mirror of https://github.com/ceph/ceph
87 lines
3.3 KiB
ReStructuredText
87 lines
3.3 KiB
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Application best practices for distributed filesystems
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======================================================
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CephFS is POSIX compatible, and therefore should work with any existing
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applications that expect a POSIX filesystem. However, because it is a
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network filesystem (unlike e.g. XFS) and it is highly consistent (unlike
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e.g. NFS), there are some consequences that application authors may
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benefit from knowing about.
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The following sections describe some areas where distributed filesystems
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may have noticeably different performance behaviours compared with
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local filesystems.
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ls -l
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-----
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When you run "ls -l", the ``ls`` program
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is first doing a directory listing, and then calling ``stat`` on every
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file in the directory.
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This is usually far in excess of what an application really needs, and
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it can be slow for large directories. If you don't really need all
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this metadata for each file, then use a plain ``ls``.
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ls/stat on files being extended
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-------------------------------
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If another client is currently extending files in the listed directory,
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then an ``ls -l`` may take an exceptionally long time to complete, as
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the lister must wait for the writer to flush data in order to do a valid
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read of the every file's size. So unless you *really* need to know the
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exact size of every file in the directory, just don't do it!
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This would also apply to any application code that was directly
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issuing ``stat`` system calls on files being appended from
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another node.
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Very large directories
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----------------------
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Do you really need that 10,000,000 file directory? While directory
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fragmentation enables CephFS to handle it, it is always going to be
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less efficient than splitting your files into more modest-sized directories.
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Even standard userspace tools can become quite slow when operating on very
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large directories. For example, the default behaviour of ``ls``
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is to give an alphabetically ordered result, but ``readdir`` system
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calls do not give an ordered result (this is true in general, not just
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with CephFS). So when you ``ls`` on a million file directory, it is
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loading a list of a million names into memory, sorting the list, then writing
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it out to the display.
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Hard links
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----------
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Hard links have an intrinsic cost in terms of the internal housekeeping
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that a filesystem has to do to keep two references to the same data. In
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CephFS there is a particular performance cost, because with normal files
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the inode is embedded in the directory (i.e. there is no extra fetch of
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the inode after looking up the path).
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Working set size
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----------------
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The MDS acts as a cache for the metadata stored in RADOS. Metadata
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performance is very different for workloads whose metadata fits within
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that cache.
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If your workload has more files than fit in your cache (configured using
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``mds_cache_memory_limit`` or ``mds_cache_size`` settings), then
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make sure you test it appropriately: don't test your system with a small
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number of files and then expect equivalent performance when you move
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to a much larger number of files.
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Do you need a filesystem?
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-------------------------
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Remember that Ceph also includes an object storage interface. If your
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application needs to store huge flat collections of files where you just
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read and write whole files at once, then you might well be better off
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using the :ref:`Object Gateway <object-gateway>`
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