03cdd0e4b9
Count and display through /proc/fs/fscache/stats the number of initialised operations. Signed-off-by: David Howells <dhowells@redhat.com> Reviewed-by: Steve Dickson <steved@redhat.com> Acked-by: Jeff Layton <jeff.layton@primarydata.com>
448 lines
19 KiB
Text
448 lines
19 KiB
Text
==========================
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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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| 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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tmo=N Number of lookups timed out and requeued
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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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abt=N Number of alloc reqs aborted due to object death
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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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abt=N Number of retr reqs aborted due to object death
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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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pgs=N Number of pages given store req processing time
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rxd=N Number of store reqs deleted from tracking tree
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olm=N Number of store reqs over store limit
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VmScan nos=N Number of release reqs against pages with no pending store
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gon=N Number of release reqs against pages stored by time lock granted
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bsy=N Number of release reqs ignored due to in-progress store
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can=N Number of page stores cancelled due to release req
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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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rej=N Number of async ops rejected due to object lookup/create failure
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ini=N Number of async ops initialised
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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 (should equal ini=N when idle)
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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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CacheEv nsp=N Number of object lookups/creations rejected due to lack of space
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stl=N Number of stale objects deleted
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rtr=N Number of objects retired when relinquished
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cul=N Number of objects culled
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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 0 | NFS.fh DT 0 ffff88001dd82820 010006017edcf8bbc93b43298fdfbe71e50b57b13a172c0117f38472, e567634700000000000000000000000063f2404a000000000000000000000000c9030000000000000000000063f2404a
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1693a 2 ACTV 0 0 0 0 0 0 7b 4 0 0 | 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 work item busy state mask (1:pending 2:running)
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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 work queued
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s Show objects that don't have 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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