/* Copyright holders: Sarah Walker, Tenshi see COPYING for more details */ #include "ibm.h" #include "config.h" #include "disc.h" #include "disc_fdi.h" #include "disc_img.h" #include "fdc.h" #include "fdd.h" #include "timer.h" int disc_drivesel = 0; int64_t disc_poll_time = 16; int disc_track[2]; int writeprot[2], fwriteprot[2]; DRIVE drives[2]; int drive_type[2]; int curdrive = 0; int swwp = 0; int disable_write = 0; //char discfns[2][260] = {"", ""}; int defaultwriteprot = 0; int fdc_time; int disc_time; int fdc_ready; int drive_empty[2] = {1, 1}; int disc_changed[2]; int motorspin; int64_t motoron; int fdc_indexcount = 52; /*void (*fdc_callback)(); void (*fdc_data)(uint8_t dat); void (*fdc_spindown)(); void (*fdc_finishread)(); void (*fdc_notfound)(); void (*fdc_datacrcerror)(); void (*fdc_headercrcerror)(); void (*fdc_writeprotect)(); int (*fdc_getdata)(int last); void (*fdc_sectorid)(uint8_t track, uint8_t side, uint8_t sector, uint8_t size, uint8_t crc1, uint8_t crc2); void (*fdc_indexpulse)();*/ static struct { char *ext; void (*load)(int drive, char *fn); void (*close)(int drive); int size; } loaders[]= { {"12", img_load, img_close, -1}, {"144", img_load, img_close, -1}, {"360", img_load, img_close, -1}, {"720", img_load, img_close, -1}, {"DSK", img_load, img_close, -1}, {"FLP", img_load, img_close, -1}, {"IMG", img_load, img_close, -1}, {"IMA", img_load, img_close, -1}, {"VFD", img_load, img_close, -1}, {"XDF", img_load, img_close, -1}, {"FDI", fdi_load, fdi_close, -1}, {0,0,0} }; static int driveloaders[4]; void disc_load(int drive, char *fn) { int c = 0, size; char *p; FILE *f; // pclog("disc_load %i %s\n", drive, fn); // setejecttext(drive, ""); if (!fn) return; p = get_extension(fn); if (!p) return; // setejecttext(drive, fn); pclog("Loading :%i %s %s\n", drive, fn,p); f = fopen(fn, "rb"); if (!f) return; fseek(f, -1, SEEK_END); size = ftell(f) + 1; fclose(f); while (loaders[c].ext) { if (!strcasecmp(p, loaders[c].ext) && (size == loaders[c].size || loaders[c].size == -1)) { pclog("Loading as %s\n", p); driveloaders[drive] = c; loaders[c].load(drive, fn); drive_empty[drive] = 0; disc_changed[drive] = 1; strcpy(discfns[drive], fn); return; } c++; } pclog("Couldn't load %s %s\n",fn,p); drive_empty[drive] = 1; discfns[drive][0] = 0; } void disc_close(int drive) { // pclog("disc_close %i\n", drive); if (loaders[driveloaders[drive]].close) loaders[driveloaders[drive]].close(drive); drive_empty[drive] = 1; discfns[drive][0] = 0; drives[drive].hole = NULL; drives[drive].poll = NULL; drives[drive].seek = NULL; drives[drive].readsector = NULL; drives[drive].writesector = NULL; drives[drive].readaddress = NULL; drives[drive].format = NULL; drives[drive].realtrack = NULL; drives[drive].byteperiod = NULL; drives[drive].stop = NULL; } int disc_notfound=0; static int disc_period = 32; int disc_hole(int drive) { drive ^= fdd_swap; if (drives[drive].hole) { return drives[drive].hole(drive); } else { return 0; } } int disc_byteperiod(int drive) { drive ^= fdd_swap; if (drives[drive].byteperiod) { return drives[drive].byteperiod(drive); } else { return 32; } } double disc_real_period() { int64_t dbp; double ddbp; double dusec; dbp = disc_byteperiod(disc_drivesel ^ fdd_swap); ddbp = (double) dbp; if (dbp == 26) ddbp = 160.0 / 6.0; dusec = (double) TIMER_USEC; return (ddbp * dusec); } void disc_poll() { disc_poll_time += (int64_t) disc_real_period(); if (drives[disc_drivesel].poll) drives[disc_drivesel].poll(); if (disc_notfound) { disc_notfound--; if (!disc_notfound) fdc_notfound(); } } int disc_get_bitcell_period(int rate) { int bit_rate; switch (rate) { case 0: /*High density*/ bit_rate = 500; break; case 1: /*Double density (360 rpm)*/ bit_rate = 300; break; case 2: /*Double density*/ bit_rate = 250; break; case 3: /*Extended density*/ bit_rate = 1000; break; } return 1000000 / bit_rate*2; /*Bitcell period in ns*/ } void disc_set_rate(int drive, int drvden, int rate) { switch (rate) { case 0: /*High density*/ disc_period = 16; break; case 1: switch(drvden) { case 0: /*Double density (360 rpm)*/ disc_period = 26; break; case 1: /*High density (360 rpm)*/ disc_period = 16; break; case 2: disc_period = 4; break; } case 2: /*Double density*/ disc_period = 32; break; case 3: /*Extended density*/ disc_period = 8; break; } } void disc_reset() { curdrive = 0; disc_period = 32; timer_add(disc_poll, &disc_poll_time, &motoron, NULL); } void disc_init() { // pclog("disc_init %p\n", drives); drives[0].poll = drives[1].poll = 0; drives[0].seek = drives[1].seek = 0; drives[0].readsector = drives[1].readsector = 0; disc_reset(); } int oldtrack[2] = {0, 0}; void disc_seek(int drive, int track) { // pclog("disc_seek: drive=%i track=%i\n", drive, track); if (drives[drive].seek) drives[drive].seek(drive, track); // if (track != oldtrack[drive]) // fdc_discchange_clear(drive); // ddnoise_seek(track - oldtrack[drive]); // oldtrack[drive] = track; } void disc_readsector(int drive, int sector, int track, int side, int density, int sector_size) { drive ^= fdd_swap; if (drives[drive].readsector) drives[drive].readsector(drive, sector, track, side, density, sector_size); else disc_notfound = 1000; } void disc_writesector(int drive, int sector, int track, int side, int density, int sector_size) { drive ^= fdd_swap; if (drives[drive].writesector) drives[drive].writesector(drive, sector, track, side, density, sector_size); else disc_notfound = 1000; } void disc_readaddress(int drive, int track, int side, int density) { drive ^= fdd_swap; if (drives[drive].readaddress) drives[drive].readaddress(drive, track, side, density); } void disc_format(int drive, int track, int side, int density, uint8_t fill) { drive ^= fdd_swap; if (drives[drive].format) drives[drive].format(drive, track, side, density, fill); else disc_notfound = 1000; } int disc_realtrack(int drive, int track) { drive ^= fdd_swap; if (drives[drive].realtrack) return drives[drive].realtrack(drive, track); else return track; } void disc_stop(int drive) { drive ^= fdd_swap; if (drives[drive].stop) drives[drive].stop(drive); } void disc_set_drivesel(int drive) { drive ^= fdd_swap; disc_drivesel = drive; }