/* Copyright (C) 2010-2016 The RetroArch team * * --------------------------------------------------------------------------------------- * The following license statement only applies to this file (c_converter.c). * --------------------------------------------------------------------------------------- * * Permission is hereby granted, free of charge, * to any person obtaining a copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, * and to permit persons to whom the Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include "libretrodb.h" static void dat_converter_exit(int rc) { fflush(stdout); exit(rc); } typedef enum { DAT_CONVERTER_STRING_MAP, DAT_CONVERTER_LIST_MAP, } dat_converter_map_enum; typedef enum { DAT_CONVERTER_TOKEN_LIST, DAT_CONVERTER_STRING_LIST, DAT_CONVERTER_MAP_LIST, DAT_CONVERTER_LIST_LIST, } dat_converter_list_enum; typedef struct { const char* label; int line_no; int column; const char* fname; } dat_converter_token_t; typedef struct dat_converter_map_t dat_converter_map_t; typedef struct dat_converter_list_t dat_converter_list_t; typedef union dat_converter_list_item_t dat_converter_list_item_t; typedef struct dat_converter_search_tree_t dat_converter_search_tree_t; typedef struct dat_converter_bt_node_t dat_converter_bt_node_t; struct dat_converter_map_t { const char* key; uint32_t hash; dat_converter_map_enum type; union { const char* string; dat_converter_list_t* list; } value; }; struct dat_converter_list_t { dat_converter_list_enum type; dat_converter_list_item_t* values; dat_converter_bt_node_t* bt_root; int count; int capacity; }; union dat_converter_list_item_t { const char* string; dat_converter_map_t map; dat_converter_token_t token; dat_converter_list_t* list; }; struct dat_converter_bt_node_t { int index; uint32_t hash; dat_converter_bt_node_t* right; dat_converter_bt_node_t* left; }; static dat_converter_list_t* dat_converter_list_create( dat_converter_list_enum type) { dat_converter_list_t* list = malloc(sizeof(*list)); list->type = type; list->count = 0; list->capacity = (1 << 2); list->bt_root = NULL; list->values = (dat_converter_list_item_t*)malloc( sizeof(*list->values) * list->capacity); return list; } static void dat_converter_bt_node_free(dat_converter_bt_node_t* node) { if (!node) return; dat_converter_bt_node_free(node->left); dat_converter_bt_node_free(node->right); free(node); } static void dat_converter_list_free(dat_converter_list_t* list) { if (!list) return; switch (list->type) { case DAT_CONVERTER_LIST_LIST: while (list->count--) dat_converter_list_free(list->values[list->count].list); break; case DAT_CONVERTER_MAP_LIST: while (list->count--) { if (list->values[list->count].map.type == DAT_CONVERTER_LIST_MAP) dat_converter_list_free(list->values[list->count].map.value.list); } dat_converter_bt_node_free(list->bt_root); break; default: break; } free(list->values); free(list); } static void dat_converter_list_append(dat_converter_list_t* dst, void* item); static dat_converter_bt_node_t* dat_converter_bt_node_insert( dat_converter_list_t* list, dat_converter_bt_node_t** node, dat_converter_map_t* map) { retro_assert(map->key); retro_assert(list->type == DAT_CONVERTER_MAP_LIST); if (!*node) { *node = calloc(1, sizeof(dat_converter_bt_node_t)); return *node; } int diff = (*node)->hash - map->hash; if (!diff) diff = strcmp(list->values[(*node)->index].map.key, map->key); if (diff < 0) return dat_converter_bt_node_insert(list, &(*node)->left, map); else if (diff > 0) return dat_converter_bt_node_insert(list, &(*node)->right, map); /* found match */ if (list->values[(*node)->index].map.type == DAT_CONVERTER_LIST_MAP) { if (map->type == DAT_CONVERTER_LIST_MAP) { int i; retro_assert(list->values[(*node)->index].map.value.list->type == map->value.list->type); for (i = 0; i < map->value.list->count; i++) dat_converter_list_append( list->values[(*node)->index].map.value.list, &map->value.list->values[i]); /* set count to 0 to prevent freeing the child nodes */ map->value.list->count = 0; dat_converter_list_free(map->value.list); } } else list->values[(*node)->index].map = *map; return NULL; } static void dat_converter_list_append(dat_converter_list_t* dst, void* item) { if (dst->count == dst->capacity) { dst->capacity <<= 1; dst->values = realloc(dst->values, sizeof(*dst->values) * dst->capacity); } switch (dst->type) { case DAT_CONVERTER_TOKEN_LIST: { dat_converter_token_t* token = (dat_converter_token_t*) item; dst->values[dst->count].token = *token; break; } case DAT_CONVERTER_STRING_LIST: { char* str = (char*) item; dst->values[dst->count].string = str; break; } case DAT_CONVERTER_MAP_LIST: { dat_converter_map_t* map = (dat_converter_map_t*) item; if (!map->key) dst->values[dst->count].map = *map; else { map->hash = djb2_calculate(map->key); dat_converter_bt_node_t* new_node = dat_converter_bt_node_insert(dst, &dst->bt_root, map); if (!new_node) return; dst->values[dst->count].map = *map; new_node->index = dst->count; new_node->hash = map->hash; } break; } case DAT_CONVERTER_LIST_LIST: { dat_converter_list_t* list = (dat_converter_list_t*) item; dst->values[dst->count].list = list; break; } default: return; } dst->count++; } static dat_converter_list_t* dat_converter_lexer( char* src, const char* dat_path) { dat_converter_list_t* token_list = dat_converter_list_create(DAT_CONVERTER_TOKEN_LIST); dat_converter_token_t token = {NULL, 1, 1, dat_path}; bool quoted_token = false; while (*src) { if ((!quoted_token && (*src == '\t' || *src == ' ')) || (*src == '\r')) { *src = '\0'; src++; token.column++; token.label = NULL; quoted_token = false; continue; } if (*src == '\n') { *src = '\0'; src++; token.column = 1; token.line_no++; token.label = NULL; quoted_token = false; continue; } if (*src == '\"') { *src = '\0'; src++; token.column++; quoted_token = !quoted_token; token.label = NULL; if (quoted_token) { token.label = src; dat_converter_list_append(token_list, &token); } continue; } if (!token.label) { token.label = src; dat_converter_list_append(token_list, &token); } src++; token.column++; } token.label = NULL; dat_converter_list_append(token_list, &token); return token_list; } static dat_converter_list_t* dat_parser_table( dat_converter_list_item_t** start_token) { dat_converter_list_t* parsed_table = dat_converter_list_create(DAT_CONVERTER_MAP_LIST); dat_converter_map_t map = {0}; dat_converter_list_item_t* current = *start_token; while (current->token.label) { if (!map.key) { if (string_is_equal(current->token.label, ")")) { current++; *start_token = current; return parsed_table; } else if (string_is_equal(current->token.label, "(")) { printf("%s:%d:%d: fatal error: Unexpected '(' instead of key\n", current->token.fname, current->token.line_no, current->token.column); dat_converter_exit(1); } else { map.key = current->token.label; current++; } } else { if (string_is_equal(current->token.label, "(")) { current++; map.type = DAT_CONVERTER_LIST_MAP; map.value.list = dat_parser_table(¤t); dat_converter_list_append(parsed_table, &map); } else if (string_is_equal(current->token.label, ")")) { printf("%s:%d:%d: fatal error: Unexpected ')' instead of value\n", current->token.fname, current->token.line_no, current->token.column); dat_converter_exit(1); } else { map.type = DAT_CONVERTER_STRING_MAP; map.value.string = current->token.label; dat_converter_list_append(parsed_table, &map); current++; } map.key = NULL; } } printf("%s:%d:%d: fatal error: Missing ')' for '('\n", (*start_token)->token.fname, (*start_token)->token.line_no, (*start_token)->token.column); dat_converter_exit(1); /* unreached */ dat_converter_list_free(parsed_table); return NULL; } typedef struct dat_converter_match_key_t dat_converter_match_key_t; struct dat_converter_match_key_t { char* value; uint32_t hash; dat_converter_match_key_t* next; }; static dat_converter_match_key_t* dat_converter_match_key_create( const char* format) { dat_converter_match_key_t* match_key; dat_converter_match_key_t* current_mk; char* dot; match_key = malloc(sizeof(*match_key)); match_key->value = strdup(format); match_key->next = NULL; current_mk = match_key; dot = match_key->value; while (*dot++) { if (*dot == '.') { *dot++ = '\0'; current_mk->hash = djb2_calculate(current_mk->value); current_mk->next = malloc(sizeof(*match_key)); current_mk = current_mk->next; current_mk->value = dot; current_mk->next = NULL; } } current_mk->hash = djb2_calculate(current_mk->value); return match_key; } static void dat_converter_match_key_free(dat_converter_match_key_t* match_key) { if (!match_key) return; free(match_key->value); while (match_key) { dat_converter_match_key_t* next = match_key->next; free(match_key); match_key = next; } } static const char* dat_converter_get_match( dat_converter_list_t* list, dat_converter_match_key_t* match_key) { int i; retro_assert(match_key); if (list->type != DAT_CONVERTER_MAP_LIST) return NULL; for (i = 0; i < list->count; i++) { if (list->values[i].map.hash == match_key->hash) { retro_assert(string_is_equal(list->values[i].map.key, match_key->value)); if (match_key->next) return dat_converter_get_match( list->values[i].map.value.list, match_key->next); if ((list->values[i].map.type == DAT_CONVERTER_STRING_MAP)) return list->values[i].map.value.string; return NULL; } } return NULL; } static dat_converter_list_t* dat_converter_parser( dat_converter_list_t* target, dat_converter_list_t* lexer_list, dat_converter_match_key_t* match_key) { dat_converter_map_t map; dat_converter_list_item_t* current = lexer_list->values; bool skip = true; map.key = NULL; map.type = DAT_CONVERTER_LIST_MAP; if (!target) { dat_converter_map_t map; target = dat_converter_list_create(DAT_CONVERTER_MAP_LIST); map.key = NULL; map.type = DAT_CONVERTER_LIST_MAP; map.value.list = NULL; dat_converter_list_append(target, &map); } while (current->token.label) { if (!map.key) { if (string_is_equal(current->token.label, "game")) skip = false; map.key = current->token.label; current++; } else { if (string_is_equal(current->token.label, "(")) { current++; map.value.list = dat_parser_table(¤t); if (!skip) { if (match_key) { map.key = dat_converter_get_match(map.value.list, match_key); if (!map.key) { printf("missing match key '"); while (match_key->next) { printf("%s.", match_key->value); match_key = match_key->next; } printf("%s' in one of the entries\n", match_key->value); dat_converter_exit(1); } } else map.key = NULL; dat_converter_list_append(target, &map); skip = true; } else dat_converter_list_free(map.value.list); map.key = NULL; } else { printf("%s:%d:%d: fatal error: Expected '(' found '%s'\n", current->token.fname, current->token.line_no, current->token.column, current->token.label); dat_converter_exit(1); } } } return target; } typedef enum { DAT_CONVERTER_RDB_TYPE_STRING, DAT_CONVERTER_RDB_TYPE_UINT, DAT_CONVERTER_RDB_TYPE_BINARY, DAT_CONVERTER_RDB_TYPE_HEX } dat_converter_rdb_format_enum; typedef struct { const char* dat_key; const char* rdb_key; dat_converter_rdb_format_enum format; } dat_converter_rdb_mappings_t; dat_converter_rdb_mappings_t rdb_mappings[] = { {"name", "name", DAT_CONVERTER_RDB_TYPE_STRING}, {"description", "description", DAT_CONVERTER_RDB_TYPE_STRING}, {"genre", "genre", DAT_CONVERTER_RDB_TYPE_STRING}, {"rom.name", "rom_name", DAT_CONVERTER_RDB_TYPE_STRING}, {"rom.size", "size", DAT_CONVERTER_RDB_TYPE_UINT}, {"users", "users", DAT_CONVERTER_RDB_TYPE_UINT}, {"releasemonth", "releasemonth", DAT_CONVERTER_RDB_TYPE_UINT}, {"releaseyear", "releaseyear", DAT_CONVERTER_RDB_TYPE_UINT}, {"rumble", "rumble", DAT_CONVERTER_RDB_TYPE_UINT}, {"analog", "analog", DAT_CONVERTER_RDB_TYPE_UINT}, {"famitsu_rating", "famitsu_rating", DAT_CONVERTER_RDB_TYPE_UINT}, {"edge_rating", "edge_rating", DAT_CONVERTER_RDB_TYPE_UINT}, {"edge_issue", "edge_issue", DAT_CONVERTER_RDB_TYPE_UINT}, {"edge_review", "edge_review", DAT_CONVERTER_RDB_TYPE_STRING}, {"enhancement_hw", "enhancement_hw", DAT_CONVERTER_RDB_TYPE_STRING}, {"barcode", "barcode", DAT_CONVERTER_RDB_TYPE_STRING}, {"esrb_rating", "esrb_rating", DAT_CONVERTER_RDB_TYPE_STRING}, {"elspa_rating", "elspa_rating", DAT_CONVERTER_RDB_TYPE_STRING}, {"pegi_rating", "pegi_rating", DAT_CONVERTER_RDB_TYPE_STRING}, {"cero_rating", "cero_rating", DAT_CONVERTER_RDB_TYPE_STRING}, {"franchise", "franchise", DAT_CONVERTER_RDB_TYPE_STRING}, {"developer", "developer", DAT_CONVERTER_RDB_TYPE_STRING}, {"publisher", "publisher", DAT_CONVERTER_RDB_TYPE_STRING}, {"origin", "origin", DAT_CONVERTER_RDB_TYPE_STRING}, {"coop", "coop", DAT_CONVERTER_RDB_TYPE_UINT}, {"tgdb_rating", "tgdb_rating", DAT_CONVERTER_RDB_TYPE_UINT}, {"rom.crc", "crc", DAT_CONVERTER_RDB_TYPE_HEX}, {"rom.md5", "md5", DAT_CONVERTER_RDB_TYPE_HEX}, {"rom.sha1", "sha1", DAT_CONVERTER_RDB_TYPE_HEX}, {"serial", "serial", DAT_CONVERTER_RDB_TYPE_BINARY}, {"rom.serial", "serial", DAT_CONVERTER_RDB_TYPE_BINARY} }; dat_converter_match_key_t* rdb_mappings_mk[(sizeof(rdb_mappings) / sizeof(*rdb_mappings))] = {0}; static void dat_converter_value_provider_init(void) { int i; for (i = 0; i < (sizeof(rdb_mappings) / sizeof(*rdb_mappings)); i++) rdb_mappings_mk[i] = dat_converter_match_key_create(rdb_mappings[i].dat_key); } static void dat_converter_value_provider_free(void) { int i; for (i = 0; i < (sizeof(rdb_mappings) / sizeof(*rdb_mappings)); i++) { dat_converter_match_key_free(rdb_mappings_mk[i]); rdb_mappings_mk[i] = NULL; } } static int dat_converter_value_provider( dat_converter_list_item_t** current_item, struct rmsgpack_dom_value* out) { int i; struct rmsgpack_dom_pair* current = NULL; out->type = RDT_MAP; out->val.map.len = 0; out->val.map.items = calloc((sizeof(rdb_mappings) / sizeof(*rdb_mappings)), sizeof(struct rmsgpack_dom_pair)); (*current_item)--; retro_assert((*current_item)->map.type == DAT_CONVERTER_LIST_MAP); dat_converter_list_t* list = (*current_item)->map.value.list; if (!list) return 1; retro_assert(list->type == DAT_CONVERTER_MAP_LIST); current = out->val.map.items; for (i = 0; i < (sizeof(rdb_mappings) / sizeof(*rdb_mappings)); i++) { const char* value = dat_converter_get_match(list, rdb_mappings_mk[i]); if (!value) continue; current->key.type = RDT_STRING; current->key.val.string.len = strlen(rdb_mappings[i].rdb_key); current->key.val.string.buff = strdup(rdb_mappings[i].rdb_key); switch (rdb_mappings[i].format) { case DAT_CONVERTER_RDB_TYPE_STRING: current->value.type = RDT_STRING; current->value.val.string.len = strlen(value); current->value.val.string.buff = strdup(value); break; case DAT_CONVERTER_RDB_TYPE_UINT: current->value.type = RDT_UINT; if (value[strlen(value) - 1] == '\?') { free(current->key.val.string.buff); continue; } current->value.val.uint_ = (uint64_t)atoll(value); break; case DAT_CONVERTER_RDB_TYPE_BINARY: current->value.type = RDT_BINARY; current->value.val.binary.len = strlen(value); current->value.val.binary.buff = strdup(value); break; case DAT_CONVERTER_RDB_TYPE_HEX: current->value.type = RDT_BINARY; current->value.val.binary.len = strlen(value) / 2; current->value.val.binary.buff = malloc(current->value.val.binary.len); { const char* hex_char = value; char* out_buff = current->value.val.binary.buff; while (*hex_char && *(hex_char + 1)) { char val = 0; if (*hex_char >= 'A' && *hex_char <= 'F') val = *hex_char + 0xA - 'A'; else if (*hex_char >= 'a' && *hex_char <= 'f') val = *hex_char + 0xA - 'a'; else if (*hex_char >= '0' && *hex_char <= '9') val = *hex_char - '0'; else val = 0; val <<= 4; hex_char++; if (*hex_char >= 'A' && *hex_char <= 'F') val |= *hex_char + 0xA - 'A'; else if (*hex_char >= 'a' && *hex_char <= 'f') val |= *hex_char + 0xA - 'a'; else if (*hex_char >= '0' && *hex_char <= '9') val |= *hex_char - '0'; *out_buff++ = val; hex_char++; } } break; default: retro_assert(0); break; } current++; } out->val.map.len = current - out->val.map.items; return 0; } int main(int argc, char** argv) { const char* rdb_path; dat_converter_match_key_t* match_key = NULL; RFILE* rdb_file; if (argc < 2) { printf("usage:\n%s [args ...]\n", *argv); dat_converter_exit(1); } argc--; argv++; rdb_path = *argv; argc--; argv++; if (argc > 1 &&** argv) { match_key = dat_converter_match_key_create(*argv); argc--; argv++; } int dat_count = argc; char** dat_buffers = (char**) malloc(dat_count * sizeof(*dat_buffers)); char** dat_buffer = dat_buffers; dat_converter_list_t* dat_parser_list = NULL; while (argc) { size_t dat_file_size; dat_converter_list_t* dat_lexer_list = NULL; FILE* dat_file = fopen(*argv, "r"); if (!dat_file) { printf("could not open dat file '%s': %s\n", *argv, strerror(errno)); dat_converter_exit(1); } fseek(dat_file, 0, SEEK_END); dat_file_size = ftell(dat_file); fseek(dat_file, 0, SEEK_SET); *dat_buffer = (char*)malloc(dat_file_size + 1); fread(*dat_buffer, 1, dat_file_size, dat_file); fclose(dat_file); (*dat_buffer)[dat_file_size] = '\0'; printf("Parsing dat file '%s'...\n", *argv); dat_lexer_list = dat_converter_lexer(*dat_buffer, *argv); dat_parser_list = dat_converter_parser( dat_parser_list, dat_lexer_list, match_key); dat_converter_list_free(dat_lexer_list); argc--; argv++; dat_buffer++; } rdb_file = filestream_open(rdb_path, RFILE_MODE_WRITE, -1); if (!rdb_file) { printf( "Could not open destination file '%s': %s\n", rdb_path, strerror(errno) ); dat_converter_exit(1); } dat_converter_list_item_t* current_item = &dat_parser_list->values[dat_parser_list->count]; dat_converter_value_provider_init(); libretrodb_create(rdb_file, (libretrodb_value_provider)&dat_converter_value_provider, ¤t_item); dat_converter_value_provider_free(); filestream_close(rdb_file); dat_converter_list_free(dat_parser_list); while (dat_count--) free(dat_buffers[dat_count]); free(dat_buffers); dat_converter_match_key_free(match_key); return 0; }