/* RetroArch - A frontend for libretro. * Copyright (C) 2010-2014 - Hans-Kristian Arntzen * Copyright (C) 2011-2017 - Daniel De Matteis * * RetroArch is free software: you can redistribute it and/or modify it under the terms * of the GNU General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_MENU #include "menu/menu_driver.h" #endif #ifdef HAVE_CHEEVOS #include "cheevos/cheevos.h" #endif #include "cheat_manager.h" #include "msg_hash.h" #include "configuration.h" #include "retroarch.h" #include "dynamic.h" #include "core.h" #include "verbosity.h" /* TODO/FIXME - public global variables */ cheat_manager_t cheat_manager_state; unsigned cheat_manager_get_buf_size(void) { cheat_manager_t *cheat_st = &cheat_manager_state; return cheat_st->buf_size; } unsigned cheat_manager_get_size(void) { cheat_manager_t *cheat_st = &cheat_manager_state; return cheat_st->size; } #ifdef HAVE_CHEEVOS static void cheat_manager_pause_cheevos(void) { rcheevos_pause_hardcore(); runloop_msg_queue_push(msg_hash_to_str(MSG_CHEEVOS_HARDCORE_MODE_DISABLED_CHEAT), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); RARCH_LOG("%s\n", msg_hash_to_str(MSG_CHEEVOS_HARDCORE_MODE_DISABLED_CHEAT)); } #endif void cheat_manager_apply_cheats(void) { unsigned i, idx = 0; settings_t *settings = config_get_ptr(); cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) return; core_reset_cheat(); for (i = 0; i < cheat_st->size; i++) { if ( cheat_st->cheats[i].state && cheat_st->cheats[i].handler == CHEAT_HANDLER_TYPE_EMU) { retro_ctx_cheat_info_t cheat_info; cheat_info.index = idx++; cheat_info.enabled = true; cheat_info.code = cheat_st->cheats[i].code; if (!string_is_empty(cheat_info.code)) core_set_cheat(&cheat_info); } } if (cheat_st->size > 0 && settings->bools.notification_show_cheats_applied) { runloop_msg_queue_push(msg_hash_to_str(MSG_APPLYING_CHEAT), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); RARCH_LOG("%s\n", msg_hash_to_str(MSG_APPLYING_CHEAT)); } #ifdef HAVE_CHEEVOS if (idx != 0 && rcheevos_hardcore_active()) cheat_manager_pause_cheevos(); #endif } void cheat_manager_set_code(unsigned i, const char *str) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) return; if (!string_is_empty(str)) strcpy(cheat_st->cheats[i].code, str); cheat_st->cheats[i].state = true; } /** * cheat_manager_save: * @path : Path to cheats file (relative path). * * Saves cheats to file on disk. * * Returns: true (1) if successful, otherwise false (0). **/ bool cheat_manager_save( const char *path, const char *cheat_database, bool overwrite) { bool ret; unsigned i; char buf[PATH_MAX_LENGTH]; char cheats_file[PATH_MAX_LENGTH]; config_file_t *conf = NULL; cheat_manager_t *cheat_st = &cheat_manager_state; unsigned int* data_ptrs[16] = { NULL}; char* keys[16] = { (char*)"cheat%u_handler", (char*)"cheat%u_memory_search_size", (char*)"cheat%u_cheat_type", (char*)"cheat%u_value", (char*)"cheat%u_address", (char*)"cheat%u_address_bit_position", (char*)"cheat%u_rumble_type", (char*)"cheat%u_rumble_value", (char*)"cheat%u_rumble_port", (char*)"cheat%u_rumble_primary_strength", (char*)"cheat%u_rumble_primary_duration", (char*)"cheat%u_rumble_secondary_strength", (char*)"cheat%u_rumble_secondary_duration", (char*)"cheat%u_repeat_count", (char*)"cheat%u_repeat_add_to_value", (char*)"cheat%u_repeat_add_to_address" }; buf[0] = cheats_file[0] = '\0'; if (!cheat_st->cheats || cheat_st->size == 0) return false; if (!cheat_database) strlcpy(cheats_file, path, sizeof(cheats_file)); else { fill_pathname_join(buf, cheat_database, path, sizeof(buf)); fill_pathname_noext(cheats_file, buf, ".cht", sizeof(cheats_file)); } if (!overwrite) conf = config_file_new_from_path_to_string(cheats_file); if (!conf) if (!(conf = config_file_new_alloc())) return false; conf->guaranteed_no_duplicates = true; config_set_int(conf, "cheats", cheat_st->size); for (i = 0; i < cheat_st->size; i++) { unsigned j; char endian_key[100]; char key[256]; char desc_key[256]; char code_key[256]; char enable_key[256]; key[0] = endian_key[0] = desc_key[0] = code_key[0] = enable_key[0] = '\0'; snprintf(endian_key, sizeof(endian_key), "cheat%u_big_endian", i); snprintf(desc_key, sizeof(desc_key), "cheat%u_desc", i); snprintf(code_key, sizeof(code_key), "cheat%u_code", i); snprintf(enable_key, sizeof(enable_key), "cheat%u_enable", i); if (!string_is_empty(cheat_st->cheats[i].desc)) config_set_string(conf, desc_key, cheat_st->cheats[i].desc); else config_set_string(conf, desc_key, cheat_st->cheats[i].code); config_set_string(conf, code_key, cheat_st->cheats[i].code); config_set_bool(conf, enable_key, cheat_st->cheats[i].state); config_set_bool(conf, endian_key, cheat_st->cheats[i].big_endian); data_ptrs[0] = &cheat_st->cheats[i].handler; data_ptrs[1] = &cheat_st->cheats[i].memory_search_size; data_ptrs[2] = &cheat_st->cheats[i].cheat_type; data_ptrs[3] = &cheat_st->cheats[i].value; data_ptrs[4] = &cheat_st->cheats[i].address; data_ptrs[5] = &cheat_st->cheats[i].address_mask; data_ptrs[6] = &cheat_st->cheats[i].rumble_type; data_ptrs[7] = &cheat_st->cheats[i].rumble_value; data_ptrs[8] = &cheat_st->cheats[i].rumble_port; data_ptrs[9] = &cheat_st->cheats[i].rumble_primary_strength; data_ptrs[10] = &cheat_st->cheats[i].rumble_primary_duration; data_ptrs[11] = &cheat_st->cheats[i].rumble_secondary_strength; data_ptrs[12] = &cheat_st->cheats[i].rumble_secondary_duration; data_ptrs[13] = &cheat_st->cheats[i].repeat_count; data_ptrs[14] = &cheat_st->cheats[i].repeat_add_to_value; data_ptrs[15] = &cheat_st->cheats[i].repeat_add_to_address; for (j = 0; j < 16; j++) { key[0] = '\0'; snprintf(key, sizeof(key), keys[j], i); config_set_uint(conf, key, *(data_ptrs[j])); } } ret = config_file_write(conf, cheats_file, true); config_file_free(conf); return ret; } bool cheat_manager_copy_idx_to_working(unsigned idx) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || (cheat_st->size < idx + 1)) return false; memcpy(&cheat_st->working_cheat, &cheat_st->cheats[idx], sizeof(struct item_cheat)); if (cheat_st->cheats[idx].desc) strlcpy(cheat_st->working_desc, cheat_st->cheats[idx].desc, CHEAT_DESC_SCRATCH_SIZE); else cheat_st->working_desc[0] = '\0'; if (cheat_st->cheats[idx].code) strlcpy(cheat_st->working_code, cheat_st->cheats[idx].code, CHEAT_CODE_SCRATCH_SIZE); else cheat_st->working_code[0] = '\0'; return true; } bool cheat_manager_copy_working_to_idx(unsigned idx) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || (cheat_st->size < idx + 1)) return false; memcpy(&cheat_st->cheats[idx], &cheat_st->working_cheat, sizeof(struct item_cheat)); if (cheat_st->cheats[idx].desc) free(cheat_st->cheats[idx].desc); cheat_st->cheats[idx].desc = strdup(cheat_st->working_desc); if (cheat_st->cheats[idx].code) free(cheat_st->cheats[idx].code); cheat_st->cheats[idx].code = strdup(cheat_st->working_code); return true; } static void cheat_manager_free(void) { unsigned i = 0; cheat_manager_t *cheat_st = &cheat_manager_state; if (cheat_st->cheats) { for (i = 0; i < cheat_st->size; i++) { if (cheat_st->cheats[i].desc) free(cheat_st->cheats[i].desc); if (cheat_st->cheats[i].code) free(cheat_st->cheats[i].code); } free(cheat_st->cheats); } if (cheat_st->prev_memory_buf) free(cheat_st->prev_memory_buf); if (cheat_st->matches) free(cheat_st->matches); if (cheat_st->memory_buf_list) free(cheat_st->memory_buf_list); if (cheat_st->memory_size_list) free(cheat_st->memory_size_list); cheat_st->cheats = NULL; cheat_st->size = 0; cheat_st->buf_size = 0; cheat_st->prev_memory_buf = NULL; cheat_st->curr_memory_buf = NULL; cheat_st->memory_buf_list = NULL; cheat_st->memory_size_list = NULL; cheat_st->matches = NULL; cheat_st->num_memory_buffers = 0; cheat_st->total_memory_size = 0; cheat_st->memory_initialized = false; cheat_st->memory_search_initialized = false; } static void cheat_manager_new(unsigned size) { unsigned i; cheat_manager_t *cheat_st = &cheat_manager_state; cheat_manager_free(); cheat_st->buf_size = size; cheat_st->size = size; cheat_st->search_bit_size = 3; cheat_st->cheats = (struct item_cheat*) calloc(cheat_st->buf_size, sizeof(struct item_cheat)); if (!cheat_st->cheats) { cheat_st->buf_size = 0; cheat_st->size = 0; cheat_st->cheats = NULL; return; } for (i = 0; i < cheat_st->size; i++) { cheat_st->cheats[i].desc = NULL; cheat_st->cheats[i].code = NULL; cheat_st->cheats[i].state = false; cheat_st->cheats[i].repeat_count = 1; cheat_st->cheats[i].repeat_add_to_value = 0; cheat_st->cheats[i].repeat_add_to_address = 1; } } static void cheat_manager_load_cb_first_pass(char *key, char *value) { cheat_manager_t *cheat_st = &cheat_manager_state; errno = 0; if (string_is_equal(key, "cheats")) { cheat_st->loading_cheat_size = (unsigned)strtoul(value, NULL, 0); if (errno != 0) cheat_st->loading_cheat_size = 0; } } static void cheat_manager_load_cb_second_pass(char *key, char *value) { char cheat_num_str[20]; unsigned cheat_num; unsigned cheat_idx; unsigned idx = 5; size_t key_length = 0; cheat_manager_t *cheat_st = &cheat_manager_state; errno = 0; if (strncmp(key, "cheat", 5) != 0) return; key_length = strlen((const char*)key); while (idx < key_length && key[idx] >= '0' && key[idx] <= '9' && idx < 24) { cheat_num_str[idx - 5] = key[idx]; idx++; } cheat_num_str[idx - 5] = '\0'; cheat_num = (unsigned)strtoul(cheat_num_str, NULL, 0); if (cheat_num + cheat_st->loading_cheat_offset >= cheat_st->size) return; key = key + idx + 1; cheat_idx = cheat_num + cheat_st->loading_cheat_offset; if (string_is_equal(key, "address")) cheat_st->cheats[cheat_idx].address = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "address_bit_position")) cheat_st->cheats[cheat_idx].address_mask = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "big_endian")) cheat_st->cheats[cheat_idx].big_endian = (string_is_equal(value, "true") || string_is_equal(value, "1")); else if (string_is_equal(key, "cheat_type")) cheat_st->cheats[cheat_idx].cheat_type = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "code")) cheat_st->cheats[cheat_idx].code = strdup(value); else if (string_is_equal(key, "desc")) cheat_st->cheats[cheat_idx].desc = strdup(value); else if (string_is_equal(key, "enable")) cheat_st->cheats[cheat_idx].state = (string_is_equal(value, "true") || string_is_equal(value, "1")); else if (string_is_equal(key, "handler")) cheat_st->cheats[cheat_idx].handler = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "memory_search_size")) cheat_st->cheats[cheat_idx].memory_search_size = (unsigned)strtoul(value, NULL, 0); else if (string_starts_with_size(key, "repeat_", STRLEN_CONST("repeat_"))) { if (string_is_equal(key, "repeat_add_to_address")) cheat_st->cheats[cheat_idx].repeat_add_to_address = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "repeat_add_to_value")) cheat_st->cheats[cheat_idx].repeat_add_to_value = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "repeat_count")) cheat_st->cheats[cheat_idx].repeat_count = (unsigned)strtoul(value, NULL, 0); } else if (string_starts_with_size(key, "rumble", STRLEN_CONST("rumble"))) { if (string_is_equal(key, "rumble_port")) cheat_st->cheats[cheat_idx].rumble_port = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_primary_duration")) cheat_st->cheats[cheat_idx].rumble_primary_duration = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_primary_strength")) cheat_st->cheats[cheat_idx].rumble_primary_strength = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_secondary_duration")) cheat_st->cheats[cheat_idx].rumble_secondary_duration = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_secondary_strength")) cheat_st->cheats[cheat_idx].rumble_secondary_strength = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_type")) cheat_st->cheats[cheat_idx].rumble_type = (unsigned)strtoul(value, NULL, 0); else if (string_is_equal(key, "rumble_value")) cheat_st->cheats[cheat_idx].rumble_value = (unsigned)strtoul(value, NULL, 0); } else if (string_is_equal(key, "value")) cheat_st->cheats[cheat_idx].value = (unsigned)strtoul(value, NULL, 0); } bool cheat_manager_load(const char *path, bool append) { config_file_cb_t cb; unsigned orig_size = 0; unsigned cheats = 0; unsigned i = 0; config_file_t *conf = NULL; cheat_manager_t *cheat_st = &cheat_manager_state; cb.config_file_new_entry_cb = cheat_manager_load_cb_first_pass; cheat_st->loading_cheat_size = 0; conf = config_file_new_with_callback(path, &cb); if (!conf) return false; cheats = cheat_st->loading_cheat_size; if (cheats == 0) goto error; config_file_free(conf); conf = NULL; cheat_manager_alloc_if_empty(); if (append) { orig_size = cheat_manager_get_size(); if (orig_size == 0) cheat_manager_new(cheats); else { cheats = cheats + orig_size; if (cheat_manager_realloc(cheats, CHEAT_HANDLER_TYPE_EMU)) { } } } else { orig_size = 0; cheat_manager_new(cheats); } for (i = orig_size; cheat_st->cheats && i < cheats; i++) { cheat_st->cheats[i].idx = i; cheat_st->cheats[i].desc = NULL; cheat_st->cheats[i].code = NULL; cheat_st->cheats[i].state = false; cheat_st->cheats[i].big_endian = false; cheat_st->cheats[i].cheat_type = CHEAT_TYPE_SET_TO_VALUE; cheat_st->cheats[i].memory_search_size = 3; } cheat_st->loading_cheat_offset = orig_size; cb.config_file_new_entry_cb = cheat_manager_load_cb_second_pass; conf = config_file_new_with_callback(path, &cb); if (!conf) return false; config_file_free(conf); return true; error: config_file_free(conf); return false; } bool cheat_manager_realloc(unsigned new_size, unsigned default_handler) { unsigned i; unsigned orig_size = 0; cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) { cheat_st->cheats = (struct item_cheat*) calloc(new_size, sizeof(struct item_cheat)); orig_size = 0; } else { struct item_cheat *val = NULL; orig_size = cheat_st->size; /* if size is decreasing, free the items that will be lost */ for (i = new_size; i < orig_size; i++) { if (cheat_st->cheats[i].code) free(cheat_st->cheats[i].code); if (cheat_st->cheats[i].desc) free(cheat_st->cheats[i].desc); } val = (struct item_cheat*) realloc(cheat_st->cheats, new_size * sizeof(struct item_cheat)); cheat_st->cheats = val ? val : NULL; } if (!cheat_st->cheats) { cheat_st->buf_size = cheat_st->size = 0; cheat_st->cheats = NULL; return false; } cheat_st->buf_size = new_size; cheat_st->size = new_size; for (i = orig_size; i < cheat_st->size; i++) { memset(&cheat_st->cheats[i], 0, sizeof(cheat_st->cheats[i])); cheat_st->cheats[i].state = false; cheat_st->cheats[i].handler = default_handler; cheat_st->cheats[i].cheat_type = CHEAT_TYPE_SET_TO_VALUE; cheat_st->cheats[i].memory_search_size = 3; cheat_st->cheats[i].idx = i; cheat_st->cheats[i].repeat_count = 1; cheat_st->cheats[i].repeat_add_to_value = 0; cheat_st->cheats[i].repeat_add_to_address = 1; } return true; } void cheat_manager_update(cheat_manager_t *handle, unsigned handle_idx) { char msg[256]; if (!handle || !handle->cheats || handle->size == 0) return; snprintf(msg, sizeof(msg), "Cheat: #%u [%s]: %s", handle_idx, handle->cheats[handle_idx].state ? "ON" : "OFF", handle->cheats[handle_idx].desc ? (handle->cheats[handle_idx].desc) : (handle->cheats[handle_idx].code) ); runloop_msg_queue_push(msg, 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); RARCH_LOG("%s\n", msg); } void cheat_manager_toggle_index(bool apply_cheats_after_toggle, unsigned i) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || cheat_st->size == 0) return; cheat_st->cheats[i].state = !cheat_st->cheats[i].state; cheat_manager_update(cheat_st, i); if (apply_cheats_after_toggle) cheat_manager_apply_cheats(); } void cheat_manager_toggle(void) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || cheat_st->size == 0) return; cheat_st->cheats[cheat_st->ptr].state ^= true; cheat_manager_apply_cheats(); cheat_manager_update(cheat_st, cheat_st->ptr); } void cheat_manager_index_next(void) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || cheat_st->size == 0) return; cheat_st->ptr = (cheat_st->ptr + 1) % cheat_st->size; cheat_manager_update(cheat_st, cheat_st->ptr); } void cheat_manager_index_prev(void) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats || cheat_st->size == 0) return; if (cheat_st->ptr == 0) cheat_st->ptr = cheat_st->size - 1; else cheat_st->ptr--; cheat_manager_update(cheat_st, cheat_st->ptr); } const char *cheat_manager_get_code(unsigned i) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) return NULL; return cheat_st->cheats[i].code; } const char *cheat_manager_get_desc(unsigned i) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) return NULL; return cheat_st->cheats[i].desc; } bool cheat_manager_get_code_state(unsigned i) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) return false; return cheat_st->cheats[i].state; } static bool cheat_manager_get_game_specific_filename( char *s, size_t len, const char *path_cheat_database, bool saving) { char s1[PATH_MAX_LENGTH]; struct retro_system_info system_info; global_t *global = global_get_ptr(); const char *core_name = NULL; const char *game_name = NULL; s1[0] = '\0'; if (!global || !core_get_system_info(&system_info)) return false; core_name = system_info.library_name; game_name = path_basename(global->name.cheatfile); if (string_is_empty(path_cheat_database) || string_is_empty(core_name) || string_is_empty(game_name)) return false; s[0] = '\0'; fill_pathname_join(s1, path_cheat_database, core_name, sizeof(s1)); if (saving) { /* Check if directory is valid, if not, create it */ if (!path_is_valid(s1)) path_mkdir(s1); } fill_pathname_join(s, s1, game_name, len); return true; } void cheat_manager_load_game_specific_cheats(const char *path_cheat_database) { char cheat_file[PATH_MAX_LENGTH]; if (cheat_manager_get_game_specific_filename( cheat_file, sizeof(cheat_file), path_cheat_database, false)) { RARCH_LOG("[Cheats]: Load game-specific cheatfile: %s\n", cheat_file); cheat_manager_load(cheat_file, true); } } void cheat_manager_save_game_specific_cheats(const char *path_cheat_database) { char cheat_file[PATH_MAX_LENGTH]; if (cheat_manager_get_game_specific_filename( cheat_file, sizeof(cheat_file), path_cheat_database, true)) { RARCH_LOG("[Cheats]: Save game-specific cheatfile: %s\n", cheat_file); cheat_manager_save(cheat_file, NULL, true); } } void cheat_manager_state_free(void) { cheat_manager_free(); } bool cheat_manager_alloc_if_empty(void) { cheat_manager_t *cheat_st = &cheat_manager_state; if (!cheat_st->cheats) cheat_manager_new(0); return true; } int cheat_manager_initialize_memory(rarch_setting_t *setting, size_t idx, bool wraparound) { unsigned i; retro_ctx_memory_info_t meminfo; bool refresh = false; bool is_search_initialization = (setting != NULL); rarch_system_info_t *system = runloop_get_system_info(); unsigned offset = 0; cheat_manager_t *cheat_st = &cheat_manager_state; cheat_st->num_memory_buffers = 0; cheat_st->total_memory_size = 0; cheat_st->curr_memory_buf = NULL; if (cheat_st->memory_buf_list) { free(cheat_st->memory_buf_list); cheat_st->memory_buf_list = NULL; } if (cheat_st->memory_size_list) { free(cheat_st->memory_size_list); cheat_st->memory_size_list = NULL; } if (system && system->mmaps.num_descriptors > 0) { for (i = 0; i < system->mmaps.num_descriptors; i++) { if ((system->mmaps.descriptors[i].core.flags & RETRO_MEMDESC_SYSTEM_RAM) != 0 && system->mmaps.descriptors[i].core.ptr && system->mmaps.descriptors[i].core.len > 0) { cheat_st->num_memory_buffers++; if (!cheat_st->memory_buf_list) cheat_st->memory_buf_list = (uint8_t**)calloc(1, sizeof(uint8_t *)); else cheat_st->memory_buf_list = (uint8_t**)realloc( cheat_st->memory_buf_list, sizeof(uint8_t *) * cheat_st->num_memory_buffers); if (!cheat_st->memory_size_list) cheat_st->memory_size_list = (unsigned*)calloc(1, sizeof(unsigned)); else { unsigned *val = (unsigned*)realloc( cheat_st->memory_size_list, sizeof(unsigned) * cheat_st->num_memory_buffers); if (val) cheat_st->memory_size_list = val; } cheat_st->memory_buf_list[cheat_st->num_memory_buffers - 1] = (uint8_t*)system->mmaps.descriptors[i].core.ptr; cheat_st->memory_size_list[cheat_st->num_memory_buffers - 1] = (unsigned)system->mmaps.descriptors[i].core.len; cheat_st->total_memory_size += system->mmaps.descriptors[i].core.len; if (!cheat_st->curr_memory_buf) cheat_st->curr_memory_buf = (uint8_t*)system->mmaps.descriptors[i].core.ptr; } } } if (cheat_st->num_memory_buffers == 0) { meminfo.id = RETRO_MEMORY_SYSTEM_RAM; if (!core_get_memory(&meminfo)) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_INIT_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } if (meminfo.size == 0) return 0; cheat_st->memory_buf_list = (uint8_t**) calloc(1, sizeof(uint8_t *)); cheat_st->memory_size_list = (unsigned*) calloc(1, sizeof(unsigned)); cheat_st->num_memory_buffers = 1; cheat_st->memory_buf_list[0] = (uint8_t*)meminfo.data; cheat_st->memory_size_list[0] = (unsigned)meminfo.size; cheat_st->total_memory_size = (unsigned)meminfo.size; cheat_st->curr_memory_buf = (uint8_t*)meminfo.data; } cheat_st->num_matches = (cheat_st->total_memory_size * 8) / (1 << cheat_st->search_bit_size); #if 0 /* Ensure we're aligned on 4-byte boundary */ if (meminfo.size % 4 > 0) cheat_st->total_memory_size = cheat_st->total_memory_size + (4 - (meminfo.size % 4)); #endif if (is_search_initialization) { if (cheat_st->prev_memory_buf) { free(cheat_st->prev_memory_buf); cheat_st->prev_memory_buf = NULL; } cheat_st->prev_memory_buf = (uint8_t*)calloc( cheat_st->total_memory_size, sizeof(uint8_t)); if (!cheat_st->prev_memory_buf) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_INIT_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } if (cheat_st->matches) { free(cheat_st->matches); cheat_st->matches = NULL; } cheat_st->matches = (uint8_t*)calloc( cheat_st->total_memory_size, sizeof(uint8_t)); if (!cheat_st->matches) { free(cheat_st->prev_memory_buf); cheat_st->prev_memory_buf = NULL; runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_INIT_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } memset(cheat_st->matches, 0xFF, cheat_st->total_memory_size); offset = 0; for (i = 0; i < cheat_st->num_memory_buffers; i++) { memcpy(cheat_st->prev_memory_buf + offset, cheat_st->memory_buf_list[i], cheat_st->memory_size_list[i]); offset += cheat_st->memory_size_list[i]; } cheat_st->memory_search_initialized = true; } cheat_st->memory_initialized = true; runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_INIT_SUCCESS), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); #ifdef HAVE_MENU if (!wraparound) { menu_entries_ctl(MENU_ENTRIES_CTL_SET_REFRESH, &refresh); menu_driver_ctl(RARCH_MENU_CTL_SET_PREVENT_POPULATE, NULL); } #endif return 0; } static unsigned translate_address(unsigned address, unsigned char **curr) { unsigned offset = 0; unsigned i = 0; cheat_manager_t *cheat_st = &cheat_manager_state; for (i = 0; i < cheat_st->num_memory_buffers; i++) { if ((address >= offset) && (address < offset + cheat_st->memory_size_list[i])) { *curr = cheat_st->memory_buf_list[i]; break; } else offset += cheat_st->memory_size_list[i]; } return offset; } static void cheat_manager_setup_search_meta( unsigned int bitsize, unsigned int *bytes_per_item, unsigned int *mask, unsigned int *bits) { switch (bitsize) { case 0: *bytes_per_item = 1; *bits = 1; *mask = 0x01; break; case 1: *bytes_per_item = 1; *bits = 2; *mask = 0x03; break; case 2: *bytes_per_item = 1; *bits = 4; *mask = 0x0F; break; case 3: *bytes_per_item = 1; *bits = 8; *mask = 0xFF; break; case 4: *bytes_per_item = 2; *bits = 8; *mask = 0xFFFF; break; case 5: *bytes_per_item = 4; *bits = 8; *mask = 0xFFFFFFFF; break; } } static int cheat_manager_search(enum cheat_search_type search_type) { char msg[100]; cheat_manager_t *cheat_st = &cheat_manager_state; unsigned char *curr = cheat_st->curr_memory_buf; unsigned char *prev = cheat_st->prev_memory_buf; unsigned int idx = 0; unsigned int curr_val = 0; unsigned int prev_val = 0; unsigned int mask = 0; unsigned int bytes_per_item = 1; unsigned int bits = 8; unsigned int offset = 0; unsigned int i = 0; bool refresh = false; if (cheat_st->num_memory_buffers == 0) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_NOT_INITIALIZED), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } cheat_manager_setup_search_meta(cheat_st->search_bit_size, &bytes_per_item, &mask, &bits); /* little endian FF000000 = 256 */ for (idx = 0; idx < cheat_st->total_memory_size; idx = idx + bytes_per_item) { unsigned byte_part; offset = translate_address(idx, &curr); switch (bytes_per_item) { case 2: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256) + *(curr + idx + 1 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256); prev_val = cheat_st->big_endian ? (*(prev + idx) * 256) + *(prev + idx + 1) : *(prev + idx) + (*(prev + idx + 1) * 256); break; case 4: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256 * 256 * 256) + (*(curr + idx + 1 - offset) * 256 * 256) + (*(curr + idx + 2 - offset) * 256) + *(curr + idx + 3 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256) + (*(curr + idx + 2 - offset) * 256 * 256) + (*(curr + idx + 3 - offset) * 256 * 256 * 256); prev_val = cheat_st->big_endian ? (*(prev + idx) * 256 * 256 * 256) + (*(prev + idx + 1) * 256 * 256) + (*(prev + idx + 2) * 256) + *(prev + idx + 3) : *(prev + idx) + (*(prev + idx + 1) * 256) + (*(prev + idx + 2) * 256 * 256) + (*(prev + idx + 3) * 256 * 256 * 256); break; case 1: default: curr_val = *(curr - offset + idx); prev_val = *(prev + idx); break; } for (byte_part = 0; byte_part < 8 / bits; byte_part++) { unsigned int curr_subval = (curr_val >> (byte_part * bits)) & mask; unsigned int prev_subval = (prev_val >> (byte_part * bits)) & mask; unsigned int prev_match; if (bits < 8) prev_match = *(cheat_st->matches + idx) & (mask << (byte_part * bits)); else prev_match = *(cheat_st->matches + idx); if (prev_match > 0) { bool match = false; switch (search_type) { case CHEAT_SEARCH_TYPE_EXACT: match = (curr_subval == cheat_st->search_exact_value); break; case CHEAT_SEARCH_TYPE_LT: match = (curr_subval < prev_subval); break; case CHEAT_SEARCH_TYPE_GT: match = (curr_subval > prev_subval); break; case CHEAT_SEARCH_TYPE_LTE: match = (curr_subval <= prev_subval); break; case CHEAT_SEARCH_TYPE_GTE: match = (curr_subval >= prev_subval); break; case CHEAT_SEARCH_TYPE_EQ: match = (curr_subval == prev_subval); break; case CHEAT_SEARCH_TYPE_NEQ: match = (curr_subval != prev_subval); break; case CHEAT_SEARCH_TYPE_EQPLUS: match = (curr_subval == prev_subval + cheat_st->search_eqplus_value); break; case CHEAT_SEARCH_TYPE_EQMINUS: match = (curr_subval == prev_subval - cheat_st->search_eqminus_value); break; } if (!match) { if (bits < 8) *(cheat_st->matches + idx) = *(cheat_st->matches + idx) & ((~(mask << (byte_part * bits))) & 0xFF); else memset(cheat_st->matches + idx, 0, bytes_per_item); if (cheat_st->num_matches > 0) cheat_st->num_matches--; } } } } offset = 0; for (i = 0; i < cheat_st->num_memory_buffers; i++) { memcpy(cheat_st->prev_memory_buf + offset, cheat_st->memory_buf_list[i], cheat_st->memory_size_list[i]); offset += cheat_st->memory_size_list[i]; } snprintf(msg, sizeof(msg), msg_hash_to_str(MSG_CHEAT_SEARCH_FOUND_MATCHES), cheat_st->num_matches); msg[sizeof(msg) - 1] = 0; runloop_msg_queue_push(msg, 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); #ifdef HAVE_MENU menu_entries_ctl(MENU_ENTRIES_CTL_SET_REFRESH, &refresh); menu_driver_ctl(RARCH_MENU_CTL_SET_PREVENT_POPULATE, NULL); #endif return 0; } int cheat_manager_search_exact(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_EXACT); } int cheat_manager_search_lt(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_LT); } int cheat_manager_search_gt(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_GT); } int cheat_manager_search_lte(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_LTE); } int cheat_manager_search_gte(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_GTE); } int cheat_manager_search_eq(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_EQ); } int cheat_manager_search_neq(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_NEQ); } int cheat_manager_search_eqplus(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_EQPLUS); } int cheat_manager_search_eqminus(rarch_setting_t *setting, size_t idx, bool wraparound) { return cheat_manager_search(CHEAT_SEARCH_TYPE_EQMINUS); } unsigned cheat_manager_get_state_search_size(unsigned search_size) { uint32_t n[] = {1,3,15,255,0x0000ffff,0xffffffff}; return n[search_size]; } bool cheat_manager_add_new_code(unsigned int memory_search_size, unsigned int address, unsigned int address_mask, bool big_endian, unsigned int value) { cheat_manager_t *cheat_st = &cheat_manager_state; int new_size = cheat_manager_get_size() + 1; if (!cheat_manager_realloc(new_size, CHEAT_HANDLER_TYPE_RETRO)) return false; cheat_st->cheats[cheat_st->size - 1].address = address; cheat_st->cheats[cheat_st->size - 1].address_mask = address_mask; cheat_st->cheats[cheat_st->size - 1].memory_search_size = memory_search_size; cheat_st->cheats[cheat_st->size - 1].value = value; cheat_st->cheats[cheat_st->size - 1].big_endian = big_endian; return true; } int cheat_manager_add_matches(const char *path, const char *label, unsigned type, size_t menuidx, size_t entry_idx) { char msg[100]; bool refresh = false; unsigned byte_part = 0; unsigned int idx = 0; unsigned int mask = 0; unsigned int bytes_per_item = 1; unsigned int bits = 8; unsigned int curr_val = 0; unsigned int num_added = 0; unsigned int offset = 0; cheat_manager_t *cheat_st = &cheat_manager_state; unsigned char *curr = cheat_st->curr_memory_buf; if (cheat_st->num_matches + cheat_st->size > 100) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADDED_MATCHES_TOO_MANY), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } cheat_manager_setup_search_meta(cheat_st->search_bit_size, &bytes_per_item, &mask, &bits); for (idx = 0; idx < cheat_st->total_memory_size; idx = idx + bytes_per_item) { offset = translate_address(idx, &curr); switch (bytes_per_item) { case 2: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256) + *(curr + idx + 1 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256); break; case 4: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256 * 256 * 256) + (*(curr + idx + 1 - offset) * 256 * 256) + (*(curr + idx + 2 - offset) * 256) + *(curr + idx + 3 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256) + (*(curr + idx + 2 - offset) * 256 * 256) + (*(curr + idx + 3 - offset) * 256 * 256 * 256); break; case 1: default: curr_val = *(curr - offset + idx); break; } for (byte_part = 0; byte_part < 8 / bits; byte_part++) { unsigned int prev_match; if (bits < 8) { prev_match = *(cheat_st->matches + idx) & (mask << (byte_part * bits)); if (prev_match) { if (!cheat_manager_add_new_code(cheat_st->search_bit_size, idx, (mask << (byte_part * bits)), cheat_st->big_endian, curr_val)) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADDED_MATCHES_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } num_added++; } } else { prev_match = *(cheat_st->matches + idx); if (prev_match) { if (!cheat_manager_add_new_code(cheat_st->search_bit_size, idx, 0xFF, cheat_st->big_endian, curr_val)) { runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADDED_MATCHES_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return 0; } num_added++; } } } } snprintf(msg, sizeof(msg), msg_hash_to_str(MSG_CHEAT_SEARCH_ADDED_MATCHES_SUCCESS), cheat_st->num_matches); msg[sizeof(msg) - 1] = 0; runloop_msg_queue_push(msg, 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); #ifdef HAVE_MENU menu_entries_ctl(MENU_ENTRIES_CTL_SET_REFRESH, &refresh); menu_driver_ctl(RARCH_MENU_CTL_SET_PREVENT_POPULATE, NULL); #endif return 0; } void cheat_manager_apply_rumble(struct item_cheat *cheat, unsigned int curr_value) { bool rumble = false; retro_time_t current_time = cpu_features_get_time_usec(); switch (cheat->rumble_type) { case RUMBLE_TYPE_DISABLED: return; case RUMBLE_TYPE_CHANGES: rumble = (curr_value != cheat->rumble_prev_value); break; case RUMBLE_TYPE_DOES_NOT_CHANGE: rumble = (curr_value == cheat->rumble_prev_value); break; case RUMBLE_TYPE_INCREASE: rumble = (curr_value > cheat->rumble_prev_value); break; case RUMBLE_TYPE_DECREASE: rumble = (curr_value < cheat->rumble_prev_value); break; case RUMBLE_TYPE_EQ_VALUE: rumble = (curr_value == cheat->rumble_value); break; case RUMBLE_TYPE_NEQ_VALUE: rumble = (curr_value != cheat->rumble_value); break; case RUMBLE_TYPE_LT_VALUE: rumble = (curr_value < cheat->rumble_value); break; case RUMBLE_TYPE_GT_VALUE: rumble = (curr_value > cheat->rumble_value); break; case RUMBLE_TYPE_INCREASE_BY_VALUE: rumble = (curr_value == cheat->rumble_prev_value + cheat->rumble_value); break; case RUMBLE_TYPE_DECREASE_BY_VALUE: rumble = (curr_value == cheat->rumble_prev_value - cheat->rumble_value); break; } cheat->rumble_prev_value = curr_value; /* Give the emulator enough time * to initialize, load state, etc */ if (cheat->rumble_initialized > 300) { if (rumble) { cheat->rumble_primary_end_time = current_time + (cheat->rumble_primary_duration * 1000); cheat->rumble_secondary_end_time = current_time + (cheat->rumble_secondary_duration * 1000); input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_STRONG, cheat->rumble_primary_strength); input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_WEAK, cheat->rumble_secondary_strength); } } else { cheat->rumble_initialized++; return; } if (cheat->rumble_primary_end_time <= current_time) { if (cheat->rumble_primary_end_time != 0) input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_STRONG, 0); cheat->rumble_primary_end_time = 0; } else { input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_STRONG, cheat->rumble_primary_strength); } if (cheat->rumble_secondary_end_time <= current_time) { if (cheat->rumble_secondary_end_time != 0) input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_WEAK, 0); cheat->rumble_secondary_end_time = 0; } else input_driver_set_rumble_state(cheat->rumble_port, RETRO_RUMBLE_WEAK, cheat->rumble_secondary_strength); } void cheat_manager_apply_retro_cheats(void) { unsigned i; unsigned int offset; unsigned int mask = 0; unsigned int bytes_per_item = 1; unsigned int bits = 8; unsigned int curr_val = 0; bool run_cheat = true; #ifdef HAVE_CHEEVOS bool cheat_applied = false; #endif cheat_manager_t *cheat_st = &cheat_manager_state; if ((!cheat_st->cheats)) return; for (i = 0; i < cheat_st->size; i++) { unsigned char *curr = NULL; bool set_value = false; unsigned int idx = 0; unsigned int value_to_set = 0; unsigned int repeat_iter = 0; unsigned int address_mask = cheat_st->cheats[i].address_mask; if (cheat_st->cheats[i].handler != CHEAT_HANDLER_TYPE_RETRO || !cheat_st->cheats[i].state) continue; if (!cheat_st->memory_initialized) cheat_manager_initialize_memory(NULL, 0, false); /* If we're still not initialized, something * must have gone wrong - just bail */ if (!cheat_st->memory_initialized) return; if (!run_cheat) { run_cheat = true; continue; } cheat_manager_setup_search_meta(cheat_st->cheats[i].memory_search_size, &bytes_per_item, &mask, &bits); curr = cheat_st->curr_memory_buf; idx = cheat_st->cheats[i].address; offset = translate_address(idx, &curr); switch (bytes_per_item) { case 2: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256) + *(curr + idx + 1 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256); break; case 4: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256 * 256 * 256) + (*(curr + idx + 1 - offset) * 256 * 256) + (*(curr + idx + 2 - offset) * 256) + *(curr + idx + 3 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256) + (*(curr + idx + 2 - offset) * 256 * 256) + (*(curr + idx + 3 - offset) * 256 * 256 * 256); break; case 1: default: curr_val = *(curr + idx - offset); break; } cheat_manager_apply_rumble(&cheat_st->cheats[i], curr_val); switch (cheat_st->cheats[i].cheat_type) { case CHEAT_TYPE_SET_TO_VALUE: set_value = true; value_to_set = cheat_st->cheats[i].value; break; case CHEAT_TYPE_INCREASE_VALUE: set_value = true; value_to_set = curr_val + cheat_st->cheats[i].value; break; case CHEAT_TYPE_DECREASE_VALUE: set_value = true; value_to_set = curr_val - cheat_st->cheats[i].value; break; case CHEAT_TYPE_RUN_NEXT_IF_EQ: if (!(curr_val == cheat_st->cheats[i].value)) run_cheat = false; break; case CHEAT_TYPE_RUN_NEXT_IF_NEQ: if (!(curr_val != cheat_st->cheats[i].value)) run_cheat = false; break; case CHEAT_TYPE_RUN_NEXT_IF_LT: if (!(cheat_st->cheats[i].value < curr_val)) run_cheat = false; break; case CHEAT_TYPE_RUN_NEXT_IF_GT: if (!(cheat_st->cheats[i].value > curr_val)) run_cheat = false; break; } if (set_value) { #ifdef HAVE_CHEEVOS cheat_applied = true; #endif for (repeat_iter = 1; repeat_iter <= cheat_st->cheats[i].repeat_count; repeat_iter++) { switch (bytes_per_item) { case 2: if (cheat_st->cheats[i].big_endian) { *(curr + idx - offset) = (value_to_set >> 8) & 0xFF; *(curr + idx + 1 - offset) = value_to_set & 0xFF; } else { *(curr + idx - offset) = value_to_set & 0xFF; *(curr + idx + 1 - offset) = (value_to_set >> 8) & 0xFF; } break; case 4: if (cheat_st->cheats[i].big_endian) { *(curr + idx - offset) = (value_to_set >> 24) & 0xFF; *(curr + idx + 1 - offset) = (value_to_set >> 16) & 0xFF; *(curr + idx + 2 - offset) = (value_to_set >> 8) & 0xFF; *(curr + idx + 3 - offset) = value_to_set & 0xFF; } else { *(curr + idx - offset) = value_to_set & 0xFF; *(curr + idx + 1 - offset) = (value_to_set >> 8) & 0xFF; *(curr + idx + 2 - offset) = (value_to_set >> 16) & 0xFF; *(curr + idx + 3 - offset) = (value_to_set >> 24) & 0xFF; } break; case 1: if (bits < 8) { unsigned bitpos; unsigned char val = *(curr + idx - offset); for (bitpos = 0; bitpos < 8; bitpos++) { if ((address_mask >> bitpos) & 0x01) { mask = (~(1 << bitpos) & 0xFF); /* Clear current bit value */ val = val & mask; /* Inject cheat bit value */ val = val | (((value_to_set >> bitpos) & 0x01) << bitpos); } } *(curr + idx - offset) = val; } else *(curr + idx - offset) = value_to_set & 0xFF; break; default: *(curr + idx - offset) = value_to_set & 0xFF; break; } value_to_set += cheat_st->cheats[i].repeat_add_to_value; if (mask != 0) value_to_set = value_to_set % mask; if (bits < 8) { unsigned int bit_iter; for (bit_iter = 0; bit_iter < cheat_st->cheats[i].repeat_add_to_address; bit_iter++) { address_mask = (address_mask << mask) & 0xFF; if (address_mask == 0) { address_mask = mask; idx++; } } } else idx += (cheat_st->cheats[i].repeat_add_to_address * bytes_per_item); idx = idx % cheat_st->total_memory_size; offset = translate_address(idx, &curr); } } } #ifdef HAVE_CHEEVOS if (cheat_applied && rcheevos_hardcore_active()) cheat_manager_pause_cheevos(); #endif } void cheat_manager_match_action(enum cheat_match_action_type match_action, unsigned int target_match_idx, unsigned int *address, unsigned int *address_mask, unsigned int *prev_value, unsigned int *curr_value) { unsigned int byte_part; unsigned int idx; unsigned int start_idx; unsigned int mask = 0; unsigned int bytes_per_item = 1; unsigned int bits = 8; unsigned int curr_val = 0; unsigned int prev_val = 0; unsigned int offset = 0; cheat_manager_t *cheat_st = &cheat_manager_state; unsigned char *curr = cheat_st->curr_memory_buf; unsigned char *prev = cheat_st->prev_memory_buf; unsigned int curr_match_idx = 0; if (target_match_idx > cheat_st->num_matches - 1) return; if (cheat_st->num_memory_buffers == 0) return; cheat_manager_setup_search_meta(cheat_st->search_bit_size, &bytes_per_item, &mask, &bits); if (match_action == CHEAT_MATCH_ACTION_TYPE_BROWSE) start_idx = *address; else start_idx = 0; for (idx = start_idx; idx < cheat_st->total_memory_size; idx = idx + bytes_per_item) { offset = translate_address(idx, &curr); switch (bytes_per_item) { case 2: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256) + *(curr + idx + 1 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256); if (prev) prev_val = cheat_st->big_endian ? (*(prev + idx) * 256) + *(prev + idx + 1) : *(prev + idx) + (*(prev + idx + 1) * 256); break; case 4: curr_val = cheat_st->big_endian ? (*(curr + idx - offset) * 256 * 256 * 256) + (*(curr + idx + 1 - offset) * 256 * 256) + (*(curr + idx + 2 - offset) * 256) + *(curr + idx + 3 - offset) : *(curr + idx - offset) + (*(curr + idx + 1 - offset) * 256) + (*(curr + idx + 2 - offset) * 256 * 256) + (*(curr + idx + 3 - offset) * 256 * 256 * 256); if (prev) prev_val = cheat_st->big_endian ? (*(prev + idx) * 256 * 256 * 256) + (*(prev + idx + 1) * 256 * 256) + (*(prev + idx + 2) * 256) + *(prev + idx + 3) : *(prev + idx) + (*(prev + idx + 1) * 256) + (*(prev + idx + 2) * 256 * 256) + (*(prev + idx + 3) * 256 * 256 * 256); break; case 1: default: curr_val = *(curr + idx - offset); if (prev) prev_val = *(prev + idx); break; } if (match_action == CHEAT_MATCH_ACTION_TYPE_BROWSE) { *curr_value = curr_val; *prev_value = prev_val; return; } if (!prev) return; for (byte_part = 0; byte_part < 8 / bits; byte_part++) { unsigned int prev_match; if (bits < 8) { prev_match = *(cheat_st->matches + idx) & (mask << (byte_part * bits)); if (prev_match) { if (target_match_idx == curr_match_idx) { switch (match_action) { case CHEAT_MATCH_ACTION_TYPE_BROWSE: return; case CHEAT_MATCH_ACTION_TYPE_VIEW: *address = idx; *address_mask = (mask << (byte_part * bits)); *curr_value = curr_val; *prev_value = prev_val; return; case CHEAT_MATCH_ACTION_TYPE_COPY: if (!cheat_manager_add_new_code(cheat_st->search_bit_size, idx, (mask << (byte_part * bits)), cheat_st->big_endian, curr_val)) runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADD_MATCH_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); else runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADD_MATCH_SUCCESS), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return; case CHEAT_MATCH_ACTION_TYPE_DELETE: if (bits < 8) *(cheat_st->matches + idx) = *(cheat_st->matches + idx) & ((~(mask << (byte_part * bits))) & 0xFF); else memset(cheat_st->matches + idx, 0, bytes_per_item); if (cheat_st->num_matches > 0) cheat_st->num_matches--; runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_DELETE_MATCH_SUCCESS), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return; } return; } curr_match_idx++; } } else { prev_match = *(cheat_st->matches + idx); if (prev_match) { if (target_match_idx == curr_match_idx) { switch (match_action) { case CHEAT_MATCH_ACTION_TYPE_BROWSE: return; case CHEAT_MATCH_ACTION_TYPE_VIEW: *address = idx; *address_mask = 0xFF; *curr_value = curr_val; *prev_value = prev_val; return; case CHEAT_MATCH_ACTION_TYPE_COPY: if (!cheat_manager_add_new_code(cheat_st->search_bit_size, idx, 0xFF, cheat_st->big_endian, curr_val)) runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADD_MATCH_FAIL), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); else runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_ADD_MATCH_SUCCESS), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return; case CHEAT_MATCH_ACTION_TYPE_DELETE: if (bits < 8) *(cheat_st->matches + idx) = *(cheat_st->matches + idx) & ((~(mask << (byte_part * bits))) & 0xFF); else memset(cheat_st->matches + idx, 0, bytes_per_item); if (cheat_st->num_matches > 0) cheat_st->num_matches--; runloop_msg_queue_push(msg_hash_to_str(MSG_CHEAT_SEARCH_DELETE_MATCH_SUCCESS), 1, 180, true, NULL, MESSAGE_QUEUE_ICON_DEFAULT, MESSAGE_QUEUE_CATEGORY_INFO); return; } } curr_match_idx++; } } } } } int cheat_manager_copy_match(rarch_setting_t *setting, size_t idx, bool wraparound) { cheat_manager_t *cheat_st = &cheat_manager_state; cheat_manager_match_action(CHEAT_MATCH_ACTION_TYPE_COPY, cheat_st->match_idx, NULL, NULL, NULL, NULL); return 0; } int cheat_manager_delete_match(rarch_setting_t *setting, size_t idx, bool wraparound) { bool refresh = false; cheat_manager_t *cheat_st = &cheat_manager_state; cheat_manager_match_action(CHEAT_MATCH_ACTION_TYPE_DELETE, cheat_st->match_idx, NULL, NULL, NULL, NULL); #ifdef HAVE_MENU menu_entries_ctl(MENU_ENTRIES_CTL_SET_REFRESH, &refresh); menu_driver_ctl(RARCH_MENU_CTL_SET_PREVENT_POPULATE, NULL); #endif return 0; }