| 123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202 |
- .. SPDX-License-Identifier: GPL-2.0
- =================================
- dm-pcache — Persistent Cache
- =================================
- *Author: Dongsheng Yang <dongsheng.yang@linux.dev>*
- This document describes *dm-pcache*, a Device-Mapper target that lets a
- byte-addressable *DAX* (persistent-memory, “pmem”) region act as a
- high-performance, crash-persistent cache in front of a slower block
- device. The code lives in `drivers/md/dm-pcache/`.
- Quick feature summary
- =====================
- * *Write-back* caching (only mode currently supported).
- * *16 MiB segments* allocated on the pmem device.
- * *Data CRC32* verification (optional, per cache).
- * Crash-safe: every metadata structure is duplicated (`PCACHE_META_INDEX_MAX
- == 2`) and protected with CRC+sequence numbers.
- * *Multi-tree indexing* (indexing trees sharded by logical address) for high PMem parallelism
- * Pure *DAX path* I/O – no extra BIO round-trips
- * *Log-structured write-back* that preserves backend crash-consistency
- Constructor
- ===========
- ::
- pcache <cache_dev> <backing_dev> [<number_of_optional_arguments> <cache_mode writeback> <data_crc true|false>]
- ========================= ====================================================
- ``cache_dev`` Any DAX-capable block device (``/dev/pmem0``…).
- All metadata *and* cached blocks are stored here.
- ``backing_dev`` The slow block device to be cached.
- ``cache_mode`` Optional, Only ``writeback`` is accepted at the
- moment.
- ``data_crc`` Optional, default to ``false``
- * ``true`` – store CRC32 for every cached entry
- and verify on reads
- * ``false`` – skip CRC (faster)
- ========================= ====================================================
- Example
- -------
- .. code-block:: shell
- dmsetup create pcache_sdb --table \
- "0 $(blockdev --getsz /dev/sdb) pcache /dev/pmem0 /dev/sdb 4 cache_mode writeback data_crc true"
- The first time a pmem device is used, dm-pcache formats it automatically
- (super-block, cache_info, etc.).
- Status line
- ===========
- ``dmsetup status <device>`` (``STATUSTYPE_INFO``) prints:
- ::
- <sb_flags> <seg_total> <cache_segs> <segs_used> \
- <gc_percent> <cache_flags> \
- <key_head_seg>:<key_head_off> \
- <dirty_tail_seg>:<dirty_tail_off> \
- <key_tail_seg>:<key_tail_off>
- Field meanings
- --------------
- =============================== =============================================
- ``sb_flags`` Super-block flags (e.g. endian marker).
- ``seg_total`` Number of physical *pmem* segments.
- ``cache_segs`` Number of segments used for cache.
- ``segs_used`` Segments currently allocated (bitmap weight).
- ``gc_percent`` Current GC high-water mark (0-90).
- ``cache_flags`` Bit 0 – DATA_CRC enabled
- Bit 1 – INIT_DONE (cache initialised)
- Bits 2-5 – cache mode (0 == WB).
- ``key_head`` Where new key-sets are being written.
- ``dirty_tail`` First dirty key-set that still needs
- write-back to the backing device.
- ``key_tail`` First key-set that may be reclaimed by GC.
- =============================== =============================================
- Messages
- ========
- *Change GC trigger*
- ::
- dmsetup message <dev> 0 gc_percent <0-90>
- Theory of operation
- ===================
- Sub-devices
- -----------
- ==================== =========================================================
- backing_dev Any block device (SSD/HDD/loop/LVM, etc.).
- cache_dev DAX device; must expose direct-access memory.
- ==================== =========================================================
- Segments and key-sets
- ---------------------
- * The pmem space is divided into *16 MiB segments*.
- * Each write allocates space from a per-CPU *data_head* inside a segment.
- * A *cache-key* records a logical range on the origin and where it lives
- inside pmem (segment + offset + generation).
- * 128 keys form a *key-set* (kset); ksets are written sequentially in pmem
- and are themselves crash-safe (CRC).
- * The pair *(key_tail, dirty_tail)* delimit clean/dirty and live/dead ksets.
- Write-back
- ----------
- Dirty keys are queued into a tree; a background worker copies data
- back to the backing_dev and advances *dirty_tail*. A FLUSH/FUA bio from the
- upper layers forces an immediate metadata commit.
- Garbage collection
- ------------------
- GC starts when ``segs_used >= seg_total * gc_percent / 100``. It walks
- from *key_tail*, frees segments whose every key has been invalidated, and
- advances *key_tail*.
- CRC verification
- ----------------
- If ``data_crc is enabled`` dm-pcache computes a CRC32 over every cached data
- range when it is inserted and stores it in the on-media key. Reads
- validate the CRC before copying to the caller.
- Failure handling
- ================
- * *pmem media errors* – all metadata copies are read with
- ``copy_mc_to_kernel``; an uncorrectable error logs and aborts initialisation.
- * *Cache full* – if no free segment can be found, writes return ``-EBUSY``;
- dm-pcache retries internally (request deferral).
- * *System crash* – on attach, the driver replays ksets from *key_tail* to
- rebuild the in-core trees; every segment’s generation guards against
- use-after-free keys.
- Limitations & TODO
- ==================
- * Only *write-back* mode; other modes planned.
- * Only FIFO cache invalidate; other (LRU, ARC...) planned.
- * Table reload is not supported currently.
- * Discard planned.
- Example workflow
- ================
- .. code-block:: shell
- # 1. Create devices
- dmsetup create pcache_sdb --table \
- "0 $(blockdev --getsz /dev/sdb) pcache /dev/pmem0 /dev/sdb 4 cache_mode writeback data_crc true"
- # 2. Put a filesystem on top
- mkfs.ext4 /dev/mapper/pcache_sdb
- mount /dev/mapper/pcache_sdb /mnt
- # 3. Tune GC threshold to 80 %
- dmsetup message pcache_sdb 0 gc_percent 80
- # 4. Observe status
- watch -n1 'dmsetup status pcache_sdb'
- # 5. Shutdown
- umount /mnt
- dmsetup remove pcache_sdb
- ``dm-pcache`` is under active development; feedback, bug reports and patches
- are very welcome!
|