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I'm starting document of the raid5-cache feature. Please note this is a kernel doc instead of a mdadm manual, so I don't add the details about how to use the feature in mdadm side. Cc: NeilBrown <neilb@suse.com> Reviewed-by: Song Liu <songliubraving@fb.com> Signed-off-by: Shaohua Li <shli@fb.com>
110 lines
5.7 KiB
Plaintext
110 lines
5.7 KiB
Plaintext
RAID5 cache
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Raid 4/5/6 could include an extra disk for data cache besides normal RAID
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disks. The role of RAID disks isn't changed with the cache disk. The cache disk
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caches data to the RAID disks. The cache can be in write-through (supported
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since 4.4) or write-back mode (supported since 4.10). mdadm (supported since
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3.4) has a new option '--write-journal' to create array with cache. Please
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refer to mdadm manual for details. By default (RAID array starts), the cache is
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in write-through mode. A user can switch it to write-back mode by:
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echo "write-back" > /sys/block/md0/md/journal_mode
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And switch it back to write-through mode by:
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echo "write-through" > /sys/block/md0/md/journal_mode
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In both modes, all writes to the array will hit cache disk first. This means
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the cache disk must be fast and sustainable.
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-------------------------------------
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write-through mode:
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This mode mainly fixes the 'write hole' issue. For RAID 4/5/6 array, an unclean
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shutdown can cause data in some stripes to not be in consistent state, eg, data
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and parity don't match. The reason is that a stripe write involves several RAID
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disks and it's possible the writes don't hit all RAID disks yet before the
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unclean shutdown. We call an array degraded if it has inconsistent data. MD
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tries to resync the array to bring it back to normal state. But before the
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resync completes, any system crash will expose the chance of real data
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corruption in the RAID array. This problem is called 'write hole'.
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The write-through cache will cache all data on cache disk first. After the data
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is safe on the cache disk, the data will be flushed onto RAID disks. The
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two-step write will guarantee MD can recover correct data after unclean
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shutdown even the array is degraded. Thus the cache can close the 'write hole'.
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In write-through mode, MD reports IO completion to upper layer (usually
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filesystems) after the data is safe on RAID disks, so cache disk failure
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doesn't cause data loss. Of course cache disk failure means the array is
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exposed to 'write hole' again.
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In write-through mode, the cache disk isn't required to be big. Several
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hundreds megabytes are enough.
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--------------------------------------
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write-back mode:
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write-back mode fixes the 'write hole' issue too, since all write data is
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cached on cache disk. But the main goal of 'write-back' cache is to speed up
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write. If a write crosses all RAID disks of a stripe, we call it full-stripe
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write. For non-full-stripe writes, MD must read old data before the new parity
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can be calculated. These synchronous reads hurt write throughput. Some writes
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which are sequential but not dispatched in the same time will suffer from this
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overhead too. Write-back cache will aggregate the data and flush the data to
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RAID disks only after the data becomes a full stripe write. This will
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completely avoid the overhead, so it's very helpful for some workloads. A
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typical workload which does sequential write followed by fsync is an example.
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In write-back mode, MD reports IO completion to upper layer (usually
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filesystems) right after the data hits cache disk. The data is flushed to raid
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disks later after specific conditions met. So cache disk failure will cause
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data loss.
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In write-back mode, MD also caches data in memory. The memory cache includes
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the same data stored on cache disk, so a power loss doesn't cause data loss.
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The memory cache size has performance impact for the array. It's recommended
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the size is big. A user can configure the size by:
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echo "2048" > /sys/block/md0/md/stripe_cache_size
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Too small cache disk will make the write aggregation less efficient in this
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mode depending on the workloads. It's recommended to use a cache disk with at
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least several gigabytes size in write-back mode.
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--------------------------------------
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The implementation:
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The write-through and write-back cache use the same disk format. The cache disk
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is organized as a simple write log. The log consists of 'meta data' and 'data'
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pairs. The meta data describes the data. It also includes checksum and sequence
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ID for recovery identification. Data can be IO data and parity data. Data is
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checksumed too. The checksum is stored in the meta data ahead of the data. The
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checksum is an optimization because MD can write meta and data freely without
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worry about the order. MD superblock has a field pointed to the valid meta data
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of log head.
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The log implementation is pretty straightforward. The difficult part is the
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order in which MD writes data to cache disk and RAID disks. Specifically, in
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write-through mode, MD calculates parity for IO data, writes both IO data and
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parity to the log, writes the data and parity to RAID disks after the data and
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parity is settled down in log and finally the IO is finished. Read just reads
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from raid disks as usual.
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In write-back mode, MD writes IO data to the log and reports IO completion. The
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data is also fully cached in memory at that time, which means read must query
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memory cache. If some conditions are met, MD will flush the data to RAID disks.
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MD will calculate parity for the data and write parity into the log. After this
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is finished, MD will write both data and parity into RAID disks, then MD can
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release the memory cache. The flush conditions could be stripe becomes a full
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stripe write, free cache disk space is low or free in-kernel memory cache space
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is low.
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After an unclean shutdown, MD does recovery. MD reads all meta data and data
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from the log. The sequence ID and checksum will help us detect corrupted meta
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data and data. If MD finds a stripe with data and valid parities (1 parity for
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raid4/5 and 2 for raid6), MD will write the data and parities to RAID disks. If
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parities are incompleted, they are discarded. If part of data is corrupted,
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they are discarded too. MD then loads valid data and writes them to RAID disks
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in normal way.
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