s32_t ICACHE_FLASH_ATTR SPIFFS_mount(spiffs *fs, spiffs_config *config, u8_t *work, u8_t *fd_space, u32_t fd_space_size, void *cache, u32_t cache_size, spiffs_check_callback check_cb_f) { SPIFFS_LOCK(fs); memset(fs, 0, sizeof(spiffs)); memcpy(&fs->cfg, config, sizeof(spiffs_config)); fs->block_count = SPIFFS_CFG_PHYS_SZ(fs) / SPIFFS_CFG_LOG_BLOCK_SZ(fs); fs->work = &work[0]; fs->lu_work = &work[SPIFFS_CFG_LOG_PAGE_SZ(fs)]; memset(fd_space, 0, fd_space_size); // align fd_space pointer to pointer size byte boundary, below is safe u8_t ptr_size = sizeof(void*); // #pragma GCC diagnostic push // #pragma GCC diagnostic ignored "-Wpointer-to-int-cast" u8_t addr_lsb = (u8_t)(((u32_t)fd_space) & (ptr_size-1)); // #pragma GCC diagnostic pop if (addr_lsb) { fd_space += (ptr_size-addr_lsb); fd_space_size -= (ptr_size-addr_lsb); } fs->fd_space = fd_space; fs->fd_count = (fd_space_size/sizeof(spiffs_fd)); // align cache pointer to 4 byte boundary, below is safe // #pragma GCC diagnostic push // #pragma GCC diagnostic ignored "-Wpointer-to-int-cast" addr_lsb = (u8_t)(((u32_t)cache) & (ptr_size-1)); // #pragma GCC diagnostic pop if (addr_lsb) { cache = (u8_t *)cache + (ptr_size-addr_lsb); cache_size -= (ptr_size-addr_lsb); } if (cache_size & (ptr_size-1)) { cache_size -= (cache_size & (ptr_size-1)); } #if SPIFFS_CACHE fs->cache = cache; fs->cache_size = cache_size; spiffs_cache_init(fs); #endif s32_t res = spiffs_obj_lu_scan(fs); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); SPIFFS_DBG("page index byte len: %i\n", SPIFFS_CFG_LOG_PAGE_SZ(fs)); SPIFFS_DBG("object lookup pages: %i\n", SPIFFS_OBJ_LOOKUP_PAGES(fs)); SPIFFS_DBG("page pages per block: %i\n", SPIFFS_PAGES_PER_BLOCK(fs)); SPIFFS_DBG("page header length: %i\n", sizeof(spiffs_page_header)); SPIFFS_DBG("object header index entries: %i\n", SPIFFS_OBJ_HDR_IX_LEN(fs)); SPIFFS_DBG("object index entries: %i\n", SPIFFS_OBJ_IX_LEN(fs)); SPIFFS_DBG("available file descriptors: %i\n", fs->fd_count); SPIFFS_DBG("free blocks: %i\n", fs->free_blocks); fs->check_cb_f = check_cb_f; SPIFFS_UNLOCK(fs); return 0; }
s32_t SPIFFS_check(spiffs *fs) { s32_t res; SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); res = spiffs_lookup_consistency_check(fs, 0); res = spiffs_object_index_consistency_check(fs); res = spiffs_page_consistency_check(fs); res = spiffs_obj_lu_scan(fs); SPIFFS_UNLOCK(fs); return res; }
s32_t ICACHE_FLASH_ATTR SPIFFS_check(spiffs *fs) { s32_t res; SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); res = spiffs_lookup_consistency_check(fs, 0); res = spiffs_object_index_consistency_check(fs); // NODE_ERR("before spiffs_object_index_consistency_check\n"); res = spiffs_page_consistency_check(fs); // NODE_ERR("spiffs_page_consistency_check\n"); res = spiffs_obj_lu_scan(fs); // NODE_ERR("spiffs_obj_lu_scan\n"); SPIFFS_UNLOCK(fs); return res; }
s32_t SPIFFS_check(spiffs *fs) { #if SPIFFS_READ_ONLY (void)fs; return SPIFFS_ERR_RO_NOT_IMPL; #else s32_t res; SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); res = spiffs_lookup_consistency_check(fs, 0); res = spiffs_object_index_consistency_check(fs); res = spiffs_page_consistency_check(fs); res = spiffs_obj_lu_scan(fs); SPIFFS_UNLOCK(fs); return res; #endif // SPIFFS_READ_ONLY }
s32_t SPIFFS_mount(spiffs *fs, spiffs_config *config, u8_t *work, u8_t *fd_space, u32_t fd_space_size, void *cache, u32_t cache_size, spiffs_check_callback check_cb_f) { void *user_data; SPIFFS_LOCK(fs); user_data = fs->user_data; memset(fs, 0, sizeof(spiffs)); memcpy(&fs->cfg, config, sizeof(spiffs_config)); fs->user_data = user_data; fs->block_count = SPIFFS_CFG_PHYS_SZ(fs) / SPIFFS_CFG_LOG_BLOCK_SZ(fs); fs->work = &work[0]; fs->lu_work = &work[SPIFFS_CFG_LOG_PAGE_SZ(fs)]; memset(fd_space, 0, fd_space_size); // align fd_space pointer to pointer size byte boundary u8_t ptr_size = sizeof(void*); u8_t addr_lsb = ((u8_t)(intptr_t)fd_space) & (ptr_size-1); if (addr_lsb) { fd_space += (ptr_size-addr_lsb); fd_space_size -= (ptr_size-addr_lsb); } fs->fd_space = fd_space; fs->fd_count = (fd_space_size/sizeof(spiffs_fd)); // align cache pointer to 4 byte boundary addr_lsb = ((u8_t)(intptr_t)cache) & (ptr_size-1); if (addr_lsb) { u8_t *cache_8 = (u8_t *)cache; cache_8 += (ptr_size-addr_lsb); cache = cache_8; cache_size -= (ptr_size-addr_lsb); } if (cache_size & (ptr_size-1)) { cache_size -= (cache_size & (ptr_size-1)); } #if SPIFFS_CACHE fs->cache = cache; fs->cache_size = (cache_size > (SPIFFS_CFG_LOG_PAGE_SZ(fs)*32)) ? SPIFFS_CFG_LOG_PAGE_SZ(fs)*32 : cache_size; spiffs_cache_init(fs); #endif s32_t res; #if SPIFFS_USE_MAGIC res = SPIFFS_CHECK_MAGIC_POSSIBLE(fs) ? SPIFFS_OK : SPIFFS_ERR_MAGIC_NOT_POSSIBLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #endif fs->config_magic = SPIFFS_CONFIG_MAGIC; res = spiffs_obj_lu_scan(fs); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); SPIFFS_DBG("page index byte len: %i\n", SPIFFS_CFG_LOG_PAGE_SZ(fs)); SPIFFS_DBG("object lookup pages: %i\n", SPIFFS_OBJ_LOOKUP_PAGES(fs)); SPIFFS_DBG("page pages per block: %i\n", SPIFFS_PAGES_PER_BLOCK(fs)); SPIFFS_DBG("page header length: %i\n", sizeof(spiffs_page_header)); SPIFFS_DBG("object header index entries: %i\n", SPIFFS_OBJ_HDR_IX_LEN(fs)); SPIFFS_DBG("object index entries: %i\n", SPIFFS_OBJ_IX_LEN(fs)); SPIFFS_DBG("available file descriptors: %i\n", fs->fd_count); SPIFFS_DBG("free blocks: %i\n", fs->free_blocks); fs->check_cb_f = check_cb_f; fs->mounted = 1; SPIFFS_UNLOCK(fs); return 0; }