Sub-header */ cdrom_log("CD-ROM %i: [Mode 2 Formless] Sub-header\n", dev->id); memcpy(b, raw_buffer + 16, 8); cdrom_sector_size += 8; b += 8; } if (cdrom_sector_flags & 0x10) { /* User data */ cdrom_log("CD-ROM %i: [Mode 2 Formless] User data\n", dev->id); memcpy(b, raw_buffer + 24, 2336); cdrom_sector_size += 2336; b += 2336; } } static void read_mode2_xa_form1(cdrom_t *dev, int cdrom_sector_flags, uint32_t lba, uint32_t msf, int mode2, uint8_t *b) { if ((dev->cd_status == CD_STATUS_DATA_ONLY) || (dev->ops->sector_size(dev, lba) == 2048)) read_sector_to_buffer(dev, raw_buffer, msf, lba, mode2, 2048); else dev->ops->read_sector(dev, CD_READ_RAW, raw_buffer, lba); cdrom_sector_size = 0; if (cdrom_sector_flags & 0x80) { /* Sync */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] Sync\n", dev->id); memcpy(b, raw_buffer, 12); cdrom_sector_size += 12; b += 12; } if (cdrom_sector_flags & 0x20) { /* Header */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] Header\n", dev->id); memcpy(b, raw_buffer + 12, 4); cdrom_sector_size += 4; b += 4; } if (cdrom_sector_flags & 0x40) { /* Sub-header */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] Sub-header\n", dev->id); memcpy(b, raw_buffer + 16, 8); cdrom_sector_size += 8; b += 8; } if (cdrom_sector_flags & 0x10) { /* User data */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] User data\n", dev->id); memcpy(b, raw_buffer + 24, 2048); cdrom_sector_size += 2048; b += 2048; } if (cdrom_sector_flags & 0x08) { /* EDC/ECC */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] EDC/ECC\n", dev->id); memcpy(b, raw_buffer + 2072, 280); cdrom_sector_size += 280; b += 280; } } static void read_mode2_xa_form2(cdrom_t *dev, int cdrom_sector_flags, uint32_t lba, uint32_t msf, int mode2, uint8_t *b) { if ((dev->cd_status == CD_STATUS_DATA_ONLY) || (dev->ops->sector_size(dev, lba) == 2324)) read_sector_to_buffer(dev, raw_buffer, msf, lba, mode2, 2324); else dev->ops->read_sector(dev, CD_READ_RAW, raw_buffer, lba); cdrom_sector_size = 0; if (cdrom_sector_flags & 0x80) { /* Sync */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 2] Sync\n", dev->id); memcpy(b, raw_buffer, 12); cdrom_sector_size += 12; b += 12; } if (cdrom_sector_flags & 0x20) { /* Header */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 2] Header\n", dev->id); memcpy(b, raw_buffer + 12, 4); cdrom_sector_size += 4; b += 4; } if (cdrom_sector_flags & 0x40) { /* Sub-header */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 2] Sub-header\n", dev->id); memcpy(b, raw_buffer + 16, 8); cdrom_sector_size += 8; b += 8; } if (cdrom_sector_flags & 0x10) { /* User data */ cdrom_log("CD-ROM %i: [XA Mode 2 Form 2] User data\n", dev->id); memcpy(b, raw_buffer + 24, 2328); cdrom_sector_size += 2328; b += 2328; } } int cdrom_readsector_raw(cdrom_t *dev, uint8_t *buffer, int sector, int ismsf, int cdrom_sector_type, int cdrom_sector_flags, int *len) { uint8_t *b, *temp_b; uint32_t msf, lba; int audio = 0, mode2 = 0; int m, s, f; if (dev->cd_status == CD_STATUS_EMPTY) return 0; b = temp_b = buffer; *len = 0; if (ismsf) { m = (sector >> 16) & 0xff; s = (sector >> 8) & 0xff; f = sector & 0xff; lba = MSFtoLBA(m, s, f) - 150; msf = sector; } else { lba = sector; msf = cdrom_lba_to_msf_accurate(sector); } if (dev->ops->track_type) audio = dev->ops->track_type(dev, lba); mode2 = audio & ~CD_TRACK_AUDIO; audio &= CD_TRACK_AUDIO; memset(raw_buffer, 0, 2448); memset(extra_buffer, 0, 296); if (!(cdrom_sector_flags & 0xf0)) { /* 0x00 and 0x08 are illegal modes */ cdrom_log("CD-ROM %i: [Mode 1] 0x00 and 0x08 are illegal modes\n", dev->id); return 0; } if (!track_type_is_valid(dev->id, cdrom_sector_type, cdrom_sector_flags, audio, mode2)) return 0; if ((cdrom_sector_type > 5) && (cdrom_sector_type != 8)) { cdrom_log("CD-ROM %i: Attempting to read an unrecognized sector type from an image\n", dev->id); return 0; } else if (cdrom_sector_type == 1) { if (!audio || (dev->cd_status == CD_STATUS_DATA_ONLY)) { cdrom_log("CD-ROM %i: [Audio] Attempting to read an audio sector from a data image\n", dev->id); return 0; } read_audio(dev, lba, temp_b); } else if (cdrom_sector_type == 2) { if (audio || mode2) { cdrom_log("CD-ROM %i: [Mode 1] Attempting to read a sector of another type\n", dev->id); return 0; } read_mode1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } else if (cdrom_sector_type == 3) { if (audio || !mode2 || (mode2 & 0x03)) { cdrom_log("CD-ROM %i: [Mode 2 Formless] Attempting to read a sector of another type\n", dev->id); return 0; } read_mode2_non_xa(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } else if (cdrom_sector_type == 4) { if (audio || !mode2 || ((mode2 & 0x03) != 1)) { cdrom_log("CD-ROM %i: [XA Mode 2 Form 1] Attempting to read a sector of another type\n", dev->id); return 0; } read_mode2_xa_form1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } else if (cdrom_sector_type == 5) { if (audio || !mode2 || ((mode2 & 0x03) != 2)) { cdrom_log("CD-ROM %i: [XA Mode 2 Form 2] Attempting to read a sector of another type\n", dev->id); return 0; } read_mode2_xa_form2(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } else if (cdrom_sector_type == 8) { if (audio) { cdrom_log("CD-ROM %i: [Any Data] Attempting to read a data sector from an audio track\n", dev->id); return 0; } if (mode2 && ((mode2 & 0x03) == 1)) read_mode2_xa_form1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); else if (!mode2) read_mode1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); else { cdrom_log("CD-ROM %i: [Any Data] Attempting to read a data sector whose cooked size is not 2048 bytes\n", dev->id); return 0; } } else { if (mode2) { if ((mode2 & 0x03) == 0x01) read_mode2_xa_form1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); else if ((mode2 & 0x03) == 0x02) read_mode2_xa_form2(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); else read_mode2_non_xa(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } else { if (audio) read_audio(dev, lba, temp_b); else read_mode1(dev, cdrom_sector_flags, lba, msf, mode2, temp_b); } } if ((cdrom_sector_flags & 0x06) == 0x02) { /* Add error flags. */ cdrom_log("CD-ROM %i: Error flags\n", dev->id); memcpy(b + cdrom_sector_size, extra_buffer, 294); cdrom_sector_size += 294; } else if ((cdrom_sector_flags & 0x06) == 0x04) { /* Add error flags. */ cdrom_log("CD-ROM %i: Full error flags\n", dev->id); memcpy(b + cdrom_sector_size, extra_buffer, 296); cdrom_sector_size += 296; } if ((cdrom_sector_flags & 0x700) == 0x100) { cdrom_log("CD-ROM %i: Raw subchannel data\n", dev->id); memcpy(b + cdrom_sector_size, raw_buffer + 2352, 96); cdrom_sector_size += 96; } else if ((cdrom_sector_flags & 0x700) == 0x200) { cdrom_log("CD-ROM %i: Q subchannel data\n", dev->id); memcpy(b + cdrom_sector_size, raw_buffer + 2352, 16); cdrom_sector_size += 16; } else if ((cdrom_sector_flags & 0x700) == 0x400) { cdrom_log("CD-ROM %i: R/W subchannel data\n", dev->id); memcpy(b + cdrom_sector_size, raw_buffer + 2352, 96); cdrom_sector_size += 96; } *len = cdrom_sector_size; return 1; } /* Peform a master init on the entire module. */ void cdrom_global_init(void) { /* Clear the global data. */ memset(cdrom, 0x00, sizeof(cdrom)); } static void cdrom_drive_reset(cdrom_t *dev) { dev->priv = NULL; dev->insert = NULL; dev->close = NULL; dev->get_volume = NULL; dev->get_channel = NULL; } void cdrom_hard_reset(void) { cdrom_t *dev; int i; for (i = 0; i < CDROM_NUM; i++) { dev = &cdrom[i]; if (dev->bus_type) { cdrom_log("CD-ROM %i: Hard reset\n", i); dev->id = i; cdrom_drive_reset(dev); switch(dev->bus_type) { case CDROM_BUS_ATAPI: case CDROM_BUS_SCSI: scsi_cdrom_drive_reset(i); break; default: break; } dev->cd_status = CD_STATUS_EMPTY; if (dev->host_drive == 200) cdrom_image_open(dev, dev->image_path); } } sound_cd_thread_reset(); } void cdrom_close(void) { cdrom_t *dev; int i; for (i = 0; i < CDROM_NUM; i++) { dev = &cdrom[i]; if (dev->close) dev->close(dev->priv); if (dev->ops && dev->ops->exit) dev->ops->exit(dev); dev->ops = NULL; dev->priv = NULL; cdrom_drive_reset(dev); } } /* Signal disc change to the emulated machine. */ void cdrom_insert(uint8_t id) { cdrom_t *dev = &cdrom[id]; if (dev->bus_type) { if (dev->insert) dev->insert(dev->priv); } } /* The mechanics of ejecting a CD-ROM from a drive. */ void cdrom_eject(uint8_t id) { cdrom_t *dev = &cdrom[id]; /* This entire block should be in cdrom.c/cdrom_eject(dev*) ... */ if (dev->host_drive == 0) { /* Switch from empty to empty. Do nothing. */ return; } if (dev->host_drive == 200) wcscpy(dev->prev_image_path, dev->image_path); dev->prev_host_drive = dev->host_drive; dev->host_drive = 0; dev->ops->exit(dev); dev->ops = NULL; memset(dev->image_path, 0, sizeof(dev->image_path)); cdrom_insert(id); plat_cdrom_ui_update(id, 0); config_save(); } /* The mechanics of re-loading a CD-ROM drive. */ void cdrom_reload(uint8_t id) { cdrom_t *dev = &cdrom[id]; if ((dev->host_drive == dev->prev_host_drive) || (dev->prev_host_drive == 0) || (dev->host_drive != 0)) { /* Switch from empty to empty. Do nothing. */ return; } if (dev->ops && dev->ops->exit) dev->ops->exit(dev); dev->ops = NULL; memset(dev->image_path, 0, sizeof(dev->image_path)); if (dev->prev_host_drive == 200) { /* Reload a previous image. */ wcscpy(dev->image_path, dev->prev_image_path); cdrom_image_open(dev, dev->image_path); cdrom_insert(id); if (wcslen(dev->image_path) == 0) dev->host_drive = 0; else dev->host_drive = 200; } plat_cdrom_ui_update(id, 1); config_save(); }