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Linux/Documentation/filesystems/caching/netfs-api.rst

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Differences between /Documentation/filesystems/caching/netfs-api.rst (Version linux-6.12-rc7) and /Documentation/filesystems/caching/netfs-api.rst (Version linux-5.8.18)


  1 .. SPDX-License-Identifier: GPL-2.0                 1 .. SPDX-License-Identifier: GPL-2.0
  2                                                     2 
  3 ==============================                 !!   3 ===============================
  4 Network Filesystem Caching API                 !!   4 FS-Cache Network Filesystem API
  5 ==============================                 !!   5 ===============================
                                                   >>   6 
                                                   >>   7 There's an API by which a network filesystem can make use of the FS-Cache
                                                   >>   8 facilities.  This is based around a number of principles:
                                                   >>   9 
                                                   >>  10  (1) Caches can store a number of different object types.  There are two main
                                                   >>  11      object types: indices and files.  The first is a special type used by
                                                   >>  12      FS-Cache to make finding objects faster and to make retiring of groups of
                                                   >>  13      objects easier.
                                                   >>  14 
                                                   >>  15  (2) Every index, file or other object is represented by a cookie.  This cookie
                                                   >>  16      may or may not have anything associated with it, but the netfs doesn't
                                                   >>  17      need to care.
  6                                                    18 
  7 Fscache provides an API by which a network fil !!  19  (3) Barring the top-level index (one entry per cached netfs), the index
  8 caching facilities.  The API is arranged aroun !!  20      hierarchy for each netfs is structured according the whim of the netfs.
  9                                                    21 
 10  (1) A cache is logically organised into volum !!  22 This API is declared in <linux/fscache.h>.
 11      within those volumes.                     << 
 12                                                    23 
 13  (2) Volumes and data storage objects are repr !!  24 .. This document contains the following sections:
 14      cookie.                                   << 
 15                                                    25 
 16  (3) Cookies have keys that distinguish them f !!  26          (1) Network filesystem definition
                                                   >>  27          (2) Index definition
                                                   >>  28          (3) Object definition
                                                   >>  29          (4) Network filesystem (un)registration
                                                   >>  30          (5) Cache tag lookup
                                                   >>  31          (6) Index registration
                                                   >>  32          (7) Data file registration
                                                   >>  33          (8) Miscellaneous object registration
                                                   >>  34          (9) Setting the data file size
                                                   >>  35         (10) Page alloc/read/write
                                                   >>  36         (11) Page uncaching
                                                   >>  37         (12) Index and data file consistency
                                                   >>  38         (13) Cookie enablement
                                                   >>  39         (14) Miscellaneous cookie operations
                                                   >>  40         (15) Cookie unregistration
                                                   >>  41         (16) Index invalidation
                                                   >>  42         (17) Data file invalidation
                                                   >>  43         (18) FS-Cache specific page flags.
 17                                                    44 
 18  (4) Cookies have coherency data that allows a << 
 19      cached data is still valid.               << 
 20                                                    45 
 21  (5) I/O is done asynchronously where possible !!  46 Network Filesystem Definition
                                                   >>  47 =============================
 22                                                    48 
 23 This API is used by::                          !!  49 FS-Cache needs a description of the network filesystem.  This is specified
                                                   >>  50 using a record of the following structure::
 24                                                    51 
 25         #include <linux/fscache.h>.            !!  52         struct fscache_netfs {
                                                   >>  53                 uint32_t                        version;
                                                   >>  54                 const char                      *name;
                                                   >>  55                 struct fscache_cookie           *primary_index;
                                                   >>  56                 ...
                                                   >>  57         };
 26                                                    58 
 27 .. This document contains the following sectio !!  59 This first two fields should be filled in before registration, and the third
                                                   >>  60 will be filled in by the registration function; any other fields should just be
                                                   >>  61 ignored and are for internal use only.
 28                                                    62 
 29          (1) Overview                          !!  63 The fields are:
 30          (2) Volume registration               << 
 31          (3) Data file registration            << 
 32          (4) Declaring a cookie to be in use   << 
 33          (5) Resizing a data file (truncation) << 
 34          (6) Data I/O API                      << 
 35          (7) Data file coherency               << 
 36          (8) Data file invalidation            << 
 37          (9) Write back resource management    << 
 38         (10) Caching of local modifications    << 
 39         (11) Page release and invalidation     << 
 40                                                << 
 41                                                << 
 42 Overview                                       << 
 43 ========                                       << 
 44                                                << 
 45 The fscache hierarchy is organised on two leve << 
 46 point of view.  The upper level represents "vo << 
 47 represents "data storage objects".  These are  << 
 48 cookie, hereafter referred to as "volume cooki << 
 49                                                << 
 50 A network filesystem acquires a volume cookie  << 
 51 which represents all the information that defi << 
 52 or server address, volume ID or share name).   << 
 53 printable string that can be used as a directo << 
 54 and shouldn't begin with a '.').  The maximum  << 
 55 maximum size of a filename component (allowing << 
 56 its own purposes).                             << 
 57                                                << 
 58 A filesystem would typically have a volume coo << 
 59                                                << 
 60 The filesystem then acquires a cookie for each << 
 61 object key.  Object keys are binary blobs and  << 
 62 their parent volume.  The cache backend is res << 
 63 blob into something it can use and may employ  << 
 64 improve its ability to find an object.  This i << 
 65 filesystem.                                    << 
 66                                                << 
 67 A filesystem would typically have a cookie for << 
 68 in iget and relinquish it when evicting the co << 
 69                                                << 
 70 Once it has a cookie, the filesystem needs to  << 
 71 This causes fscache to send the cache backend  << 
 72 for the cookie in the background, to check its << 
 73 mark the object as being under modification.   << 
 74                                                << 
 75 A filesystem would typically "use" the cookie  << 
 76 unuse it in file release and it needs to use t << 
 77 truncate the cookie locally.  It *also* needs  << 
 78 pagecache becomes dirty and unuse it when writ << 
 79 slightly tricky, and provision is made for it. << 
 80                                                << 
 81 When performing a read, write or resize on a c << 
 82 begin an operation.  This copies the resources << 
 83 extra pins into the cache to stop cache withdr << 
 84 structures being used.  The actual operation c << 
 85 invalidations can be detected upon completion. << 
 86                                                << 
 87 The filesystem is expected to use netfslib to  << 
 88 actually required and it can use the fscache I << 
 89                                                << 
 90                                                << 
 91 Volume Registration                            << 
 92 ===================                            << 
 93                                                << 
 94 The first step for a network filesystem is to  << 
 95 volume it wants to access::                    << 
 96                                                << 
 97         struct fscache_volume *                << 
 98         fscache_acquire_volume(const char *vol << 
 99                                const char *cac << 
100                                const void *coh << 
101                                size_t coherenc << 
102                                                << 
103 This function creates a volume cookie with the << 
104 and notes the coherency data.                  << 
105                                                << 
106 The volume key must be a printable string with << 
107 should begin with the name of the filesystem a << 
108 characters.  It should uniquely represent the  << 
109 what's stored in the cache.                    << 
110                                                << 
111 The caller may also specify the name of the ca << 
112 fscache will look up or create a cache cookie  << 
113 of that name if it is online or comes online.  << 
114 it will use the first cache that comes to hand << 
115                                                << 
116 The specified coherency data is stored in the  << 
117 against coherency data stored on disk.  The da << 
118 is provided.  If the coherency data doesn't ma << 
119 be invalidated.                                << 
120                                                << 
121 This function can return errors such as EBUSY  << 
122 use by an acquired volume or ENOMEM if an allo << 
123 also return a NULL volume cookie if fscache is << 
124 pass a NULL cookie to any function that takes  << 
125 cause that function to do nothing.             << 
126                                                << 
127                                                << 
128 When the network filesystem has finished with  << 
129 by calling::                                   << 
130                                                << 
131         void fscache_relinquish_volume(struct  << 
132                                        const v << 
133                                        bool in << 
134                                                << 
135 This will cause the volume to be committed or  << 
136 coherency data will be set to the value suppli << 
137 must match the length specified when the volum << 
138 data cookies obtained in this volume must be r << 
139 relinquished.                                  << 
140                                                    64 
                                                   >>  65  (1) The name of the netfs (used as the key in the toplevel index).
141                                                    66 
142 Data File Registration                         !!  67  (2) The version of the netfs (if the name matches but the version doesn't, the
143 ======================                         !!  68      entire in-cache hierarchy for this netfs will be scrapped and begun
                                                   >>  69      afresh).
                                                   >>  70 
                                                   >>  71  (3) The cookie representing the primary index will be allocated according to
                                                   >>  72      another parameter passed into the registration function.
                                                   >>  73 
                                                   >>  74 For example, kAFS (linux/fs/afs/) uses the following definitions to describe
                                                   >>  75 itself::
                                                   >>  76 
                                                   >>  77         struct fscache_netfs afs_cache_netfs = {
                                                   >>  78                 .version        = 0,
                                                   >>  79                 .name           = "afs",
                                                   >>  80         };
                                                   >>  81 
                                                   >>  82 
                                                   >>  83 Index Definition
                                                   >>  84 ================
                                                   >>  85 
                                                   >>  86 Indices are used for two purposes:
                                                   >>  87 
                                                   >>  88  (1) To aid the finding of a file based on a series of keys (such as AFS's
                                                   >>  89      "cell", "volume ID", "vnode ID").
                                                   >>  90 
                                                   >>  91  (2) To make it easier to discard a subset of all the files cached based around
                                                   >>  92      a particular key - for instance to mirror the removal of an AFS volume.
                                                   >>  93 
                                                   >>  94 However, since it's unlikely that any two netfs's are going to want to define
                                                   >>  95 their index hierarchies in quite the same way, FS-Cache tries to impose as few
                                                   >>  96 restraints as possible on how an index is structured and where it is placed in
                                                   >>  97 the tree.  The netfs can even mix indices and data files at the same level, but
                                                   >>  98 it's not recommended.
                                                   >>  99 
                                                   >> 100 Each index entry consists of a key of indeterminate length plus some auxiliary
                                                   >> 101 data, also of indeterminate length.
                                                   >> 102 
                                                   >> 103 There are some limits on indices:
                                                   >> 104 
                                                   >> 105  (1) Any index containing non-index objects should be restricted to a single
                                                   >> 106      cache.  Any such objects created within an index will be created in the
                                                   >> 107      first cache only.  The cache in which an index is created can be
                                                   >> 108      controlled by cache tags (see below).
                                                   >> 109 
                                                   >> 110  (2) The entry data must be atomically journallable, so it is limited to about
                                                   >> 111      400 bytes at present.  At least 400 bytes will be available.
                                                   >> 112 
                                                   >> 113  (3) The depth of the index tree should be judged with care as the search
                                                   >> 114      function is recursive.  Too many layers will run the kernel out of stack.
                                                   >> 115 
                                                   >> 116 
                                                   >> 117 Object Definition
                                                   >> 118 =================
                                                   >> 119 
                                                   >> 120 To define an object, a structure of the following type should be filled out::
                                                   >> 121 
                                                   >> 122         struct fscache_cookie_def
                                                   >> 123         {
                                                   >> 124                 uint8_t name[16];
                                                   >> 125                 uint8_t type;
                                                   >> 126 
                                                   >> 127                 struct fscache_cache_tag *(*select_cache)(
                                                   >> 128                         const void *parent_netfs_data,
                                                   >> 129                         const void *cookie_netfs_data);
                                                   >> 130 
                                                   >> 131                 enum fscache_checkaux (*check_aux)(void *cookie_netfs_data,
                                                   >> 132                                                    const void *data,
                                                   >> 133                                                    uint16_t datalen,
                                                   >> 134                                                    loff_t object_size);
                                                   >> 135 
                                                   >> 136                 void (*get_context)(void *cookie_netfs_data, void *context);
                                                   >> 137 
                                                   >> 138                 void (*put_context)(void *cookie_netfs_data, void *context);
                                                   >> 139 
                                                   >> 140                 void (*mark_pages_cached)(void *cookie_netfs_data,
                                                   >> 141                                           struct address_space *mapping,
                                                   >> 142                                           struct pagevec *cached_pvec);
                                                   >> 143         };
                                                   >> 144 
                                                   >> 145 This has the following fields:
                                                   >> 146 
                                                   >> 147  (1) The type of the object [mandatory].
                                                   >> 148 
                                                   >> 149      This is one of the following values:
                                                   >> 150 
                                                   >> 151         FSCACHE_COOKIE_TYPE_INDEX
                                                   >> 152             This defines an index, which is a special FS-Cache type.
                                                   >> 153 
                                                   >> 154         FSCACHE_COOKIE_TYPE_DATAFILE
                                                   >> 155             This defines an ordinary data file.
                                                   >> 156 
                                                   >> 157         Any other value between 2 and 255
                                                   >> 158             This defines an extraordinary object such as an XATTR.
                                                   >> 159 
                                                   >> 160  (2) The name of the object type (NUL terminated unless all 16 chars are used)
                                                   >> 161      [optional].
                                                   >> 162 
                                                   >> 163  (3) A function to select the cache in which to store an index [optional].
                                                   >> 164 
                                                   >> 165      This function is invoked when an index needs to be instantiated in a cache
                                                   >> 166      during the instantiation of a non-index object.  Only the immediate index
                                                   >> 167      parent for the non-index object will be queried.  Any indices above that
                                                   >> 168      in the hierarchy may be stored in multiple caches.  This function does not
                                                   >> 169      need to be supplied for any non-index object or any index that will only
                                                   >> 170      have index children.
                                                   >> 171 
                                                   >> 172      If this function is not supplied or if it returns NULL then the first
                                                   >> 173      cache in the parent's list will be chosen, or failing that, the first
                                                   >> 174      cache in the master list.
                                                   >> 175 
                                                   >> 176  (4) A function to check the auxiliary data [optional].
                                                   >> 177 
                                                   >> 178      This function will be called to check that a match found in the cache for
                                                   >> 179      this object is valid.  For instance with AFS it could check the auxiliary
                                                   >> 180      data against the data version number returned by the server to determine
                                                   >> 181      whether the index entry in a cache is still valid.
                                                   >> 182 
                                                   >> 183      If this function is absent, it will be assumed that matching objects in a
                                                   >> 184      cache are always valid.
                                                   >> 185 
                                                   >> 186      The function is also passed the cache's idea of the object size and may
                                                   >> 187      use this to manage coherency also.
                                                   >> 188 
                                                   >> 189      If present, the function should return one of the following values:
                                                   >> 190 
                                                   >> 191         FSCACHE_CHECKAUX_OKAY
                                                   >> 192             - the entry is okay as is
                                                   >> 193 
                                                   >> 194         FSCACHE_CHECKAUX_NEEDS_UPDATE
                                                   >> 195             - the entry requires update
                                                   >> 196 
                                                   >> 197         FSCACHE_CHECKAUX_OBSOLETE
                                                   >> 198             - the entry should be deleted
                                                   >> 199 
                                                   >> 200      This function can also be used to extract data from the auxiliary data in
                                                   >> 201      the cache and copy it into the netfs's structures.
                                                   >> 202 
                                                   >> 203  (5) A pair of functions to manage contexts for the completion callback
                                                   >> 204      [optional].
                                                   >> 205 
                                                   >> 206      The cache read/write functions are passed a context which is then passed
                                                   >> 207      to the I/O completion callback function.  To ensure this context remains
                                                   >> 208      valid until after the I/O completion is called, two functions may be
                                                   >> 209      provided: one to get an extra reference on the context, and one to drop a
                                                   >> 210      reference to it.
144                                                   211 
145 Once it has a volume cookie, a network filesys !! 212      If the context is not used or is a type of object that won't go out of
146 cookie for data storage::                      !! 213      scope, then these functions are not required.  These functions are not
                                                   >> 214      required for indices as indices may not contain data.  These functions may
                                                   >> 215      be called in interrupt context and so may not sleep.
                                                   >> 216 
                                                   >> 217  (6) A function to mark a page as retaining cache metadata [optional].
                                                   >> 218 
                                                   >> 219      This is called by the cache to indicate that it is retaining in-memory
                                                   >> 220      information for this page and that the netfs should uncache the page when
                                                   >> 221      it has finished.  This does not indicate whether there's data on the disk
                                                   >> 222      or not.  Note that several pages at once may be presented for marking.
                                                   >> 223 
                                                   >> 224      The PG_fscache bit is set on the pages before this function would be
                                                   >> 225      called, so the function need not be provided if this is sufficient.
                                                   >> 226 
                                                   >> 227      This function is not required for indices as they're not permitted data.
                                                   >> 228 
                                                   >> 229  (7) A function to unmark all the pages retaining cache metadata [mandatory].
                                                   >> 230 
                                                   >> 231      This is called by FS-Cache to indicate that a backing store is being
                                                   >> 232      unbound from a cookie and that all the marks on the pages should be
                                                   >> 233      cleared to prevent confusion.  Note that the cache will have torn down all
                                                   >> 234      its tracking information so that the pages don't need to be explicitly
                                                   >> 235      uncached.
                                                   >> 236 
                                                   >> 237      This function is not required for indices as they're not permitted data.
                                                   >> 238 
                                                   >> 239 
                                                   >> 240 Network Filesystem (Un)registration
                                                   >> 241 ===================================
                                                   >> 242 
                                                   >> 243 The first step is to declare the network filesystem to the cache.  This also
                                                   >> 244 involves specifying the layout of the primary index (for AFS, this would be the
                                                   >> 245 "cell" level).
                                                   >> 246 
                                                   >> 247 The registration function is::
                                                   >> 248 
                                                   >> 249         int fscache_register_netfs(struct fscache_netfs *netfs);
                                                   >> 250 
                                                   >> 251 It just takes a pointer to the netfs definition.  It returns 0 or an error as
                                                   >> 252 appropriate.
                                                   >> 253 
                                                   >> 254 For kAFS, registration is done as follows::
                                                   >> 255 
                                                   >> 256         ret = fscache_register_netfs(&afs_cache_netfs);
                                                   >> 257 
                                                   >> 258 The last step is, of course, unregistration::
                                                   >> 259 
                                                   >> 260         void fscache_unregister_netfs(struct fscache_netfs *netfs);
                                                   >> 261 
                                                   >> 262 
                                                   >> 263 Cache Tag Lookup
                                                   >> 264 ================
                                                   >> 265 
                                                   >> 266 FS-Cache permits the use of more than one cache.  To permit particular index
                                                   >> 267 subtrees to be bound to particular caches, the second step is to look up cache
                                                   >> 268 representation tags.  This step is optional; it can be left entirely up to
                                                   >> 269 FS-Cache as to which cache should be used.  The problem with doing that is that
                                                   >> 270 FS-Cache will always pick the first cache that was registered.
                                                   >> 271 
                                                   >> 272 To get the representation for a named tag::
                                                   >> 273 
                                                   >> 274         struct fscache_cache_tag *fscache_lookup_cache_tag(const char *name);
                                                   >> 275 
                                                   >> 276 This takes a text string as the name and returns a representation of a tag.  It
                                                   >> 277 will never return an error.  It may return a dummy tag, however, if it runs out
                                                   >> 278 of memory; this will inhibit caching with this tag.
                                                   >> 279 
                                                   >> 280 Any representation so obtained must be released by passing it to this function::
                                                   >> 281 
                                                   >> 282         void fscache_release_cache_tag(struct fscache_cache_tag *tag);
                                                   >> 283 
                                                   >> 284 The tag will be retrieved by FS-Cache when it calls the object definition
                                                   >> 285 operation select_cache().
                                                   >> 286 
                                                   >> 287 
                                                   >> 288 Index Registration
                                                   >> 289 ==================
                                                   >> 290 
                                                   >> 291 The third step is to inform FS-Cache about part of an index hierarchy that can
                                                   >> 292 be used to locate files.  This is done by requesting a cookie for each index in
                                                   >> 293 the path to the file::
147                                                   294 
148         struct fscache_cookie *                   295         struct fscache_cookie *
149         fscache_acquire_cookie(struct fscache_ !! 296         fscache_acquire_cookie(struct fscache_cookie *parent,
150                                u8 advice,      !! 297                                const struct fscache_object_def *def,
151                                const void *ind    298                                const void *index_key,
152                                size_t index_ke    299                                size_t index_key_len,
153                                const void *aux    300                                const void *aux_data,
154                                size_t aux_data    301                                size_t aux_data_len,
155                                loff_t object_s !! 302                                void *netfs_data,
                                                   >> 303                                loff_t object_size,
                                                   >> 304                                bool enable);
                                                   >> 305 
                                                   >> 306 This function creates an index entry in the index represented by parent,
                                                   >> 307 filling in the index entry by calling the operations pointed to by def.
                                                   >> 308 
                                                   >> 309 A unique key that represents the object within the parent must be pointed to by
                                                   >> 310 index_key and is of length index_key_len.
                                                   >> 311 
                                                   >> 312 An optional blob of auxiliary data that is to be stored within the cache can be
                                                   >> 313 pointed to with aux_data and should be of length aux_data_len.  This would
                                                   >> 314 typically be used for storing coherency data.
                                                   >> 315 
                                                   >> 316 The netfs may pass an arbitrary value in netfs_data and this will be presented
                                                   >> 317 to it in the event of any calling back.  This may also be used in tracing or
                                                   >> 318 logging of messages.
                                                   >> 319 
                                                   >> 320 The cache tracks the size of the data attached to an object and this set to be
                                                   >> 321 object_size.  For indices, this should be 0.  This value will be passed to the
                                                   >> 322 ->check_aux() callback.
                                                   >> 323 
                                                   >> 324 Note that this function never returns an error - all errors are handled
                                                   >> 325 internally.  It may, however, return NULL to indicate no cookie.  It is quite
                                                   >> 326 acceptable to pass this token back to this function as the parent to another
                                                   >> 327 acquisition (or even to the relinquish cookie, read page and write page
                                                   >> 328 functions - see below).
                                                   >> 329 
                                                   >> 330 Note also that no indices are actually created in a cache until a non-index
                                                   >> 331 object needs to be created somewhere down the hierarchy.  Furthermore, an index
                                                   >> 332 may be created in several different caches independently at different times.
                                                   >> 333 This is all handled transparently, and the netfs doesn't see any of it.
                                                   >> 334 
                                                   >> 335 A cookie will be created in the disabled state if enabled is false.  A cookie
                                                   >> 336 must be enabled to do anything with it.  A disabled cookie can be enabled by
                                                   >> 337 calling fscache_enable_cookie() (see below).
                                                   >> 338 
                                                   >> 339 For example, with AFS, a cell would be added to the primary index.  This index
                                                   >> 340 entry would have a dependent inode containing volume mappings within this cell::
                                                   >> 341 
                                                   >> 342         cell->cache =
                                                   >> 343                 fscache_acquire_cookie(afs_cache_netfs.primary_index,
                                                   >> 344                                        &afs_cell_cache_index_def,
                                                   >> 345                                        cell->name, strlen(cell->name),
                                                   >> 346                                        NULL, 0,
                                                   >> 347                                        cell, 0, true);
                                                   >> 348 
                                                   >> 349 And then a particular volume could be added to that index by ID, creating
                                                   >> 350 another index for vnodes (AFS inode equivalents)::
                                                   >> 351 
                                                   >> 352         volume->cache =
                                                   >> 353                 fscache_acquire_cookie(volume->cell->cache,
                                                   >> 354                                        &afs_volume_cache_index_def,
                                                   >> 355                                        &volume->vid, sizeof(volume->vid),
                                                   >> 356                                        NULL, 0,
                                                   >> 357                                        volume, 0, true);
                                                   >> 358 
                                                   >> 359 
                                                   >> 360 Data File Registration
                                                   >> 361 ======================
156                                                   362 
157 This creates the cookie in the volume using th !! 363 The fourth step is to request a data file be created in the cache.  This is
158 key is a binary blob of the given length and m !! 364 identical to index cookie acquisition.  The only difference is that the type in
159 This is saved into the cookie.  There are no r !! 365 the object definition should be something other than index type::
160 its length shouldn't exceed about three quarte !! 366 
161 to allow for encoding.                         !! 367         vnode->cache =
162                                                !! 368                 fscache_acquire_cookie(volume->cache,
163 The caller should also pass in a piece of cohe !! 369                                        &afs_vnode_cache_object_def,
164 of size aux_data_len will be allocated and the !! 370                                        &key, sizeof(key),
165 assumed that the size is invariant over time.  !! 371                                        &aux, sizeof(aux),
166 check the validity of data in the cache.  Func !! 372                                        vnode, vnode->status.size, true);
167 coherency data can be updated.                 << 
168                                                << 
169 The file size of the object being cached shoul << 
170 used to trim the data and will be stored with  << 
171                                                << 
172 This function never returns an error, though i << 
173 allocation failure or if fscache is not enable << 
174 volume cookie and pass the NULL cookie returne << 
175 This will cause that function to do nothing.   << 
176                                                   373 
177                                                   374 
178 When the network filesystem has finished with  !! 375 Miscellaneous Object Registration
179 by calling::                                   !! 376 =================================
180                                                   377 
181         void fscache_relinquish_cookie(struct  !! 378 An optional step is to request an object of miscellaneous type be created in
182                                        bool re !! 379 the cache.  This is almost identical to index cookie acquisition.  The only
                                                   >> 380 difference is that the type in the object definition should be something other
                                                   >> 381 than index type.  While the parent object could be an index, it's more likely
                                                   >> 382 it would be some other type of object such as a data file::
183                                                   383 
184 This will cause fscache to either commit the s !! 384         xattr->cache =
185 delete it.                                     !! 385                 fscache_acquire_cookie(vnode->cache,
                                                   >> 386                                        &afs_xattr_cache_object_def,
                                                   >> 387                                        &xattr->name, strlen(xattr->name),
                                                   >> 388                                        NULL, 0,
                                                   >> 389                                        xattr, strlen(xattr->val), true);
186                                                   390 
                                                   >> 391 Miscellaneous objects might be used to store extended attributes or directory
                                                   >> 392 entries for example.
187                                                   393 
188 Marking A Cookie In-Use                        << 
189 =======================                        << 
190                                                   394 
191 Once a cookie has been acquired by a network f !! 395 Setting the Data File Size
192 tell fscache when it intends to use the cookie !! 396 ==========================
193 and should say when it has finished with it (t << 
194                                                   397 
195         void fscache_use_cookie(struct fscache !! 398 The fifth step is to set the physical attributes of the file, such as its size.
196                                 bool will_modi !! 399 This doesn't automatically reserve any space in the cache, but permits the
197         void fscache_unuse_cookie(struct fscac !! 400 cache to adjust its metadata for data tracking appropriately::
198                                   const void * << 
199                                   const loff_t << 
200                                                   401 
201 The *use* function tells fscache that it will  !! 402         int fscache_attr_changed(struct fscache_cookie *cookie);
202 indicate if the user is intending to modify th << 
203 done, this will trigger the cache backend to g << 
204 needs to access/store data in the cache.  This << 
205 so may not be complete by the time the functio << 
206                                                   403 
207 The *unuse* function indicates that a filesyst !! 404 The cache will return -ENOBUFS if there is no backing cache or if there is no
208 It optionally updates the stored coherency dat !! 405 space to allocate any extra metadata required in the cache.
209 decreases the in-use counter.  When the last u << 
210 scheduled for garbage collection.  If not reus << 
211 resources will be released to reduce system re << 
212                                                   406 
213 A cookie must be marked in-use before it can b !! 407 Note that attempts to read or write data pages in the cache over this size may
214 resize - and an in-use mark must be kept whils !! 408 be rebuffed with -ENOBUFS.
215 pagecache in order to avoid an oops due to try << 
216 exit.                                          << 
217                                                   409 
218 Note that in-use marks are cumulative.  For ea !! 410 This operation schedules an attribute adjustment to happen asynchronously at
219 in-use, it must be unused.                     !! 411 some point in the future, and as such, it may happen after the function returns
                                                   >> 412 to the caller.  The attribute adjustment excludes read and write operations.
220                                                   413 
221                                                   414 
222 Resizing A Data File (Truncation)              !! 415 Page alloc/read/write
223 =================================              !! 416 =====================
224                                                   417 
225 If a network filesystem file is resized locall !! 418 And the sixth step is to store and retrieve pages in the cache.  There are
226 should be called to notify the cache::         !! 419 three functions that are used to do this.
227                                                   420 
228         void fscache_resize_cookie(struct fsca !! 421 Note:
229                                    loff_t new_ << 
230                                                   422 
231 The caller must have first marked the cookie i !! 423  (1) A page should not be re-read or re-allocated without uncaching it first.
232 size are passed in and the cache is synchronou << 
233 be called from ``->setattr()`` inode operation << 
234                                                << 
235                                                << 
236 Data I/O API                                   << 
237 ============                                   << 
238                                                << 
239 To do data I/O operations directly through a c << 
240 are available::                                << 
241                                                << 
242         int fscache_begin_read_operation(struc << 
243                                          struc << 
244         int fscache_read(struct netfs_cache_re << 
245                          loff_t start_pos,     << 
246                          struct iov_iter *iter << 
247                          enum netfs_read_from_ << 
248                          netfs_io_terminated_t << 
249                          void *term_func_priv) << 
250         int fscache_write(struct netfs_cache_r << 
251                           loff_t start_pos,    << 
252                           struct iov_iter *ite << 
253                           netfs_io_terminated_ << 
254                           void *term_func_priv << 
255                                                << 
256 The *begin* function sets up an operation, att << 
257 the cache resources block from the cookie.  As << 
258 (for instance, it will return -ENOBUFS if give << 
259 nothing), then one of the other two functions  << 
260                                                << 
261 The *read* and *write* functions initiate a di << 
262 previously set up cache resources block, an in << 
263 position, and an I/O iterator that describes b << 
264 data.                                          << 
265                                                << 
266 The read function also takes a parameter to in << 
267 partially populated region (a hole) in the dis << 
268 it, skip over an initial hole and place zeros  << 
269                                                   424 
270 The read and write functions can be given an o !! 425  (2) A read or allocated page must be uncached when the netfs page is released
271 will be run on completion::                    !! 426      from the pagecache.
                                                   >> 427 
                                                   >> 428  (3) A page should only be written to the cache if previous read or allocated.
                                                   >> 429 
                                                   >> 430 This permits the cache to maintain its page tracking in proper order.
                                                   >> 431 
                                                   >> 432 
                                                   >> 433 PAGE READ
                                                   >> 434 ---------
                                                   >> 435 
                                                   >> 436 Firstly, the netfs should ask FS-Cache to examine the caches and read the
                                                   >> 437 contents cached for a particular page of a particular file if present, or else
                                                   >> 438 allocate space to store the contents if not::
272                                                   439 
273         typedef                                   440         typedef
274         void (*netfs_io_terminated_t)(void *pr !! 441         void (*fscache_rw_complete_t)(struct page *page,
275                                       bool was !! 442                                       void *context,
                                                   >> 443                                       int error);
                                                   >> 444 
                                                   >> 445         int fscache_read_or_alloc_page(struct fscache_cookie *cookie,
                                                   >> 446                                        struct page *page,
                                                   >> 447                                        fscache_rw_complete_t end_io_func,
                                                   >> 448                                        void *context,
                                                   >> 449                                        gfp_t gfp);
                                                   >> 450 
                                                   >> 451 The cookie argument must specify a cookie for an object that isn't an index,
                                                   >> 452 the page specified will have the data loaded into it (and is also used to
                                                   >> 453 specify the page number), and the gfp argument is used to control how any
                                                   >> 454 memory allocations made are satisfied.
                                                   >> 455 
                                                   >> 456 If the cookie indicates the inode is not cached:
                                                   >> 457 
                                                   >> 458  (1) The function will return -ENOBUFS.
                                                   >> 459 
                                                   >> 460 Else if there's a copy of the page resident in the cache:
                                                   >> 461 
                                                   >> 462  (1) The mark_pages_cached() cookie operation will be called on that page.
                                                   >> 463 
                                                   >> 464  (2) The function will submit a request to read the data from the cache's
                                                   >> 465      backing device directly into the page specified.
276                                                   466 
277 If a termination function is given, the operat !! 467  (3) The function will return 0.
278 and the termination function will be called up << 
279 operation will be run synchronously.  Note tha << 
280 possible for the operation to complete before  << 
281                                                   468 
282 Both the read and write functions end the oper !! 469  (4) When the read is complete, end_io_func() will be invoked with:
283 detaching any pinned resources.                << 
284                                                   470 
285 The read operation will fail with ESTALE if in !! 471        * The netfs data supplied when the cookie was created.
286 operation was ongoing.                         << 
287                                                   472 
                                                   >> 473        * The page descriptor.
288                                                   474 
289 Data File Coherency                            !! 475        * The context argument passed to the above function.  This will be
290 ===================                            !! 476          maintained with the get_context/put_context functions mentioned above.
291                                                   477 
292 To request an update of the coherency data and !! 478        * An argument that's 0 on success or negative for an error code.
293 following should be called::                   !! 479 
                                                   >> 480      If an error occurs, it should be assumed that the page contains no usable
                                                   >> 481      data.  fscache_readpages_cancel() may need to be called.
                                                   >> 482 
                                                   >> 483      end_io_func() will be called in process context if the read is results in
                                                   >> 484      an error, but it might be called in interrupt context if the read is
                                                   >> 485      successful.
                                                   >> 486 
                                                   >> 487 Otherwise, if there's not a copy available in cache, but the cache may be able
                                                   >> 488 to store the page:
                                                   >> 489 
                                                   >> 490  (1) The mark_pages_cached() cookie operation will be called on that page.
                                                   >> 491 
                                                   >> 492  (2) A block may be reserved in the cache and attached to the object at the
                                                   >> 493      appropriate place.
                                                   >> 494 
                                                   >> 495  (3) The function will return -ENODATA.
                                                   >> 496 
                                                   >> 497 This function may also return -ENOMEM or -EINTR, in which case it won't have
                                                   >> 498 read any data from the cache.
                                                   >> 499 
                                                   >> 500 
                                                   >> 501 Page Allocate
                                                   >> 502 -------------
                                                   >> 503 
                                                   >> 504 Alternatively, if there's not expected to be any data in the cache for a page
                                                   >> 505 because the file has been extended, a block can simply be allocated instead::
                                                   >> 506 
                                                   >> 507         int fscache_alloc_page(struct fscache_cookie *cookie,
                                                   >> 508                                struct page *page,
                                                   >> 509                                gfp_t gfp);
                                                   >> 510 
                                                   >> 511 This is similar to the fscache_read_or_alloc_page() function, except that it
                                                   >> 512 never reads from the cache.  It will return 0 if a block has been allocated,
                                                   >> 513 rather than -ENODATA as the other would.  One or the other must be performed
                                                   >> 514 before writing to the cache.
                                                   >> 515 
                                                   >> 516 The mark_pages_cached() cookie operation will be called on the page if
                                                   >> 517 successful.
                                                   >> 518 
                                                   >> 519 
                                                   >> 520 Page Write
                                                   >> 521 ----------
                                                   >> 522 
                                                   >> 523 Secondly, if the netfs changes the contents of the page (either due to an
                                                   >> 524 initial download or if a user performs a write), then the page should be
                                                   >> 525 written back to the cache::
                                                   >> 526 
                                                   >> 527         int fscache_write_page(struct fscache_cookie *cookie,
                                                   >> 528                                struct page *page,
                                                   >> 529                                loff_t object_size,
                                                   >> 530                                gfp_t gfp);
                                                   >> 531 
                                                   >> 532 The cookie argument must specify a data file cookie, the page specified should
                                                   >> 533 contain the data to be written (and is also used to specify the page number),
                                                   >> 534 object_size is the revised size of the object and the gfp argument is used to
                                                   >> 535 control how any memory allocations made are satisfied.
                                                   >> 536 
                                                   >> 537 The page must have first been read or allocated successfully and must not have
                                                   >> 538 been uncached before writing is performed.
                                                   >> 539 
                                                   >> 540 If the cookie indicates the inode is not cached then:
                                                   >> 541 
                                                   >> 542  (1) The function will return -ENOBUFS.
                                                   >> 543 
                                                   >> 544 Else if space can be allocated in the cache to hold this page:
                                                   >> 545 
                                                   >> 546  (1) PG_fscache_write will be set on the page.
                                                   >> 547 
                                                   >> 548  (2) The function will submit a request to write the data to cache's backing
                                                   >> 549      device directly from the page specified.
                                                   >> 550 
                                                   >> 551  (3) The function will return 0.
                                                   >> 552 
                                                   >> 553  (4) When the write is complete PG_fscache_write is cleared on the page and
                                                   >> 554      anyone waiting for that bit will be woken up.
                                                   >> 555 
                                                   >> 556 Else if there's no space available in the cache, -ENOBUFS will be returned.  It
                                                   >> 557 is also possible for the PG_fscache_write bit to be cleared when no write took
                                                   >> 558 place if unforeseen circumstances arose (such as a disk error).
                                                   >> 559 
                                                   >> 560 Writing takes place asynchronously.
                                                   >> 561 
                                                   >> 562 
                                                   >> 563 Multiple Page Read
                                                   >> 564 ------------------
                                                   >> 565 
                                                   >> 566 A facility is provided to read several pages at once, as requested by the
                                                   >> 567 readpages() address space operation::
                                                   >> 568 
                                                   >> 569         int fscache_read_or_alloc_pages(struct fscache_cookie *cookie,
                                                   >> 570                                         struct address_space *mapping,
                                                   >> 571                                         struct list_head *pages,
                                                   >> 572                                         int *nr_pages,
                                                   >> 573                                         fscache_rw_complete_t end_io_func,
                                                   >> 574                                         void *context,
                                                   >> 575                                         gfp_t gfp);
                                                   >> 576 
                                                   >> 577 This works in a similar way to fscache_read_or_alloc_page(), except:
                                                   >> 578 
                                                   >> 579  (1) Any page it can retrieve data for is removed from pages and nr_pages and
                                                   >> 580      dispatched for reading to the disk.  Reads of adjacent pages on disk may
                                                   >> 581      be merged for greater efficiency.
                                                   >> 582 
                                                   >> 583  (2) The mark_pages_cached() cookie operation will be called on several pages
                                                   >> 584      at once if they're being read or allocated.
                                                   >> 585 
                                                   >> 586  (3) If there was an general error, then that error will be returned.
                                                   >> 587 
                                                   >> 588      Else if some pages couldn't be allocated or read, then -ENOBUFS will be
                                                   >> 589      returned.
                                                   >> 590 
                                                   >> 591      Else if some pages couldn't be read but were allocated, then -ENODATA will
                                                   >> 592      be returned.
                                                   >> 593 
                                                   >> 594      Otherwise, if all pages had reads dispatched, then 0 will be returned, the
                                                   >> 595      list will be empty and ``*nr_pages`` will be 0.
                                                   >> 596 
                                                   >> 597  (4) end_io_func will be called once for each page being read as the reads
                                                   >> 598      complete.  It will be called in process context if error != 0, but it may
                                                   >> 599      be called in interrupt context if there is no error.
                                                   >> 600 
                                                   >> 601 Note that a return of -ENODATA, -ENOBUFS or any other error does not preclude
                                                   >> 602 some of the pages being read and some being allocated.  Those pages will have
                                                   >> 603 been marked appropriately and will need uncaching.
                                                   >> 604 
                                                   >> 605 
                                                   >> 606 Cancellation of Unread Pages
                                                   >> 607 ----------------------------
                                                   >> 608 
                                                   >> 609 If one or more pages are passed to fscache_read_or_alloc_pages() but not then
                                                   >> 610 read from the cache and also not read from the underlying filesystem then
                                                   >> 611 those pages will need to have any marks and reservations removed.  This can be
                                                   >> 612 done by calling::
                                                   >> 613 
                                                   >> 614         void fscache_readpages_cancel(struct fscache_cookie *cookie,
                                                   >> 615                                       struct list_head *pages);
                                                   >> 616 
                                                   >> 617 prior to returning to the caller.  The cookie argument should be as passed to
                                                   >> 618 fscache_read_or_alloc_pages().  Every page in the pages list will be examined
                                                   >> 619 and any that have PG_fscache set will be uncached.
                                                   >> 620 
                                                   >> 621 
                                                   >> 622 Page Uncaching
                                                   >> 623 ==============
                                                   >> 624 
                                                   >> 625 To uncache a page, this function should be called::
                                                   >> 626 
                                                   >> 627         void fscache_uncache_page(struct fscache_cookie *cookie,
                                                   >> 628                                   struct page *page);
                                                   >> 629 
                                                   >> 630 This function permits the cache to release any in-memory representation it
                                                   >> 631 might be holding for this netfs page.  This function must be called once for
                                                   >> 632 each page on which the read or write page functions above have been called to
                                                   >> 633 make sure the cache's in-memory tracking information gets torn down.
                                                   >> 634 
                                                   >> 635 Note that pages can't be explicitly deleted from the a data file.  The whole
                                                   >> 636 data file must be retired (see the relinquish cookie function below).
                                                   >> 637 
                                                   >> 638 Furthermore, note that this does not cancel the asynchronous read or write
                                                   >> 639 operation started by the read/alloc and write functions, so the page
                                                   >> 640 invalidation functions must use::
                                                   >> 641 
                                                   >> 642         bool fscache_check_page_write(struct fscache_cookie *cookie,
                                                   >> 643                                       struct page *page);
                                                   >> 644 
                                                   >> 645 to see if a page is being written to the cache, and::
                                                   >> 646 
                                                   >> 647         void fscache_wait_on_page_write(struct fscache_cookie *cookie,
                                                   >> 648                                         struct page *page);
                                                   >> 649 
                                                   >> 650 to wait for it to finish if it is.
                                                   >> 651 
                                                   >> 652 
                                                   >> 653 When releasepage() is being implemented, a special FS-Cache function exists to
                                                   >> 654 manage the heuristics of coping with vmscan trying to eject pages, which may
                                                   >> 655 conflict with the cache trying to write pages to the cache (which may itself
                                                   >> 656 need to allocate memory)::
                                                   >> 657 
                                                   >> 658         bool fscache_maybe_release_page(struct fscache_cookie *cookie,
                                                   >> 659                                         struct page *page,
                                                   >> 660                                         gfp_t gfp);
                                                   >> 661 
                                                   >> 662 This takes the netfs cookie, and the page and gfp arguments as supplied to
                                                   >> 663 releasepage().  It will return false if the page cannot be released yet for
                                                   >> 664 some reason and if it returns true, the page has been uncached and can now be
                                                   >> 665 released.
                                                   >> 666 
                                                   >> 667 To make a page available for release, this function may wait for an outstanding
                                                   >> 668 storage request to complete, or it may attempt to cancel the storage request -
                                                   >> 669 in which case the page will not be stored in the cache this time.
                                                   >> 670 
                                                   >> 671 
                                                   >> 672 Bulk Image Page Uncache
                                                   >> 673 -----------------------
                                                   >> 674 
                                                   >> 675 A convenience routine is provided to perform an uncache on all the pages
                                                   >> 676 attached to an inode.  This assumes that the pages on the inode correspond on a
                                                   >> 677 1:1 basis with the pages in the cache::
                                                   >> 678 
                                                   >> 679         void fscache_uncache_all_inode_pages(struct fscache_cookie *cookie,
                                                   >> 680                                              struct inode *inode);
                                                   >> 681 
                                                   >> 682 This takes the netfs cookie that the pages were cached with and the inode that
                                                   >> 683 the pages are attached to.  This function will wait for pages to finish being
                                                   >> 684 written to the cache and for the cache to finish with the page generally.  No
                                                   >> 685 error is returned.
                                                   >> 686 
                                                   >> 687 
                                                   >> 688 Index and Data File consistency
                                                   >> 689 ===============================
                                                   >> 690 
                                                   >> 691 To find out whether auxiliary data for an object is up to data within the
                                                   >> 692 cache, the following function can be called::
                                                   >> 693 
                                                   >> 694         int fscache_check_consistency(struct fscache_cookie *cookie,
                                                   >> 695                                       const void *aux_data);
                                                   >> 696 
                                                   >> 697 This will call back to the netfs to check whether the auxiliary data associated
                                                   >> 698 with a cookie is correct; if aux_data is non-NULL, it will update the auxiliary
                                                   >> 699 data buffer first.  It returns 0 if it is and -ESTALE if it isn't; it may also
                                                   >> 700 return -ENOMEM and -ERESTARTSYS.
                                                   >> 701 
                                                   >> 702 To request an update of the index data for an index or other object, the
                                                   >> 703 following function should be called::
294                                                   704 
295         void fscache_update_cookie(struct fsca    705         void fscache_update_cookie(struct fscache_cookie *cookie,
                                                   >> 706                                    const void *aux_data);
                                                   >> 707 
                                                   >> 708 This function will update the cookie's auxiliary data buffer from aux_data if
                                                   >> 709 that is non-NULL and then schedule this to be stored on disk.  The update
                                                   >> 710 method in the parent index definition will be called to transfer the data.
                                                   >> 711 
                                                   >> 712 Note that partial updates may happen automatically at other times, such as when
                                                   >> 713 data blocks are added to a data file object.
                                                   >> 714 
                                                   >> 715 
                                                   >> 716 Cookie Enablement
                                                   >> 717 =================
                                                   >> 718 
                                                   >> 719 Cookies exist in one of two states: enabled and disabled.  If a cookie is
                                                   >> 720 disabled, it ignores all attempts to acquire child cookies; check, update or
                                                   >> 721 invalidate its state; allocate, read or write backing pages - though it is
                                                   >> 722 still possible to uncache pages and relinquish the cookie.
                                                   >> 723 
                                                   >> 724 The initial enablement state is set by fscache_acquire_cookie(), but the cookie
                                                   >> 725 can be enabled or disabled later.  To disable a cookie, call::
                                                   >> 726 
                                                   >> 727         void fscache_disable_cookie(struct fscache_cookie *cookie,
                                                   >> 728                                     const void *aux_data,
                                                   >> 729                                     bool invalidate);
                                                   >> 730 
                                                   >> 731 If the cookie is not already disabled, this locks the cookie against other
                                                   >> 732 enable and disable ops, marks the cookie as being disabled, discards or
                                                   >> 733 invalidates any backing objects and waits for cessation of activity on any
                                                   >> 734 associated object before unlocking the cookie.
                                                   >> 735 
                                                   >> 736 All possible failures are handled internally.  The caller should consider
                                                   >> 737 calling fscache_uncache_all_inode_pages() afterwards to make sure all page
                                                   >> 738 markings are cleared up.
                                                   >> 739 
                                                   >> 740 Cookies can be enabled or reenabled with::
                                                   >> 741 
                                                   >> 742         void fscache_enable_cookie(struct fscache_cookie *cookie,
296                                    const void     743                                    const void *aux_data,
297                                    const loff_ !! 744                                    loff_t object_size,
                                                   >> 745                                    bool (*can_enable)(void *data),
                                                   >> 746                                    void *data)
298                                                   747 
299 This will update the cookie's coherency data a !! 748 If the cookie is not already enabled, this locks the cookie against other
                                                   >> 749 enable and disable ops, invokes can_enable() and, if the cookie is not an index
                                                   >> 750 cookie, will begin the procedure of acquiring backing objects.
300                                                   751 
                                                   >> 752 The optional can_enable() function is passed the data argument and returns a
                                                   >> 753 ruling as to whether or not enablement should actually be permitted to begin.
301                                                   754 
302 Data File Invalidation                         !! 755 All possible failures are handled internally.  The cookie will only be marked
303 ======================                         !! 756 as enabled if provisional backing objects are allocated.
                                                   >> 757 
                                                   >> 758 The object's data size is updated from object_size and is passed to the
                                                   >> 759 ->check_aux() function.
                                                   >> 760 
                                                   >> 761 In both cases, the cookie's auxiliary data buffer is updated from aux_data if
                                                   >> 762 that is non-NULL inside the enablement lock before proceeding.
304                                                   763 
305 Sometimes it will be necessary to invalidate a << 
306 Typically this will be necessary when the serv << 
307 of a remote third-party change - at which poin << 
308 away the state and cached data that it had for << 
309 server.                                        << 
310                                                   764 
311 To indicate that a cache object should be inva !! 765 Miscellaneous Cookie operations
312 called::                                       !! 766 ===============================
313                                                   767 
314         void fscache_invalidate(struct fscache !! 768 There are a number of operations that can be used to control cookies:
315                                 const void *au << 
316                                 loff_t size,   << 
317                                 unsigned int f << 
318                                                   769 
319 This increases the invalidation counter in the !! 770      * Cookie pinning::
320 reads to fail with -ESTALE, sets the coherency << 
321 information supplied, blocks new I/O on the co << 
322 go and get rid of the old data.                << 
323                                                   771 
324 Invalidation runs asynchronously in a worker t !! 772         int fscache_pin_cookie(struct fscache_cookie *cookie);
325 too much.                                      !! 773         void fscache_unpin_cookie(struct fscache_cookie *cookie);
326                                                   774 
                                                   >> 775      These operations permit data cookies to be pinned into the cache and to
                                                   >> 776      have the pinning removed.  They are not permitted on index cookies.
327                                                   777 
328 Write-Back Resource Management                 !! 778      The pinning function will return 0 if successful, -ENOBUFS in the cookie
329 ==============================                 !! 779      isn't backed by a cache, -EOPNOTSUPP if the cache doesn't support pinning,
                                                   >> 780      -ENOSPC if there isn't enough space to honour the operation, -ENOMEM or
                                                   >> 781      -EIO if there's any other problem.
330                                                   782 
331 To write data to the cache from network filesy !! 783    * Data space reservation::
332 resources required need to be pinned at the po << 
333 instance when the page is marked dirty) as it' << 
334 a thread that's exiting.                       << 
335                                                   784 
336 The following facilities are provided to manag !! 785         int fscache_reserve_space(struct fscache_cookie *cookie, loff_t size);
337                                                   786 
338  * An inode flag, ``I_PINNING_FSCACHE_WB``, is !! 787      This permits a netfs to request cache space be reserved to store up to the
339    in-use is held on the cookie for this inode !! 788      given amount of a file.  It is permitted to ask for more than the current
340    the inode lock is held.                     !! 789      size of the file to allow for future file expansion.
341                                                   790 
342  * A flag, ``unpinned_fscache_wb`` is placed i !! 791      If size is given as zero then the reservation will be cancelled.
343    struct that gets set if ``__writeback_singl << 
344    ``I_PINNING_FSCACHE_WB`` because all the di << 
345                                                   792 
346 To support this, the following functions are p !! 793      The function will return 0 if successful, -ENOBUFS in the cookie isn't
                                                   >> 794      backed by a cache, -EOPNOTSUPP if the cache doesn't support reservations,
                                                   >> 795      -ENOSPC if there isn't enough space to honour the operation, -ENOMEM or
                                                   >> 796      -EIO if there's any other problem.
347                                                   797 
348         bool fscache_dirty_folio(struct addres !! 798      Note that this doesn't pin an object in a cache; it can still be culled to
349                                  struct folio  !! 799      make space if it's not in use.
350                                  struct fscach << 
351         void fscache_unpin_writeback(struct wr << 
352                                      struct fs << 
353         void fscache_clear_inode_writeback(str << 
354                                            str << 
355                                            con << 
356                                                   800 
357 The *set* function is intended to be called fr << 
358 ``dirty_folio`` address space operation.  If ` << 
359 set, it sets that flag and increments the use  << 
360 must already have called ``fscache_use_cookie( << 
361                                                   801 
362 The *unpin* function is intended to be called  !! 802 Cookie Unregistration
363 ``write_inode`` superblock operation.  It clea !! 803 =====================
364 the cookie if unpinned_fscache_wb is set in th !! 804 
                                                   >> 805 To get rid of a cookie, this function should be called::
                                                   >> 806 
                                                   >> 807         void fscache_relinquish_cookie(struct fscache_cookie *cookie,
                                                   >> 808                                        const void *aux_data,
                                                   >> 809                                        bool retire);
365                                                   810 
366 The *clear* function is intended to be called  !! 811 If retire is non-zero, then the object will be marked for recycling, and all
367 superblock operation.  It must be called *afte !! 812 copies of it will be removed from all active caches in which it is present.
368 ``truncate_inode_pages_final()``, but *before* !! 813 Not only that but all child objects will also be retired.
369 up any hanging ``I_PINNING_FSCACHE_WB``.  It a << 
370 be updated.                                    << 
371                                                   814 
                                                   >> 815 If retire is zero, then the object may be available again when next the
                                                   >> 816 acquisition function is called.  Retirement here will overrule the pinning on a
                                                   >> 817 cookie.
372                                                   818 
373 Caching of Local Modifications                 !! 819 The cookie's auxiliary data will be updated from aux_data if that is non-NULL
374 ==============================                 !! 820 so that the cache can lazily update it on disk.
375                                                   821 
376 If a network filesystem has locally modified d !! 822 One very important note - relinquish must NOT be called for a cookie unless all
377 cache, it needs to mark the pages to indicate  !! 823 the cookies for "child" indices, objects and pages have been relinquished
378 if the mark is already present, it needs to wa !! 824 first.
379 (presumably due to an already in-progress oper << 
380 competing DIO writes to the same storage in th << 
381                                                   825 
382 Firstly, the netfs should determine if caching << 
383 like::                                         << 
384                                                   826 
385         bool caching = fscache_cookie_enabled( !! 827 Index Invalidation
                                                   >> 828 ==================
386                                                   829 
387 If caching is to be attempted, pages should be !! 830 There is no direct way to invalidate an index subtree.  To do this, the caller
388 the following functions provided by the netfs  !! 831 should relinquish and retire the cookie they have, and then acquire a new one.
389                                                   832 
390         void set_page_fscache(struct page *pag << 
391         void wait_on_page_fscache(struct page  << 
392         int wait_on_page_fscache_killable(stru << 
393                                                   833 
394 Once all the pages in the span are marked, the !! 834 Data File Invalidation
395 schedule a write of that region::              !! 835 ======================
396                                                   836 
397         void fscache_write_to_cache(struct fsc !! 837 Sometimes it will be necessary to invalidate an object that contains data.
398                                     struct add !! 838 Typically this will be necessary when the server tells the netfs of a foreign
399                                     loff_t sta !! 839 change - at which point the netfs has to throw away all the state it had for an
400                                     netfs_io_t !! 840 inode and reload from the server.
401                                     void *term << 
402                                     bool cachi << 
403                                                   841 
404 And if an error occurs before that point is re !! 842 To indicate that a cache object should be invalidated, the following function
405 by calling::                                   !! 843 can be called::
406                                                   844 
407         void fscache_clear_page_bits(struct ad !! 845         void fscache_invalidate(struct fscache_cookie *cookie);
408                                      loff_t st << 
409                                      bool cach << 
410                                                   846 
411 In these functions, a pointer to the mapping t !! 847 This can be called with spinlocks held as it defers the work to a thread pool.
412 attached is passed in and start and len indica !! 848 All extant storage, retrieval and attribute change ops at this point are
413 going to be written (it doesn't have to align  !! 849 cancelled and discarded.  Some future operations will be rejected until the
414 but it does have to align to DIO boundaries on !! 850 cache has had a chance to insert a barrier in the operations queue.  After
415 caching parameter indicates if caching should  !! 851 that, operations will be queued again behind the invalidation operation.
416 functions do nothing.                          << 
417                                                   852 
418 The write function takes some additional param !! 853 The invalidation operation will perform an attribute change operation and an
419 the cache object to be written to, i_size indi !! 854 auxiliary data update operation as it is very likely these will have changed.
420 and term_func indicates an optional completion << 
421 term_func_priv will be passed, along with the  << 
422                                                   855 
423 Note that the write function will always run a !! 856 Using the following function, the netfs can wait for the invalidation operation
424 the pages upon completion before calling term_ !! 857 to have reached a point at which it can start submitting ordinary operations
                                                   >> 858 once again::
425                                                   859 
                                                   >> 860         void fscache_wait_on_invalidate(struct fscache_cookie *cookie);
426                                                   861 
427 Page Release and Invalidation                  << 
428 =============================                  << 
429                                                   862 
430 Fscache keeps track of whether we have any dat !! 863 FS-cache Specific Page Flag
431 object we've just created.  It knows it doesn' !! 864 ===========================
432 has done a write and then the page it wrote fr << 
433 after which it *has* to look in the cache.     << 
434                                                   865 
435 To inform fscache that a page might now be in  !! 866 FS-Cache makes use of a page flag, PG_private_2, for its own purpose.  This is
436 should be called from the ``release_folio`` ad !! 867 given the alternative name PG_fscache.
437                                                   868 
438         void fscache_note_page_release(struct  !! 869 PG_fscache is used to indicate that the page is known by the cache, and that
                                                   >> 870 the cache must be informed if the page is going to go away.  It's an indication
                                                   >> 871 to the netfs that the cache has an interest in this page, where an interest may
                                                   >> 872 be a pointer to it, resources allocated or reserved for it, or I/O in progress
                                                   >> 873 upon it.
439                                                   874 
440 if the page has been released (ie. release_fol !! 875 The netfs can use this information in methods such as releasepage() to
                                                   >> 876 determine whether it needs to uncache a page or update it.
441                                                   877 
442 Page release and page invalidation should also !! 878 Furthermore, if this bit is set, releasepage() and invalidatepage() operations
443 page to say that a DIO write is underway from  !! 879 will be called on a page to get rid of it, even if PG_private is not set.  This
                                                   >> 880 allows caching to attempted on a page before read_cache_pages() to be called
                                                   >> 881 after fscache_read_or_alloc_pages() as the former will try and release pages it
                                                   >> 882 was given under certain circumstances.
444                                                   883 
445         void wait_on_page_fscache(struct page  !! 884 This bit does not overlap with such as PG_private.  This means that FS-Cache
446         int wait_on_page_fscache_killable(stru !! 885 can be used with a filesystem that uses the block buffering code.
447                                                   886 
                                                   >> 887 There are a number of operations defined on this flag::
448                                                   888 
449 API Function Reference                         !! 889         int PageFsCache(struct page *page);
450 ======================                         !! 890         void SetPageFsCache(struct page *page)
                                                   >> 891         void ClearPageFsCache(struct page *page)
                                                   >> 892         int TestSetPageFsCache(struct page *page)
                                                   >> 893         int TestClearPageFsCache(struct page *page)
451                                                   894 
452 .. kernel-doc:: include/linux/fscache.h        !! 895 These functions are bit test, bit set, bit clear, bit test and set and bit
                                                   >> 896 test and clear operations on PG_fscache.
                                                      

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