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erofs: update documentation
- refine the filesystem overview for better description of recent new features like FSDAX and Fscache; - add the new `fsid' mount option; - fix some typos. Link: https://lore.kernel.org/r/20220527070133.77962-1-hsiangkao@linux.alibaba.com Reviewed-by: Chao Yu <chao@kernel.org> Signed-off-by: Gao Xiang <hsiangkao@linux.alibaba.com>
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.. SPDX-License-Identifier: GPL-2.0
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======================================
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Enhanced Read-Only File System - EROFS
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EROFS - Enhanced Read-Only File System
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======================================
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Overview
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========
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EROFS file-system stands for Enhanced Read-Only File System. Different
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from other read-only file systems, it aims to be designed for flexibility,
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scalability, but be kept simple and high performance.
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EROFS filesystem stands for Enhanced Read-Only File System. It aims to form a
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generic read-only filesystem solution for various read-only use cases instead
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of just focusing on storage space saving without considering any side effects
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of runtime performance.
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It is designed as a better filesystem solution for the following scenarios:
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It is designed to meet the needs of flexibility, feature extendability and user
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payload friendly, etc. Apart from those, it is still kept as a simple
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random-access friendly high-performance filesystem to get rid of unneeded I/O
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amplification and memory-resident overhead compared to similar approaches.
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It is implemented to be a better choice for the following scenarios:
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- read-only storage media or
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- part of a fully trusted read-only solution, which means it needs to be
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immutable and bit-for-bit identical to the official golden image for
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their releases due to security and other considerations and
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their releases due to security or other considerations and
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- hope to minimize extra storage space with guaranteed end-to-end performance
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by using compact layout, transparent file compression and direct access,
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especially for those embedded devices with limited memory and high-density
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hosts with numerous containers;
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hosts with numerous containers.
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Here is the main features of EROFS:
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- Little endian on-disk design;
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- Currently 4KB block size (nobh) and therefore maximum 16TB address space;
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- 4KiB block size and 32-bit block addresses, therefore 16TiB address space
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at most for now;
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- Metadata & data could be mixed by design;
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- Two inode layouts for different requirements:
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- 2 inode versions for different requirements:
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===================== ============ =====================================
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===================== ============ ======================================
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compact (v1) extended (v2)
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===================== ============ =====================================
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===================== ============ ======================================
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Inode metadata size 32 bytes 64 bytes
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Max file size 4 GB 16 EB (also limited by max. vol size)
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Max file size 4 GiB 16 EiB (also limited by max. vol size)
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Max uids/gids 65536 4294967296
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Per-inode timestamp no yes (64 + 32-bit timestamp)
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Max hardlinks 65536 4294967296
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Metadata reserved 4 bytes 14 bytes
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===================== ============ =====================================
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Metadata reserved 8 bytes 18 bytes
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===================== ============ ======================================
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- Metadata and data could be mixed as an option;
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- Support extended attributes (xattrs) as an option;
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- Support xattr inline and tail-end data inline for all files;
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- Support tailpacking data and xattr inline compared to byte-addressed
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unaligned metadata or smaller block size alternatives;
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- Support POSIX.1e ACLs by using xattrs;
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- Support transparent data compression as an option:
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LZ4 algorithm with the fixed-sized output compression for high performance;
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LZ4 and MicroLZMA algorithms can be used on a per-file basis; In addition,
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inplace decompression is also supported to avoid bounce compressed buffers
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and page cache thrashing.
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- Multiple device support for multi-layer container images.
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- Support direct I/O on uncompressed files to avoid double caching for loop
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devices;
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- Support FSDAX on uncompressed images for secure containers and ramdisks in
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order to get rid of unnecessary page cache.
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- Support multiple devices for multi blob container images;
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- Support file-based on-demand loading with the Fscache infrastructure.
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The following git tree provides the file system user-space tools under
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development (ex, formatting tool mkfs.erofs):
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development, such as a formatting tool (mkfs.erofs), an on-disk consistency &
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compatibility checking tool (fsck.erofs), and a debugging tool (dump.erofs):
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- git://git.kernel.org/pub/scm/linux/kernel/git/xiang/erofs-utils.git
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@ -91,6 +110,7 @@ dax={always,never} Use direct access (no page cache). See
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Documentation/filesystems/dax.rst.
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dax A legacy option which is an alias for ``dax=always``.
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device=%s Specify a path to an extra device to be used together.
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fsid=%s Specify a filesystem image ID for Fscache back-end.
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=================== =========================================================
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Sysfs Entries
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@ -226,8 +246,8 @@ Note that apart from the offset of the first filename, nameoff0 also indicates
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the total number of directory entries in this block since it is no need to
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introduce another on-disk field at all.
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Chunk-based file
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----------------
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Chunk-based files
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-----------------
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In order to support chunk-based data deduplication, a new inode data layout has
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been supported since Linux v5.15: Files are split in equal-sized data chunks
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with ``extents`` area of the inode metadata indicating how to get the chunk
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