5753c44188
Permit the operations to retrieve data from the cache or to allocate space in the cache for future writes to be interrupted whilst they're waiting for permission for the operation to proceed. Typically this wait occurs whilst the cache object is being looked up on disk in the background. If an interruption occurs, and the operation has not yet been given the go-ahead to run, the operation is dequeued and cancelled, and control returns to the read operation of the netfs routine with none of the requested pages having been read or in any way marked as known by the cache. This means that the initial wait is done interruptibly rather than uninterruptibly. In addition, extra stats values are made available to show the number of ops cancelled and the number of cache space allocations interrupted. Signed-off-by: David Howells <dhowells@redhat.com>
433 lines
18 KiB
Plaintext
433 lines
18 KiB
Plaintext
==========================
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General Filesystem Caching
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==========================
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========
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OVERVIEW
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========
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This facility is a general purpose cache for network filesystems, though it
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could be used for caching other things such as ISO9660 filesystems too.
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FS-Cache mediates between cache backends (such as CacheFS) and network
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filesystems:
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+---------+
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| | +--------------+
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| NFS |--+ | |
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| | | +-->| CacheFS |
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+---------+ | +----------+ | | /dev/hda5 |
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| | | | +--------------+
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+---------+ +-->| | |
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| | | |--+
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| AFS |----->| FS-Cache |
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| | | |--+
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+---------+ +-->| | |
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| | | | +--------------+
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+---------+ | +----------+ | | |
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| | | +-->| CacheFiles |
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| ISOFS |--+ | /var/cache |
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| | +--------------+
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+---------+
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Or to look at it another way, FS-Cache is a module that provides a caching
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facility to a network filesystem such that the cache is transparent to the
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user:
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+---------+
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| |
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| Server |
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+---------+
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| NETWORK
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~~~~~|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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| +----------+
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V | |
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+---------+ | |
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| | | |
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| NFS |----->| FS-Cache |
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| | | |--+
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+---------+ | | | +--------------+ +--------------+
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| | | | | | | |
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V +----------+ +-->| CacheFiles |-->| Ext3 |
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+---------+ | /var/cache | | /dev/sda6 |
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| | +--------------+ +--------------+
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| VFS | ^ ^
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| | | |
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+---------+ +--------------+ |
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| KERNEL SPACE | |
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~~~~~|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~|~~~~~~|~~~~
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| USER SPACE | |
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V | |
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+---------+ +--------------+
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| Process | | cachefilesd |
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+---------+ +--------------+
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FS-Cache does not follow the idea of completely loading every netfs file
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opened in its entirety into a cache before permitting it to be accessed and
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then serving the pages out of that cache rather than the netfs inode because:
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(1) It must be practical to operate without a cache.
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(2) The size of any accessible file must not be limited to the size of the
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cache.
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(3) The combined size of all opened files (this includes mapped libraries)
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must not be limited to the size of the cache.
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(4) The user should not be forced to download an entire file just to do a
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one-off access of a small portion of it (such as might be done with the
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"file" program).
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It instead serves the cache out in PAGE_SIZE chunks as and when requested by
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the netfs('s) using it.
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FS-Cache provides the following facilities:
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(1) More than one cache can be used at once. Caches can be selected
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explicitly by use of tags.
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(2) Caches can be added / removed at any time.
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(3) The netfs is provided with an interface that allows either party to
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withdraw caching facilities from a file (required for (2)).
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(4) The interface to the netfs returns as few errors as possible, preferring
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rather to let the netfs remain oblivious.
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(5) Cookies are used to represent indices, files and other objects to the
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netfs. The simplest cookie is just a NULL pointer - indicating nothing
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cached there.
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(6) The netfs is allowed to propose - dynamically - any index hierarchy it
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desires, though it must be aware that the index search function is
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recursive, stack space is limited, and indices can only be children of
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indices.
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(7) Data I/O is done direct to and from the netfs's pages. The netfs
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indicates that page A is at index B of the data-file represented by cookie
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C, and that it should be read or written. The cache backend may or may
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not start I/O on that page, but if it does, a netfs callback will be
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invoked to indicate completion. The I/O may be either synchronous or
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asynchronous.
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(8) Cookies can be "retired" upon release. At this point FS-Cache will mark
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them as obsolete and the index hierarchy rooted at that point will get
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recycled.
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(9) The netfs provides a "match" function for index searches. In addition to
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saying whether a match was made or not, this can also specify that an
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entry should be updated or deleted.
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(10) As much as possible is done asynchronously.
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FS-Cache maintains a virtual indexing tree in which all indices, files, objects
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and pages are kept. Bits of this tree may actually reside in one or more
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caches.
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FSDEF
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+------------------------------------+
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NFS AFS
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+--------------------------+ +-----------+
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homedir mirror afs.org redhat.com
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+------------+ +---------------+ +----------+
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00001 00002 00007 00125 vol00001 vol00002
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+---+---+ +-----+ +---+ +------+------+ +-----+----+
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PG0 PG1 PG2 PG0 XATTR PG0 PG1 DIRENT DIRENT DIRENT R/W R/O Bak
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PG0 +-------+
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00001 00003
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+---+---+
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PG0 PG1 PG2
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In the example above, you can see two netfs's being backed: NFS and AFS. These
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have different index hierarchies:
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(*) The NFS primary index contains per-server indices. Each server index is
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indexed by NFS file handles to get data file objects. Each data file
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objects can have an array of pages, but may also have further child
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objects, such as extended attributes and directory entries. Extended
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attribute objects themselves have page-array contents.
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(*) The AFS primary index contains per-cell indices. Each cell index contains
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per-logical-volume indices. Each of volume index contains up to three
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indices for the read-write, read-only and backup mirrors of those volumes.
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Each of these contains vnode data file objects, each of which contains an
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array of pages.
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The very top index is the FS-Cache master index in which individual netfs's
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have entries.
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Any index object may reside in more than one cache, provided it only has index
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children. Any index with non-index object children will be assumed to only
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reside in one cache.
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The netfs API to FS-Cache can be found in:
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Documentation/filesystems/caching/netfs-api.txt
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The cache backend API to FS-Cache can be found in:
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Documentation/filesystems/caching/backend-api.txt
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A description of the internal representations and object state machine can be
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found in:
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Documentation/filesystems/caching/object.txt
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=======================
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STATISTICAL INFORMATION
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=======================
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If FS-Cache is compiled with the following options enabled:
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CONFIG_FSCACHE_STATS=y
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CONFIG_FSCACHE_HISTOGRAM=y
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then it will gather certain statistics and display them through a number of
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proc files.
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(*) /proc/fs/fscache/stats
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This shows counts of a number of events that can happen in FS-Cache:
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CLASS EVENT MEANING
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======= ======= =======================================================
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Cookies idx=N Number of index cookies allocated
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dat=N Number of data storage cookies allocated
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spc=N Number of special cookies allocated
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Objects alc=N Number of objects allocated
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nal=N Number of object allocation failures
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avl=N Number of objects that reached the available state
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ded=N Number of objects that reached the dead state
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ChkAux non=N Number of objects that didn't have a coherency check
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ok=N Number of objects that passed a coherency check
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upd=N Number of objects that needed a coherency data update
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obs=N Number of objects that were declared obsolete
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Pages mrk=N Number of pages marked as being cached
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unc=N Number of uncache page requests seen
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Acquire n=N Number of acquire cookie requests seen
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nul=N Number of acq reqs given a NULL parent
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noc=N Number of acq reqs rejected due to no cache available
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ok=N Number of acq reqs succeeded
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nbf=N Number of acq reqs rejected due to error
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oom=N Number of acq reqs failed on ENOMEM
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Lookups n=N Number of lookup calls made on cache backends
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neg=N Number of negative lookups made
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pos=N Number of positive lookups made
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crt=N Number of objects created by lookup
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Updates n=N Number of update cookie requests seen
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nul=N Number of upd reqs given a NULL parent
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run=N Number of upd reqs granted CPU time
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Relinqs n=N Number of relinquish cookie requests seen
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nul=N Number of rlq reqs given a NULL parent
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wcr=N Number of rlq reqs waited on completion of creation
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AttrChg n=N Number of attribute changed requests seen
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ok=N Number of attr changed requests queued
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nbf=N Number of attr changed rejected -ENOBUFS
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oom=N Number of attr changed failed -ENOMEM
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run=N Number of attr changed ops given CPU time
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Allocs n=N Number of allocation requests seen
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ok=N Number of successful alloc reqs
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wt=N Number of alloc reqs that waited on lookup completion
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nbf=N Number of alloc reqs rejected -ENOBUFS
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int=N Number of alloc reqs aborted -ERESTARTSYS
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ops=N Number of alloc reqs submitted
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owt=N Number of alloc reqs waited for CPU time
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Retrvls n=N Number of retrieval (read) requests seen
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ok=N Number of successful retr reqs
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wt=N Number of retr reqs that waited on lookup completion
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nod=N Number of retr reqs returned -ENODATA
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nbf=N Number of retr reqs rejected -ENOBUFS
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int=N Number of retr reqs aborted -ERESTARTSYS
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oom=N Number of retr reqs failed -ENOMEM
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ops=N Number of retr reqs submitted
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owt=N Number of retr reqs waited for CPU time
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Stores n=N Number of storage (write) requests seen
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ok=N Number of successful store reqs
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agn=N Number of store reqs on a page already pending storage
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nbf=N Number of store reqs rejected -ENOBUFS
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oom=N Number of store reqs failed -ENOMEM
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ops=N Number of store reqs submitted
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run=N Number of store reqs granted CPU time
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Ops pend=N Number of times async ops added to pending queues
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run=N Number of times async ops given CPU time
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enq=N Number of times async ops queued for processing
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can=N Number of async ops cancelled
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dfr=N Number of async ops queued for deferred release
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rel=N Number of async ops released
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gc=N Number of deferred-release async ops garbage collected
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CacheOp alo=N Number of in-progress alloc_object() cache ops
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luo=N Number of in-progress lookup_object() cache ops
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luc=N Number of in-progress lookup_complete() cache ops
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gro=N Number of in-progress grab_object() cache ops
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upo=N Number of in-progress update_object() cache ops
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dro=N Number of in-progress drop_object() cache ops
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pto=N Number of in-progress put_object() cache ops
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syn=N Number of in-progress sync_cache() cache ops
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atc=N Number of in-progress attr_changed() cache ops
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rap=N Number of in-progress read_or_alloc_page() cache ops
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ras=N Number of in-progress read_or_alloc_pages() cache ops
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alp=N Number of in-progress allocate_page() cache ops
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als=N Number of in-progress allocate_pages() cache ops
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wrp=N Number of in-progress write_page() cache ops
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ucp=N Number of in-progress uncache_page() cache ops
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dsp=N Number of in-progress dissociate_pages() cache ops
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(*) /proc/fs/fscache/histogram
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cat /proc/fs/fscache/histogram
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JIFS SECS OBJ INST OP RUNS OBJ RUNS RETRV DLY RETRIEVLS
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===== ===== ========= ========= ========= ========= =========
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This shows the breakdown of the number of times each amount of time
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between 0 jiffies and HZ-1 jiffies a variety of tasks took to run. The
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columns are as follows:
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COLUMN TIME MEASUREMENT
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======= =======================================================
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OBJ INST Length of time to instantiate an object
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OP RUNS Length of time a call to process an operation took
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OBJ RUNS Length of time a call to process an object event took
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RETRV DLY Time between an requesting a read and lookup completing
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RETRIEVLS Time between beginning and end of a retrieval
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Each row shows the number of events that took a particular range of times.
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Each step is 1 jiffy in size. The JIFS column indicates the particular
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jiffy range covered, and the SECS field the equivalent number of seconds.
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===========
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OBJECT LIST
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===========
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If CONFIG_FSCACHE_OBJECT_LIST is enabled, the FS-Cache facility will maintain a
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list of all the objects currently allocated and allow them to be viewed
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through:
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/proc/fs/fscache/objects
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This will look something like:
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[root@andromeda ~]# head /proc/fs/fscache/objects
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OBJECT PARENT STAT CHLDN OPS OOP IPR EX READS EM EV F S | NETFS_COOKIE_DEF TY FL NETFS_DATA OBJECT_KEY, AUX_DATA
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======== ======== ==== ===== === === === == ===== == == = = | ================ == == ================ ================
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17e4b 2 ACTV 0 0 0 0 0 0 7b 4 0 8 | NFS.fh DT 0 ffff88001dd82820 010006017edcf8bbc93b43298fdfbe71e50b57b13a172c0117f38472, e567634700000000000000000000000063f2404a000000000000000000000000c9030000000000000000000063f2404a
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1693a 2 ACTV 0 0 0 0 0 0 7b 4 0 8 | NFS.fh DT 0 ffff88002db23380 010006017edcf8bbc93b43298fdfbe71e50b57b1e0162c01a2df0ea6, 420ebc4a000000000000000000000000420ebc4a0000000000000000000000000e1801000000000000000000420ebc4a
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where the first set of columns before the '|' describe the object:
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COLUMN DESCRIPTION
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======= ===============================================================
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OBJECT Object debugging ID (appears as OBJ%x in some debug messages)
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PARENT Debugging ID of parent object
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STAT Object state
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CHLDN Number of child objects of this object
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OPS Number of outstanding operations on this object
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OOP Number of outstanding child object management operations
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IPR
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EX Number of outstanding exclusive operations
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READS Number of outstanding read operations
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EM Object's event mask
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EV Events raised on this object
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F Object flags
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S Object slow-work work item flags
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and the second set of columns describe the object's cookie, if present:
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COLUMN DESCRIPTION
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=============== =======================================================
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NETFS_COOKIE_DEF Name of netfs cookie definition
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TY Cookie type (IX - index, DT - data, hex - special)
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FL Cookie flags
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NETFS_DATA Netfs private data stored in the cookie
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OBJECT_KEY Object key } 1 column, with separating comma
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AUX_DATA Object aux data } presence may be configured
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The data shown may be filtered by attaching the a key to an appropriate keyring
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before viewing the file. Something like:
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keyctl add user fscache:objlist <restrictions> @s
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where <restrictions> are a selection of the following letters:
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K Show hexdump of object key (don't show if not given)
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A Show hexdump of object aux data (don't show if not given)
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and the following paired letters:
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C Show objects that have a cookie
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c Show objects that don't have a cookie
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B Show objects that are busy
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b Show objects that aren't busy
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W Show objects that have pending writes
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w Show objects that don't have pending writes
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R Show objects that have outstanding reads
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r Show objects that don't have outstanding reads
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S Show objects that have slow work queued
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s Show objects that don't have slow work queued
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If neither side of a letter pair is given, then both are implied. For example:
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keyctl add user fscache:objlist KB @s
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shows objects that are busy, and lists their object keys, but does not dump
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their auxiliary data. It also implies "CcWwRrSs", but as 'B' is given, 'b' is
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not implied.
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By default all objects and all fields will be shown.
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=========
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DEBUGGING
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=========
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If CONFIG_FSCACHE_DEBUG is enabled, the FS-Cache facility can have runtime
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debugging enabled by adjusting the value in:
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/sys/module/fscache/parameters/debug
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This is a bitmask of debugging streams to enable:
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BIT VALUE STREAM POINT
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======= ======= =============================== =======================
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0 1 Cache management Function entry trace
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1 2 Function exit trace
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2 4 General
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3 8 Cookie management Function entry trace
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4 16 Function exit trace
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5 32 General
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6 64 Page handling Function entry trace
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7 128 Function exit trace
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8 256 General
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9 512 Operation management Function entry trace
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10 1024 Function exit trace
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11 2048 General
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The appropriate set of values should be OR'd together and the result written to
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the control file. For example:
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echo $((1|8|64)) >/sys/module/fscache/parameters/debug
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will turn on all function entry debugging.
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