/* * 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. * * Configuration file handler. * * * * Authors: Sarah Walker, * Miran Grca, * Fred N. van Kempen, * Overdoze, * David Hrdlička, * * Copyright 2008-2019 Sarah Walker. * Copyright 2016-2019 Miran Grca. * Copyright 2017-2019 Fred N. van Kempen. * Copyright 2018,2019 David Hrdlička. * * NOTE: Forcing config files to be in Unicode encoding breaks * it on Windows XP, and possibly also Vista. Use the * -DANSI_CFG for use on these systems. */ #include #include #include #include #include #include #include #define HAVE_STDARG_H #include <86box/86box.h> #include "cpu.h" #include <86box/device.h> #include <86box/timer.h> #include <86box/cassette.h> #include <86box/cartridge.h> #include <86box/nvr.h> #include <86box/config.h> #include <86box/isamem.h> #include <86box/isartc.h> #include <86box/lpt.h> #include <86box/hdd.h> #include <86box/hdc.h> #include <86box/hdc_ide.h> #include <86box/fdd.h> #include <86box/fdc.h> #include <86box/fdc_ext.h> #include <86box/gameport.h> #include <86box/machine.h> #include <86box/mouse.h> #include <86box/network.h> #include <86box/scsi.h> #include <86box/scsi_device.h> #include <86box/cdrom.h> #include <86box/zip.h> #include <86box/mo.h> #include <86box/sound.h> #include <86box/midi.h> #include <86box/snd_mpu401.h> #include <86box/video.h> #include <86box/plat.h> #include <86box/plat_midi.h> #include <86box/plat_dir.h> #include <86box/ui.h> typedef struct _list_ { struct _list_ *next; } list_t; typedef struct { list_t list; char name[128]; list_t entry_head; } section_t; typedef struct { list_t list; char name[128]; char data[512]; wchar_t wdata[512]; } entry_t; #define list_add(new, head) { \ list_t *next = head; \ \ while (next->next != NULL) \ next = next->next; \ \ (next)->next = new; \ (new)->next = NULL; \ } #define list_delete(old, head) { \ list_t *next = head; \ \ while ((next)->next != old) { \ next = (next)->next; \ } \ \ (next)->next = (old)->next; \ if ((next) == (head)) \ (head)->next = (old)->next; \ } static list_t config_head; /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ static int backwards_compat = 0; static int backwards_compat2 = 0; #ifdef ENABLE_CONFIG_LOG int config_do_log = ENABLE_CONFIG_LOG; static void config_log(const char *fmt, ...) { va_list ap; if (config_do_log) { va_start(ap, fmt); pclog_ex(fmt, ap); va_end(ap); } } #else #define config_log(fmt, ...) #endif static section_t * find_section(char *name) { section_t *sec; char blank[] = ""; sec = (section_t *)config_head.next; if (name == NULL) name = blank; while (sec != NULL) { if (! strncmp(sec->name, name, sizeof(sec->name))) return(sec); sec = (section_t *)sec->list.next; } return(NULL); } void * config_find_section(char *name) { return (void *) find_section(name); } void config_rename_section(void *priv, char *name) { section_t *sec = (section_t *) priv; memset(sec->name, 0x00, sizeof(sec->name)); memcpy(sec->name, name, MIN(128, strlen(name) + 1)); } static entry_t * find_entry(section_t *section, char *name) { entry_t *ent; ent = (entry_t *)section->entry_head.next; while (ent != NULL) { if (! strncmp(ent->name, name, sizeof(ent->name))) return(ent); ent = (entry_t *)ent->list.next; } return(NULL); } static int entries_num(section_t *section) { entry_t *ent; int i = 0; ent = (entry_t *)section->entry_head.next; while (ent != NULL) { if (strlen(ent->name) > 0) i++; ent = (entry_t *)ent->list.next; } return(i); } static void delete_section_if_empty(char *head) { section_t *section; section = find_section(head); if (section == NULL) return; if (entries_num(section) == 0) { list_delete(§ion->list, &config_head); free(section); } } static section_t * create_section(char *name) { section_t *ns = malloc(sizeof(section_t)); memset(ns, 0x00, sizeof(section_t)); memcpy(ns->name, name, strlen(name) + 1); list_add(&ns->list, &config_head); return(ns); } static entry_t * create_entry(section_t *section, char *name) { entry_t *ne = malloc(sizeof(entry_t)); memset(ne, 0x00, sizeof(entry_t)); memcpy(ne->name, name, strlen(name) + 1); list_add(&ne->list, §ion->entry_head); return(ne); } #if 0 static void config_free(void) { section_t *sec, *ns; entry_t *ent; sec = (section_t *)config_head.next; while (sec != NULL) { ns = (section_t *)sec->list.next; ent = (entry_t *)sec->entry_head.next; while (ent != NULL) { entry_t *nent = (entry_t *)ent->list.next; free(ent); ent = nent; } free(sec); sec = ns; } } #endif static int config_detect_bom(char *fn) { FILE *f; unsigned char bom[4] = { 0, 0, 0, 0 }; #if defined(ANSI_CFG) || !defined(_WIN32) f = plat_fopen(fn, "rt"); #else f = plat_fopen(fn, "rt, ccs=UTF-8"); #endif if (f == NULL) return(0); fread(bom, 1, 3, f); if (bom[0] == 0xEF && bom[1] == 0xBB && bom[2] == 0xBF) { fclose(f); return 1; } fclose(f); return 0; } /* Read and parse the configuration file into memory. */ static int config_read(char *fn) { char sname[128], ename[128]; wchar_t buff[1024]; section_t *sec, *ns; entry_t *ne; int c, d, bom; FILE *f; bom = config_detect_bom(fn); #if defined(ANSI_CFG) || !defined(_WIN32) f = plat_fopen(fn, "rt"); #else f = plat_fopen(fn, "rt, ccs=UTF-8"); #endif if (f == NULL) return(0); sec = malloc(sizeof(section_t)); memset(sec, 0x00, sizeof(section_t)); memset(&config_head, 0x00, sizeof(list_t)); list_add(&sec->list, &config_head); if (bom) fseek(f, 3, SEEK_SET); while (1) { memset(buff, 0x00, sizeof(buff)); fgetws(buff, sizeof_w(buff), f); if (feof(f)) break; /* Make sure there are no stray newlines or hard-returns in there. */ if (wcslen(buff) > 0) if (buff[wcslen(buff)-1] == L'\n') buff[wcslen(buff)-1] = L'\0'; if (wcslen(buff) > 0) if (buff[wcslen(buff)-1] == L'\r') buff[wcslen(buff)-1] = L'\0'; /* Skip any leading whitespace. */ c = 0; while ((buff[c] == L' ') || (buff[c] == L'\t')) c++; /* Skip empty lines. */ if (buff[c] == L'\0') continue; /* Skip lines that (only) have a comment. */ if ((buff[c] == L'#') || (buff[c] == L';')) continue; if (buff[c] == L'[') { /*Section*/ c++; d = 0; while (buff[c] != L']' && buff[c]) wctomb(&(sname[d++]), buff[c++]); sname[d] = L'\0'; /* Is the section name properly terminated? */ if (buff[c] != L']') continue; /* Create a new section and insert it. */ ns = malloc(sizeof(section_t)); memset(ns, 0x00, sizeof(section_t)); memcpy(ns->name, sname, 128); list_add(&ns->list, &config_head); /* New section is now the current one. */ sec = ns; continue; } /* Get the variable name. */ d = 0; while ((buff[c] != L'=') && (buff[c] != L' ') && buff[c]) wctomb(&(ename[d++]), buff[c++]); ename[d] = L'\0'; /* Skip incomplete lines. */ if (buff[c] == L'\0') continue; /* Look for =, skip whitespace. */ while ((buff[c] == L'=' || buff[c] == L' ') && buff[c]) c++; /* Skip incomplete lines. */ if (buff[c] == L'\0') continue; /* This is where the value part starts. */ d = c; /* Allocate a new variable entry.. */ ne = malloc(sizeof(entry_t)); memset(ne, 0x00, sizeof(entry_t)); memcpy(ne->name, ename, 128); wcsncpy(ne->wdata, &buff[d], sizeof_w(ne->wdata)-1); ne->wdata[sizeof_w(ne->wdata)-1] = L'\0'; #ifdef _WIN32 /* Make sure the string is converted to UTF-8 rather than a legacy codepage */ c16stombs(ne->data, ne->wdata, sizeof(ne->data)); #else wcstombs(ne->data, ne->wdata, sizeof(ne->data)); #endif ne->data[sizeof(ne->data)-1] = '\0'; /* .. and insert it. */ list_add(&ne->list, &sec->entry_head); } (void)fclose(f); if (do_dump_config) config_dump(); return(1); } /* * Write the in-memory configuration to disk. * This is a public function, because the Settings UI * want to directly write the configuration after it * has changed it. */ void config_write(char *fn) { wchar_t wtemp[512]; section_t *sec; FILE *f; int fl = 0; #if defined(ANSI_CFG) || !defined(_WIN32) f = plat_fopen(fn, "wt"); #else f = plat_fopen(fn, "wt, ccs=UTF-8"); #endif if (f == NULL) return; sec = (section_t *)config_head.next; while (sec != NULL) { entry_t *ent; if (sec->name[0]) { mbstowcs(wtemp, sec->name, strlen(sec->name)+1); if (fl) fwprintf(f, L"\n[%ls]\n", wtemp); else fwprintf(f, L"[%ls]\n", wtemp); fl++; } ent = (entry_t *)sec->entry_head.next; while (ent != NULL) { if (ent->name[0] != '\0') { mbstowcs(wtemp, ent->name, 128); if (ent->wdata[0] == L'\0') fwprintf(f, L"%ls = \n", wtemp); else fwprintf(f, L"%ls = %ls\n", wtemp, ent->wdata); fl++; } ent = (entry_t *)ent->list.next; } sec = (section_t *)sec->list.next; } (void)fclose(f); } #if NOT_USED static void config_new(void) { #if defined(ANSI_CFG) || !defined(_WIN32) FILE *f = _wfopen(config_file, L"wt"); #else FILE *f = _wfopen(config_file, L"wt, ccs=UTF-8"); #endif if (file != NULL) (void)fclose(f); } #endif /* Load "General" section. */ static void load_general(void) { char *cat = "General"; char temp[512]; char *p; vid_resize = config_get_int(cat, "vid_resize", 0); if (vid_resize & ~3) vid_resize &= 3; memset(temp, '\0', sizeof(temp)); p = config_get_string(cat, "vid_renderer", "default"); vid_api = plat_vidapi(p); config_delete_var(cat, "vid_api"); video_fullscreen_scale = config_get_int(cat, "video_fullscreen_scale", 0); video_fullscreen_first = config_get_int(cat, "video_fullscreen_first", 1); video_filter_method = config_get_int(cat, "video_filter_method", 1); force_43 = !!config_get_int(cat, "force_43", 0); scale = config_get_int(cat, "scale", 1); if (scale > 3) scale = 3; dpi_scale = config_get_int(cat, "dpi_scale", 1); enable_overscan = !!config_get_int(cat, "enable_overscan", 0); vid_cga_contrast = !!config_get_int(cat, "vid_cga_contrast", 0); video_grayscale = config_get_int(cat, "video_grayscale", 0); video_graytype = config_get_int(cat, "video_graytype", 0); rctrl_is_lalt = config_get_int(cat, "rctrl_is_lalt", 0); update_icons = config_get_int(cat, "update_icons", 1); window_remember = config_get_int(cat, "window_remember", 0); if (window_remember || (vid_resize & 2)) { if (!window_remember) config_delete_var(cat, "window_remember"); p = config_get_string(cat, "window_coordinates", NULL); if (p == NULL) p = "0, 0, 0, 0"; sscanf(p, "%i, %i, %i, %i", &window_w, &window_h, &window_x, &window_y); } else { config_delete_var(cat, "window_remember"); config_delete_var(cat, "window_coordinates"); window_w = window_h = window_x = window_y = 0; } if (vid_resize & 2) { p = config_get_string(cat, "window_fixed_res", NULL); if (p == NULL) p = "120x120"; sscanf(p, "%ix%i", &fixed_size_x, &fixed_size_y); if (fixed_size_x < 120) fixed_size_x = 120; if (fixed_size_x > 2048) fixed_size_x = 2048; if (fixed_size_y < 120) fixed_size_y = 120; if (fixed_size_y > 2048) fixed_size_y = 2048; } else { config_delete_var(cat, "window_fixed_res"); fixed_size_x = fixed_size_y = 120; } sound_gain = config_get_int(cat, "sound_gain", 0); kbd_req_capture = config_get_int(cat, "kbd_req_capture", 0); hide_status_bar = config_get_int(cat, "hide_status_bar", 0); confirm_reset = config_get_int(cat, "confirm_reset", 1); confirm_exit = config_get_int(cat, "confirm_exit", 1); confirm_save = config_get_int(cat, "confirm_save", 1); p = config_get_string(cat, "language", NULL); if (p != NULL) { lang_id = plat_language_code(p); } p = config_get_string(cat, "iconset", NULL); if (p != NULL) strcpy(icon_set, p); else strcpy(icon_set, ""); #if USE_DISCORD enable_discord = !!config_get_int(cat, "enable_discord", 0); #endif #if defined(DEV_BRANCH) && defined(USE_OPENGL) video_framerate = config_get_int(cat, "video_gl_framerate", -1); video_vsync = config_get_int(cat, "video_gl_vsync", 0); strcpy_s(video_shader, sizeof(video_shader), config_get_string(cat, "video_gl_shader", "")); #endif } /* Load "Machine" section. */ static void load_machine(void) { char *cat = "Machine"; char *p, *migrate_from = NULL; int c, i, j, speed, legacy_mfg, legacy_cpu; double multi; p = config_get_string(cat, "machine", NULL); if (p != NULL) { migrate_from = p; if (! strcmp(p, "8500ttc")) /* migrate typo... */ machine = machine_get_machine_from_internal_name("8600ttc"); else if (! strcmp(p, "eagle_pcspirit")) /* ...legacy names... */ machine = machine_get_machine_from_internal_name("pcspirit"); else if (! strcmp(p, "multitech_pc700")) machine = machine_get_machine_from_internal_name("pc700"); else if (! strcmp(p, "ncr_pc4i")) machine = machine_get_machine_from_internal_name("pc4i"); else if (! strcmp(p, "olivetti_m19")) machine = machine_get_machine_from_internal_name("m19"); else if (! strcmp(p, "open_xt")) machine = machine_get_machine_from_internal_name("openxt"); else if (! strcmp(p, "open_at")) machine = machine_get_machine_from_internal_name("openat"); else if (! strcmp(p, "philips_p3105")) machine = machine_get_machine_from_internal_name("p3105"); else if (! strcmp(p, "philips_p3120")) machine = machine_get_machine_from_internal_name("p3120"); else if (! strcmp(p, "olivetti_m24")) machine = machine_get_machine_from_internal_name("m24"); else if (! strcmp(p, "olivetti_m240")) machine = machine_get_machine_from_internal_name("m240"); else if (! strcmp(p, "ncr_pc8")) machine = machine_get_machine_from_internal_name("pc8"); else if (! strcmp(p, "olivetti_m290")) machine = machine_get_machine_from_internal_name("m290"); else if (! strcmp(p, "ncr_3302")) machine = machine_get_machine_from_internal_name("3302"); else if (! strcmp(p, "ncr_pc916sx")) machine = machine_get_machine_from_internal_name("pc916sx"); else if (! strcmp(p, "cbm_sl386sx16")) machine = machine_get_machine_from_internal_name("cmdsl386sx16"); else if (! strcmp(p, "cbm_sl386sx25")) machine = machine_get_machine_from_internal_name("cmdsl386sx25"); else if (! strcmp(p, "mr586")) machine = machine_get_machine_from_internal_name("p54tp4xe_mr"); else if (! strcmp(p, "pcv240")) machine = machine_get_machine_from_internal_name("pcv90"); else if (! strcmp(p, "tsunamiatx")) machine = machine_get_machine_from_internal_name("s1846"); else if (! strcmp(p, "trinity371")) machine = machine_get_machine_from_internal_name("s1857"); else if (! strcmp(p, "63a")) machine = machine_get_machine_from_internal_name("63a1"); else if (! strcmp(p, "award386dx")) /* ...merged machines... */ machine = machine_get_machine_from_internal_name("award495"); else if (! strcmp(p, "ami386dx")) machine = machine_get_machine_from_internal_name("ami495"); else if (! strcmp(p, "mr386dx")) machine = machine_get_machine_from_internal_name("mr495"); else if (! strcmp(p, "award486")) machine = machine_get_machine_from_internal_name("award495"); else if (! strcmp(p, "ami486")) machine = machine_get_machine_from_internal_name("ami495"); else if (! strcmp(p, "mr486")) machine = machine_get_machine_from_internal_name("mr495"); else if (! strcmp(p, "fw6400gx_s1")) machine = machine_get_machine_from_internal_name("fw6400gx"); else if (! strcmp(p, "p54vl")) machine = machine_get_machine_from_internal_name("p5vl"); else if (! strcmp(p, "chariot")) machine = machine_get_machine_from_internal_name("fmb"); else if (! strcmp(p, "president")) { /* ...and removed machines */ machine = machine_get_machine_from_internal_name("mb500n"); migrate_from = NULL; } else if (! strcmp(p, "j656vxd")) { machine = machine_get_machine_from_internal_name("p55va"); migrate_from = NULL; } else { machine = machine_get_machine_from_internal_name(p); migrate_from = NULL; } } else machine = 0; /* This is for backwards compatibility. */ p = config_get_string(cat, "model", NULL); if (p != NULL) { migrate_from = p; if (! strcmp(p, "p55r2p4")) /* migrate typo */ machine = machine_get_machine_from_internal_name("p55t2p4"); else { machine = machine_get_machine_from_internal_name(p); migrate_from = NULL; } config_delete_var(cat, "model"); } if (machine >= machine_count()) machine = machine_count() - 1; /* Copy NVR files when migrating a machine to a new internal name. */ if (migrate_from) { char old_fn[256]; strcpy(old_fn, migrate_from); strcat(old_fn, "."); c = strlen(old_fn); char new_fn[256]; strcpy(new_fn, machines[machine].internal_name); strcat(new_fn, "."); i = strlen(new_fn); /* Iterate through NVR files. */ DIR *dirp = opendir(nvr_path(".")); if (dirp) { struct dirent *entry; while ((entry = readdir(dirp))) { /* Check if this file corresponds to the old name. */ if (strncmp(entry->d_name, old_fn, c)) continue; /* Add extension to the new name. */ strcpy(&new_fn[i], &entry->d_name[c]); /* Only copy if a file with the new name doesn't already exist. */ FILE *g = nvr_fopen(new_fn, "rb"); if (!g) { FILE *f = nvr_fopen(entry->d_name, "rb"); g = nvr_fopen(new_fn, "wb"); uint8_t buf[4096]; while ((j = fread(buf, 1, sizeof(buf), f))) fwrite(buf, 1, j, g); fclose(f); } fclose(g); } } } cpu_override = config_get_int(cat, "cpu_override", 0); cpu_f = NULL; p = config_get_string(cat, "cpu_family", NULL); if (p) { if (! strcmp(p, "enh_am486dx2")) /* migrate modified names */ cpu_f = cpu_get_family("am486dx2_slenh"); else if (! strcmp(p, "enh_am486dx4")) cpu_f = cpu_get_family("am486dx4_slenh"); else cpu_f = cpu_get_family(p); if (cpu_f && !cpu_family_is_eligible(cpu_f, machine)) /* only honor eligible families */ cpu_f = NULL; } else { /* Backwards compatibility with the previous CPU model system. */ legacy_mfg = config_get_int(cat, "cpu_manufacturer", 0); legacy_cpu = config_get_int(cat, "cpu", 0); /* Check if either legacy ID is present, and if they are within bounds. */ if (((legacy_mfg > 0) || (legacy_cpu > 0)) && (legacy_mfg >= 0) && (legacy_mfg < 4) && (legacy_cpu >= 0)) { /* Look for a machine entry on the legacy table. */ p = machine_get_internal_name(); c = 0; while (cpu_legacy_table[c].machine) { if (!strcmp(p, cpu_legacy_table[c].machine)) break; c++; } if (cpu_legacy_table[c].machine) { /* Determine the amount of CPU entries on the table. */ i = -1; while (cpu_legacy_table[c].tables[legacy_mfg][++i].family); /* If the CPU ID is out of bounds, reset to the last known ID. */ if (legacy_cpu >= i) legacy_cpu = i - 1; const cpu_legacy_table_t *legacy_table_entry = &cpu_legacy_table[c].tables[legacy_mfg][legacy_cpu]; /* Check if the referenced family exists. */ cpu_f = cpu_get_family(legacy_table_entry->family); if (cpu_f) { /* Save the new values. */ config_set_string(cat, "cpu_family", (char *) legacy_table_entry->family); config_set_int(cat, "cpu_speed", legacy_table_entry->rspeed); config_set_double(cat, "cpu_multi", legacy_table_entry->multi); } } } } if (cpu_f) { speed = config_get_int(cat, "cpu_speed", 0); multi = config_get_double(cat, "cpu_multi", 0); /* Find the configured CPU. */ cpu = 0; c = 0; i = 256; while (cpu_f->cpus[cpu].cpu_type) { if (cpu_is_eligible(cpu_f, cpu, machine)) { /* skip ineligible CPUs */ if ((cpu_f->cpus[cpu].rspeed == speed) && (cpu_f->cpus[cpu].multi == multi)) /* exact speed/multiplier match */ break; else if ((cpu_f->cpus[cpu].rspeed >= speed) && (i == 256)) /* closest speed match */ i = cpu; c = cpu; /* store fastest eligible CPU */ } cpu++; } if (!cpu_f->cpus[cpu].cpu_type) /* if no exact match was found, use closest matching faster CPU, or fastest eligible CPU */ cpu = MIN(i, c); } else { /* default */ /* Find first eligible family. */ c = 0; while (!cpu_family_is_eligible(&cpu_families[c], machine)) { if (cpu_families[c++].package == 0) { /* end of list */ fatal("No eligible CPU families for the selected machine\n"); return; } } cpu_f = (cpu_family_t *) &cpu_families[c]; /* Find first eligible CPU in that family. */ cpu = 0; while (!cpu_is_eligible(cpu_f, cpu, machine)) { if (cpu_f->cpus[cpu++].cpu_type == 0) { /* end of list */ cpu = 0; break; } } } cpu_s = (CPU *) &cpu_f->cpus[cpu]; cpu_waitstates = config_get_int(cat, "cpu_waitstates", 0); p = (char *)config_get_string(cat, "fpu_type", "none"); fpu_type = fpu_get_type(cpu_f, cpu, p); mem_size = config_get_int(cat, "mem_size", 4096); #if 0 if (mem_size < (((machines[machine].flags & MACHINE_AT) && (machines[machine].ram_granularity < 128)) ? machines[machine].min_ram*1024 : machines[machine].min_ram)) mem_size = (((machines[machine].flags & MACHINE_AT) && (machines[machine].ram_granularity < 128)) ? machines[machine].min_ram*1024 : machines[machine].min_ram); #endif if (mem_size > 2097152) mem_size = 2097152; cpu_use_dynarec = !!config_get_int(cat, "cpu_use_dynarec", 0); p = config_get_string(cat, "time_sync", NULL); if (p != NULL) { if (!strcmp(p, "disabled")) time_sync = TIME_SYNC_DISABLED; else if (!strcmp(p, "local")) time_sync = TIME_SYNC_ENABLED; else if (!strcmp(p, "utc") || !strcmp(p, "gmt")) time_sync = TIME_SYNC_ENABLED | TIME_SYNC_UTC; else time_sync = TIME_SYNC_ENABLED; } else time_sync = !!config_get_int(cat, "enable_sync", 1); /* Remove this after a while.. */ config_delete_var(cat, "nvr_path"); config_delete_var(cat, "enable_sync"); /* Set up the architecture flags. */ AT = IS_AT(machine); PCI = IS_ARCH(machine, MACHINE_BUS_PCI); } /* Load "Video" section. */ static void load_video(void) { char *cat = "Video"; char *p; int free_p = 0; if (machines[machine].flags & MACHINE_VIDEO_ONLY) { config_delete_var(cat, "gfxcard"); gfxcard = VID_INTERNAL; } else { p = config_get_string(cat, "gfxcard", NULL); if (p == NULL) { if (machines[machine].flags & MACHINE_VIDEO) { p = (char *)malloc((strlen("internal")+1)*sizeof(char)); strcpy(p, "internal"); } else { p = (char *)malloc((strlen("none")+1)*sizeof(char)); strcpy(p, "none"); } free_p = 1; } gfxcard = video_get_video_from_internal_name(p); if (free_p) free(p); } voodoo_enabled = !!config_get_int(cat, "voodoo", 0); } /* Load "Input Devices" section. */ static void load_input_devices(void) { char *cat = "Input devices"; char temp[512]; int c, d; char *p; p = config_get_string(cat, "mouse_type", NULL); if (p != NULL) mouse_type = mouse_get_from_internal_name(p); else mouse_type = 0; p = config_get_string(cat, "joystick_type", NULL); if (p != NULL) { joystick_type = joystick_get_from_internal_name(p); if (!joystick_type) { /* Try to read an integer for backwards compatibility with old configs */ c = config_get_int(cat, "joystick_type", 8); if ((c >= 0) && (c < 8)) /* "None" was type 8 instead of 0 previously, shift the number accordingly */ joystick_type = c + 1; else joystick_type = 0; } } else joystick_type = 0; for (c=0; c 511) fatal("load_sound(): strlen(p) > 511\n"); else strncpy(temp, p, strlen(p) + 1); if (!strcmp(temp, "float") || !strcmp(temp, "1")) sound_is_float = 1; else sound_is_float = 0; } /* Load "Network" section. */ static void load_network(void) { char *cat = "Network"; char *p; p = config_get_string(cat, "net_type", NULL); if (p != NULL) { if (!strcmp(p, "pcap") || !strcmp(p, "1")) network_type = NET_TYPE_PCAP; else if (!strcmp(p, "slirp") || !strcmp(p, "2")) network_type = NET_TYPE_SLIRP; else network_type = NET_TYPE_NONE; } else network_type = NET_TYPE_NONE; memset(network_host, '\0', sizeof(network_host)); p = config_get_string(cat, "net_host_device", NULL); if (p == NULL) { p = config_get_string(cat, "net_host_device", NULL); if (p != NULL) config_delete_var(cat, "net_host_device"); } if (p != NULL) { if ((network_dev_to_id(p) == -1) || (network_ndev == 1)) { if ((network_ndev == 1) && strcmp(network_host, "none")) { ui_msgbox_header(MBX_ERROR, (wchar_t *) IDS_2094, (wchar_t *) IDS_2129); } else if (network_dev_to_id(p) == -1) { ui_msgbox_header(MBX_ERROR, (wchar_t *) IDS_2095, (wchar_t *) IDS_2129); } strcpy(network_host, "none"); } else { strncpy(network_host, p, sizeof(network_host) - 1); } } else strcpy(network_host, "none"); p = config_get_string(cat, "net_card", NULL); if (p != NULL) network_card = network_card_get_from_internal_name(p); else network_card = 0; } /* Load "Ports" section. */ static void load_ports(void) { char *cat = "Ports (COM & LPT)"; char *p; char temp[512]; int c, d; for (c = 0; c < SERIAL_MAX; c++) { sprintf(temp, "serial%d_enabled", c + 1); serial_enabled[c] = !!config_get_int(cat, temp, (c >= 2) ? 0 : 1); } for (c = 0; c < PARALLEL_MAX; c++) { sprintf(temp, "lpt%d_enabled", c + 1); lpt_ports[c].enabled = !!config_get_int(cat, temp, (c == 0) ? 1 : 0); sprintf(temp, "lpt%d_device", c + 1); p = (char *) config_get_string(cat, temp, "none"); lpt_ports[c].device = lpt_device_get_from_internal_name(p); } /* Legacy config compatibility. */ d = config_get_int(cat, "lpt_enabled", 2); if (d < 2) { for (c = 0; c < PARALLEL_MAX; c++) lpt_ports[c].enabled = d; } config_delete_var(cat, "lpt_enabled"); } /* Load "Storage Controllers" section. */ static void load_storage_controllers(void) { char *cat = "Storage controllers"; char *p, temp[512]; int c, min = 0; int free_p = 0; /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ backwards_compat2 = (find_section(cat) == NULL); /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ p = config_get_string(cat, "scsicard", NULL); if (p != NULL) { scsi_card_current[0] = scsi_card_get_from_internal_name(p); min++; } config_delete_var(cat, "scsi_card"); for (c = min; c < SCSI_BUS_MAX; c++) { sprintf(temp, "scsicard_%d", c + 1); p = config_get_string(cat, temp, NULL); if (p != NULL) scsi_card_current[c] = scsi_card_get_from_internal_name(p); else scsi_card_current[c] = 0; } p = config_get_string(cat, "fdc", NULL); if (p != NULL) fdc_type = fdc_card_get_from_internal_name(p); else fdc_type = FDC_INTERNAL; p = config_get_string(cat, "hdc", NULL); if (p == NULL) { if (machines[machine].flags & MACHINE_HDC) { p = (char *)malloc((strlen("internal")+1)*sizeof(char)); strcpy(p, "internal"); } else { p = (char *)malloc((strlen("none")+1)*sizeof(char)); strcpy(p, "none"); } free_p = 1; } if (!strcmp(p, "mfm_xt")) hdc_current = hdc_get_from_internal_name("st506_xt"); else if (!strcmp(p, "mfm_xt_dtc5150x")) hdc_current = hdc_get_from_internal_name("st506_xt_dtc5150x"); else if (!strcmp(p, "mfm_at")) hdc_current = hdc_get_from_internal_name("st506_at"); else if (!strcmp(p, "vlb_isa")) hdc_current = hdc_get_from_internal_name("ide_vlb"); else if (!strcmp(p, "vlb_isa_2ch")) hdc_current = hdc_get_from_internal_name("ide_vlb_2ch"); else hdc_current = hdc_get_from_internal_name(p); if (free_p) { free(p); p = NULL; } ide_ter_enabled = !!config_get_int(cat, "ide_ter", 0); ide_qua_enabled = !!config_get_int(cat, "ide_qua", 0); cassette_enable = !!config_get_int(cat, "cassette_enabled", AT ? 0 : 1); p = config_get_string(cat, "cassette_file", ""); if (strlen(p) > 511) fatal("load_storage_controllers(): strlen(p) > 511\n"); else strncpy(cassette_fname, p, MIN(511, strlen(p) + 1)); p = config_get_string(cat, "cassette_mode", ""); if (strlen(p) > 511) fatal("load_storage_controllers(): strlen(p) > 511\n"); else strncpy(cassette_mode, p, MIN(511, strlen(p) + 1)); cassette_pos = config_get_int(cat, "cassette_position", 0); cassette_srate = config_get_int(cat, "cassette_srate", 44100); cassette_append = !!config_get_int(cat, "cassette_append", 0); cassette_pcm = config_get_int(cat, "cassette_pcm", 0); cassette_ui_writeprot = !!config_get_int(cat, "cassette_writeprot", 0); for (c=0; c<2; c++) { sprintf(temp, "cartridge_%02i_fn", c + 1); p = config_get_string(cat, temp, ""); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(floppyfns[c], &wp[wcslen(usr_path)], sizeof_w(cart_fns[c])); } else #endif if (strlen(p) > 511) fatal("load_storage_controllers(): strlen(p) > 511\n"); else strncpy(cart_fns[c], p, strlen(p) + 1); } } /* Load "Hard Disks" section. */ static void load_hard_disks(void) { char *cat = "Hard disks"; char temp[512], tmp2[512]; char s[512]; int c; char *p; uint32_t max_spt, max_hpc, max_tracks; uint32_t board = 0, dev = 0; memset(temp, '\0', sizeof(temp)); for (c=0; c max_spt) hdd[c].spt = max_spt; if (hdd[c].hpc > max_hpc) hdd[c].hpc = max_hpc; if (hdd[c].tracks > max_tracks) hdd[c].tracks = max_tracks; /* MFM/RLL */ sprintf(temp, "hdd_%02i_mfm_channel", c+1); if (hdd[c].bus == HDD_BUS_MFM) hdd[c].mfm_channel = !!config_get_int(cat, temp, c & 1); else config_delete_var(cat, temp); /* XTA */ sprintf(temp, "hdd_%02i_xta_channel", c+1); if (hdd[c].bus == HDD_BUS_XTA) hdd[c].xta_channel = !!config_get_int(cat, temp, c & 1); else config_delete_var(cat, temp); /* ESDI */ sprintf(temp, "hdd_%02i_esdi_channel", c+1); if (hdd[c].bus == HDD_BUS_ESDI) hdd[c].esdi_channel = !!config_get_int(cat, temp, c & 1); else config_delete_var(cat, temp); /* IDE */ sprintf(temp, "hdd_%02i_ide_channel", c+1); if (hdd[c].bus == HDD_BUS_IDE) { sprintf(tmp2, "%01u:%01u", c>>1, c&1); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%01u", &board, &dev); board &= 3; dev &= 1; hdd[c].ide_channel = (board<<1) + dev; if (hdd[c].ide_channel > 7) hdd[c].ide_channel = 7; } else { config_delete_var(cat, temp); } /* SCSI */ if (hdd[c].bus == HDD_BUS_SCSI) { sprintf(temp, "hdd_%02i_scsi_location", c+1); sprintf(tmp2, "%01u:%02u", SCSI_BUS_MAX, c+2); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%02u", &board, &dev); if (board >= SCSI_BUS_MAX) { /* Invalid bus - check legacy ID */ sprintf(temp, "hdd_%02i_scsi_id", c+1); hdd[c].scsi_id = config_get_int(cat, temp, c+2); if (hdd[c].scsi_id > 15) hdd[c].scsi_id = 15; } else { board %= SCSI_BUS_MAX; dev &= 15; hdd[c].scsi_id = (board<<4)+dev; } } else { sprintf(temp, "hdd_%02i_scsi_location", c+1); config_delete_var(cat, temp); } sprintf(temp, "hdd_%02i_scsi_id", c+1); config_delete_var(cat, temp); memset(hdd[c].fn, 0x00, sizeof(hdd[c].fn)); memset(hdd[c].prev_fn, 0x00, sizeof(hdd[c].prev_fn)); sprintf(temp, "hdd_%02i_fn", c+1); p = config_get_string(cat, temp, ""); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ /* * ANOTHER NOTE: * When loading differencing VHDs, the absolute path is required. * So we should not convert absolute paths to relative. -sards */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the CFG path. Just strip * that off for now... */ wcsncpy(hdd[c].fn, &wp[wcslen(usr_path)], sizeof_w(hdd[c].fn)); } else #endif if (plat_path_abs(p)) { strncpy(hdd[c].fn, p, sizeof(hdd[c].fn) - 1); } else { plat_append_filename(hdd[c].fn, usr_path, p); } /* If disk is empty or invalid, mark it for deletion. */ if (! hdd_is_valid(c)) { sprintf(temp, "hdd_%02i_parameters", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_preide_channels", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_ide_channels", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_fn", c+1); config_delete_var(cat, temp); } sprintf(temp, "hdd_%02i_mfm_channel", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_ide_channel", c+1); config_delete_var(cat, temp); } } /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ /* Load "Floppy Drives" section. */ static void load_floppy_drives(void) { char *cat = "Floppy drives"; char temp[512], *p; int c; if (!backwards_compat) return; for (c=0; c 13) fdd_set_type(c, 13); config_delete_var(cat, temp); sprintf(temp, "fdd_%02i_fn", c + 1); p = config_get_string(cat, temp, ""); config_delete_var(cat, temp); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(floppyfns[c], &wp[wcslen(usr_path)], sizeof_w(floppyfns[c])); } else #endif if (strlen(p) > 511) fatal("load_floppy_drives(): strlen(p) > 511\n"); else strncpy(floppyfns[c], p, strlen(p) + 1); /* if (*wp != L'\0') config_log("Floppy%d: %ls\n", c, floppyfns[c]); */ sprintf(temp, "fdd_%02i_writeprot", c+1); ui_writeprot[c] = !!config_get_int(cat, temp, 0); config_delete_var(cat, temp); sprintf(temp, "fdd_%02i_turbo", c + 1); fdd_set_turbo(c, !!config_get_int(cat, temp, 0)); config_delete_var(cat, temp); sprintf(temp, "fdd_%02i_check_bpb", c+1); fdd_set_check_bpb(c, !!config_get_int(cat, temp, 1)); config_delete_var(cat, temp); } delete_section_if_empty(cat); } /* Load "Floppy and CD-ROM Drives" section. */ static void load_floppy_and_cdrom_drives(void) { char *cat = "Floppy and CD-ROM drives"; char temp[512], tmp2[512], *p; char s[512]; unsigned int board = 0, dev = 0; int c, d = 0; /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ backwards_compat = (find_section(cat) == NULL); memset(temp, 0x00, sizeof(temp)); for (c=0; c 13) fdd_set_type(c, 13); sprintf(temp, "fdd_%02i_fn", c + 1); p = config_get_string(cat, temp, ""); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(floppyfns[c], &wp[wcslen(usr_path)], sizeof_w(floppyfns[c])); } else #endif if (strlen(p) > 511) fatal("load_floppy_and_cdrom_drives(): strlen(p) > 511\n"); else strncpy(floppyfns[c], p, strlen(p) + 1); /* if (*wp != L'\0') config_log("Floppy%d: %ls\n", c, floppyfns[c]); */ sprintf(temp, "fdd_%02i_writeprot", c+1); ui_writeprot[c] = !!config_get_int(cat, temp, 0); sprintf(temp, "fdd_%02i_turbo", c + 1); fdd_set_turbo(c, !!config_get_int(cat, temp, 0)); sprintf(temp, "fdd_%02i_check_bpb", c+1); fdd_set_check_bpb(c, !!config_get_int(cat, temp, 1)); /* Check whether each value is default, if yes, delete it so that only non-default values will later be saved. */ if (fdd_get_type(c) == ((c < 2) ? 2 : 0)) { sprintf(temp, "fdd_%02i_type", c+1); config_delete_var(cat, temp); } if (strlen(floppyfns[c]) == 0) { sprintf(temp, "fdd_%02i_fn", c+1); config_delete_var(cat, temp); } if (ui_writeprot[c] == 0) { sprintf(temp, "fdd_%02i_writeprot", c+1); config_delete_var(cat, temp); } if (fdd_get_turbo(c) == 0) { sprintf(temp, "fdd_%02i_turbo", c+1); config_delete_var(cat, temp); } if (fdd_get_check_bpb(c) == 1) { sprintf(temp, "fdd_%02i_check_bpb", c+1); config_delete_var(cat, temp); } } memset(temp, 0x00, sizeof(temp)); for (c=0; c>1, (c+2)&1); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%01u", &board, &dev); board &= 3; dev &= 1; cdrom[c].ide_channel = (board<<1)+dev; if (cdrom[c].ide_channel > 7) cdrom[c].ide_channel = 7; } else if (cdrom[c].bus_type == CDROM_BUS_SCSI) { sprintf(temp, "cdrom_%02i_scsi_location", c+1); sprintf(tmp2, "%01u:%02u", SCSI_BUS_MAX, c+2); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%02u", &board, &dev); if (board >= SCSI_BUS_MAX) { /* Invalid bus - check legacy ID */ sprintf(temp, "cdrom_%02i_scsi_id", c+1); cdrom[c].scsi_device_id = config_get_int(cat, temp, c+2); if (cdrom[c].scsi_device_id > 15) cdrom[c].scsi_device_id = 15; } else { board %= SCSI_BUS_MAX; dev &= 15; cdrom[c].scsi_device_id = (board<<4)+dev; } } if (cdrom[c].bus_type != CDROM_BUS_ATAPI) { sprintf(temp, "cdrom_%02i_ide_channel", c+1); config_delete_var(cat, temp); } if (cdrom[c].bus_type != CDROM_BUS_SCSI) { sprintf(temp, "cdrom_%02i_scsi_location", c+1); config_delete_var(cat, temp); } sprintf(temp, "cdrom_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_image_path", c+1); p = config_get_string(cat, temp, ""); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(cdrom[c].image_path, &wp[wcslen(usr_path)], sizeof_w(cdrom[c].image_path)); } else #endif strncpy(cdrom[c].image_path, p, sizeof(cdrom[c].image_path) - 1); if (cdrom[c].host_drive && (cdrom[c].host_drive != 200)) cdrom[c].host_drive = 0; if ((cdrom[c].host_drive == 0x200) && (strlen(cdrom[c].image_path) == 0)) cdrom[c].host_drive = 0; /* If the CD-ROM is disabled, delete all its variables. */ if (cdrom[c].bus_type == CDROM_BUS_DISABLED) { sprintf(temp, "cdrom_%02i_host_drive", c+1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_parameters", c+1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_ide_channel", c+1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_image_path", c+1); config_delete_var(cat, temp); } sprintf(temp, "cdrom_%02i_iso_path", c+1); config_delete_var(cat, temp); } } /* Load "Other Removable Devices" section. */ static void load_other_removable_devices(void) { char *cat = "Other removable devices"; char temp[512], tmp2[512], *p; char s[512]; unsigned int board = 0, dev = 0; int c, d = 0; /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ if (backwards_compat) { memset(temp, 0x00, sizeof(temp)); for (c=0; c>1, (c+2)&1); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%01u", &board, &dev); board &= 3; dev &= 1; cdrom[c].ide_channel = (board<<1)+dev; if (cdrom[c].ide_channel > 7) cdrom[c].ide_channel = 7; config_delete_var(cat, temp); } else if (cdrom[c].bus_type == CDROM_BUS_SCSI) { sprintf(temp, "cdrom_%02i_scsi_id", c+1); cdrom[c].scsi_device_id = config_get_int(cat, temp, c+2); if (cdrom[c].scsi_device_id > 15) cdrom[c].scsi_device_id = 15; config_delete_var(cat, temp); } sprintf(temp, "cdrom_%02i_image_path", c+1); p = config_get_string(cat, temp, ""); config_delete_var(cat, temp); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(cdrom[c].image_path, &wp[wcslen(usr_path)], sizeof_w(cdrom[c].image_path)); } else #endif strncpy(cdrom[c].image_path, p, sizeof(cdrom[c].image_path) - 1); if (cdrom[c].host_drive && (cdrom[c].host_drive != 200)) cdrom[c].host_drive = 0; if ((cdrom[c].host_drive == 0x200) && (strlen(cdrom[c].image_path) == 0)) cdrom[c].host_drive = 0; } } backwards_compat = 0; memset(temp, 0x00, sizeof(temp)); for (c=0; c>1, (c+2)&1); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%01u", &board, &dev); board &= 3; dev &= 1; zip_drives[c].ide_channel = (board<<1)+dev; if (zip_drives[c].ide_channel > 7) zip_drives[c].ide_channel = 7; } else if (zip_drives[c].bus_type == ZIP_BUS_SCSI) { sprintf(temp, "zip_%02i_scsi_location", c+1); sprintf(tmp2, "%01u:%02u", SCSI_BUS_MAX, c+2); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%02u", &board, &dev); if (board >= SCSI_BUS_MAX) { /* Invalid bus - check legacy ID */ sprintf(temp, "zip_%02i_scsi_id", c+1); zip_drives[c].scsi_device_id = config_get_int(cat, temp, c+2); if (zip_drives[c].scsi_device_id > 15) zip_drives[c].scsi_device_id = 15; } else { board %= SCSI_BUS_MAX; dev &= 15; zip_drives[c].scsi_device_id = (board<<4)+dev; } } if (zip_drives[c].bus_type != ZIP_BUS_ATAPI) { sprintf(temp, "zip_%02i_ide_channel", c+1); config_delete_var(cat, temp); } if (zip_drives[c].bus_type != ZIP_BUS_SCSI) { sprintf(temp, "zip_%02i_scsi_location", c+1); config_delete_var(cat, temp); } sprintf(temp, "zip_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_image_path", c+1); p = config_get_string(cat, temp, ""); #if 0 /* * NOTE: * Temporary hack to remove the absolute * path currently saved in most config * files. We should remove this before * finalizing this release! --FvK */ if (! wcsnicmp(wp, usr_path, wcslen(usr_path))) { /* * Yep, its absolute and prefixed * with the EXE path. Just strip * that off for now... */ wcsncpy(zip_drives[c].image_path, &wp[wcslen(usr_path)], sizeof_w(zip_drives[c].image_path)); } else #endif strncpy(zip_drives[c].image_path, p, sizeof(zip_drives[c].image_path) - 1); /* If the CD-ROM is disabled, delete all its variables. */ if (zip_drives[c].bus_type == ZIP_BUS_DISABLED) { sprintf(temp, "zip_%02i_host_drive", c+1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_parameters", c+1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_ide_channel", c+1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_image_path", c+1); config_delete_var(cat, temp); } sprintf(temp, "zip_%02i_iso_path", c+1); config_delete_var(cat, temp); } memset(temp, 0x00, sizeof(temp)); for (c=0; c>1, (c+2)&1); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%01u", &board, &dev); board &= 3; dev &= 1; mo_drives[c].ide_channel = (board<<1)+dev; if (mo_drives[c].ide_channel > 7) mo_drives[c].ide_channel = 7; } else if (mo_drives[c].bus_type == MO_BUS_SCSI) { sprintf(temp, "mo_%02i_scsi_location", c+1); sprintf(tmp2, "%01u:%02u", SCSI_BUS_MAX, c+2); p = config_get_string(cat, temp, tmp2); sscanf(p, "%01u:%02u", &board, &dev); if (board >= SCSI_BUS_MAX) { /* Invalid bus - check legacy ID */ sprintf(temp, "mo_%02i_scsi_id", c+1); mo_drives[c].scsi_device_id = config_get_int(cat, temp, c+2); if (mo_drives[c].scsi_device_id > 15) mo_drives[c].scsi_device_id = 15; } else { board %= SCSI_BUS_MAX; dev &= 15; mo_drives[c].scsi_device_id = (board<<4)+dev; } } if (mo_drives[c].bus_type != MO_BUS_ATAPI) { sprintf(temp, "mo_%02i_ide_channel", c+1); config_delete_var(cat, temp); } if (mo_drives[c].bus_type != MO_BUS_SCSI) { sprintf(temp, "mo_%02i_scsi_location", c+1); config_delete_var(cat, temp); } sprintf(temp, "mo_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_image_path", c+1); p = config_get_string(cat, temp, ""); strncpy(mo_drives[c].image_path, p, sizeof(mo_drives[c].image_path) - 1); /* If the CD-ROM is disabled, delete all its variables. */ if (mo_drives[c].bus_type == MO_BUS_DISABLED) { sprintf(temp, "mo_%02i_host_drive", c+1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_parameters", c+1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_ide_channel", c+1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_image_path", c+1); config_delete_var(cat, temp); } sprintf(temp, "mo_%02i_iso_path", c+1); config_delete_var(cat, temp); } } /* Load "Other Peripherals" section. */ static void load_other_peripherals(void) { char *cat = "Other peripherals"; char *p; char temp[512]; int c, free_p = 0; if (backwards_compat2) { p = config_get_string(cat, "scsicard", NULL); if (p != NULL) scsi_card_current[0] = scsi_card_get_from_internal_name(p); else scsi_card_current[0] = 0; config_delete_var(cat, "scsicard"); p = config_get_string(cat, "fdc", NULL); if (p != NULL) fdc_type = fdc_card_get_from_internal_name(p); else fdc_type = FDC_INTERNAL; config_delete_var(cat, "fdc"); p = config_get_string(cat, "hdc", NULL); if (p == NULL) { if (machines[machine].flags & MACHINE_HDC) { p = (char *)malloc((strlen("internal")+1)*sizeof(char)); strcpy(p, "internal"); } else { p = (char *)malloc((strlen("none")+1)*sizeof(char)); strcpy(p, "none"); } free_p = 1; } if (!strcmp(p, "mfm_xt")) hdc_current = hdc_get_from_internal_name("st506_xt"); else if (!strcmp(p, "mfm_xt_dtc5150x")) hdc_current = hdc_get_from_internal_name("st506_xt_dtc5150x"); else if (!strcmp(p, "mfm_at")) hdc_current = hdc_get_from_internal_name("st506_at"); else if (!strcmp(p, "vlb_isa")) hdc_current = hdc_get_from_internal_name("ide_vlb"); else if (!strcmp(p, "vlb_isa_2ch")) hdc_current = hdc_get_from_internal_name("ide_vlb_2ch"); else hdc_current = hdc_get_from_internal_name(p); config_delete_var(cat, "hdc"); if (free_p) { free(p); p = NULL; } ide_ter_enabled = !!config_get_int(cat, "ide_ter", 0); config_delete_var(cat, "ide_ter"); ide_qua_enabled = !!config_get_int(cat, "ide_qua", 0); config_delete_var(cat, "ide_qua"); } backwards_compat2 = 0; bugger_enabled = !!config_get_int(cat, "bugger_enabled", 0); postcard_enabled = !!config_get_int(cat, "postcard_enabled", 0); for (c = 0; c < ISAMEM_MAX; c++) { sprintf(temp, "isamem%d_type", c); p = config_get_string(cat, temp, "none"); isamem_type[c] = isamem_get_from_internal_name(p); } p = config_get_string(cat, "isartc_type", "none"); isartc_type = isartc_get_from_internal_name(p); } /* Load the specified or a default configuration file. */ void config_load(void) { int i; config_log("Loading config file '%s'..\n", cfg_path); memset(hdd, 0, sizeof(hard_disk_t)); memset(cdrom, 0, sizeof(cdrom_t) * CDROM_NUM); #ifdef USE_IOCTL memset(cdrom_ioctl, 0, sizeof(cdrom_ioctl_t) * CDROM_NUM); #endif memset(zip_drives, 0, sizeof(zip_drive_t)); if (! config_read(cfg_path)) { config_changed = 1; cpu_f = (cpu_family_t *) &cpu_families[0]; cpu = 0; kbd_req_capture = 0; hide_status_bar = 0; scale = 1; machine = machine_get_machine_from_internal_name("ibmpc"); dpi_scale = 1; /* Set up the architecture flags. */ AT = IS_AT(machine); PCI = IS_ARCH(machine, MACHINE_BUS_PCI); fpu_type = fpu_get_type(cpu_f, cpu, "none"); gfxcard = video_get_video_from_internal_name("cga"); vid_api = plat_vidapi("default"); vid_resize = 0; video_fullscreen_first = 1; time_sync = TIME_SYNC_ENABLED; hdc_current = hdc_get_from_internal_name("none"); serial_enabled[0] = 1; serial_enabled[1] = 1; serial_enabled[2] = 0; serial_enabled[3] = 0; lpt_ports[0].enabled = 1; lpt_ports[1].enabled = 0; lpt_ports[2].enabled = 0; for (i = 0; i < FDD_NUM; i++) { if (i < 2) fdd_set_type(i, 2); else fdd_set_type(i, 0); fdd_set_turbo(i, 0); fdd_set_check_bpb(i, 1); } /* Unmute the CD audio on the first CD-ROM drive. */ cdrom[0].sound_on = 1; mem_size = 640; isartc_type = 0; for (i = 0; i < ISAMEM_MAX; i++) isamem_type[i] = 0; cassette_enable = AT ? 0 : 1; memset(cassette_fname, 0x00, sizeof(cassette_fname)); memcpy(cassette_mode, "load", strlen("load") + 1); cassette_pos = 0; cassette_srate = 44100; cassette_append = 0; cassette_pcm = 0; cassette_ui_writeprot = 0; config_log("Config file not present or invalid!\n"); } else { load_general(); /* General */ load_machine(); /* Machine */ load_video(); /* Video */ load_input_devices(); /* Input devices */ load_sound(); /* Sound */ load_network(); /* Network */ load_ports(); /* Ports (COM & LPT) */ load_storage_controllers(); /* Storage controllers */ load_hard_disks(); /* Hard disks */ load_floppy_and_cdrom_drives(); /* Floppy and CD-ROM drives */ /* TODO: Backwards compatibility, get rid of this when enough time has passed. */ load_floppy_drives(); /* Floppy drives */ load_other_removable_devices(); /* Other removable devices */ load_other_peripherals(); /* Other peripherals */ /* Mark the configuration as changed. */ config_changed = 1; config_log("Config loaded.\n\n"); } video_copy = (video_grayscale || invert_display) ? video_transform_copy : memcpy; } /* Save "General" section. */ static void save_general(void) { char *cat = "General"; char temp[512]; char *va_name; config_set_int(cat, "vid_resize", vid_resize); if (vid_resize == 0) config_delete_var(cat, "vid_resize"); va_name = plat_vidapi_name(vid_api); if (!strcmp(va_name, "default")) { config_delete_var(cat, "vid_renderer"); } else { config_set_string(cat, "vid_renderer", va_name); } if (video_fullscreen_scale == 0) config_delete_var(cat, "video_fullscreen_scale"); else config_set_int(cat, "video_fullscreen_scale", video_fullscreen_scale); if (video_fullscreen_first == 1) config_delete_var(cat, "video_fullscreen_first"); else config_set_int(cat, "video_fullscreen_first", video_fullscreen_first); if (video_filter_method == 1) config_delete_var(cat, "video_filter_method"); else config_set_int(cat, "video_filter_method", video_filter_method); if (force_43 == 0) config_delete_var(cat, "force_43"); else config_set_int(cat, "force_43", force_43); if (scale == 1) config_delete_var(cat, "scale"); else config_set_int(cat, "scale", scale); if (dpi_scale == 1) config_delete_var(cat, "dpi_scale"); else config_set_int(cat, "dpi_scale", dpi_scale); if (enable_overscan == 0) config_delete_var(cat, "enable_overscan"); else config_set_int(cat, "enable_overscan", enable_overscan); if (vid_cga_contrast == 0) config_delete_var(cat, "vid_cga_contrast"); else config_set_int(cat, "vid_cga_contrast", vid_cga_contrast); if (video_grayscale == 0) config_delete_var(cat, "video_grayscale"); else config_set_int(cat, "video_grayscale", video_grayscale); if (video_graytype == 0) config_delete_var(cat, "video_graytype"); else config_set_int(cat, "video_graytype", video_graytype); if (rctrl_is_lalt == 0) config_delete_var(cat, "rctrl_is_lalt"); else config_set_int(cat, "rctrl_is_lalt", rctrl_is_lalt); if (update_icons == 1) config_delete_var(cat, "update_icons"); else config_set_int(cat, "update_icons", update_icons); if (window_remember || (vid_resize & 2)) { if (window_remember) config_set_int(cat, "window_remember", window_remember); else config_delete_var(cat, "window_remember"); sprintf(temp, "%i, %i, %i, %i", window_w, window_h, window_x, window_y); config_set_string(cat, "window_coordinates", temp); } else { config_delete_var(cat, "window_remember"); config_delete_var(cat, "window_coordinates"); } if (vid_resize & 2) { sprintf(temp, "%ix%i", fixed_size_x, fixed_size_y); config_set_string(cat, "window_fixed_res", temp); } else config_delete_var(cat, "window_fixed_res"); if (sound_gain != 0) config_set_int(cat, "sound_gain", sound_gain); else config_delete_var(cat, "sound_gain"); if (kbd_req_capture != 0) config_set_int(cat, "kbd_req_capture", kbd_req_capture); else config_delete_var(cat, "kbd_req_capture"); if (hide_status_bar != 0) config_set_int(cat, "hide_status_bar", hide_status_bar); else config_delete_var(cat, "hide_status_bar"); if (confirm_reset != 1) config_set_int(cat, "confirm_reset", confirm_reset); else config_delete_var(cat, "confirm_reset"); if (confirm_exit != 1) config_set_int(cat, "confirm_exit", confirm_exit); else config_delete_var(cat, "confirm_exit"); if (confirm_save != 1) config_set_int(cat, "confirm_save", confirm_save); else config_delete_var(cat, "confirm_save"); if (lang_id == DEFAULT_LANGUAGE) config_delete_var(cat, "language"); else { char buffer[512] = {0}; plat_language_code_r(lang_id, buffer, 511); config_set_string(cat, "language", buffer); } if (!strcmp(icon_set, "")) config_delete_var(cat, "iconset"); else config_set_string(cat, "iconset", icon_set); #if USE_DISCORD if (enable_discord) config_set_int(cat, "enable_discord", enable_discord); else config_delete_var(cat, "enable_discord"); #endif #if defined(DEV_BRANCH) && defined(USE_OPENGL) if (video_framerate != -1) config_set_int(cat, "video_gl_framerate", video_framerate); else config_delete_var(cat, "video_gl_framerate"); if (video_vsync != 0) config_set_int(cat, "video_gl_vsync", video_vsync); else config_delete_var(cat, "video_gl_vsync"); if (strlen(video_shader) > 0) config_set_string(cat, "video_gl_shader", video_shader); else config_delete_var(cat, "video_gl_shader"); #endif delete_section_if_empty(cat); } /* Save "Machine" section. */ static void save_machine(void) { char *cat = "Machine"; char *p; int c, i = 0, legacy_mfg, legacy_cpu = -1, closest_legacy_cpu = -1; p = machine_get_internal_name(); config_set_string(cat, "machine", p); config_set_string(cat, "cpu_family", (char *) cpu_f->internal_name); config_set_int(cat, "cpu_speed", cpu_f->cpus[cpu].rspeed); config_set_double(cat, "cpu_multi", cpu_f->cpus[cpu].multi); if (cpu_override) config_set_int(cat, "cpu_override", cpu_override); else config_delete_var(cat, "cpu_override"); /* Forwards compatibility with the previous CPU model system. */ config_delete_var(cat, "cpu_manufacturer"); config_delete_var(cat, "cpu"); /* Look for a machine entry on the legacy table. */ c = 0; while (cpu_legacy_table[c].machine) { if (!strcmp(p, cpu_legacy_table[c].machine)) break; c++; } if (cpu_legacy_table[c].machine) { /* Look for a corresponding CPU entry. */ cpu_legacy_table_t *legacy_table_entry; for (legacy_mfg = 0; legacy_mfg < 4; legacy_mfg++) { if (!cpu_legacy_table[c].tables[legacy_mfg]) continue; i = 0; while (cpu_legacy_table[c].tables[legacy_mfg][i].family) { legacy_table_entry = (cpu_legacy_table_t *) &cpu_legacy_table[c].tables[legacy_mfg][i]; /* Match the family name, speed and multiplier. */ if (!strcmp(cpu_f->internal_name, legacy_table_entry->family)) { if ((legacy_table_entry->rspeed == cpu_f->cpus[cpu].rspeed) && (legacy_table_entry->multi == cpu_f->cpus[cpu].multi)) { /* exact speed/multiplier match */ legacy_cpu = i; break; } else if ((legacy_table_entry->rspeed >= cpu_f->cpus[cpu].rspeed) && (closest_legacy_cpu == -1)) { /* closest speed match */ closest_legacy_cpu = i; } } i++; } /* Use the closest speed match if no exact match was found. */ if ((legacy_cpu == -1) && (closest_legacy_cpu > -1)) { legacy_cpu = closest_legacy_cpu; break; } else if (legacy_cpu > -1) /* exact match found */ break; } /* Set legacy values if a match was found. */ if (legacy_cpu > -1) { if (legacy_mfg) config_set_int(cat, "cpu_manufacturer", legacy_mfg); if (legacy_cpu) config_set_int(cat, "cpu", legacy_cpu); } } if (cpu_waitstates == 0) config_delete_var(cat, "cpu_waitstates"); else config_set_int(cat, "cpu_waitstates", cpu_waitstates); if (fpu_type == 0) config_delete_var(cat, "fpu_type"); else config_set_string(cat, "fpu_type", (char *) fpu_get_internal_name(cpu_f, cpu, fpu_type)); //Write the mem_size explicitly to the setttings in order to help managers to display it without having the actual machine table config_delete_var(cat, "mem_size"); config_set_int(cat, "mem_size", mem_size); config_set_int(cat, "cpu_use_dynarec", cpu_use_dynarec); if (time_sync & TIME_SYNC_ENABLED) if (time_sync & TIME_SYNC_UTC) config_set_string(cat, "time_sync", "utc"); else config_set_string(cat, "time_sync", "local"); else config_set_string(cat, "time_sync", "disabled"); delete_section_if_empty(cat); } /* Save "Video" section. */ static void save_video(void) { char *cat = "Video"; config_set_string(cat, "gfxcard", video_get_internal_name(gfxcard)); if (voodoo_enabled == 0) config_delete_var(cat, "voodoo"); else config_set_int(cat, "voodoo", voodoo_enabled); delete_section_if_empty(cat); } /* Save "Input Devices" section. */ static void save_input_devices(void) { char *cat = "Input devices"; char temp[512], tmp2[512]; int c, d; config_set_string(cat, "mouse_type", mouse_get_internal_name(mouse_type)); if (!joystick_type) { config_delete_var(cat, "joystick_type"); for (c = 0; c < 16; c++) { sprintf(tmp2, "joystick_%i_nr", c); config_delete_var(cat, tmp2); for (d=0; d<16; d++) { sprintf(tmp2, "joystick_%i_axis_%i", c, d); config_delete_var(cat, tmp2); } for (d=0; d<16; d++) { sprintf(tmp2, "joystick_%i_button_%i", c, d); config_delete_var(cat, tmp2); } for (d=0; d<16; d++) { sprintf(tmp2, "joystick_%i_pov_%i", c, d); config_delete_var(cat, tmp2); } } } else { config_set_string(cat, "joystick_type", joystick_get_internal_name(joystick_type)); for (c = 0; c < joystick_get_max_joysticks(joystick_type); c++) { sprintf(tmp2, "joystick_%i_nr", c); config_set_int(cat, tmp2, joystick_state[c].plat_joystick_nr); if (joystick_state[c].plat_joystick_nr) { for (d=0; d= 2) && !serial_enabled[c])) config_delete_var(cat, temp); else config_set_int(cat, temp, serial_enabled[c]); } for (c = 0; c < PARALLEL_MAX; c++) { sprintf(temp, "lpt%d_enabled", c + 1); d = (c == 0) ? 1 : 0; if (lpt_ports[c].enabled == d) config_delete_var(cat, temp); else config_set_int(cat, temp, lpt_ports[c].enabled); sprintf(temp, "lpt%d_device", c + 1); if (lpt_ports[c].device == 0) config_delete_var(cat, temp); else config_set_string(cat, temp, (char *) lpt_device_get_internal_name(lpt_ports[c].device)); } delete_section_if_empty(cat); } /* Save "Storage Controllers" section. */ static void save_storage_controllers(void) { char *cat = "Storage controllers"; char temp[512]; int c; config_delete_var(cat, "scsicard"); for (c = 0; c < SCSI_BUS_MAX; c++) { sprintf(temp, "scsicard_%d", c + 1); if (scsi_card_current[c] == 0) config_delete_var(cat, temp); else config_set_string(cat, temp, scsi_card_get_internal_name(scsi_card_current[c])); } if (fdc_type == FDC_INTERNAL) config_delete_var(cat, "fdc"); else config_set_string(cat, "fdc", fdc_card_get_internal_name(fdc_type)); config_set_string(cat, "hdc", hdc_get_internal_name(hdc_current)); if (ide_ter_enabled == 0) config_delete_var(cat, "ide_ter"); else config_set_int(cat, "ide_ter", ide_ter_enabled); if (ide_qua_enabled == 0) config_delete_var(cat, "ide_qua"); else config_set_int(cat, "ide_qua", ide_qua_enabled); delete_section_if_empty(cat); if (cassette_enable == 1) config_delete_var(cat, "cassette_enabled"); else config_set_int(cat, "cassette_enabled", cassette_enable); if (strlen(cassette_fname) == 0) config_delete_var(cat, "cassette_file"); else config_set_string(cat, "cassette_file", cassette_fname); if (strlen(cassette_mode) == 0) config_delete_var(cat, "cassette_mode"); else config_set_string(cat, "cassette_mode", cassette_mode); if (cassette_pos == 0) config_delete_var(cat, "cassette_position"); else config_set_int(cat, "cassette_position", cassette_pos); if (cassette_srate == 44100) config_delete_var(cat, "cassette_srate"); else config_set_int(cat, "cassette_srate", cassette_srate); if (cassette_append == 0) config_delete_var(cat, "cassette_append"); else config_set_int(cat, "cassette_append", cassette_append); if (cassette_pcm == 0) config_delete_var(cat, "cassette_pcm"); else config_set_int(cat, "cassette_pcm", cassette_pcm); if (cassette_ui_writeprot == 0) config_delete_var(cat, "cassette_writeprot"); else config_set_int(cat, "cassette_writeprot", cassette_ui_writeprot); for (c=0; c<2; c++) { sprintf(temp, "cartridge_%02i_fn", c+1); if (strlen(cart_fns[c]) == 0) config_delete_var(cat, temp); else config_set_string(cat, temp, cart_fns[c]); } } /* Save "Other Peripherals" section. */ static void save_other_peripherals(void) { char *cat = "Other peripherals"; char temp[512]; int c; if (bugger_enabled == 0) config_delete_var(cat, "bugger_enabled"); else config_set_int(cat, "bugger_enabled", bugger_enabled); if (postcard_enabled == 0) config_delete_var(cat, "postcard_enabled"); else config_set_int(cat, "postcard_enabled", postcard_enabled); for (c = 0; c < ISAMEM_MAX; c++) { sprintf(temp, "isamem%d_type", c); if (isamem_type[c] == 0) config_delete_var(cat, temp); else config_set_string(cat, temp, (char *) isamem_get_internal_name(isamem_type[c])); } if (isartc_type == 0) config_delete_var(cat, "isartc_type"); else config_set_string(cat, "isartc_type", isartc_get_internal_name(isartc_type)); delete_section_if_empty(cat); } /* Save "Hard Disks" section. */ static void save_hard_disks(void) { char *cat = "Hard disks"; char temp[32], tmp2[512]; char *p; int c; memset(temp, 0x00, sizeof(temp)); for (c=0; c> 1, hdd[c].ide_channel & 1); config_set_string(cat, temp, tmp2); } sprintf(temp, "hdd_%02i_scsi_id", c+1); config_delete_var(cat, temp); sprintf(temp, "hdd_%02i_scsi_location", c+1); if (hdd[c].bus != HDD_BUS_SCSI) config_delete_var(cat, temp); else { sprintf(tmp2, "%01u:%02u", hdd[c].scsi_id>>4, hdd[c].scsi_id & 15); config_set_string(cat, temp, tmp2); } sprintf(temp, "hdd_%02i_fn", c+1); if (hdd_is_valid(c) && (strlen(hdd[c].fn) != 0)) if (!strnicmp(hdd[c].fn, usr_path, strlen(usr_path))) config_set_string(cat, temp, &hdd[c].fn[strlen(usr_path)]); else config_set_string(cat, temp, hdd[c].fn); else config_delete_var(cat, temp); } delete_section_if_empty(cat); } /* Save "Floppy Drives" section. */ static void save_floppy_and_cdrom_drives(void) { char *cat = "Floppy and CD-ROM drives"; char temp[512], tmp2[512]; int c; for (c=0; c>1, cdrom[c].ide_channel & 1); config_set_string(cat, temp, tmp2); } sprintf(temp, "cdrom_%02i_scsi_id", c + 1); config_delete_var(cat, temp); sprintf(temp, "cdrom_%02i_scsi_location", c+1); if (cdrom[c].bus_type != CDROM_BUS_SCSI) config_delete_var(cat, temp); else { sprintf(tmp2, "%01u:%02u", cdrom[c].scsi_device_id>>4, cdrom[c].scsi_device_id & 15); config_set_string(cat, temp, tmp2); } sprintf(temp, "cdrom_%02i_image_path", c + 1); if ((cdrom[c].bus_type == 0) || (strlen(cdrom[c].image_path) == 0)) { config_delete_var(cat, temp); } else { config_set_string(cat, temp, cdrom[c].image_path); } } delete_section_if_empty(cat); } /* Save "Other Removable Devices" section. */ static void save_other_removable_devices(void) { char *cat = "Other removable devices"; char temp[512], tmp2[512]; int c; for (c=0; c>1, zip_drives[c].ide_channel & 1); config_set_string(cat, temp, tmp2); } sprintf(temp, "zip_%02i_scsi_id", c + 1); config_delete_var(cat, temp); sprintf(temp, "zip_%02i_scsi_location", c+1); if (zip_drives[c].bus_type != ZIP_BUS_SCSI) config_delete_var(cat, temp); else { sprintf(tmp2, "%01u:%02u", zip_drives[c].scsi_device_id>>4, zip_drives[c].scsi_device_id & 15); config_set_string(cat, temp, tmp2); } sprintf(temp, "zip_%02i_image_path", c + 1); if ((zip_drives[c].bus_type == 0) || (strlen(zip_drives[c].image_path) == 0)) { config_delete_var(cat, temp); } else { config_set_string(cat, temp, zip_drives[c].image_path); } } for (c=0; c>1, mo_drives[c].ide_channel & 1); config_set_string(cat, temp, tmp2); } sprintf(temp, "mo_%02i_scsi_id", c + 1); config_delete_var(cat, temp); sprintf(temp, "mo_%02i_scsi_location", c+1); if (mo_drives[c].bus_type != MO_BUS_SCSI) config_delete_var(cat, temp); else { sprintf(tmp2, "%01u:%02u", mo_drives[c].scsi_device_id>>4, mo_drives[c].scsi_device_id & 15); config_set_string(cat, temp, tmp2); } sprintf(temp, "mo_%02i_image_path", c + 1); if ((mo_drives[c].bus_type == 0) || (strlen(mo_drives[c].image_path) == 0)) { config_delete_var(cat, temp); } else { config_set_string(cat, temp, mo_drives[c].image_path); } } delete_section_if_empty(cat); } void config_save(void) { save_general(); /* General */ save_machine(); /* Machine */ save_video(); /* Video */ save_input_devices(); /* Input devices */ save_sound(); /* Sound */ save_network(); /* Network */ save_ports(); /* Ports (COM & LPT) */ save_storage_controllers(); /* Storage controllers */ save_hard_disks(); /* Hard disks */ save_floppy_and_cdrom_drives(); /* Floppy and CD-ROM drives */ save_other_removable_devices(); /* Other removable devices */ save_other_peripherals(); /* Other peripherals */ config_write(cfg_path); } void config_dump(void) { section_t *sec; sec = (section_t *)config_head.next; while (sec != NULL) { entry_t *ent; if (sec->name[0]) config_log("[%s]\n", sec->name); ent = (entry_t *)sec->entry_head.next; while (ent != NULL) { config_log("%s = %s\n", ent->name, ent->data); ent = (entry_t *)ent->list.next; } sec = (section_t *)sec->list.next; } } void config_delete_var(char *head, char *name) { section_t *section; entry_t *entry; section = find_section(head); if (section == NULL) return; entry = find_entry(section, name); if (entry != NULL) { list_delete(&entry->list, §ion->entry_head); free(entry); } } int config_get_int(char *head, char *name, int def) { section_t *section; entry_t *entry; int value; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); sscanf(entry->data, "%i", &value); return(value); } double config_get_double(char *head, char *name, double def) { section_t *section; entry_t *entry; double value; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); sscanf(entry->data, "%lg", &value); return(value); } int config_get_hex16(char *head, char *name, int def) { section_t *section; entry_t *entry; unsigned int value; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); sscanf(entry->data, "%04X", &value); return(value); } int config_get_hex20(char *head, char *name, int def) { section_t *section; entry_t *entry; unsigned int value; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); sscanf(entry->data, "%05X", &value); return(value); } int config_get_mac(char *head, char *name, int def) { section_t *section; entry_t *entry; unsigned int val0 = 0, val1 = 0, val2 = 0; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); sscanf(entry->data, "%02x:%02x:%02x", &val0, &val1, &val2); return((val0 << 16) + (val1 << 8) + val2); } char * config_get_string(char *head, char *name, char *def) { section_t *section; entry_t *entry; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); return(entry->data); } wchar_t * config_get_wstring(char *head, char *name, wchar_t *def) { section_t *section; entry_t *entry; section = find_section(head); if (section == NULL) return(def); entry = find_entry(section, name); if (entry == NULL) return(def); return(entry->wdata); } void config_set_int(char *head, char *name, int val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); sprintf(ent->data, "%i", val); mbstowcs(ent->wdata, ent->data, 512); } void config_set_double(char *head, char *name, double val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); sprintf(ent->data, "%lg", val); mbstowcs(ent->wdata, ent->data, 512); } void config_set_hex16(char *head, char *name, int val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); sprintf(ent->data, "%04X", val); mbstowcs(ent->wdata, ent->data, sizeof_w(ent->wdata)); } void config_set_hex20(char *head, char *name, int val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); sprintf(ent->data, "%05X", val); mbstowcs(ent->wdata, ent->data, sizeof_w(ent->wdata)); } void config_set_mac(char *head, char *name, int val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); sprintf(ent->data, "%02x:%02x:%02x", (val>>16)&0xff, (val>>8)&0xff, val&0xff); mbstowcs(ent->wdata, ent->data, 512); } void config_set_string(char *head, char *name, char *val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); if ((strlen(val) + 1) <= sizeof(ent->data)) memcpy(ent->data, val, strlen(val) + 1); else memcpy(ent->data, val, sizeof(ent->data)); #ifdef _WIN32 /* Make sure the string is converted from UTF-8 rather than a legacy codepage */ mbstoc16s(ent->wdata, ent->data, sizeof_w(ent->wdata)); #else mbstowcs(ent->wdata, ent->data, sizeof_w(ent->wdata)); #endif } void config_set_wstring(char *head, char *name, wchar_t *val) { section_t *section; entry_t *ent; section = find_section(head); if (section == NULL) section = create_section(head); ent = find_entry(section, name); if (ent == NULL) ent = create_entry(section, name); memcpy(ent->wdata, val, sizeof_w(ent->wdata)); #ifdef _WIN32 /* Make sure the string is converted to UTF-8 rather than a legacy codepage */ c16stombs(ent->data, ent->wdata, sizeof(ent->data)); #else wcstombs(ent->data, ent->wdata, sizeof(ent->data)); #endif }