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fe0a797a6b
Don't describe bcache_available_percent as free space but as non-writeback space. Describe priority_stats in more detail and point to that for total bcache occupation. Signed-off-by: Gabriel de Perthuis <g2p.code+bcache@gmail.com> Signed-off-by: Kent Overstreet <koverstreet@google.com>
438 lines
16 KiB
Plaintext
438 lines
16 KiB
Plaintext
Say you've got a big slow raid 6, and an X-25E or three. Wouldn't it be
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nice if you could use them as cache... Hence bcache.
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Wiki and git repositories are at:
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http://bcache.evilpiepirate.org
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http://evilpiepirate.org/git/linux-bcache.git
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http://evilpiepirate.org/git/bcache-tools.git
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It's designed around the performance characteristics of SSDs - it only allocates
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in erase block sized buckets, and it uses a hybrid btree/log to track cached
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extants (which can be anywhere from a single sector to the bucket size). It's
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designed to avoid random writes at all costs; it fills up an erase block
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sequentially, then issues a discard before reusing it.
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Both writethrough and writeback caching are supported. Writeback defaults to
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off, but can be switched on and off arbitrarily at runtime. Bcache goes to
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great lengths to protect your data - it reliably handles unclean shutdown. (It
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doesn't even have a notion of a clean shutdown; bcache simply doesn't return
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writes as completed until they're on stable storage).
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Writeback caching can use most of the cache for buffering writes - writing
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dirty data to the backing device is always done sequentially, scanning from the
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start to the end of the index.
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Since random IO is what SSDs excel at, there generally won't be much benefit
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to caching large sequential IO. Bcache detects sequential IO and skips it;
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it also keeps a rolling average of the IO sizes per task, and as long as the
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average is above the cutoff it will skip all IO from that task - instead of
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caching the first 512k after every seek. Backups and large file copies should
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thus entirely bypass the cache.
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In the event of a data IO error on the flash it will try to recover by reading
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from disk or invalidating cache entries. For unrecoverable errors (meta data
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or dirty data), caching is automatically disabled; if dirty data was present
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in the cache it first disables writeback caching and waits for all dirty data
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to be flushed.
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Getting started:
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You'll need make-bcache from the bcache-tools repository. Both the cache device
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and backing device must be formatted before use.
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make-bcache -B /dev/sdb
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make-bcache -C /dev/sdc
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make-bcache has the ability to format multiple devices at the same time - if
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you format your backing devices and cache device at the same time, you won't
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have to manually attach:
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make-bcache -B /dev/sda /dev/sdb -C /dev/sdc
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To make bcache devices known to the kernel, echo them to /sys/fs/bcache/register:
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echo /dev/sdb > /sys/fs/bcache/register
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echo /dev/sdc > /sys/fs/bcache/register
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To register your bcache devices automatically, you could add something like
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this to an init script:
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echo /dev/sd* > /sys/fs/bcache/register_quiet
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It'll look for bcache superblocks and ignore everything that doesn't have one.
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Registering the backing device makes the bcache show up in /dev; you can now
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format it and use it as normal. But the first time using a new bcache device,
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it'll be running in passthrough mode until you attach it to a cache. See the
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section on attaching.
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The devices show up at /dev/bcacheN, and can be controlled via sysfs from
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/sys/block/bcacheN/bcache:
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mkfs.ext4 /dev/bcache0
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mount /dev/bcache0 /mnt
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Cache devices are managed as sets; multiple caches per set isn't supported yet
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but will allow for mirroring of metadata and dirty data in the future. Your new
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cache set shows up as /sys/fs/bcache/<UUID>
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ATTACHING:
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After your cache device and backing device are registered, the backing device
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must be attached to your cache set to enable caching. Attaching a backing
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device to a cache set is done thusly, with the UUID of the cache set in
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/sys/fs/bcache:
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echo <UUID> > /sys/block/bcache0/bcache/attach
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This only has to be done once. The next time you reboot, just reregister all
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your bcache devices. If a backing device has data in a cache somewhere, the
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/dev/bcache# device won't be created until the cache shows up - particularly
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important if you have writeback caching turned on.
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If you're booting up and your cache device is gone and never coming back, you
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can force run the backing device:
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echo 1 > /sys/block/sdb/bcache/running
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(You need to use /sys/block/sdb (or whatever your backing device is called), not
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/sys/block/bcache0, because bcache0 doesn't exist yet. If you're using a
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partition, the bcache directory would be at /sys/block/sdb/sdb2/bcache)
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The backing device will still use that cache set if it shows up in the future,
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but all the cached data will be invalidated. If there was dirty data in the
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cache, don't expect the filesystem to be recoverable - you will have massive
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filesystem corruption, though ext4's fsck does work miracles.
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ERROR HANDLING:
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Bcache tries to transparently handle IO errors to/from the cache device without
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affecting normal operation; if it sees too many errors (the threshold is
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configurable, and defaults to 0) it shuts down the cache device and switches all
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the backing devices to passthrough mode.
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- For reads from the cache, if they error we just retry the read from the
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backing device.
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- For writethrough writes, if the write to the cache errors we just switch to
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invalidating the data at that lba in the cache (i.e. the same thing we do for
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a write that bypasses the cache)
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- For writeback writes, we currently pass that error back up to the
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filesystem/userspace. This could be improved - we could retry it as a write
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that skips the cache so we don't have to error the write.
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- When we detach, we first try to flush any dirty data (if we were running in
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writeback mode). It currently doesn't do anything intelligent if it fails to
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read some of the dirty data, though.
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TROUBLESHOOTING PERFORMANCE:
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Bcache has a bunch of config options and tunables. The defaults are intended to
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be reasonable for typical desktop and server workloads, but they're not what you
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want for getting the best possible numbers when benchmarking.
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- Bad write performance
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If write performance is not what you expected, you probably wanted to be
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running in writeback mode, which isn't the default (not due to a lack of
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maturity, but simply because in writeback mode you'll lose data if something
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happens to your SSD)
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# echo writeback > /sys/block/bcache0/cache_mode
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- Bad performance, or traffic not going to the SSD that you'd expect
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By default, bcache doesn't cache everything. It tries to skip sequential IO -
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because you really want to be caching the random IO, and if you copy a 10
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gigabyte file you probably don't want that pushing 10 gigabytes of randomly
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accessed data out of your cache.
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But if you want to benchmark reads from cache, and you start out with fio
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writing an 8 gigabyte test file - so you want to disable that.
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# echo 0 > /sys/block/bcache0/bcache/sequential_cutoff
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To set it back to the default (4 mb), do
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# echo 4M > /sys/block/bcache0/bcache/sequential_cutoff
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- Traffic's still going to the spindle/still getting cache misses
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In the real world, SSDs don't always keep up with disks - particularly with
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slower SSDs, many disks being cached by one SSD, or mostly sequential IO. So
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you want to avoid being bottlenecked by the SSD and having it slow everything
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down.
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To avoid that bcache tracks latency to the cache device, and gradually
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throttles traffic if the latency exceeds a threshold (it does this by
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cranking down the sequential bypass).
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You can disable this if you need to by setting the thresholds to 0:
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# echo 0 > /sys/fs/bcache/<cache set>/congested_read_threshold_us
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# echo 0 > /sys/fs/bcache/<cache set>/congested_write_threshold_us
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The default is 2000 us (2 milliseconds) for reads, and 20000 for writes.
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- Still getting cache misses, of the same data
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One last issue that sometimes trips people up is actually an old bug, due to
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the way cache coherency is handled for cache misses. If a btree node is full,
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a cache miss won't be able to insert a key for the new data and the data
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won't be written to the cache.
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In practice this isn't an issue because as soon as a write comes along it'll
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cause the btree node to be split, and you need almost no write traffic for
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this to not show up enough to be noticable (especially since bcache's btree
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nodes are huge and index large regions of the device). But when you're
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benchmarking, if you're trying to warm the cache by reading a bunch of data
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and there's no other traffic - that can be a problem.
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Solution: warm the cache by doing writes, or use the testing branch (there's
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a fix for the issue there).
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SYSFS - BACKING DEVICE:
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attach
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Echo the UUID of a cache set to this file to enable caching.
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cache_mode
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Can be one of either writethrough, writeback, writearound or none.
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clear_stats
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Writing to this file resets the running total stats (not the day/hour/5 minute
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decaying versions).
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detach
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Write to this file to detach from a cache set. If there is dirty data in the
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cache, it will be flushed first.
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dirty_data
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Amount of dirty data for this backing device in the cache. Continuously
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updated unlike the cache set's version, but may be slightly off.
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label
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Name of underlying device.
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readahead
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Size of readahead that should be performed. Defaults to 0. If set to e.g.
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1M, it will round cache miss reads up to that size, but without overlapping
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existing cache entries.
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running
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1 if bcache is running (i.e. whether the /dev/bcache device exists, whether
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it's in passthrough mode or caching).
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sequential_cutoff
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A sequential IO will bypass the cache once it passes this threshhold; the
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most recent 128 IOs are tracked so sequential IO can be detected even when
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it isn't all done at once.
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sequential_merge
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If non zero, bcache keeps a list of the last 128 requests submitted to compare
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against all new requests to determine which new requests are sequential
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continuations of previous requests for the purpose of determining sequential
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cutoff. This is necessary if the sequential cutoff value is greater than the
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maximum acceptable sequential size for any single request.
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state
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The backing device can be in one of four different states:
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no cache: Has never been attached to a cache set.
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clean: Part of a cache set, and there is no cached dirty data.
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dirty: Part of a cache set, and there is cached dirty data.
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inconsistent: The backing device was forcibly run by the user when there was
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dirty data cached but the cache set was unavailable; whatever data was on the
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backing device has likely been corrupted.
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stop
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Write to this file to shut down the bcache device and close the backing
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device.
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writeback_delay
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When dirty data is written to the cache and it previously did not contain
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any, waits some number of seconds before initiating writeback. Defaults to
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30.
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writeback_percent
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If nonzero, bcache tries to keep around this percentage of the cache dirty by
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throttling background writeback and using a PD controller to smoothly adjust
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the rate.
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writeback_rate
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Rate in sectors per second - if writeback_percent is nonzero, background
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writeback is throttled to this rate. Continuously adjusted by bcache but may
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also be set by the user.
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writeback_running
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If off, writeback of dirty data will not take place at all. Dirty data will
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still be added to the cache until it is mostly full; only meant for
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benchmarking. Defaults to on.
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SYSFS - BACKING DEVICE STATS:
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There are directories with these numbers for a running total, as well as
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versions that decay over the past day, hour and 5 minutes; they're also
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aggregated in the cache set directory as well.
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bypassed
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Amount of IO (both reads and writes) that has bypassed the cache
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cache_hits
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cache_misses
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cache_hit_ratio
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Hits and misses are counted per individual IO as bcache sees them; a
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partial hit is counted as a miss.
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cache_bypass_hits
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cache_bypass_misses
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Hits and misses for IO that is intended to skip the cache are still counted,
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but broken out here.
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cache_miss_collisions
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Counts instances where data was going to be inserted into the cache from a
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cache miss, but raced with a write and data was already present (usually 0
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since the synchronization for cache misses was rewritten)
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cache_readaheads
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Count of times readahead occured.
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SYSFS - CACHE SET:
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average_key_size
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Average data per key in the btree.
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bdev<0..n>
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Symlink to each of the attached backing devices.
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block_size
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Block size of the cache devices.
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btree_cache_size
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Amount of memory currently used by the btree cache
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bucket_size
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Size of buckets
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cache<0..n>
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Symlink to each of the cache devices comprising this cache set.
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cache_available_percent
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Percentage of cache device which doesn't contain dirty data, and could
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potentially be used for writeback. This doesn't mean this space isn't used
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for clean cached data; the unused statistic (in priority_stats) is typically
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much lower.
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clear_stats
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Clears the statistics associated with this cache
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dirty_data
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Amount of dirty data is in the cache (updated when garbage collection runs).
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flash_vol_create
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Echoing a size to this file (in human readable units, k/M/G) creates a thinly
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provisioned volume backed by the cache set.
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io_error_halflife
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io_error_limit
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These determines how many errors we accept before disabling the cache.
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Each error is decayed by the half life (in # ios). If the decaying count
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reaches io_error_limit dirty data is written out and the cache is disabled.
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journal_delay_ms
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Journal writes will delay for up to this many milliseconds, unless a cache
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flush happens sooner. Defaults to 100.
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root_usage_percent
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Percentage of the root btree node in use. If this gets too high the node
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will split, increasing the tree depth.
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stop
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Write to this file to shut down the cache set - waits until all attached
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backing devices have been shut down.
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tree_depth
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Depth of the btree (A single node btree has depth 0).
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unregister
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Detaches all backing devices and closes the cache devices; if dirty data is
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present it will disable writeback caching and wait for it to be flushed.
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SYSFS - CACHE SET INTERNAL:
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This directory also exposes timings for a number of internal operations, with
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separate files for average duration, average frequency, last occurence and max
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duration: garbage collection, btree read, btree node sorts and btree splits.
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active_journal_entries
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Number of journal entries that are newer than the index.
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btree_nodes
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Total nodes in the btree.
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btree_used_percent
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Average fraction of btree in use.
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bset_tree_stats
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Statistics about the auxiliary search trees
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btree_cache_max_chain
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Longest chain in the btree node cache's hash table
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cache_read_races
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Counts instances where while data was being read from the cache, the bucket
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was reused and invalidated - i.e. where the pointer was stale after the read
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completed. When this occurs the data is reread from the backing device.
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trigger_gc
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Writing to this file forces garbage collection to run.
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SYSFS - CACHE DEVICE:
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block_size
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Minimum granularity of writes - should match hardware sector size.
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btree_written
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Sum of all btree writes, in (kilo/mega/giga) bytes
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bucket_size
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Size of buckets
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cache_replacement_policy
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One of either lru, fifo or random.
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discard
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Boolean; if on a discard/TRIM will be issued to each bucket before it is
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reused. Defaults to off, since SATA TRIM is an unqueued command (and thus
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slow).
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freelist_percent
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Size of the freelist as a percentage of nbuckets. Can be written to to
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increase the number of buckets kept on the freelist, which lets you
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artificially reduce the size of the cache at runtime. Mostly for testing
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purposes (i.e. testing how different size caches affect your hit rate), but
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since buckets are discarded when they move on to the freelist will also make
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the SSD's garbage collection easier by effectively giving it more reserved
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space.
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io_errors
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Number of errors that have occured, decayed by io_error_halflife.
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metadata_written
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Sum of all non data writes (btree writes and all other metadata).
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nbuckets
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Total buckets in this cache
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priority_stats
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Statistics about how recently data in the cache has been accessed.
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This can reveal your working set size. Unused is the percentage of
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the cache that doesn't contain any data. Metadata is bcache's
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metadata overhead. Average is the average priority of cache buckets.
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Next is a list of quantiles with the priority threshold of each.
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written
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Sum of all data that has been written to the cache; comparison with
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btree_written gives the amount of write inflation in bcache.
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