/* Copyright (c) 2024 BayLibre SAS * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include "settings/settings_zms.h" #include "settings_priv.h" #include #include #include #include LOG_MODULE_DECLARE(settings, CONFIG_SETTINGS_LOG_LEVEL); #if DT_HAS_CHOSEN(zephyr_settings_partition) #define SETTINGS_PARTITION DT_FIXED_PARTITION_ID(DT_CHOSEN(zephyr_settings_partition)) #else #define SETTINGS_PARTITION FIXED_PARTITION_ID(storage_partition) #endif struct settings_zms_read_fn_arg { struct zms_fs *fs; uint32_t id; }; static int settings_zms_load(struct settings_store *cs, const struct settings_load_arg *arg); static int settings_zms_save(struct settings_store *cs, const char *name, const char *value, size_t val_len); static void *settings_zms_storage_get(struct settings_store *cs); static int settings_zms_get_last_hash_ids(struct settings_zms *cf); static struct settings_store_itf settings_zms_itf = {.csi_load = settings_zms_load, .csi_save = settings_zms_save, .csi_storage_get = settings_zms_storage_get}; static ssize_t settings_zms_read_fn(void *back_end, void *data, size_t len) { struct settings_zms_read_fn_arg *rd_fn_arg; rd_fn_arg = (struct settings_zms_read_fn_arg *)back_end; return zms_read(rd_fn_arg->fs, rd_fn_arg->id, data, len); } static int settings_zms_src(struct settings_zms *cf) { cf->cf_store.cs_itf = &settings_zms_itf; settings_src_register(&cf->cf_store); return 0; } static int settings_zms_dst(struct settings_zms *cf) { cf->cf_store.cs_itf = &settings_zms_itf; settings_dst_register(&cf->cf_store); return 0; } static int settings_zms_unlink_ll_node(struct settings_zms *cf, uint32_t name_hash) { int rc = 0; struct settings_hash_linked_list settings_element; struct settings_hash_linked_list settings_update_element; /* let's update the linked list */ rc = zms_read(&cf->cf_zms, name_hash | 1, &settings_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } /* update the next element */ if (settings_element.next_hash) { rc = zms_read(&cf->cf_zms, settings_element.next_hash, &settings_update_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } settings_update_element.previous_hash = settings_element.previous_hash; rc = zms_write(&cf->cf_zms, settings_element.next_hash, &settings_update_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } if (!settings_update_element.next_hash) { /* update second_to_last_hash_id */ cf->second_to_last_hash_id = settings_element.previous_hash; } } else { /* we are deleting the last element of the linked list * let's update the last_hash_id. */ cf->last_hash_id = settings_element.previous_hash; } /* update the previous element */ if (settings_element.previous_hash) { rc = zms_read(&cf->cf_zms, settings_element.previous_hash, &settings_update_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } if (!settings_element.next_hash) { /* we are deleting the last element of the linked list, * let's update the second_to_last_hash_id */ cf->second_to_last_hash_id = settings_update_element.previous_hash; } settings_update_element.next_hash = settings_element.next_hash; rc = zms_write(&cf->cf_zms, settings_element.previous_hash, &settings_update_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } } return rc; } static int settings_zms_delete(struct settings_zms *cf, uint32_t name_hash) { int rc = 0; rc = zms_delete(&cf->cf_zms, name_hash); if (rc >= 0) { rc = zms_delete(&cf->cf_zms, name_hash + ZMS_DATA_ID_OFFSET); } if (rc < 0) { return rc; } rc = settings_zms_unlink_ll_node(cf, name_hash); if (rc < 0) { return rc; } /* Now delete the current linked list element */ rc = zms_delete(&cf->cf_zms, name_hash | 1); if (rc < 0) { return rc; } return rc; } static int settings_zms_load(struct settings_store *cs, const struct settings_load_arg *arg) { int ret = 0; struct settings_zms *cf = CONTAINER_OF(cs, struct settings_zms, cf_store); struct settings_zms_read_fn_arg read_fn_arg; struct settings_hash_linked_list settings_element; char name[SETTINGS_MAX_NAME_LEN + SETTINGS_EXTRA_LEN + 1]; ssize_t rc1; ssize_t rc2; uint32_t ll_hash_id; ret = zms_read(&cf->cf_zms, ZMS_LL_HEAD_HASH_ID, &settings_element, sizeof(struct settings_hash_linked_list)); if (ret < 0) { return ret; } ll_hash_id = settings_element.next_hash; while (ll_hash_id) { /* In the ZMS backend, each setting item is stored in two ZMS * entries one for the setting's name and one with the * setting's value. */ rc1 = zms_read(&cf->cf_zms, ZMS_NAME_ID_FROM_LL_NODE(ll_hash_id), &name, sizeof(name) - 1); /* get the length of data and verify that it exists */ rc2 = zms_get_data_length(&cf->cf_zms, ZMS_NAME_ID_FROM_LL_NODE(ll_hash_id) + ZMS_DATA_ID_OFFSET); if ((rc1 <= 0) || (rc2 <= 0)) { /* Settings item is not stored correctly in the ZMS. * ZMS entry for its name or value is either missing * or deleted. Clean dirty entries to make space for * future settings item. */ ret = settings_zms_delete(cf, ZMS_NAME_ID_FROM_LL_NODE(ll_hash_id)); if (ret < 0) { return ret; } continue; } /* Found a name, this might not include a trailing \0 */ name[rc1] = '\0'; read_fn_arg.fs = &cf->cf_zms; read_fn_arg.id = ZMS_NAME_ID_FROM_LL_NODE(ll_hash_id) + ZMS_DATA_ID_OFFSET; ret = settings_call_set_handler(name, rc2, settings_zms_read_fn, &read_fn_arg, (void *)arg); if (ret) { break; } /* update next ll_hash_id */ ret = zms_read(&cf->cf_zms, ll_hash_id, &settings_element, sizeof(struct settings_hash_linked_list)); if (ret < 0) { return ret; } ll_hash_id = settings_element.next_hash; } return ret; } static int settings_zms_save(struct settings_store *cs, const char *name, const char *value, size_t val_len) { struct settings_zms *cf = CONTAINER_OF(cs, struct settings_zms, cf_store); struct settings_hash_linked_list settings_element; char rdname[SETTINGS_MAX_NAME_LEN + SETTINGS_EXTRA_LEN + 1]; uint32_t name_hash; uint32_t collision_num = 0; bool delete; bool write_name; bool hash_collision; int rc = 0; int first_available_hash_index = -1; if (!name) { return -EINVAL; } /* Find out if we are doing a delete */ delete = ((value == NULL) || (val_len == 0)); name_hash = sys_hash32(name, strlen(name)) & ZMS_HASH_MASK; /* MSB is always 1 */ name_hash |= BIT(31); /* Let's find out if there are hash collisions in the storage */ write_name = true; hash_collision = true; for (int i = 0; i <= cf->hash_collision_num; i++) { rc = zms_read(&cf->cf_zms, name_hash + i * LSB_GET(ZMS_COLLISIONS_MASK), &rdname, sizeof(rdname)); if (rc == -ENOENT) { if (first_available_hash_index < 0) { first_available_hash_index = i; } continue; } else if (rc < 0) { /* error while reading */ return rc; } /* Settings entry exist, let's verify if this is the same * name */ rdname[rc] = '\0'; if (!strcmp(name, rdname)) { /* Hash exist and the names are equal, we should * not write the names again. */ write_name = false; name_hash += i * LSB_GET(ZMS_COLLISIONS_MASK); goto no_hash_collision; } /* At this step a Hash collision exists and names are different. * If we are in the middle of the loop, we should continue checking * all other possible hash collisions. * If we reach the end of the loop, either we should select the first * free hash value otherwise we increment it to the next free value and * update hash_collision_num */ collision_num++; } if (collision_num <= cf->hash_collision_num) { /* At this step there is a free hash found */ name_hash = ZMS_UPDATE_COLLISION_NUM(name_hash, first_available_hash_index); goto no_hash_collision; } else if (collision_num > cf->hash_collision_num) { /* We must create a new hash based on incremented collision_num */ if (collision_num > ZMS_MAX_COLLISIONS) { /* At this step there is no more space to store hash values */ LOG_ERR("Maximum hash collisions reached"); return -ENOSPC; } cf->hash_collision_num = collision_num; name_hash = ZMS_UPDATE_COLLISION_NUM(name_hash, collision_num); } no_hash_collision: if (delete) { if (write_name) { /* hash doesn't exist, do not write anything here */ return 0; } rc = settings_zms_delete(cf, name_hash); return rc; } /* write the value */ rc = zms_write(&cf->cf_zms, name_hash + ZMS_DATA_ID_OFFSET, value, val_len); if (rc < 0) { return rc; } /* write the name if required */ if (write_name) { rc = zms_write(&cf->cf_zms, name_hash, name, strlen(name)); if (rc < 0) { return rc; } /* write linked list structure element */ settings_element.next_hash = 0; /* Verify first that the linked list last element is not broken. * Settings subsystem uses ID that starts from ZMS_LL_HEAD_HASH_ID. */ if (cf->last_hash_id < ZMS_LL_HEAD_HASH_ID) { LOG_WRN("Linked list for hashes is broken, Trying to recover"); rc = settings_zms_get_last_hash_ids(cf); if (rc < 0) { return rc; } } settings_element.previous_hash = cf->last_hash_id; rc = zms_write(&cf->cf_zms, name_hash | 1, &settings_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } /* Now update the previous linked list element */ settings_element.next_hash = name_hash | 1; settings_element.previous_hash = cf->second_to_last_hash_id; rc = zms_write(&cf->cf_zms, cf->last_hash_id, &settings_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } cf->second_to_last_hash_id = cf->last_hash_id; cf->last_hash_id = name_hash | 1; } return 0; } static int settings_zms_get_last_hash_ids(struct settings_zms *cf) { struct settings_hash_linked_list settings_element; uint32_t ll_last_hash_id = ZMS_LL_HEAD_HASH_ID; int rc = 0; cf->hash_collision_num = 0; do { rc = zms_read(&cf->cf_zms, ll_last_hash_id, &settings_element, sizeof(settings_element)); if (rc == -ENOENT) { /* header doesn't exist or linked list broken, reinitialize the header */ const struct settings_hash_linked_list settings_element = { .previous_hash = 0, .next_hash = 0}; rc = zms_write(&cf->cf_zms, ZMS_LL_HEAD_HASH_ID, &settings_element, sizeof(struct settings_hash_linked_list)); if (rc < 0) { return rc; } cf->last_hash_id = ZMS_LL_HEAD_HASH_ID; cf->second_to_last_hash_id = 0; return 0; } else if (rc < 0) { return rc; } /* increment hash collision number if necessary */ if (ZMS_COLLISION_NUM(ll_last_hash_id) > cf->hash_collision_num) { cf->hash_collision_num = ZMS_COLLISION_NUM(ll_last_hash_id); } cf->last_hash_id = ll_last_hash_id; cf->second_to_last_hash_id = settings_element.previous_hash; ll_last_hash_id = settings_element.next_hash; } while (settings_element.next_hash); return 0; } /* Initialize the zms backend. */ static int settings_zms_backend_init(struct settings_zms *cf) { int rc; cf->cf_zms.flash_device = cf->flash_dev; if (cf->cf_zms.flash_device == NULL) { return -ENODEV; } rc = zms_mount(&cf->cf_zms); if (rc) { return rc; } cf->hash_collision_num = 0; rc = settings_zms_get_last_hash_ids(cf); LOG_DBG("ZMS backend initialized"); return rc; } int settings_backend_init(void) { static struct settings_zms default_settings_zms; int rc; uint32_t cnt = 0; size_t zms_sector_size; const struct flash_area *fa; struct flash_sector hw_flash_sector; uint32_t sector_cnt = 1; rc = flash_area_open(SETTINGS_PARTITION, &fa); if (rc) { return rc; } rc = flash_area_get_sectors(SETTINGS_PARTITION, §or_cnt, &hw_flash_sector); if (rc != 0 && rc != -ENOMEM) { return rc; } zms_sector_size = CONFIG_SETTINGS_ZMS_SECTOR_SIZE_MULT * hw_flash_sector.fs_size; if (zms_sector_size > UINT32_MAX) { return -EDOM; } #if defined(CONFIG_SETTINGS_ZMS_CUSTOM_SECTOR_COUNT) size_t zms_size = 0; while (cnt < CONFIG_SETTINGS_ZMS_SECTOR_COUNT) { zms_size += zms_sector_size; if (zms_size > fa->fa_size) { break; } cnt++; } #else cnt = fa->fa_size / zms_sector_size; #endif /* initialize the zms file system structure using the page_info */ default_settings_zms.cf_zms.sector_size = zms_sector_size; default_settings_zms.cf_zms.sector_count = cnt; default_settings_zms.cf_zms.offset = fa->fa_off; default_settings_zms.flash_dev = fa->fa_dev; rc = settings_zms_backend_init(&default_settings_zms); if (rc) { return rc; } rc = settings_zms_src(&default_settings_zms); if (rc) { return rc; } rc = settings_zms_dst(&default_settings_zms); return rc; } static void *settings_zms_storage_get(struct settings_store *cs) { struct settings_zms *cf = CONTAINER_OF(cs, struct settings_zms, cf_store); return &cf->cf_zms; }