// license:BSD-3-Clause // copyright-holders:Miodrag Milanovic /*************************************************************************** diimage.c Device image interfaces. ***************************************************************************/ #include "emu.h" #include "emuopts.h" #include "drivenum.h" #include "ui.h" #include "zippath.h" #include "uiimage.h" #include "uiswlist.h" //************************************************************************** // DEVICE CONFIG IMAGE INTERFACE //************************************************************************** const image_device_type_info device_image_interface::m_device_info_array[] = { { IO_UNKNOWN, "unknown", "unkn" }, { IO_CARTSLOT, "cartridge", "cart" }, /* 0 */ { IO_FLOPPY, "floppydisk", "flop" }, /* 1 */ { IO_HARDDISK, "harddisk", "hard" }, /* 2 */ { IO_CYLINDER, "cylinder", "cyln" }, /* 3 */ { IO_CASSETTE, "cassette", "cass" }, /* 4 */ { IO_PUNCHCARD, "punchcard", "pcrd" }, /* 5 */ { IO_PUNCHTAPE, "punchtape", "ptap" }, /* 6 */ { IO_PRINTER, "printer", "prin" }, /* 7 */ { IO_SERIAL, "serial", "serl" }, /* 8 */ { IO_PARALLEL, "parallel", "parl" }, /* 9 */ { IO_SNAPSHOT, "snapshot", "dump" }, /* 10 */ { IO_QUICKLOAD, "quickload", "quik" }, /* 11 */ { IO_MEMCARD, "memcard", "memc" }, /* 12 */ { IO_CDROM, "cdrom", "cdrm" }, /* 13 */ { IO_MAGTAPE, "magtape", "magt" }, /* 14 */ { IO_ROM, "romimage", "rom" }, /* 15 */ { IO_MIDIIN, "midiin", "min" }, /* 16 */ { IO_MIDIOUT, "midiout", "mout" } /* 17 */ }; //************************************************************************** // DEVICE IMAGE INTERFACE //************************************************************************** //------------------------------------------------- // device_image_interface - constructor //------------------------------------------------- device_image_interface::device_image_interface(const machine_config &mconfig, device_t &device) : device_interface(device), m_file(NULL), m_mame_file(NULL), m_full_software_name(NULL), m_software_info_ptr(NULL), m_software_part_ptr(NULL), m_software_list_name(NULL), m_readonly(false), m_created(false), m_formatlist(NULL), m_is_loading(FALSE) { } //------------------------------------------------- // ~device_image_interface - destructor //------------------------------------------------- device_image_interface::~device_image_interface() { image_device_format **formatptr = &m_formatlist; /* free all entries */ while (*formatptr != NULL) { image_device_format *entry = *formatptr; *formatptr = entry->m_next; global_free(entry); } } //------------------------------------------------- // find_device_type - search trough list of // device types to extract data //------------------------------------------------- const image_device_type_info *device_image_interface::find_device_type(iodevice_t type) { int i; for (i = 0; i < ARRAY_LENGTH(device_image_interface::m_device_info_array); i++) { if (m_device_info_array[i].m_type == type) return &m_device_info_array[i]; } return NULL; } //------------------------------------------------- // device_typename - retrieves device type name //------------------------------------------------- const char *device_image_interface::device_typename(iodevice_t type) { const image_device_type_info *info = find_device_type(type); return (info != NULL) ? info->m_name : NULL; } //------------------------------------------------- // device_brieftypename - retrieves device // brief type name //------------------------------------------------- const char *device_image_interface::device_brieftypename(iodevice_t type) { const image_device_type_info *info = find_device_type(type); return (info != NULL) ? info->m_shortname : NULL; } //------------------------------------------------- // device_typeid - retrieves device type id //------------------------------------------------- iodevice_t device_image_interface::device_typeid(const char *name) { int i; for (i = 0; i < ARRAY_LENGTH(device_image_interface::m_device_info_array); i++) { if (!mame_stricmp(name, m_device_info_array[i].m_name) || !mame_stricmp(name, m_device_info_array[i].m_shortname)) return m_device_info_array[i].m_type; } return (iodevice_t)-1; } /*------------------------------------------------- device_compute_hash - compute a hash, using this device's partial hash if appropriate -------------------------------------------------*/ void device_image_interface::device_compute_hash(hash_collection &hashes, const void *data, size_t length, const char *types) const { /* retrieve the partial hash func */ device_image_partialhash_func partialhash = get_partial_hash(); /* compute the hash */ if (partialhash) partialhash(hashes, (const unsigned char*)data, length, types); else hashes.compute(reinterpret_cast(data), length, types); } /*------------------------------------------------- set_image_filename - specifies the filename of an image -------------------------------------------------*/ image_error_t device_image_interface::set_image_filename(const char *filename) { m_image_name = filename; zippath_parent(m_working_directory, filename); m_basename.cpy(m_image_name); int loc1 = m_image_name.rchr(0,'\\'); int loc2 = m_image_name.rchr(0,'/'); int loc3 = m_image_name.rchr(0,':'); int loc = MAX(loc1,MAX(loc2,loc3)); if (loc!=-1) { if (loc == loc3) { // temp workaround for softlists now that m_image_name contains the part name too (e.g. list:gamename:cart) astring tmpstr = astring(m_basename.substr(0,loc)); int tmploc = tmpstr.rchr(0,':'); m_basename = m_basename.substr(tmploc + 1,loc-tmploc); } else m_basename = m_basename.substr(loc + 1,m_basename.len()-loc); } m_basename_noext = m_basename.cpy(m_basename); m_filetype = ""; loc = m_basename_noext.rchr(0,'.'); if (loc!=-1) { m_basename_noext = m_basename_noext.substr(0,loc); m_filetype = m_basename.cpy(m_basename); m_filetype = m_filetype.substr(loc + 1,m_filetype.len()-loc); } return IMAGE_ERROR_SUCCESS; } /**************************************************************************** CREATION FORMATS ****************************************************************************/ /*------------------------------------------------- device_get_indexed_creatable_format - accesses a specific image format available for image creation by index -------------------------------------------------*/ const image_device_format *device_image_interface::device_get_indexed_creatable_format(int index) { const image_device_format *format = device_get_creatable_formats(); while(index-- && (format != NULL)) format = format->m_next; return format; } /*------------------------------------------------- device_get_named_creatable_format - accesses a specific image format available for image creation by name -------------------------------------------------*/ const image_device_format *device_image_interface::device_get_named_creatable_format(const char *format_name) { const image_device_format *format = device_get_creatable_formats(); while((format != NULL) && strcmp(format->m_name, format_name)) format = format->m_next; return format; } /**************************************************************************** ERROR HANDLING ****************************************************************************/ /*------------------------------------------------- image_clear_error - clear out any specified error -------------------------------------------------*/ void device_image_interface::clear_error() { m_err = IMAGE_ERROR_SUCCESS; if (m_err_message) { m_err_message.reset(); } } /*------------------------------------------------- error - returns the error text for an image error -------------------------------------------------*/ static const char *const messages[] = { "", "Internal error", "Unsupported operation", "Out of memory", "File not found", "Invalid image", "File already open", "Unspecified error" }; const char *device_image_interface::error() { return (m_err_message) ? m_err_message.cstr() : messages[m_err]; } /*------------------------------------------------- seterror - specifies an error on an image -------------------------------------------------*/ void device_image_interface::seterror(image_error_t err, const char *message) { clear_error(); m_err = err; if (message != NULL) { m_err_message = message; } } /*------------------------------------------------- message - used to display a message while loading -------------------------------------------------*/ void device_image_interface::message(const char *format, ...) { va_list args; char buffer[256]; /* format the message */ va_start(args, format); vsnprintf(buffer, ARRAY_LENGTH(buffer), format, args); va_end(args); /* display the popup for a standard amount of time */ ui_popup_time(5, "%s: %s", basename(), buffer); } /*************************************************************************** WORKING DIRECTORIES ***************************************************************************/ /*------------------------------------------------- try_change_working_directory - tries to change the working directory, but only if the directory actually exists -------------------------------------------------*/ bool device_image_interface::try_change_working_directory(const char *subdir) { osd_directory *directory; const osd_directory_entry *entry; bool success = FALSE; bool done = FALSE; directory = osd_opendir(m_working_directory.cstr()); if (directory != NULL) { while(!done && (entry = osd_readdir(directory)) != NULL) { if (!mame_stricmp(subdir, entry->name)) { done = TRUE; success = entry->type == ENTTYPE_DIR; } } osd_closedir(directory); } /* did we successfully identify the directory? */ if (success) zippath_combine(m_working_directory, m_working_directory, subdir); return success; } /*------------------------------------------------- setup_working_directory - sets up the working directory according to a few defaults -------------------------------------------------*/ void device_image_interface::setup_working_directory() { char *dst = NULL; osd_get_full_path(&dst,"."); /* first set up the working directory to be the starting directory */ m_working_directory = dst; /* now try browsing down to "software" */ if (try_change_working_directory("software")) { /* now down to a directory for this computer */ int gamedrv = driver_list::find(device().machine().system()); while(gamedrv != -1 && !try_change_working_directory(driver_list::driver(gamedrv).name)) { gamedrv = driver_list::compatible_with(gamedrv); } } osd_free(dst); } //------------------------------------------------- // working_directory - returns the working // directory to use for this image; this is // valid even if not mounted //------------------------------------------------- const char * device_image_interface::working_directory() { /* check to see if we've never initialized the working directory */ if (!m_working_directory) setup_working_directory(); return m_working_directory; } /*------------------------------------------------- get_software_region -------------------------------------------------*/ UINT8 *device_image_interface::get_software_region(const char *tag) { char full_tag[256]; if ( m_software_info_ptr == NULL || m_software_part_ptr == NULL ) return NULL; sprintf( full_tag, "%s:%s", device().tag(), tag ); return device().machine().root_device().memregion( full_tag )->base(); } /*------------------------------------------------- image_get_software_region_length -------------------------------------------------*/ UINT32 device_image_interface::get_software_region_length(const char *tag) { char full_tag[256]; sprintf( full_tag, "%s:%s", device().tag(), tag ); return device().machine().root_device().memregion( full_tag )->bytes(); } /*------------------------------------------------- image_get_feature -------------------------------------------------*/ const char *device_image_interface::get_feature(const char *feature_name) { feature_list *feature; if ( ! m_software_part_ptr->featurelist ) return NULL; for ( feature = m_software_part_ptr->featurelist; feature; feature = feature->next ) { if ( ! strcmp( feature->name, feature_name ) ) return feature->value; } return NULL; } /**************************************************************************** Hash info loading If the hash is not checked and the relevant info not loaded, force that info to be loaded ****************************************************************************/ void device_image_interface::run_hash(void (*partialhash)(hash_collection &, const unsigned char *, unsigned long, const char *), hash_collection &hashes, const char *types) { UINT32 size; UINT8 *buf = NULL; hashes.reset(); size = (UINT32) length(); buf = (UINT8*)malloc(size); memset(buf,0,size); /* read the file */ fseek(0, SEEK_SET); fread(buf, size); if (partialhash) partialhash(hashes, buf, size, types); else hashes.compute(buf, size, types); /* cleanup */ free(buf); fseek(0, SEEK_SET); } void device_image_interface::image_checkhash() { device_image_partialhash_func partialhash; /* only calculate CRC if it hasn't been calculated, and the open_mode is read only */ UINT32 crcval; if (!m_hash.crc(crcval) && m_readonly && !m_created) { /* do not cause a linear read of 600 megs please */ /* TODO: use SHA1 in the CHD header as the hash */ if (image_type() == IO_CDROM) return; /* Skip calculating the hash when we have an image mounted through a software list */ if ( m_software_info_ptr ) return; /* retrieve the partial hash func */ partialhash = get_partial_hash(); run_hash(partialhash, m_hash, hash_collection::HASH_TYPES_ALL); } return; } UINT32 device_image_interface::crc() { UINT32 crc = 0; image_checkhash(); m_hash.crc(crc); return crc; } /**************************************************************************** Battery functions These functions provide transparent access to battery-backed RAM on an image; typically for cartridges. ****************************************************************************/ /*------------------------------------------------- battery_load - retrieves the battery backed RAM for an image. The file name is created from the machine driver name and the image name. -------------------------------------------------*/ void device_image_interface::battery_load(void *buffer, int length, int fill) { astring fname(device().machine().system().name, PATH_SEPARATOR, m_basename_noext, ".nv"); image_battery_load_by_name(device().machine().options(), fname, buffer, length, fill); } /*------------------------------------------------- battery_save - stores the battery backed RAM for an image. The file name is created from the machine driver name and the image name. -------------------------------------------------*/ void device_image_interface::battery_save(const void *buffer, int length) { astring fname(device().machine().system().name, PATH_SEPARATOR, m_basename_noext, ".nv"); image_battery_save_by_name(device().machine().options(), fname, buffer, length); } //------------------------------------------------- // uses_file_extension - update configuration // based on completed device setup //------------------------------------------------- bool device_image_interface::uses_file_extension(const char *file_extension) const { bool result = FALSE; if (file_extension[0] == '.') file_extension++; /* find the extensions */ astring extensions(file_extensions()); char *ext = strtok((char*)extensions.cstr(),","); while (ext != NULL) { if (!mame_stricmp(ext, file_extension)) { result = TRUE; break; } ext = strtok (NULL, ","); } return result; } /**************************************************************************** IMAGE LOADING ****************************************************************************/ /*------------------------------------------------- is_loaded - quick check to determine whether an image is loaded -------------------------------------------------*/ bool device_image_interface::is_loaded() { return (m_file != NULL); } /*------------------------------------------------- load_image_by_path - loads an image with a specific path -------------------------------------------------*/ image_error_t device_image_interface::load_image_by_path(UINT32 open_flags, const char *path) { file_error filerr = FILERR_NOT_FOUND; image_error_t err = IMAGE_ERROR_FILENOTFOUND; astring revised_path; /* attempt to read the file */ filerr = zippath_fopen(path, open_flags, m_file, revised_path); /* did the open succeed? */ switch(filerr) { case FILERR_NONE: /* success! */ m_readonly = (open_flags & OPEN_FLAG_WRITE) ? 0 : 1; m_created = (open_flags & OPEN_FLAG_CREATE) ? 1 : 0; err = IMAGE_ERROR_SUCCESS; break; case FILERR_NOT_FOUND: case FILERR_ACCESS_DENIED: /* file not found (or otherwise cannot open); continue */ err = IMAGE_ERROR_FILENOTFOUND; break; case FILERR_OUT_OF_MEMORY: /* out of memory */ err = IMAGE_ERROR_OUTOFMEMORY; break; case FILERR_ALREADY_OPEN: /* this shouldn't happen */ err = IMAGE_ERROR_ALREADYOPEN; break; case FILERR_FAILURE: case FILERR_TOO_MANY_FILES: case FILERR_INVALID_DATA: default: /* other errors */ err = IMAGE_ERROR_INTERNAL; break; } /* if successful, set the file name */ if (filerr == FILERR_NONE) set_image_filename(revised_path); return err; } int device_image_interface::reopen_for_write(const char *path) { if(m_file) core_fclose(m_file); file_error filerr = FILERR_NOT_FOUND; image_error_t err = IMAGE_ERROR_FILENOTFOUND; astring revised_path; /* attempt to open the file for writing*/ filerr = zippath_fopen(path, OPEN_FLAG_READ|OPEN_FLAG_WRITE|OPEN_FLAG_CREATE, m_file, revised_path); /* did the open succeed? */ switch(filerr) { case FILERR_NONE: /* success! */ m_readonly = 0; m_created = 1; err = IMAGE_ERROR_SUCCESS; break; case FILERR_NOT_FOUND: case FILERR_ACCESS_DENIED: /* file not found (or otherwise cannot open); continue */ err = IMAGE_ERROR_FILENOTFOUND; break; case FILERR_OUT_OF_MEMORY: /* out of memory */ err = IMAGE_ERROR_OUTOFMEMORY; break; case FILERR_ALREADY_OPEN: /* this shouldn't happen */ err = IMAGE_ERROR_ALREADYOPEN; break; case FILERR_FAILURE: case FILERR_TOO_MANY_FILES: case FILERR_INVALID_DATA: default: /* other errors */ err = IMAGE_ERROR_INTERNAL; break; } /* if successful, set the file name */ if (filerr == FILERR_NONE) set_image_filename(revised_path); return err; } /*------------------------------------------------- determine_open_plan - determines which open flags to use, and in what order -------------------------------------------------*/ void device_image_interface::determine_open_plan(int is_create, UINT32 *open_plan) { int i = 0; /* emit flags */ if (!is_create && is_readable() && is_writeable()) open_plan[i++] = OPEN_FLAG_READ | OPEN_FLAG_WRITE; if (!is_create && !is_readable() && is_writeable()) open_plan[i++] = OPEN_FLAG_WRITE; if (!is_create && is_readable()) open_plan[i++] = OPEN_FLAG_READ; if (is_writeable() && is_creatable()) open_plan[i++] = OPEN_FLAG_READ | OPEN_FLAG_WRITE | OPEN_FLAG_CREATE; open_plan[i] = 0; } /*------------------------------------------------- dump_wrong_and_correct_checksums - dump an error message containing the wrong and the correct checksums for a given software item -------------------------------------------------*/ static void dump_wrong_and_correct_checksums(const hash_collection &hashes, const hash_collection &acthashes) { astring tempstr; mame_printf_error(" EXPECTED: %s\n", hashes.macro_string(tempstr)); mame_printf_error(" FOUND: %s\n", acthashes.macro_string(tempstr)); } /*------------------------------------------------- verify_length_and_hash - verify the length and hash signatures of a file -------------------------------------------------*/ static int verify_length_and_hash(emu_file *file, const char *name, UINT32 explength, const hash_collection &hashes) { int retVal = 0; if (file==NULL) return 0; /* verify length */ UINT32 actlength = file->size(); if (explength != actlength) { mame_printf_error("%s WRONG LENGTH (expected: %d found: %d)\n", name, explength, actlength); retVal++; } /* If there is no good dump known, write it */ astring tempstr; hash_collection &acthashes = file->hashes(hashes.hash_types(tempstr)); if (hashes.flag(hash_collection::FLAG_NO_DUMP)) { mame_printf_error("%s NO GOOD DUMP KNOWN\n", name); } /* verify checksums */ else if (hashes != acthashes) { /* otherwise, it's just bad */ mame_printf_error("%s WRONG CHECKSUMS:\n", name); dump_wrong_and_correct_checksums(hashes, acthashes); retVal++; } /* If it matches, but it is actually a bad dump, write it */ else if (hashes.flag(hash_collection::FLAG_BAD_DUMP)) { mame_printf_error("%s NEEDS REDUMP\n",name); } return retVal; } /*------------------------------------------------- load_software - software image loading -------------------------------------------------*/ bool device_image_interface::load_software(char *swlist, char *swname, rom_entry *start) { astring locationtag, breakstr("%"); const rom_entry *region; astring regiontag; bool retVal = FALSE; int warningcount = 0; for (region = start; region != NULL; region = rom_next_region(region)) { /* loop until we hit the end of this region */ const rom_entry *romp = region + 1; while (!ROMENTRY_ISREGIONEND(romp)) { /* handle files */ if (ROMENTRY_ISFILE(romp)) { file_error filerr = FILERR_NOT_FOUND; UINT32 crc = 0; bool has_crc = hash_collection(ROM_GETHASHDATA(romp)).crc(crc); // attempt reading up the chain through the parents and create a locationtag astring in the format // " swlist % clonename % parentname " // below, we have the code to split the elements and to create paths to load from software_list *software_list_ptr = software_list_open(device().machine().options(), swlist, FALSE, NULL); if (software_list_ptr) { for (software_info *swinfo = software_list_find(software_list_ptr, swname, NULL); swinfo != NULL; ) { { astring tmp(swinfo->shortname); locationtag.cat(tmp); locationtag.cat(breakstr); //printf("%s\n", locationtag.cstr()); } const char *parentname = software_get_clone(device().machine().options(), swlist, swinfo->shortname); if (parentname != NULL) swinfo = software_list_find(software_list_ptr, parentname, NULL); else swinfo = NULL; } // strip the final '%' locationtag.del(locationtag.len() - 1, 1); software_list_close(software_list_ptr); } if (software_get_support(device().machine().options(), swlist, swname) == SOFTWARE_SUPPORTED_PARTIAL) mame_printf_error("WARNING: support for software %s (in list %s) is only partial\n", swname, swlist); if (software_get_support(device().machine().options(), swlist, swname) == SOFTWARE_SUPPORTED_NO) mame_printf_error("WARNING: support for software %s (in list %s) is only preliminary\n", swname, swlist); // check if locationtag actually contains two locations separated by '%' // (i.e. check if we are dealing with a clone in softwarelist) astring tag2, tag3, tag4(locationtag), tag5; int separator = tag4.chr(0, '%'); if (separator != -1) { // we are loading a clone through softlists, split the setname from the parentname tag5.cpysubstr(tag4, separator + 1, tag4.len() - separator + 1); tag4.del(separator, tag4.len() - separator); } // prepare locations where we have to load from: list/parentname & list/clonename astring tag1(swlist); tag1.cat(PATH_SEPARATOR); tag2.cpy(tag1.cat(tag4)); tag1.cpy(swlist); tag1.cat(PATH_SEPARATOR); tag3.cpy(tag1.cat(tag5)); if (tag5.chr(0, '%') != -1) fatalerror("We do not support clones of clones!\n"); // try to load from the available location(s): // - if we are not using lists, we have regiontag only; // - if we are using lists, we have: list/clonename, list/parentname, clonename, parentname // try to load from list/setname if ((m_mame_file == NULL) && (tag2.cstr() != NULL)) filerr = common_process_file(device().machine().options(), tag2.cstr(), has_crc, crc, romp, &m_mame_file); // try to load from list/parentname if ((m_mame_file == NULL) && (tag3.cstr() != NULL)) filerr = common_process_file(device().machine().options(), tag3.cstr(), has_crc, crc, romp, &m_mame_file); // try to load from setname if ((m_mame_file == NULL) && (tag4.cstr() != NULL)) filerr = common_process_file(device().machine().options(), tag4.cstr(), has_crc, crc, romp, &m_mame_file); // try to load from parentname if ((m_mame_file == NULL) && (tag5.cstr() != NULL)) filerr = common_process_file(device().machine().options(), tag5.cstr(), has_crc, crc, romp, &m_mame_file); warningcount += verify_length_and_hash(m_mame_file,ROM_GETNAME(romp),ROM_GETLENGTH(romp),hash_collection(ROM_GETHASHDATA(romp))); if (filerr == FILERR_NONE) { m_file = *m_mame_file; retVal = TRUE; } break; // load first item for start } romp++; /* something else; skip */ } } if (warningcount > 0) { mame_printf_error("WARNING: the software item might not run correctly.\n"); } return retVal; } /*------------------------------------------------- load_internal - core image loading -------------------------------------------------*/ bool device_image_interface::load_internal(const char *path, bool is_create, int create_format, option_resolution *create_args, bool just_load) { UINT32 open_plan[4]; int i; bool softload = FALSE; m_from_swlist = FALSE; // if the path contains no period, we are using softlists, so we won't create an image astring pathstr(path); bool filename_has_period = (pathstr.rchr(0, '.') != -1) ? TRUE : FALSE; /* first unload the image */ unload(); /* clear any possible error messages */ clear_error(); /* we are now loading */ m_is_loading = TRUE; /* record the filename */ m_err = set_image_filename(path); if (m_err) goto done; if (core_opens_image_file()) { /* Check if there's a software list defined for this device and use that if we're not creating an image */ if (!filename_has_period && !just_load) { softload = load_software_part( device().machine().options(), this, path, &m_software_info_ptr, &m_software_part_ptr, &m_full_software_name, &m_software_list_name ); // if we had launched from softlist with a specified part, e.g. "shortname:part" // we would have recorded the wrong name, so record it again based on software_info if (m_software_info_ptr && m_full_software_name) m_err = set_image_filename(m_full_software_name); m_from_swlist = TRUE; } if (is_create || filename_has_period) { /* determine open plan */ determine_open_plan(is_create, open_plan); /* attempt to open the file in various ways */ for (i = 0; !m_file && open_plan[i]; i++) { /* open the file */ m_err = load_image_by_path(open_plan[i], path); if (m_err && (m_err != IMAGE_ERROR_FILENOTFOUND)) goto done; } } /* Copy some image information when we have been loaded through a software list */ if ( m_software_info_ptr ) { // sanitize if (!m_software_info_ptr->longname || !m_software_info_ptr->publisher || !m_software_info_ptr->year) fatalerror("Each entry in an XML list must have all of the following fields: description, publisher, year!\n"); // store m_longname = m_software_info_ptr->longname; m_manufacturer = m_software_info_ptr->publisher; m_year = m_software_info_ptr->year; //m_playable = m_software_info_ptr->supported; } /* did we fail to find the file? */ if (!is_loaded() && !softload) { m_err = IMAGE_ERROR_FILENOTFOUND; goto done; } } /* call device load or create */ m_create_format = create_format; m_create_args = create_args; if (m_init_phase==FALSE) { m_err = (image_error_t)finish_load(); if (m_err) goto done; } /* success! */ done: if (just_load) { if(m_err) clear(); return m_err ? IMAGE_INIT_FAIL : IMAGE_INIT_PASS; } if (m_err!=0) { if (!m_init_phase) { if (device().machine().phase() == MACHINE_PHASE_RUNNING) popmessage("Error: Unable to %s image '%s': %s\n", is_create ? "create" : "load", path, error()); else mame_printf_error("Error: Unable to %s image '%s': %s", is_create ? "create" : "load", path, error()); } clear(); } else { /* do we need to reset the CPU? only schedule it if load/create is successful */ if (device().machine().time() > attotime::zero && is_reset_on_load()) device().machine().schedule_hard_reset(); else { if (!m_init_phase) { if (device().machine().phase() == MACHINE_PHASE_RUNNING) popmessage("Image '%s' was successfully %s.", path, is_create ? "created" : "loaded"); else mame_printf_info("Image '%s' was successfully %s.\n", path, is_create ? "created" : "loaded"); } } } return m_err ? IMAGE_INIT_FAIL : IMAGE_INIT_PASS; } /*------------------------------------------------- load - load an image into MESS -------------------------------------------------*/ bool device_image_interface::load(const char *path) { return load_internal(path, FALSE, 0, NULL, FALSE); } /*------------------------------------------------- open_image_file - opening plain image file -------------------------------------------------*/ bool device_image_interface::open_image_file(emu_options &options) { const char* path = options.value(instance_name()); if (*path != 0) { set_init_phase(); if (load_internal(path, FALSE, 0, NULL, TRUE)==IMAGE_INIT_PASS) { if (software_entry()==NULL) return true; } } return false; } /*------------------------------------------------- image_finish_load - special call - only use from core -------------------------------------------------*/ bool device_image_interface::finish_load() { bool err = IMAGE_INIT_PASS; if (m_is_loading) { image_checkhash(); if (m_from_swlist) call_display_info(); if (has_been_created()) { err = call_create(m_create_format, m_create_args); if (err) { if (!m_err) m_err = IMAGE_ERROR_UNSPECIFIED; } } else { /* using device load */ err = call_load(); if (err) { if (!m_err) m_err = IMAGE_ERROR_UNSPECIFIED; } } } m_is_loading = FALSE; m_create_format = 0; m_create_args = NULL; m_init_phase = FALSE; return err; } /*------------------------------------------------- create - create a image -------------------------------------------------*/ bool device_image_interface::create(const char *path, const image_device_format *create_format, option_resolution *create_args) { int format_index = (create_format != NULL) ? create_format->m_index : 0; return load_internal(path, TRUE, format_index, create_args, FALSE); } /*------------------------------------------------- clear - clear all internal data pertaining to an image -------------------------------------------------*/ void device_image_interface::clear() { if (m_mame_file) { global_free(m_mame_file); m_mame_file = NULL; m_file = NULL; } else { if (m_file) { core_fclose(m_file); m_file = NULL; } } m_image_name.reset(); m_readonly = false; m_created = false; m_longname.reset(); m_manufacturer.reset(); m_year.reset(); m_basename.reset(); m_basename_noext.reset(); m_filetype.reset(); m_full_software_name = NULL; m_software_info_ptr = NULL; m_software_part_ptr = NULL; m_software_list_name = NULL; } /*------------------------------------------------- unload - main call to unload an image -------------------------------------------------*/ void device_image_interface::unload() { if (is_loaded() || m_software_info_ptr) { call_unload(); } clear(); clear_error(); } /*------------------------------------------------- update_names - update brief and instance names -------------------------------------------------*/ void device_image_interface::update_names(const device_type device_type, const char *inst, const char *brief) { image_interface_iterator iter(device().mconfig().root_device()); int count = 0; int index = -1; for (const device_image_interface *image = iter.first(); image != NULL; image = iter.next()) { if (this == image) index = count; if ((image->image_type() == image_type() && device_type==NULL) || (device_type==image->device().type())) count++; } const char *inst_name = (device_type!=NULL) ? inst : device_typename(image_type()); const char *brief_name = (device_type!=NULL) ? brief : device_brieftypename(image_type()); if (count > 1) { m_instance_name.printf("%s%d", inst_name , index + 1); m_brief_instance_name.printf("%s%d", brief_name, index + 1); } else { m_instance_name = inst_name; m_brief_instance_name = brief_name; } } /*------------------------------------------------- get_selection_menu - create the menu stack for ui-level image selection -------------------------------------------------*/ ui_menu *device_image_interface::get_selection_menu(running_machine &machine, render_container *container) { return auto_alloc_clear(machine, ui_menu_control_device_image(machine, container, this)); } ui_menu_control_device_image::ui_menu_control_device_image(running_machine &machine, render_container *container, device_image_interface *_image) : ui_menu(machine, container) { image = _image; sld = 0; if (image->software_list_name()) { software_list_device_iterator iter(machine.config().root_device()); for (const software_list_device *swlist = iter.first(); swlist != NULL; swlist = iter.next()) { if (strcmp(swlist->list_name(),image->software_list_name())==0) sld = swlist; } } swi = image->software_entry(); swp = image->part_entry(); if(swi) { state = START_OTHER_PART; current_directory.cpy(image->working_directory()); } else { state = START_FILE; /* if the image exists, set the working directory to the parent directory */ if (image->exists()) { current_file.cpy(image->filename()); zippath_parent(current_directory, current_file); } else current_directory.cpy(image->working_directory()); /* check to see if the path exists; if not clear it */ if (zippath_opendir(current_directory, NULL) != FILERR_NONE) current_directory.reset(); } } ui_menu_control_device_image::~ui_menu_control_device_image() { } /*------------------------------------------------- create_new_image - creates a new disk image -------------------------------------------------*/ void ui_menu_control_device_image::test_create(bool &can_create, bool &need_confirm) { astring path; osd_directory_entry *entry; osd_dir_entry_type file_type; /* assemble the full path */ zippath_combine(path, current_directory, current_file); /* does a file or a directory exist at the path */ entry = osd_stat(path); file_type = (entry != NULL) ? entry->type : ENTTYPE_NONE; switch(file_type) { case ENTTYPE_NONE: /* no file/dir here - always create */ can_create = true; need_confirm = false; break; case ENTTYPE_FILE: /* a file exists here - ask for permission from the user */ can_create = true; need_confirm = true; break; case ENTTYPE_DIR: /* a directory exists here - we can't save over it */ ui_popup_time(5, "Cannot save over directory"); can_create = false; need_confirm = false; break; default: fatalerror("Unexpected\n"); can_create = false; need_confirm = false; break; } } void ui_menu_control_device_image::load_software_part() { astring temp_name(sld->list_name()); temp_name.cat(":"); temp_name.cat(swi->shortname); temp_name.cat(":"); temp_name.cat(swp->name); hook_load(temp_name, true); } void ui_menu_control_device_image::hook_load(astring name, bool softlist) { image->load(name); ui_menu::stack_pop(machine()); } void ui_menu_control_device_image::populate() { } void ui_menu_control_device_image::handle() { switch(state) { case START_FILE: { bool can_create = false; if(image->is_creatable()) { zippath_directory *directory = NULL; file_error err = zippath_opendir(current_directory, &directory); can_create = err == FILERR_NONE && !zippath_is_zip(directory); if(directory) zippath_closedir(directory); } submenu_result = -1; ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_file_selector(machine(), container, image, current_directory, current_file, true, image->image_interface()!=NULL, can_create, &submenu_result))); state = SELECT_FILE; break; } case START_SOFTLIST: sld = 0; ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_software(machine(), container, image->image_interface(), &sld))); state = SELECT_SOFTLIST; break; case START_OTHER_PART: { submenu_result = -1; ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_software_parts(machine(), container, swi, swp->interface_, &swp, true, &submenu_result))); state = SELECT_OTHER_PART; break; } case SELECT_SOFTLIST: if(!sld) { ui_menu::stack_pop(machine()); break; } software_info_name = ""; ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_software_list(machine(), container, sld, image->image_interface(), software_info_name))); state = SELECT_PARTLIST; break; case SELECT_PARTLIST: swl = software_list_open(machine().options(), sld->list_name(), false, NULL); swi = software_list_find(swl, software_info_name, NULL); if(swinfo_has_multiple_parts(swi, image->image_interface())) { submenu_result = -1; swp = 0; ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_software_parts(machine(), container, swi, image->image_interface(), &swp, false, &submenu_result))); state = SELECT_ONE_PART; } else { swp = software_find_part(swi, NULL, NULL); load_software_part(); software_list_close(swl); ui_menu::stack_pop(machine()); } break; case SELECT_ONE_PART: switch(submenu_result) { case ui_menu_software_parts::T_ENTRY: { load_software_part(); software_list_close(swl); ui_menu::stack_pop(machine()); break; } case -1: // return to list software_list_close(swl); state = SELECT_SOFTLIST; break; } break; case SELECT_OTHER_PART: switch(submenu_result) { case ui_menu_software_parts::T_ENTRY: { load_software_part(); break; } case ui_menu_software_parts::T_FMGR: state = START_FILE; handle(); break; case -1: // return to system ui_menu::stack_pop(machine()); break; } break; case SELECT_FILE: switch(submenu_result) { case ui_menu_file_selector::R_EMPTY: image->unload(); ui_menu::stack_pop(machine()); break; case ui_menu_file_selector::R_FILE: hook_load(current_file, false); break; case ui_menu_file_selector::R_CREATE: ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_file_create(machine(), container, image, current_directory, current_file))); state = CREATE_FILE; break; case ui_menu_file_selector::R_SOFTLIST: state = START_SOFTLIST; handle(); break; case -1: // return to system ui_menu::stack_pop(machine()); break; } break; case CREATE_FILE: { bool can_create, need_confirm; test_create(can_create, need_confirm); if(can_create) { if(need_confirm) { ui_menu::stack_push(auto_alloc_clear(machine(), ui_menu_confirm_save_as(machine(), container, &create_confirmed))); state = CREATE_CONFIRM; } else { state = DO_CREATE; handle(); } } else { state = START_FILE; handle(); } break; } case CREATE_CONFIRM: { state = create_confirmed ? DO_CREATE : START_FILE; handle(); break; } case DO_CREATE: { astring path; zippath_combine(path, current_directory, current_file); int err = image->create(path, 0, NULL); if (err != 0) popmessage("Error: %s", image->error()); ui_menu::stack_pop(machine()); break; } } }