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[172.125.78.211]) by smtp.gmail.com with ESMTPSA id q3-20020acac003000000b0037d74967ef6sm363483oif.44.2023.02.24.17.15.58 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Fri, 24 Feb 2023 17:15:58 -0800 (PST) From: Viacheslav Dubeyko To: linux-fsdevel@vger.kernel.org Cc: viacheslav.dubeyko@bytedance.com, luka.perkov@sartura.hr, bruno.banelli@sartura.hr, Viacheslav Dubeyko Subject: [RFC PATCH 12/76] ssdfs: block bitmap modification operations implementation Date: Fri, 24 Feb 2023 17:08:23 -0800 Message-Id: <20230225010927.813929-13-slava@dubeyko.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20230225010927.813929-1-slava@dubeyko.com> References: <20230225010927.813929-1-slava@dubeyko.com> MIME-Version: 1.0 Content-Transfer-Encoding: 8bit Precedence: bulk List-ID: X-Mailing-List: linux-fsdevel@vger.kernel.org This patch implements block bitmap's modification operations: pre_allocate - pre_allocate logical block or range of blocks allocate - allocate logical block or range of blocks invalidate - invalidate logical block or range of blocks collect_garbage - get contigous range of blocks in state clean - convert the whole block bitmap into clean state Signed-off-by: Viacheslav Dubeyko CC: Viacheslav Dubeyko CC: Luka Perkov CC: Bruno Banelli --- fs/ssdfs/block_bitmap.c | 703 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 703 insertions(+) diff --git a/fs/ssdfs/block_bitmap.c b/fs/ssdfs/block_bitmap.c index 3e3ddb6ff745..258d3b3856e1 100644 --- a/fs/ssdfs/block_bitmap.c +++ b/fs/ssdfs/block_bitmap.c @@ -4608,3 +4608,706 @@ int ssdfs_block_bmap_get_invalid_pages(struct ssdfs_block_bmap *blk_bmap) return blk_bmap->invalid_blks; } + +/* + * ssdfs_block_bmap_pre_allocate() - pre-allocate segment's range of blocks + * @blk_bmap: pointer on block bitmap + * @start: starting block for search + * @len: pointer on variable with requested length of range + * @range: pointer on blocks' range [in | out] + * + * This function tries to find contiguous range of free blocks and + * to set the found range in pre-allocated state. + * + * If pointer @len is NULL then it needs: + * (1) check that requested range contains free blocks only; + * (2) set the requested range of blocks in pre-allocated state. + * + * Otherwise, if pointer @len != NULL then it needs: + * (1) find the range of free blocks of requested length or lesser; + * (2) set the found range of blocks in pre-allocated state. + * + * RETURN: + * [success] - @range of pre-allocated blocks. + * [failure] - error code: + * + * %-EINVAL - invalid input value. + * %-ENOENT - block bitmap doesn't initialized. + * %-ENOSPC - block bitmap hasn't free blocks. + */ +int ssdfs_block_bmap_pre_allocate(struct ssdfs_block_bmap *blk_bmap, + u32 start, u32 *len, + struct ssdfs_block_bmap_range *range) +{ + int free_pages; + u32 used_blks = 0; + int err; + +#ifdef CONFIG_SSDFS_DEBUG + BUG_ON(!blk_bmap || !range); + if (!mutex_is_locked(&blk_bmap->lock)) { + SSDFS_WARN("block bitmap mutex should be locked\n"); + return -EINVAL; + } +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("start %u, len %p\n", + start, len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + if (len) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("blk_bmap %p, start %u, len %u\n", + blk_bmap, start, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + } else { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("blk_bmap %p, range (start %u, len %u)\n", + blk_bmap, range->start, range->len); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (range_corrupted(blk_bmap, range)) { + SSDFS_ERR("invalid range: start %u, len %u; " + "items count %zu\n", + range->start, range->len, + blk_bmap->items_count); + return -EINVAL; + } + } + +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("items_count %zu, used_blks %u, " + "metadata_items %u, invalid_blks %u\n", + blk_bmap->items_count, + blk_bmap->used_blks, + blk_bmap->metadata_items, + blk_bmap->invalid_blks); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (!is_block_bmap_initialized(blk_bmap)) { + SSDFS_WARN("block bitmap hasn't been initialized\n"); + return -ENOENT; + } + + err = ssdfs_block_bmap_get_free_pages(blk_bmap); + if (unlikely(err < 0)) { + SSDFS_ERR("fail to get free pages: err %d\n", err); + return err; + } else { + free_pages = err; + err = 0; + } + +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("free_pages %d\n", free_pages); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (len) { + u32 max_blk = blk_bmap->items_count - blk_bmap->metadata_items; + u32 start_blk = 0; + + if (free_pages < *len) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("unable to pre_allocate: " + "free_pages %d, count %u\n", + free_pages, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + return -ENOSPC; + } + + if (!is_cache_invalid(blk_bmap, SSDFS_BLK_FREE)) { + err = ssdfs_define_last_free_page(blk_bmap, &start_blk); + if (err) { + SSDFS_ERR("fail to define start block: " + "err %d\n", + err); + return err; + } + } + + start_blk = max_t(u32, start_blk, start); + + err = ssdfs_block_bmap_find_range(blk_bmap, start_blk, *len, + max_blk, + SSDFS_BLK_FREE, range); + if (err == -ENODATA) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("unable to find free blocks: " + "start_blk %u, max_blk %u, len %u\n", + start_blk, max_blk, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + return -ENOSPC; + } else if (err) { + SSDFS_ERR("fail to find free blocks: err %d\n", err); + return err; + } + } else { + if (free_pages < range->len) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("unable to pre_allocate: " + "free_pages %d, count %u\n", + free_pages, range->len); +#endif /* CONFIG_SSDFS_DEBUG */ + return -ENOSPC; + } + + if (!is_range_free(blk_bmap, range)) { + SSDFS_ERR("range (start %u, len %u) is not free\n", + range->start, range->len); + return -EINVAL; + } + } + + used_blks = (u32)blk_bmap->used_blks + range->len; + + if (used_blks > blk_bmap->items_count) { + SSDFS_ERR("invalid used blocks count: " + "used_blks %u, items_count %zu\n", + used_blks, + blk_bmap->items_count); + return -ERANGE; + } + + err = ssdfs_block_bmap_set_range(blk_bmap, range, + SSDFS_BLK_PRE_ALLOCATED); + if (unlikely(err)) { + SSDFS_ERR("fail to set range (start %u, len %u): err %d\n", + range->start, range->len, err); + return err; + } + + blk_bmap->used_blks += range->len; + + set_block_bmap_dirty(blk_bmap); + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("range (start %u, len %u) has been pre-allocated\n", + range->start, range->len); +#else + SSDFS_DBG("range (start %u, len %u) has been pre-allocated\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + return 0; +} + +/* + * ssdfs_block_bmap_allocate() - allocate segment's range of blocks + * @blk_bmap: pointer on block bitmap + * @start: starting block for search + * @len: pointer on variable with requested length of range + * @range: pointer on blocks' range [in | out] + * + * This function tries to find contiguous range of free + * (or pre-allocated) blocks and to set the found range in + * valid state. + * + * If pointer @len is NULL then it needs: + * (1) check that requested range contains free or pre-allocated blocks; + * (2) set the requested range of blocks in valid state. + * + * Otherwise, if pointer @len != NULL then it needs: + * (1) find the range of free blocks of requested length or lesser; + * (2) set the found range of blocks in valid state. + * + * RETURN: + * [success] - @range of valid blocks. + * [failure] - error code: + * + * %-EINVAL - invalid input value. + * %-ENOENT - block bitmap doesn't initialized. + * %-ENOSPC - block bitmap hasn't free blocks. + */ +int ssdfs_block_bmap_allocate(struct ssdfs_block_bmap *blk_bmap, + u32 start, u32 *len, + struct ssdfs_block_bmap_range *range) +{ + int state = SSDFS_BLK_FREE; + int free_pages; + u32 used_blks = 0; + int err; + +#ifdef CONFIG_SSDFS_DEBUG + BUG_ON(!blk_bmap || !range); + if (!mutex_is_locked(&blk_bmap->lock)) { + SSDFS_WARN("block bitmap mutex should be locked\n"); + return -EINVAL; + } +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("start %u, len %p\n", + start, len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + if (len) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("blk_bmap %p, start %u, len %u\n", + blk_bmap, start, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + } else { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("blk_bmap %p, range (start %u, len %u)\n", + blk_bmap, range->start, range->len); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (range_corrupted(blk_bmap, range)) { + SSDFS_ERR("invalid range: start %u, len %u; " + "items count %zu\n", + range->start, range->len, + blk_bmap->items_count); + return -EINVAL; + } + } + +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("items_count %zu, used_blks %u, " + "metadata_items %u\n", + blk_bmap->items_count, + blk_bmap->used_blks, + blk_bmap->metadata_items); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (!is_block_bmap_initialized(blk_bmap)) { + SSDFS_WARN("block bitmap hasn't been initialized\n"); + return -ENOENT; + } + + err = ssdfs_block_bmap_get_free_pages(blk_bmap); + if (unlikely(err < 0)) { + SSDFS_ERR("fail to get free pages: err %d\n", err); + return err; + } else { + free_pages = err; + err = 0; + } + + if (len) { + u32 max_blk = blk_bmap->items_count - blk_bmap->metadata_items; + u32 start_blk = 0; + + if (free_pages < *len) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("unable to allocate: " + "free_pages %d, count %u\n", + free_pages, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + return -ENOSPC; + } + + if (!is_cache_invalid(blk_bmap, SSDFS_BLK_FREE)) { + err = ssdfs_define_last_free_page(blk_bmap, &start_blk); + if (err) { + SSDFS_ERR("fail to define start block: " + "err %d\n", + err); + return err; + } + } + + start_blk = max_t(u32, start_blk, start); + + err = ssdfs_block_bmap_find_range(blk_bmap, start_blk, *len, + max_blk, SSDFS_BLK_FREE, + range); + if (err == -ENODATA) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("unable to find free blocks: " + "start_blk %u, max_blk %u, len %u\n", + start_blk, max_blk, *len); +#endif /* CONFIG_SSDFS_DEBUG */ + return -ENOSPC; + } else if (err) { + SSDFS_ERR("fail to find free blocks: err %d\n", err); + return err; + } + } else { + state = ssdfs_get_range_state(blk_bmap, range); + + if (state < 0) { + SSDFS_ERR("fail to get range " + "(start %u, len %u) state: err %d\n", + range->start, range->len, state); + return state; + } + + if (state != SSDFS_BLK_FREE && + state != SSDFS_BLK_PRE_ALLOCATED) { + SSDFS_ERR("range (start %u, len %u), state %#x, " + "can't be allocated\n", + range->start, range->len, state); + return -EINVAL; + } + } + + err = ssdfs_block_bmap_set_range(blk_bmap, range, + SSDFS_BLK_VALID); + if (unlikely(err)) { + SSDFS_ERR("fail to set range (start %u, len %u): " + "err %d\n", + range->start, range->len, err); + return err; + } + + if (state == SSDFS_BLK_FREE) { + used_blks = (u32)blk_bmap->used_blks + range->len; + + if (used_blks > blk_bmap->items_count) { + SSDFS_ERR("invalid used blocks count: " + "used_blks %u, items_count %zu\n", + used_blks, + blk_bmap->items_count); + return -ERANGE; + } + + blk_bmap->used_blks += range->len; + } + + set_block_bmap_dirty(blk_bmap); + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("range (start %u, len %u) has been allocated\n", + range->start, range->len); +#else + SSDFS_DBG("range (start %u, len %u) has been allocated\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + return 0; +} + +/* + * ssdfs_block_bmap_invalidate() - invalidate segment's range of blocks + * @blk_bmap: pointer on block bitmap + * @len: pointer on variable with requested length of range + * @range: pointer on blocks' range [in | out] + * + * This function tries to set the requested range of blocks in + * invalid state. At first, it checks that requested range contains + * valid blocks only. And, then, it sets the requested range of blocks + * in invalid state. + * + * RETURN: + * [success] - @range of invalid blocks. + * [failure] - error code: + * + * %-EINVAL - invalid input value. + * %-ENOENT - block bitmap doesn't initialized. + */ +int ssdfs_block_bmap_invalidate(struct ssdfs_block_bmap *blk_bmap, + struct ssdfs_block_bmap_range *range) +{ + int err; + +#ifdef CONFIG_SSDFS_DEBUG + BUG_ON(!blk_bmap || !range); + if (!mutex_is_locked(&blk_bmap->lock)) { + SSDFS_WARN("block bitmap mutex should be locked\n"); + return -EINVAL; + } + + SSDFS_DBG("blk_bmap %p, range (start %u, len %u)\n", + blk_bmap, range->start, range->len); + SSDFS_DBG("items_count %zu, used_blks %u, " + "metadata_items %u, invalid_blks %u\n", + blk_bmap->items_count, + blk_bmap->used_blks, + blk_bmap->metadata_items, + blk_bmap->invalid_blks); +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("range (start %u, len %u)\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + if (!is_block_bmap_initialized(blk_bmap)) { + SSDFS_WARN("block bitmap hasn't been initialized\n"); + return -ENOENT; + } + +#ifdef CONFIG_SSDFS_DEBUG + ssdfs_debug_block_bitmap(blk_bmap); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (range_corrupted(blk_bmap, range)) { + SSDFS_ERR("invalid range (start %u, len %u); items count %zu\n", + range->start, range->len, blk_bmap->items_count); + return -EINVAL; + } + + if (!is_range_valid(blk_bmap, range) && + !is_range_pre_allocated(blk_bmap, range)) { + SSDFS_ERR("range (start %u, len %u) contains not valid blocks\n", + range->start, range->len); + return -EINVAL; + } + + err = ssdfs_block_bmap_set_range(blk_bmap, range, + SSDFS_BLK_INVALID); + if (unlikely(err)) { + SSDFS_ERR("fail to set range (start %u, len %u): err %d\n", + range->start, range->len, err); + return err; + } + + blk_bmap->invalid_blks += range->len; + + if (range->len > blk_bmap->used_blks) { + SSDFS_ERR("invalid range len: " + "range_len %u, used_blks %u, items_count %zu\n", + range->len, + blk_bmap->used_blks, + blk_bmap->items_count); + return -ERANGE; + } else + blk_bmap->used_blks -= range->len; + +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("items_count %zu, used_blks %u, " + "metadata_items %u, invalid_blks %u\n", + blk_bmap->items_count, + blk_bmap->used_blks, + blk_bmap->metadata_items, + blk_bmap->invalid_blks); +#endif /* CONFIG_SSDFS_DEBUG */ + + set_block_bmap_dirty(blk_bmap); + +#ifdef CONFIG_SSDFS_DEBUG + ssdfs_debug_block_bitmap(blk_bmap); +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("range (start %u, len %u) has been invalidated\n", + range->start, range->len); +#else + SSDFS_DBG("range (start %u, len %u) has been invalidated\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + return 0; +} + +/* + * ssdfs_block_bmap_collect_garbage() - find range of valid blocks for GC + * @blk_bmap: pointer on block bitmap + * @start: starting position for search + * @max_len: maximum requested length of valid blocks' range + * @blk_state: requested block state (pre-allocated or valid) + * @range: pointer on blocks' range [out] + * + * This function tries to find range of valid blocks for GC. + * The length of requested range is limited by @max_len. + * + * RETURN: + * [success] - @range of invalid blocks. + * [failure] - error code: + * + * %-EINVAL - invalid input value. + * %-ENOENT - block bitmap doesn't initialized. + * %-ENODATA - requested range hasn't valid blocks. + */ +int ssdfs_block_bmap_collect_garbage(struct ssdfs_block_bmap *blk_bmap, + u32 start, u32 max_len, + int blk_state, + struct ssdfs_block_bmap_range *range) +{ + int err; + +#ifdef CONFIG_SSDFS_DEBUG + BUG_ON(!blk_bmap || !range); + if (!mutex_is_locked(&blk_bmap->lock)) { + SSDFS_WARN("block bitmap mutex should be locked\n"); + return -EINVAL; + } + + SSDFS_DBG("blk_bmap %p, start %u, max_len %u\n", + blk_bmap, start, max_len); + SSDFS_DBG("items_count %zu, used_blks %u, " + "metadata_items %u, invalid_blks %u\n", + blk_bmap->items_count, + blk_bmap->used_blks, + blk_bmap->metadata_items, + blk_bmap->invalid_blks); +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("start %u, max_len %u, blk_state %#x\n", + start, max_len, blk_state); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + if (!is_block_bmap_initialized(blk_bmap)) { + SSDFS_WARN("block bitmap hasn't been initialized\n"); + return -ENOENT; + } + +#ifdef CONFIG_SSDFS_DEBUG + ssdfs_debug_block_bitmap(blk_bmap); +#endif /* CONFIG_SSDFS_DEBUG */ + + switch (blk_state) { + case SSDFS_BLK_PRE_ALLOCATED: + case SSDFS_BLK_VALID: + /* valid block state */ + break; + + default: + SSDFS_ERR("invalid block state: %#x\n", + blk_state); + return -EINVAL; + }; + + err = ssdfs_block_bmap_find_range(blk_bmap, start, max_len, max_len, + blk_state, range); + if (err == -ENODATA) { +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("range (start %u, len %u) hasn't valid blocks\n", + start, max_len); +#endif /* CONFIG_SSDFS_DEBUG */ + return err; + } else if (err) { + SSDFS_ERR("fail to find valid blocks: err %d\n", err); + return err; + } + +#ifdef CONFIG_SSDFS_DEBUG + SSDFS_DBG("range (start %u, len %u) has been collected as garbage\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_DEBUG */ + +#ifdef CONFIG_SSDFS_TRACK_API_CALL + SSDFS_ERR("range (start %u, len %u) has been collected as garbage\n", + range->start, range->len); +#endif /* CONFIG_SSDFS_TRACK_API_CALL */ + + return 0; +} + +/* + * ssdfs_block_bmap_clean() - set all blocks as free/clean + * @blk_bmap: pointer on block bitmap + * + * This function tries to clean the whole bitmap. + * + * RETURN: + * [success] + * [failure] - error code: + * + * %-EINVAL - invalid input value. + * %-ENOENT - block bitmap doesn't initialized. + */ +int ssdfs_block_bmap_clean(struct ssdfs_block_bmap *blk_bmap) +{ + struct ssdfs_block_bmap_range range; + int max_capacity = SSDFS_BLK_BMAP_FRAGMENTS_CHAIN_MAX; + int i; + int err; + +#ifdef CONFIG_SSDFS_DEBUG + BUG_ON(!blk_bmap); + if (!mutex_is_locked(&blk_bmap->lock)) { + SSDFS_WARN("block bitmap mutex should be locked\n"); + return -EINVAL; + } + + SSDFS_DBG("blk_bmap %p\n", blk_bmap); +#endif /* CONFIG_SSDFS_DEBUG */ + + if (!is_block_bmap_initialized(blk_bmap)) { + SSDFS_WARN("block bitmap hasn't been initialized\n"); + return -ENOENT; + } + + blk_bmap->metadata_items = 0; + blk_bmap->used_blks = 0; + blk_bmap->invalid_blks = 0; + + for (i = 0; i < SSDFS_SEARCH_TYPE_MAX; i++) { + blk_bmap->last_search[i].page_index = max_capacity; + blk_bmap->last_search[i].offset = U16_MAX; + blk_bmap->last_search[i].cache = 0; + } + + range.start = 0; + range.len = blk_bmap->items_count; + + err = ssdfs_set_range_in_storage(blk_bmap, &range, SSDFS_BLK_FREE); + if (unlikely(err)) { + SSDFS_ERR("fail to clean block bmap: " + "range (start %u, len %u), " + "err %d\n", + range.start, range.len, err); + return err; + } + + err = ssdfs_cache_block_state(blk_bmap, 0, SSDFS_BLK_FREE); + if (unlikely(err)) { + SSDFS_ERR("fail to cache last free page: err %d\n", + err); + return err; + } + + return 0; +} + +#ifdef CONFIG_SSDFS_DEBUG +static +void ssdfs_debug_block_bitmap(struct ssdfs_block_bmap *bmap) +{ + struct ssdfs_page_vector *array; + struct page *page; + void *kaddr; + int i; + + BUG_ON(!bmap); + + SSDFS_DBG("BLOCK BITMAP: bytes_count %zu, items_count %zu, " + "metadata_items %u, used_blks %u, invalid_blks %u, " + "flags %#x\n", + bmap->bytes_count, + bmap->items_count, + bmap->metadata_items, + bmap->used_blks, + bmap->invalid_blks, + atomic_read(&bmap->flags)); + + SSDFS_DBG("LAST SEARCH:\n"); + for (i = 0; i < SSDFS_SEARCH_TYPE_MAX; i++) { + SSDFS_DBG("TYPE %d: page_index %d, offset %u, cache %lx\n", + i, + bmap->last_search[i].page_index, + bmap->last_search[i].offset, + bmap->last_search[i].cache); + } + + switch (bmap->storage.state) { + case SSDFS_BLOCK_BMAP_STORAGE_PAGE_VEC: + array = &bmap->storage.array; + + for (i = 0; i < ssdfs_page_vector_count(array); i++) { + page = array->pages[i]; + + if (!page) { + SSDFS_WARN("page %d is NULL\n", i); + continue; + } + + kaddr = kmap_local_page(page); + SSDFS_DBG("BMAP CONTENT: page %d\n", i); + print_hex_dump_bytes("", DUMP_PREFIX_OFFSET, + kaddr, PAGE_SIZE); + kunmap_local(kaddr); + } + break; + + case SSDFS_BLOCK_BMAP_STORAGE_BUFFER: + SSDFS_DBG("BMAP CONTENT:\n"); + print_hex_dump_bytes("", DUMP_PREFIX_OFFSET, + bmap->storage.buf, + bmap->bytes_count); + break; + } +} +#endif /* CONFIG_SSDFS_DEBUG */ -- 2.34.1