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Linux/Documentation/filesystems/nfs/pnfs.rst

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Diff markup

Differences between /Documentation/filesystems/nfs/pnfs.rst (Architecture ppc) and /Documentation/filesystems/nfs/pnfs.rst (Architecture mips)


  1 ==========================                          1 ==========================
  2 Reference counting in pnfs                          2 Reference counting in pnfs
  3 ==========================                          3 ==========================
  4                                                     4 
  5 The are several inter-related caches.  We have      5 The are several inter-related caches.  We have layouts which can
  6 reference multiple devices, each of which can       6 reference multiple devices, each of which can reference multiple data servers.
  7 Each data server can be referenced by multiple      7 Each data server can be referenced by multiple devices.  Each device
  8 can be referenced by multiple layouts. To keep      8 can be referenced by multiple layouts. To keep all of this straight,
  9 we need to reference count.                         9 we need to reference count.
 10                                                    10 
 11                                                    11 
 12 struct pnfs_layout_hdr                             12 struct pnfs_layout_hdr
 13 ======================                             13 ======================
 14                                                    14 
 15 The on-the-wire command LAYOUTGET corresponds      15 The on-the-wire command LAYOUTGET corresponds to struct
 16 pnfs_layout_segment, usually referred to by th     16 pnfs_layout_segment, usually referred to by the variable name lseg.
 17 Each nfs_inode may hold a pointer to a cache o     17 Each nfs_inode may hold a pointer to a cache of these layout
 18 segments in nfsi->layout, of type struct pnfs_     18 segments in nfsi->layout, of type struct pnfs_layout_hdr.
 19                                                    19 
 20 We reference the header for the inode pointing     20 We reference the header for the inode pointing to it, across each
 21 outstanding RPC call that references it (LAYOU     21 outstanding RPC call that references it (LAYOUTGET, LAYOUTRETURN,
 22 LAYOUTCOMMIT), and for each lseg held within.      22 LAYOUTCOMMIT), and for each lseg held within.
 23                                                    23 
 24 Each header is also (when non-empty) put on a      24 Each header is also (when non-empty) put on a list associated with
 25 struct nfs_client (cl_layouts).  Being put on      25 struct nfs_client (cl_layouts).  Being put on this list does not bump
 26 the reference count, as the layout is kept aro     26 the reference count, as the layout is kept around by the lseg that
 27 keeps it in the list.                              27 keeps it in the list.
 28                                                    28 
 29 deviceid_cache                                     29 deviceid_cache
 30 ==============                                     30 ==============
 31                                                    31 
 32 lsegs reference device ids, which are resolved     32 lsegs reference device ids, which are resolved per nfs_client and
 33 layout driver type.  The device ids are held i     33 layout driver type.  The device ids are held in a RCU cache (struct
 34 nfs4_deviceid_cache).  The cache itself is ref     34 nfs4_deviceid_cache).  The cache itself is referenced across each
 35 mount.  The entries (struct nfs4_deviceid) the     35 mount.  The entries (struct nfs4_deviceid) themselves are held across
 36 the lifetime of each lseg referencing them.        36 the lifetime of each lseg referencing them.
 37                                                    37 
 38 RCU is used because the deviceid is basically      38 RCU is used because the deviceid is basically a write once, read many
 39 data structure.  The hlist size of 32 buckets      39 data structure.  The hlist size of 32 buckets needs better
 40 justification, but seems reasonable given that     40 justification, but seems reasonable given that we can have multiple
 41 deviceid's per filesystem, and multiple filesy     41 deviceid's per filesystem, and multiple filesystems per nfs_client.
 42                                                    42 
 43 The hash code is copied from the nfsd code bas     43 The hash code is copied from the nfsd code base.  A discussion of
 44 hashing and variations of this algorithm can b     44 hashing and variations of this algorithm can be found `here.
 45 <http://groups.google.com/group/comp.lang.c/br     45 <http://groups.google.com/group/comp.lang.c/browse_thread/thread/9522965e2b8d3809>`_
 46                                                    46 
 47 data server cache                                  47 data server cache
 48 =================                                  48 =================
 49                                                    49 
 50 file driver devices refer to data servers, whi     50 file driver devices refer to data servers, which are kept in a module
 51 level cache.  Its reference is held over the l     51 level cache.  Its reference is held over the lifetime of the deviceid
 52 pointing to it.                                    52 pointing to it.
 53                                                    53 
 54 lseg                                               54 lseg
 55 ====                                               55 ====
 56                                                    56 
 57 lseg maintains an extra reference correspondin     57 lseg maintains an extra reference corresponding to the NFS_LSEG_VALID
 58 bit which holds it in the pnfs_layout_hdr's li     58 bit which holds it in the pnfs_layout_hdr's list.  When the final lseg
 59 is removed from the pnfs_layout_hdr's list, th     59 is removed from the pnfs_layout_hdr's list, the NFS_LAYOUT_DESTROYED
 60 bit is set, preventing any new lsegs from bein     60 bit is set, preventing any new lsegs from being added.
 61                                                    61 
 62 layout drivers                                     62 layout drivers
 63 ==============                                     63 ==============
 64                                                    64 
 65 PNFS utilizes what is called layout drivers. T     65 PNFS utilizes what is called layout drivers. The STD defines 4 basic
 66 layout types: "files", "objects", "blocks", an     66 layout types: "files", "objects", "blocks", and "flexfiles". For each
 67 of these types there is a layout-driver with a     67 of these types there is a layout-driver with a common function-vectors
 68 table which are called by the nfs-client pnfs-     68 table which are called by the nfs-client pnfs-core to implement the
 69 different layout types.                            69 different layout types.
 70                                                    70 
 71 Files-layout-driver code is in: fs/nfs/filelay     71 Files-layout-driver code is in: fs/nfs/filelayout/.. directory
 72 Blocks-layout-driver code is in: fs/nfs/blockl     72 Blocks-layout-driver code is in: fs/nfs/blocklayout/.. directory
 73 Flexfiles-layout-driver code is in: fs/nfs/fle     73 Flexfiles-layout-driver code is in: fs/nfs/flexfilelayout/.. directory
 74                                                    74 
 75 blocks-layout setup                                75 blocks-layout setup
 76 ===================                                76 ===================
 77                                                    77 
 78 TODO: Document the setup needs of the blocks l     78 TODO: Document the setup needs of the blocks layout driver
                                                      

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