/*-------------------------------------------------
softlist_match_roms - scan for a matching
software ROM by hash
-------------------------------------------------*/
static void softlist_match_roms(core_options *options, const char *hash, int length, int *found)
{
int drvindex;
/* iterate over drivers */
for (drvindex = 0; drivers[drvindex] != NULL; drvindex++)
{
machine_config *config = global_alloc(machine_config(drivers[drvindex]->machine_config));
for (const device_config *dev = config->m_devicelist.first(SOFTWARE_LIST); dev != NULL; dev = dev->typenext())
{
software_list_config *swlist = (software_list_config *)downcast<const legacy_device_config_base *>(dev)->inline_config();
for ( int i = 0; i < DEVINFO_STR_SWLIST_MAX - DEVINFO_STR_SWLIST_0; i++ )
{
if ( swlist->list_name[i] )
{
software_list *list = software_list_open( options, swlist->list_name[i], FALSE, NULL );
for ( software_info *swinfo = software_list_find( list, "*", NULL ); swinfo != NULL; swinfo = software_list_find( list, "*", swinfo ) )
{
for ( software_part *part = software_find_part( swinfo, NULL, NULL ); part != NULL; part = software_part_next( part ) )
{
for ( const rom_entry *region = part->romdata; region != NULL; region = rom_next_region(region) )
{
for ( const rom_entry *rom = rom_first_file(region); rom != NULL; rom = rom_next_file(rom) )
{
if ( hash_data_is_equal(hash, ROM_GETHASHDATA(rom), 0) )
{
int baddump = hash_data_has_info(ROM_GETHASHDATA(rom), HASH_INFO_BAD_DUMP);
/* output information about the match */
if (*found != 0)
mame_printf_info(" ");
mame_printf_info("= %s%-20s %s:%s %s\n", baddump ? "(BAD) " : "", ROM_GETNAME(rom), swlist->list_name[i], swinfo->shortname, swinfo->longname);
(*found)++;
}
}
}
}
}
software_list_close( list );
}
}
}
global_free(config);
}
}
/*-------------------------------------------------
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;
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);
if (filerr == FILERR_NONE)
{
m_file = *m_mame_file;
retVal = TRUE;
}
break; // load first item for start
}
romp++; /* something else; skip */
}
}
return retVal;
}
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;
}
}
}
void load_software_part_region(device_t *device, char *swlist, char *swname, rom_entry *start_region)
{
astring locationtag(swlist), breakstr("%");
rom_load_data *romdata = device->machine().romload_data;
const rom_entry *region;
astring regiontag;
// attempt reading up the chain through the parents and create a locationtag astring in the format
// " swlist % clonename % parentname "
// open_rom_file contains 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)
{
locationtag.cat(breakstr);
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);
}
/* Make sure we are passed a device */
assert(device != NULL);
romdata->errorstring.reset();
romdata->softwarningstring.reset();
if (software_get_support(device->machine().options(), swlist, swname) == SOFTWARE_SUPPORTED_PARTIAL)
{
romdata->errorstring.catprintf("WARNING: support for software %s (in list %s) is only partial\n", swname, swlist);
romdata->softwarningstring.catprintf("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)
{
romdata->errorstring.catprintf("WARNING: support for software %s (in list %s) is only preliminary\n", swname, swlist);
romdata->softwarningstring.catprintf("Support for software %s (in list %s) is only preliminary\n", swname, swlist);
}
/* loop until we hit the end */
for (region = start_region; region != NULL; region = rom_next_region(region))
{
UINT32 regionlength = ROMREGION_GETLENGTH(region);
device->subtag(regiontag, ROMREGION_GETTAG(region));
LOG(("Processing region \"%s\" (length=%X)\n", regiontag.cstr(), regionlength));
/* the first entry must be a region */
assert(ROMENTRY_ISREGION(region));
/* if this is a device region, override with the device width and endianness */
endianness_t endianness = ROMREGION_ISBIGENDIAN(region) ? ENDIANNESS_BIG : ENDIANNESS_LITTLE;
UINT8 width = ROMREGION_GETWIDTH(region) / 8;
memory_region *memregion = romdata->machine().root_device().memregion(regiontag);
if (memregion != NULL)
{
if (romdata->machine().device(regiontag) != NULL)
normalize_flags_for_device(romdata->machine(), regiontag, width, endianness);
/* clear old region (todo: should be moved to an image unload function) */
romdata->machine().memory().region_free(memregion->name());
}
/* remember the base and length */
romdata->region = romdata->machine().memory().region_alloc(regiontag, regionlength, width, endianness);
LOG(("Allocated %X bytes @ %p\n", romdata->region->bytes(), romdata->region->base()));
/* clear the region if it's requested */
if (ROMREGION_ISERASE(region))
memset(romdata->region->base(), ROMREGION_GETERASEVAL(region), romdata->region->bytes());
/* or if it's sufficiently small (<= 4MB) */
else if (romdata->region->bytes() <= 0x400000)
memset(romdata->region->base(), 0, romdata->region->bytes());
#ifdef MAME_DEBUG
/* if we're debugging, fill region with random data to catch errors */
else
fill_random(romdata->machine(), romdata->region->base(), romdata->region->bytes());
#endif
/* now process the entries in the region */
if (ROMREGION_ISROMDATA(region))
process_rom_entries(romdata, locationtag, region, region + 1);
else if (ROMREGION_ISDISKDATA(region))
process_disk_entries(romdata, core_strdup(regiontag.cstr()), region, region + 1, locationtag);
}
/* now go back and post-process all the regions */
for (region = start_region; region != NULL; region = rom_next_region(region)) {
device->subtag(regiontag, ROMREGION_GETTAG(region));
region_post_process(romdata, regiontag.cstr(), ROMREGION_ISINVERTED(region));
}
/* display the results and exit */
display_rom_load_results(romdata);
}
static int info_listsoftware(core_options *options, const char *gamename)
{
FILE *out = stdout;
int nr_lists = 0;
char ** lists = NULL;
int list_idx = 0;
/* First determine the maximum number of lists we might encounter */
for ( int drvindex = 0; drivers[drvindex] != NULL; drvindex++ )
{
if ( mame_strwildcmp( gamename, drivers[drvindex]->name ) == 0 )
{
/* allocate the machine config */
machine_config *config = global_alloc(machine_config(drivers[drvindex]->machine_config));
for (const device_config *dev = config->m_devicelist.first(SOFTWARE_LIST); dev != NULL; dev = dev->typenext())
{
software_list_config *swlist = (software_list_config *)downcast<const legacy_device_config_base *>(dev)->inline_config();
for ( int i = 0; i < DEVINFO_STR_SWLIST_MAX - DEVINFO_STR_SWLIST_0; i++ )
{
if ( swlist->list_name[i] && *swlist->list_name[i] && (swlist->list_type == SOFTWARE_LIST_ORIGINAL_SYSTEM))
nr_lists++;
}
}
/* free the machine config */
global_free(config);
}
}
lists = global_alloc_array( char *, nr_lists );
fprintf( out,
"<?xml version=\"1.0\"?>\n"
"<!DOCTYPE softwarelist [\n"
"<!ELEMENT softwarelists (softwarelist*)>\n"
"\t<!ELEMENT softwarelist (software+)>\n"
"\t\t<!ATTLIST softwarelist name CDATA #REQUIRED>\n"
"\t\t<!ATTLIST softwarelist description CDATA #IMPLIED>\n"
"\t\t<!ELEMENT software (description, year?, publisher, part*)>\n"
"\t\t\t<!ATTLIST software name CDATA #REQUIRED>\n"
"\t\t\t<!ATTLIST software cloneof CDATA #IMPLIED>\n"
"\t\t\t<!ATTLIST software supported (yes|partial|no) \"yes\">\n"
"\t\t\t<!ELEMENT description (#PCDATA)>\n"
"\t\t\t<!ELEMENT year (#PCDATA)>\n"
"\t\t\t<!ELEMENT publisher (#PCDATA)>\n"
"\t\t\t<!ELEMENT part (dataarea*)>\n"
"\t\t\t\t<!ATTLIST part name CDATA #REQUIRED>\n"
"\t\t\t\t<!ATTLIST part interface CDATA #REQUIRED>\n"
"\t\t\t\t<!ATTLIST part feature CDATA #IMPLIED>\n"
"\t\t\t\t<!ELEMENT dataarea (rom*)>\n"
"\t\t\t\t\t<!ATTLIST dataarea name CDATA #REQUIRED>\n"
"\t\t\t\t\t<!ATTLIST dataarea size CDATA #REQUIRED>\n"
"\t\t\t\t\t<!ATTLIST dataarea databits (8|16|32|64) \"8\">\n"
"\t\t\t\t\t<!ATTLIST dataarea endian (big|little) \"little\">\n"
"\t\t\t\t\t<!ELEMENT rom EMPTY>\n"
"\t\t\t\t\t\t<!ATTLIST rom name CDATA #IMPLIED>\n"
"\t\t\t\t\t\t<!ATTLIST rom size CDATA #REQUIRED>\n"
"\t\t\t\t\t\t<!ATTLIST rom crc CDATA #IMPLIED>\n"
"\t\t\t\t\t\t<!ATTLIST rom md5 CDATA #IMPLIED>\n"
"\t\t\t\t\t\t<!ATTLIST rom sha1 CDATA #IMPLIED>\n"
"\t\t\t\t\t\t<!ATTLIST rom offset CDATA #IMPLIED>\n"
"\t\t\t\t\t\t<!ATTLIST rom status (baddump|nodump|good) \"good\">\n"
"\t\t\t\t\t\t<!ATTLIST rom loadflag (load16_byte|load16_word|load16_word_swap|load32_byte|load32_word|load32_word_swap|load32_dword|load64_word|load64_word_swap|reload) #IMPLIED>\n"
"]>\n\n"
"<softwarelists>\n"
);
for ( int drvindex = 0; drivers[drvindex] != NULL; drvindex++ )
{
if ( mame_strwildcmp( gamename, drivers[drvindex]->name ) == 0 )
{
/* allocate the machine config */
machine_config *config = global_alloc(machine_config(drivers[drvindex]->machine_config));
for (const device_config *dev = config->m_devicelist.first(SOFTWARE_LIST); dev != NULL; dev = dev->typenext())
{
software_list_config *swlist = (software_list_config *)downcast<const legacy_device_config_base *>(dev)->inline_config();
for ( int i = 0; i < DEVINFO_STR_SWLIST_MAX - DEVINFO_STR_SWLIST_0; i++ )
{
if ( swlist->list_name[i] && *swlist->list_name[i] && (swlist->list_type == SOFTWARE_LIST_ORIGINAL_SYSTEM))
{
software_list *list = software_list_open( options, swlist->list_name[i], FALSE, NULL );
if ( list )
{
/* Verify if we have encountered this list before */
bool seen_before = false;
for ( int l = 0; l < list_idx && !seen_before; l++ )
{
if ( ! strcmp( swlist->list_name[i], lists[l] ) )
{
seen_before = true;
}
}
if ( ! seen_before )
{
lists[list_idx] = core_strdup( swlist->list_name[i] );
list_idx++;
fprintf(out, "\t<softwarelist name=\"%s\">\n", swlist->list_name[i] );
for ( software_info *swinfo = software_list_find( list, "*", NULL ); swinfo != NULL; swinfo = software_list_find( list, "*", swinfo ) )
{
fprintf( out, "\t\t<software name=\"%s\"", swinfo->shortname );
if ( swinfo->parentname != NULL )
fprintf( out, " cloneof=\"%s\"", swinfo->parentname );
if ( swinfo->supported == SOFTWARE_SUPPORTED_PARTIAL )
fprintf( out, " supported=\"partial\"" );
if ( swinfo->supported == SOFTWARE_SUPPORTED_NO )
fprintf( out, " supported=\"no\"" );
fprintf( out, ">\n" );
fprintf( out, "\t\t\t<description>%s</description>\n", xml_normalize_string(swinfo->longname) );
fprintf( out, "\t\t\t<year>%s</year>\n", xml_normalize_string( swinfo->year ) );
fprintf( out, "\t\t\t<publisher>%s</publisher>\n", xml_normalize_string( swinfo->publisher ) );
for ( software_part *part = software_find_part( swinfo, NULL, NULL ); part != NULL; part = software_part_next( part ) )
{
fprintf( out, "\t\t\t<part name=\"%s\"", part->name );
if ( part->interface_ )
fprintf( out, " interface=\"%s\"", part->interface_ );
// if ( part->feature )
// fprintf( out, " features=\"%s\"", part->feature );
fprintf( out, ">\n");
/* TODO: display rom region information */
for ( const rom_entry *region = part->romdata; region; region = rom_next_region( region ) )
{
fprintf( out, "\t\t\t\t<dataarea name=\"%s\" size=\"%x\">\n", ROMREGION_GETTAG(region), ROMREGION_GETLENGTH(region) );
for ( const rom_entry *rom = rom_first_file( region ); rom && !ROMENTRY_ISREGIONEND(rom); rom++ )
{
if ( ROMENTRY_ISFILE(rom) )
{
fprintf( out, "\t\t\t\t\t<rom name=\"%s\" size=\"%d\"", xml_normalize_string(ROM_GETNAME(rom)), rom_file_size(rom) );
/* dump checksum information only if there is a known dump */
if (!hash_data_has_info(ROM_GETHASHDATA(rom), HASH_INFO_NO_DUMP))
{
char checksum[HASH_BUF_SIZE];
int hashtype;
/* iterate over hash function types and print out their values */
for (hashtype = 0; hashtype < HASH_NUM_FUNCTIONS; hashtype++)
if (hash_data_extract_printable_checksum(ROM_GETHASHDATA(rom), 1 << hashtype, checksum))
fprintf(out, " %s=\"%s\"", hash_function_name(1 << hashtype), checksum);
}
fprintf( out, " offset=\"%x\"", ROM_GETOFFSET(rom) );
if ( hash_data_has_info(ROM_GETHASHDATA(rom), HASH_INFO_BAD_DUMP) )
fprintf( out, " status=\"baddump\"" );
if ( hash_data_has_info(ROM_GETHASHDATA(rom), HASH_INFO_NO_DUMP) )
fprintf( out, " status=\"nodump\"" );
fprintf( out, "/>\n" );
}
else if ( ROMENTRY_ISRELOAD(rom) )
{
fprintf( out, "\t\t\t\t\t<rom size=\"%d\" offset=\"%x\" loadflag=\"reload\" />\n", ROM_GETLENGTH(rom), ROM_GETOFFSET(rom) );
}
}
fprintf( out, "\t\t\t\t</dataarea>\n" );
}
fprintf( out, "\t\t\t</part>\n" );
}
fprintf( out, "\t\t</software>\n" );
}
fprintf(out, "\t</softwarelist>\n" );
}
software_list_close( list );
}
}
}
}
global_free(config);
}
}
fprintf( out, "</softwarelists>\n" );
global_free( lists );
return MAMERR_NONE;
}
