/*************************************************************************** * Copyright (C) 2007 PCSX-df Team * * Copyright (C) 2009 Wei Mingzhi * * * * 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 of the License, 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; if not, write to the * * Free Software Foundation, Inc., * * 51 Franklin Street, Fifth Floor, Boston, MA 02111-1307 USA. * ***************************************************************************/ #include "psxcommon.h" #include "plugins.h" #include "cdrom.h" #include "cdriso.h" #if 0 #ifdef _WIN32 #include #include #else #include #include #endif #endif #ifdef __EMSCRIPTEN__ #include #endif #include static FILE *cdHandle = NULL; static FILE *cddaHandle = NULL; static FILE *subHandle = NULL; static boolean subChanMixed = FALSE; static boolean subChanRaw = FALSE; static unsigned char cdbuffer[DATA_SIZE]; static unsigned char subbuffer[SUB_FRAMESIZE]; static unsigned char sndbuffer[CD_FRAMESIZE_RAW * 10]; #define CDDA_FRAMETIME (1000 * (sizeof(sndbuffer) / CD_FRAMESIZE_RAW) / 75) #if 0 #ifdef _WIN32 static HANDLE threadid; #else static pthread_t threadid; #endif #endif static unsigned int initial_offset = 0; static volatile boolean playing = FALSE; static boolean cddaBigEndian = FALSE; static volatile unsigned int cddaCurOffset = 0; char* CALLBACK CDR__getDriveLetter(void); long CALLBACK CDR__configure(void); long CALLBACK CDR__test(void); void CALLBACK CDR__about(void); long CALLBACK CDR__setfilename(char *filename); long CALLBACK CDR__getStatus(struct CdrStat *stat); extern void *hCDRDriver; struct trackinfo { enum {DATA, CDDA} type; char start[3]; // MSF-format char length[3]; // MSF-format }; #define MAXTRACKS 100 /* How many tracks can a CD hold? */ static int numtracks = 0; static struct trackinfo ti[MAXTRACKS]; // get a sector from a msf-array static unsigned int msf2sec(char *msf) { return ((msf[0] * 60 + msf[1]) * 75) + msf[2]; } static void sec2msf(unsigned int s, char *msf) { msf[0] = s / 75 / 60; s = s - msf[0] * 75 * 60; msf[1] = s / 75; s = s - msf[1] * 75; msf[2] = s; } // divide a string of xx:yy:zz into m, s, f static void tok2msf(char *time, char *msf) { char *token; token = strtok(time, ":"); if (token) { msf[0] = atoi(token); } else { msf[0] = 0; } token = strtok(NULL, ":"); if (token) { msf[1] = atoi(token); } else { msf[1] = 0; } token = strtok(NULL, ":"); if (token) { msf[2] = atoi(token); } else { msf[2] = 0; } } #ifndef _WIN32 static long GetTickCount(void) { static time_t initial_time = 0; struct timeval now; gettimeofday(&now, NULL); if (initial_time == 0) { initial_time = now.tv_sec; } return (now.tv_sec - initial_time) * 1000L + now.tv_usec / 1000L; } #endif // this thread plays audio data #ifdef ____EMSCRIPTEN__ void playcdda() { long t, d, i, s; unsigned char tmp; t = GetTickCount() + CDDA_FRAMETIME; if (subChanMixed) { printf("subChanMixed\n"); s = 0; for (i = 0; i < sizeof(sndbuffer) / CD_FRAMESIZE_RAW; i++) { // read one sector d = fread(sndbuffer + CD_FRAMESIZE_RAW * i, 1, CD_FRAMESIZE_RAW, cddaHandle); if (d < CD_FRAMESIZE_RAW) { break; } s += d; // skip the subchannel data fseek(cddaHandle, SUB_FRAMESIZE, SEEK_CUR); } } else { s = fread(sndbuffer, 1, sizeof(sndbuffer), cddaHandle); printf("read s %ld\n",s); } if (s == 0) { playing = FALSE; fclose(cddaHandle); cddaHandle = NULL; initial_offset = 0; printf("end playcdda\n"); return; } if (!cdr.Muted && playing) { if (cddaBigEndian) { for (i = 0; i < s / 2; i++) { tmp = sndbuffer[i * 2]; sndbuffer[i * 2] = sndbuffer[i * 2 + 1]; sndbuffer[i * 2 + 1] = tmp; } } SPU_playCDDAchannel((short *)sndbuffer, s); } cddaCurOffset += s; d = t - (long)GetTickCount(); if (d <= 0) { d = 1; } else if (d > CDDA_FRAMETIME) { d = CDDA_FRAMETIME; } if(playing){ printf("playcdda %ld\n", d); EM_ASM_( {setTimeout("_playcdda()", $0);}, d); } } // stop the CDDA playback static void stopCDDA() { printf("stopCDDA\n"); if (!playing) { return; } playing = FALSE; if (cddaHandle != NULL) { fclose(cddaHandle); cddaHandle = NULL; } initial_offset = 0; } // start the CDDA playback static void startCDDA(unsigned int offset) { printf("startCDDA\n"); if (playing) { if (initial_offset == offset) { return; } stopCDDA(); } cddaHandle = fopen(GetIsoFile(), "rb"); if (cddaHandle == NULL) { return; } initial_offset = offset; cddaCurOffset = initial_offset; fseek(cddaHandle, initial_offset, SEEK_SET); playing = TRUE; playcdda(); } #else #ifdef _WIN32 static void playthread(void *param) #else static void *playthread(void *param) #endif { #if 0 long d, t, i, s; unsigned char tmp; t = GetTickCount(); while (playing) { d = t - (long)GetTickCount(); if (d <= 0) { d = 1; } else if (d > CDDA_FRAMETIME) { d = CDDA_FRAMETIME; } #ifdef _WIN32 Sleep(d); #else printf("sleep\n"); usleep(d * 1000); #endif t = GetTickCount() + CDDA_FRAMETIME; if (subChanMixed) { s = 0; for (i = 0; i < sizeof(sndbuffer) / CD_FRAMESIZE_RAW; i++) { // read one sector d = fread(sndbuffer + CD_FRAMESIZE_RAW * i, 1, CD_FRAMESIZE_RAW, cddaHandle); if (d < CD_FRAMESIZE_RAW) { break; } s += d; // skip the subchannel data fseek(cddaHandle, SUB_FRAMESIZE, SEEK_CUR); } } else { s = fread(sndbuffer, 1, sizeof(sndbuffer), cddaHandle); } if (s == 0) { playing = FALSE; fclose(cddaHandle); cddaHandle = NULL; initial_offset = 0; break; } if (!cdr.Muted && playing) { if (cddaBigEndian) { for (i = 0; i < s / 2; i++) { tmp = sndbuffer[i * 2]; sndbuffer[i * 2] = sndbuffer[i * 2 + 1]; sndbuffer[i * 2 + 1] = tmp; } } SPU_playCDDAchannel((short *)sndbuffer, s); } cddaCurOffset += s; } #ifdef _WIN32 _endthread(); #else pthread_exit(0); return NULL; #endif #endif return NULL; } // stop the CDDA playback static void stopCDDA() { #if 0 if (!playing) { return; } playing = FALSE; #ifdef _WIN32 WaitForSingleObject(threadid, INFINITE); #else pthread_join(threadid, NULL); #endif if (cddaHandle != NULL) { fclose(cddaHandle); cddaHandle = NULL; } initial_offset = 0; #endif } // start the CDDA playback static void startCDDA(unsigned int offset) { printf("startCDDA\n"); #if 0 if (playing) { if (initial_offset == offset) { return; } stopCDDA(); } cddaHandle = fopen(GetIsoFile(), "rb"); if (cddaHandle == NULL) { return; } initial_offset = offset; cddaCurOffset = initial_offset; fseek(cddaHandle, initial_offset, SEEK_SET); playing = TRUE; #ifdef _WIN32 threadid = (HANDLE)_beginthread(playthread, 0, NULL); #else pthread_create(&threadid, NULL, playthread, NULL); #endif #endif } #endif // this function tries to get the .toc file of the given .bin // the necessary data is put into the ti (trackinformation)-array static int parsetoc(const char *isofile) { char tocname[MAXPATHLEN]; FILE *fi; char linebuf[256], dummy[256], name[256]; char *token; char time[20], time2[20]; unsigned int t; numtracks = 0; // copy name of the iso and change extension from .bin to .toc strncpy(tocname, isofile, sizeof(tocname)); tocname[MAXPATHLEN - 1] = '\0'; if (strlen(tocname) >= 4) { strcpy(tocname + strlen(tocname) - 4, ".toc"); } else { return -1; } if ((fi = fopen(tocname, "r")) == NULL) { // try changing extension to .cue (to satisfy some stupid tutorials) strcpy(tocname + strlen(tocname) - 4, ".cue"); if ((fi = fopen(tocname, "r")) == NULL) { // if filename is image.toc.bin, try removing .bin (for Brasero) strcpy(tocname, isofile); t = strlen(tocname); if (t >= 8 && strcmp(tocname + t - 8, ".toc.bin") == 0) { tocname[t - 4] = '\0'; if ((fi = fopen(tocname, "r")) == NULL) { return -1; } } else { return -1; } } } memset(&ti, 0, sizeof(ti)); cddaBigEndian = TRUE; // cdrdao uses big-endian for CD Audio // parse the .toc file while (fgets(linebuf, sizeof(linebuf), fi) != NULL) { // search for tracks strncpy(dummy, linebuf, sizeof(linebuf)); token = strtok(dummy, " "); if (token == NULL) continue; if (!strcmp(token, "TRACK")) { // get type of track token = strtok(NULL, " "); numtracks++; if (!strncmp(token, "MODE2_RAW", 9)) { ti[numtracks].type = DATA; sec2msf(2 * 75, ti[numtracks].start); // assume data track on 0:2:0 // check if this image contains mixed subchannel data token = strtok(NULL, " "); if (token != NULL && !strncmp(token, "RW_RAW", 6)) { subChanMixed = TRUE; subChanRaw = TRUE; } } else if (!strncmp(token, "AUDIO", 5)) { ti[numtracks].type = CDDA; } } else if (!strcmp(token, "DATAFILE")) { if (ti[numtracks].type == CDDA) { sscanf(linebuf, "DATAFILE \"%[^\"]\" #%d %8s", name, &t, time2); t /= CD_FRAMESIZE_RAW + (subChanMixed ? SUB_FRAMESIZE : 0); t += 2 * 75; sec2msf(t, (char *)&ti[numtracks].start); tok2msf((char *)&time2, (char *)&ti[numtracks].length); } else { sscanf(linebuf, "DATAFILE \"%[^\"]\" %8s", name, time); tok2msf((char *)&time, (char *)&ti[numtracks].length); } } else if (!strcmp(token, "FILE")) { sscanf(linebuf, "FILE \"%[^\"]\" #%d %8s %8s", name, &t, time, time2); tok2msf((char *)&time, (char *)&ti[numtracks].start); t /= CD_FRAMESIZE_RAW + (subChanMixed ? SUB_FRAMESIZE : 0); t += msf2sec(ti[numtracks].start) + 2 * 75; sec2msf(t, (char *)&ti[numtracks].start); tok2msf((char *)&time2, (char *)&ti[numtracks].length); } } fclose(fi); return 0; } // this function tries to get the .cue file of the given .bin // the necessary data is put into the ti (trackinformation)-array static int parsecue(const char *isofile) { char cuename[MAXPATHLEN]; FILE *fi; char *token; char time[20]; char *tmp; char linebuf[256], dummy[256]; unsigned int t; numtracks = 0; // copy name of the iso and change extension from .bin to .cue strncpy(cuename, isofile, sizeof(cuename)); cuename[MAXPATHLEN - 1] = '\0'; if (strlen(cuename) >= 4) { strcpy(cuename + strlen(cuename) - 4, ".cue"); } else { return -1; } if ((fi = fopen(cuename, "r")) == NULL) { return -1; } // Some stupid tutorials wrongly tell users to use cdrdao to rip a // "bin/cue" image, which is in fact a "bin/toc" image. So let's check // that... if (fgets(linebuf, sizeof(linebuf), fi) != NULL) { if (!strncmp(linebuf, "CD_ROM_XA", 9)) { // Don't proceed further, as this is actually a .toc file rather // than a .cue file. fclose(fi); return parsetoc(isofile); } fseek(fi, 0, SEEK_SET); } memset(&ti, 0, sizeof(ti)); while (fgets(linebuf, sizeof(linebuf), fi) != NULL) { strncpy(dummy, linebuf, sizeof(linebuf)); token = strtok(dummy, " "); if (token == NULL) { continue; } if (!strcmp(token, "TRACK")){ numtracks++; if (strstr(linebuf, "AUDIO") != NULL) { ti[numtracks].type = CDDA; } else if (strstr(linebuf, "MODE1/2352") != NULL || strstr(linebuf, "MODE2/2352") != NULL) { ti[numtracks].type = DATA; } } else if (!strcmp(token, "INDEX")) { tmp = strstr(linebuf, "INDEX"); if (tmp != NULL) { tmp += strlen("INDEX") + 3; // 3 - space + numeric index while (*tmp == ' ') tmp++; if (*tmp != '\n') sscanf(tmp, "%8s", time); } tok2msf((char *)&time, (char *)&ti[numtracks].start); t = msf2sec(ti[numtracks].start) + 2 * 75; sec2msf(t, ti[numtracks].start); // If we've already seen another track, this is its end if (numtracks > 1) { t = msf2sec(ti[numtracks].start) - msf2sec(ti[numtracks - 1].start); sec2msf(t, ti[numtracks - 1].length); } } } fclose(fi); // Fill out the last track's end based on size if (numtracks >= 1) { fseek(cdHandle, 0, SEEK_END); t = ftell(cdHandle) / 2352 - msf2sec(ti[numtracks].start) + 2 * 75; sec2msf(t, ti[numtracks].length); } return 0; } // this function tries to get the .ccd file of the given .img // the necessary data is put into the ti (trackinformation)-array static int parseccd(const char *isofile) { char ccdname[MAXPATHLEN]; FILE *fi; char linebuf[256]; unsigned int t; numtracks = 0; // copy name of the iso and change extension from .img to .ccd strncpy(ccdname, isofile, sizeof(ccdname)); ccdname[MAXPATHLEN - 1] = '\0'; if (strlen(ccdname) >= 4) { strcpy(ccdname + strlen(ccdname) - 4, ".ccd"); } else { return -1; } if ((fi = fopen(ccdname, "r")) == NULL) { return -1; } memset(&ti, 0, sizeof(ti)); while (fgets(linebuf, sizeof(linebuf), fi) != NULL) { if (!strncmp(linebuf, "[TRACK", 6)){ numtracks++; } else if (!strncmp(linebuf, "MODE=", 5)) { sscanf(linebuf, "MODE=%d", &t); ti[numtracks].type = ((t == 0) ? CDDA : DATA); } else if (!strncmp(linebuf, "INDEX 1=", 8)) { sscanf(linebuf, "INDEX 1=%d", &t); sec2msf(t + 2 * 75, ti[numtracks].start); // If we've already seen another track, this is its end if (numtracks > 1) { t = msf2sec(ti[numtracks].start) - msf2sec(ti[numtracks - 1].start); sec2msf(t, ti[numtracks - 1].length); } } } fclose(fi); // Fill out the last track's end based on size if (numtracks >= 1) { fseek(cdHandle, 0, SEEK_END); t = ftell(cdHandle) / 2352 - msf2sec(ti[numtracks].start) + 2 * 75; sec2msf(t, ti[numtracks].length); } return 0; } // this function tries to get the .mds file of the given .mdf // the necessary data is put into the ti (trackinformation)-array static int parsemds(const char *isofile) { char mdsname[MAXPATHLEN]; FILE *fi; unsigned int offset, extra_offset, l, i; unsigned short s; numtracks = 0; // copy name of the iso and change extension from .mdf to .mds strncpy(mdsname, isofile, sizeof(mdsname)); mdsname[MAXPATHLEN - 1] = '\0'; if (strlen(mdsname) >= 4) { strcpy(mdsname + strlen(mdsname) - 4, ".mds"); } else { return -1; } if ((fi = fopen(mdsname, "rb")) == NULL) { return -1; } memset(&ti, 0, sizeof(ti)); // check if it's a valid mds file fread(&i, 1, sizeof(unsigned int), fi); i = SWAP32(i); if (i != 0x4944454D) { // not an valid mds file fclose(fi); return -1; } // get offset to session block fseek(fi, 0x50, SEEK_SET); fread(&offset, 1, sizeof(unsigned int), fi); offset = SWAP32(offset); // get total number of tracks offset += 14; fseek(fi, offset, SEEK_SET); fread(&s, 1, sizeof(unsigned short), fi); s = SWAP16(s); numtracks = s; // get offset to track blocks fseek(fi, 4, SEEK_CUR); fread(&offset, 1, sizeof(unsigned int), fi); offset = SWAP32(offset); // skip lead-in data while (1) { fseek(fi, offset + 4, SEEK_SET); if (fgetc(fi) < 0xA0) { break; } offset += 0x50; } // check if the image contains mixed subchannel data fseek(fi, offset + 1, SEEK_SET); subChanMixed = (fgetc(fi) ? TRUE : FALSE); // read track data for (i = 1; i <= numtracks; i++) { fseek(fi, offset, SEEK_SET); // get the track type ti[i].type = ((fgetc(fi) == 0xA9) ? CDDA : DATA); fseek(fi, 8, SEEK_CUR); // get the track starting point ti[i].start[0] = fgetc(fi); ti[i].start[1] = fgetc(fi); ti[i].start[2] = fgetc(fi); if (i > 1) { l = msf2sec(ti[i].start); sec2msf(l - 2 * 75, ti[i].start); // ??? } // get the track length fread(&extra_offset, 1, sizeof(unsigned int), fi); extra_offset = SWAP32(extra_offset); fseek(fi, extra_offset + 4, SEEK_SET); fread(&l, 1, sizeof(unsigned int), fi); l = SWAP32(l); sec2msf(l, ti[i].length); offset += 0x50; } fclose(fi); return 0; } // this function tries to get the .sub file of the given .img static int opensubfile(const char *isoname) { char subname[MAXPATHLEN]; // copy name of the iso and change extension from .img to .sub strncpy(subname, isoname, sizeof(subname)); subname[MAXPATHLEN - 1] = '\0'; if (strlen(subname) >= 4) { strcpy(subname + strlen(subname) - 4, ".sub"); } else { return -1; } subHandle = fopen(subname, "rb"); if (subHandle == NULL) { return -1; } return 0; } static long CALLBACK ISOinit(void) { assert(cdHandle == NULL); assert(subHandle == NULL); return 0; // do nothing } static long CALLBACK ISOshutdown(void) { if (cdHandle != NULL) { fclose(cdHandle); cdHandle = NULL; } if (subHandle != NULL) { fclose(subHandle); subHandle = NULL; } stopCDDA(); return 0; } static void PrintTracks(void) { int i; for (i = 1; i <= numtracks; i++) { SysPrintf(_("Track %.2d (%s) - Start %.2d:%.2d:%.2d, Length %.2d:%.2d:%.2d\n"), i, (ti[i].type == DATA ? "DATA" : "AUDIO"), ti[i].start[0], ti[i].start[1], ti[i].start[2], ti[i].length[0], ti[i].length[1], ti[i].length[2]); } } // This function is invoked by the front-end when opening an ISO // file for playback static long CALLBACK ISOopen(void) { if (cdHandle != NULL) { return 0; // it's already open } cdHandle = fopen(GetIsoFile(), "rb"); if (cdHandle == NULL) { return -1; } SysPrintf(_("Loaded CD Image: %s"), GetIsoFile()); cddaBigEndian = FALSE; subChanMixed = FALSE; subChanRaw = FALSE; if (parsecue(GetIsoFile()) == 0) { SysPrintf("[+cue]"); } else if (parsetoc(GetIsoFile()) == 0) { SysPrintf("[+toc]"); } else if (parseccd(GetIsoFile()) == 0) { SysPrintf("[+ccd]"); } else if (parsemds(GetIsoFile()) == 0) { SysPrintf("[+mds]"); } if (!subChanMixed && opensubfile(GetIsoFile()) == 0) { SysPrintf("[+sub]"); } SysPrintf(".\n"); PrintTracks(); return 0; } static long CALLBACK ISOclose(void) { if (cdHandle != NULL) { fclose(cdHandle); cdHandle = NULL; } if (subHandle != NULL) { fclose(subHandle); subHandle = NULL; } stopCDDA(); return 0; } // return Starting and Ending Track // buffer: // byte 0 - start track // byte 1 - end track static long CALLBACK ISOgetTN(unsigned char *buffer) { buffer[0] = 1; if (numtracks > 0) { buffer[1] = numtracks; } else { buffer[1] = 1; } return 0; } // return Track Time // buffer: // byte 0 - frame // byte 1 - second // byte 2 - minute static long CALLBACK ISOgetTD(unsigned char track, unsigned char *buffer) { if (numtracks > 0 && track <= numtracks) { buffer[2] = ti[track].start[0]; buffer[1] = ti[track].start[1]; buffer[0] = ti[track].start[2]; } else { buffer[2] = 0; buffer[1] = 2; buffer[0] = 0; } return 0; } // decode 'raw' subchannel data ripped by cdrdao static void DecodeRawSubData(void) { unsigned char subQData[12]; int i; memset(subQData, 0, sizeof(subQData)); for (i = 0; i < 8 * 12; i++) { if (subbuffer[i] & (1 << 6)) { // only subchannel Q is needed subQData[i >> 3] |= (1 << (7 - (i & 7))); } } memcpy(&subbuffer[12], subQData, 12); } // read track // time: byte 0 - minute; byte 1 - second; byte 2 - frame // uses bcd format static long CALLBACK ISOreadTrack(unsigned char *time) { if (cdHandle == NULL) { return -1; } if (subChanMixed) { fseek(cdHandle, MSF2SECT(btoi(time[0]), btoi(time[1]), btoi(time[2])) * (CD_FRAMESIZE_RAW + SUB_FRAMESIZE) + 12, SEEK_SET); fread(cdbuffer, 1, DATA_SIZE, cdHandle); fread(subbuffer, 1, SUB_FRAMESIZE, cdHandle); if (subChanRaw) DecodeRawSubData(); } else { fseek(cdHandle, MSF2SECT(btoi(time[0]), btoi(time[1]), btoi(time[2])) * CD_FRAMESIZE_RAW + 12, SEEK_SET); fread(cdbuffer, 1, DATA_SIZE, cdHandle); if (subHandle != NULL) { fseek(subHandle, MSF2SECT(btoi(time[0]), btoi(time[1]), btoi(time[2])) * SUB_FRAMESIZE, SEEK_SET); fread(subbuffer, 1, SUB_FRAMESIZE, subHandle); if (subChanRaw) DecodeRawSubData(); } } return 0; } // return readed track static unsigned char * CALLBACK ISOgetBuffer(void) { return cdbuffer; } // plays cdda audio // sector: byte 0 - minute; byte 1 - second; byte 2 - frame // does NOT uses bcd format static long CALLBACK ISOplay(unsigned char *time) { if (SPU_playCDDAchannel != NULL) { if (subChanMixed) { startCDDA(MSF2SECT(time[0], time[1], time[2]) * (CD_FRAMESIZE_RAW + SUB_FRAMESIZE)); } else { startCDDA(MSF2SECT(time[0], time[1], time[2]) * CD_FRAMESIZE_RAW); } } return 0; } // stops cdda audio static long CALLBACK ISOstop(void) { stopCDDA(); return 0; } // gets subchannel data static unsigned char* CALLBACK ISOgetBufferSub(void) { if (subHandle != NULL || subChanMixed) { return subbuffer; } return NULL; } static long CALLBACK ISOgetStatus(struct CdrStat *stat) { int sec; CDR__getStatus(stat); if (playing) { stat->Type = 0x02; stat->Status |= 0x80; sec = cddaCurOffset / CD_FRAMESIZE_RAW; sec2msf(sec, (char *)stat->Time); } else { stat->Type = 0x01; } return 0; } void cdrIsoInit(void) { CDR_init = ISOinit; CDR_shutdown = ISOshutdown; CDR_open = ISOopen; CDR_close = ISOclose; CDR_getTN = ISOgetTN; CDR_getTD = ISOgetTD; CDR_readTrack = ISOreadTrack; CDR_getBuffer = ISOgetBuffer; CDR_play = ISOplay; CDR_stop = ISOstop; CDR_getBufferSub = ISOgetBufferSub; CDR_getStatus = ISOgetStatus; CDR_getDriveLetter = CDR__getDriveLetter; CDR_configure = CDR__configure; CDR_test = CDR__test; CDR_about = CDR__about; CDR_setfilename = CDR__setfilename; numtracks = 0; } int cdrIsoActive(void) { return (cdHandle != NULL); }