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TOMOYO Linux Cross Reference
Linux/Documentation/filesystems/orangefs.rst

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Diff markup

Differences between /Documentation/filesystems/orangefs.rst (Architecture m68k) and /Documentation/filesystems/orangefs.rst (Architecture mips)


  1 .. SPDX-License-Identifier: GPL-2.0                 1 .. SPDX-License-Identifier: GPL-2.0
  2                                                     2 
  3 ========                                            3 ========
  4 ORANGEFS                                            4 ORANGEFS
  5 ========                                            5 ========
  6                                                     6 
  7 OrangeFS is an LGPL userspace scale-out parall      7 OrangeFS is an LGPL userspace scale-out parallel storage system. It is ideal
  8 for large storage problems faced by HPC, BigDa      8 for large storage problems faced by HPC, BigData, Streaming Video,
  9 Genomics, Bioinformatics.                           9 Genomics, Bioinformatics.
 10                                                    10 
 11 Orangefs, originally called PVFS, was first de     11 Orangefs, originally called PVFS, was first developed in 1993 by
 12 Walt Ligon and Eric Blumer as a parallel file      12 Walt Ligon and Eric Blumer as a parallel file system for Parallel
 13 Virtual Machine (PVM) as part of a NASA grant      13 Virtual Machine (PVM) as part of a NASA grant to study the I/O patterns
 14 of parallel programs.                              14 of parallel programs.
 15                                                    15 
 16 Orangefs features include:                         16 Orangefs features include:
 17                                                    17 
 18   * Distributes file data among multiple file      18   * Distributes file data among multiple file servers
 19   * Supports simultaneous access by multiple c     19   * Supports simultaneous access by multiple clients
 20   * Stores file data and metadata on servers u     20   * Stores file data and metadata on servers using local file system
 21     and access methods                             21     and access methods
 22   * Userspace implementation is easy to instal     22   * Userspace implementation is easy to install and maintain
 23   * Direct MPI support                             23   * Direct MPI support
 24   * Stateless                                      24   * Stateless
 25                                                    25 
 26                                                    26 
 27 Mailing List Archives                              27 Mailing List Archives
 28 =====================                              28 =====================
 29                                                    29 
 30 http://lists.orangefs.org/pipermail/devel_list     30 http://lists.orangefs.org/pipermail/devel_lists.orangefs.org/
 31                                                    31 
 32                                                    32 
 33 Mailing List Submissions                           33 Mailing List Submissions
 34 ========================                           34 ========================
 35                                                    35 
 36 devel@lists.orangefs.org                           36 devel@lists.orangefs.org
 37                                                    37 
 38                                                    38 
 39 Documentation                                      39 Documentation
 40 =============                                      40 =============
 41                                                    41 
 42 http://www.orangefs.org/documentation/             42 http://www.orangefs.org/documentation/
 43                                                    43 
 44 Running ORANGEFS On a Single Server                44 Running ORANGEFS On a Single Server
 45 ===================================                45 ===================================
 46                                                    46 
 47 OrangeFS is usually run in large installations     47 OrangeFS is usually run in large installations with multiple servers and
 48 clients, but a complete filesystem can be run      48 clients, but a complete filesystem can be run on a single machine for
 49 development and testing.                           49 development and testing.
 50                                                    50 
 51 On Fedora, install orangefs and orangefs-serve     51 On Fedora, install orangefs and orangefs-server::
 52                                                    52 
 53     dnf -y install orangefs orangefs-server        53     dnf -y install orangefs orangefs-server
 54                                                    54 
 55 There is an example server configuration file      55 There is an example server configuration file in
 56 /etc/orangefs/orangefs.conf.  Change localhost     56 /etc/orangefs/orangefs.conf.  Change localhost to your hostname if
 57 necessary.                                         57 necessary.
 58                                                    58 
 59 To generate a filesystem to run xfstests again     59 To generate a filesystem to run xfstests against, see below.
 60                                                    60 
 61 There is an example client configuration file      61 There is an example client configuration file in /etc/pvfs2tab.  It is a
 62 single line.  Uncomment it and change the host     62 single line.  Uncomment it and change the hostname if necessary.  This
 63 controls clients which use libpvfs2.  This doe     63 controls clients which use libpvfs2.  This does not control the
 64 pvfs2-client-core.                                 64 pvfs2-client-core.
 65                                                    65 
 66 Create the filesystem::                            66 Create the filesystem::
 67                                                    67 
 68     pvfs2-server -f /etc/orangefs/orangefs.con     68     pvfs2-server -f /etc/orangefs/orangefs.conf
 69                                                    69 
 70 Start the server::                                 70 Start the server::
 71                                                    71 
 72     systemctl start orangefs-server                72     systemctl start orangefs-server
 73                                                    73 
 74 Test the server::                                  74 Test the server::
 75                                                    75 
 76     pvfs2-ping -m /pvfsmnt                         76     pvfs2-ping -m /pvfsmnt
 77                                                    77 
 78 Start the client.  The module must be compiled     78 Start the client.  The module must be compiled in or loaded before this
 79 point::                                            79 point::
 80                                                    80 
 81     systemctl start orangefs-client                81     systemctl start orangefs-client
 82                                                    82 
 83 Mount the filesystem::                             83 Mount the filesystem::
 84                                                    84 
 85     mount -t pvfs2 tcp://localhost:3334/orange     85     mount -t pvfs2 tcp://localhost:3334/orangefs /pvfsmnt
 86                                                    86 
 87 Userspace Filesystem Source                        87 Userspace Filesystem Source
 88 ===========================                        88 ===========================
 89                                                    89 
 90 http://www.orangefs.org/download                   90 http://www.orangefs.org/download
 91                                                    91 
 92 Orangefs versions prior to 2.9.3 would not be      92 Orangefs versions prior to 2.9.3 would not be compatible with the
 93 upstream version of the kernel client.             93 upstream version of the kernel client.
 94                                                    94 
 95                                                    95 
 96 Building ORANGEFS on a Single Server               96 Building ORANGEFS on a Single Server
 97 ====================================               97 ====================================
 98                                                    98 
 99 Where OrangeFS cannot be installed from distri     99 Where OrangeFS cannot be installed from distribution packages, it may be
100 built from source.                                100 built from source.
101                                                   101 
102 You can omit --prefix if you don't care that t    102 You can omit --prefix if you don't care that things are sprinkled around
103 in /usr/local.  As of version 2.9.6, OrangeFS     103 in /usr/local.  As of version 2.9.6, OrangeFS uses Berkeley DB by
104 default, we will probably be changing the defa    104 default, we will probably be changing the default to LMDB soon.
105                                                   105 
106 ::                                                106 ::
107                                                   107 
108     ./configure --prefix=/opt/ofs --with-db-ba    108     ./configure --prefix=/opt/ofs --with-db-backend=lmdb --disable-usrint
109                                                   109 
110     make                                          110     make
111                                                   111 
112     make install                                  112     make install
113                                                   113 
114 Create an orangefs config file by running pvfs    114 Create an orangefs config file by running pvfs2-genconfig and
115 specifying a target config file. Pvfs2-genconf    115 specifying a target config file. Pvfs2-genconfig will prompt you
116 through. Generally it works fine to take the d    116 through. Generally it works fine to take the defaults, but you
117 should use your server's hostname, rather than    117 should use your server's hostname, rather than "localhost" when
118 it comes to that question::                       118 it comes to that question::
119                                                   119 
120     /opt/ofs/bin/pvfs2-genconfig /etc/pvfs2.co    120     /opt/ofs/bin/pvfs2-genconfig /etc/pvfs2.conf
121                                                   121 
122 Create an /etc/pvfs2tab file (localhost is fin    122 Create an /etc/pvfs2tab file (localhost is fine)::
123                                                   123 
124     echo tcp://localhost:3334/orangefs /pvfsmn    124     echo tcp://localhost:3334/orangefs /pvfsmnt pvfs2 defaults,noauto 0 0 > \
125         /etc/pvfs2tab                             125         /etc/pvfs2tab
126                                                   126 
127 Create the mount point you specified in the ta    127 Create the mount point you specified in the tab file if needed::
128                                                   128 
129     mkdir /pvfsmnt                                129     mkdir /pvfsmnt
130                                                   130 
131 Bootstrap the server::                            131 Bootstrap the server::
132                                                   132 
133     /opt/ofs/sbin/pvfs2-server -f /etc/pvfs2.c    133     /opt/ofs/sbin/pvfs2-server -f /etc/pvfs2.conf
134                                                   134 
135 Start the server::                                135 Start the server::
136                                                   136 
137     /opt/ofs/sbin/pvfs2-server /etc/pvfs2.conf    137     /opt/ofs/sbin/pvfs2-server /etc/pvfs2.conf
138                                                   138 
139 Now the server should be running. Pvfs2-ls is     139 Now the server should be running. Pvfs2-ls is a simple
140 test to verify that the server is running::       140 test to verify that the server is running::
141                                                   141 
142     /opt/ofs/bin/pvfs2-ls /pvfsmnt                142     /opt/ofs/bin/pvfs2-ls /pvfsmnt
143                                                   143 
144 If stuff seems to be working, load the kernel     144 If stuff seems to be working, load the kernel module and
145 turn on the client core::                         145 turn on the client core::
146                                                   146 
147     /opt/ofs/sbin/pvfs2-client -p /opt/ofs/sbi    147     /opt/ofs/sbin/pvfs2-client -p /opt/ofs/sbin/pvfs2-client-core
148                                                   148 
149 Mount your filesystem::                           149 Mount your filesystem::
150                                                   150 
151     mount -t pvfs2 tcp://`hostname`:3334/orang    151     mount -t pvfs2 tcp://`hostname`:3334/orangefs /pvfsmnt
152                                                   152 
153                                                   153 
154 Running xfstests                                  154 Running xfstests
155 ================                                  155 ================
156                                                   156 
157 It is useful to use a scratch filesystem with     157 It is useful to use a scratch filesystem with xfstests.  This can be
158 done with only one server.                        158 done with only one server.
159                                                   159 
160 Make a second copy of the FileSystem section i    160 Make a second copy of the FileSystem section in the server configuration
161 file, which is /etc/orangefs/orangefs.conf.  C    161 file, which is /etc/orangefs/orangefs.conf.  Change the Name to scratch.
162 Change the ID to something other than the ID o    162 Change the ID to something other than the ID of the first FileSystem
163 section (2 is usually a good choice).             163 section (2 is usually a good choice).
164                                                   164 
165 Then there are two FileSystem sections: orange    165 Then there are two FileSystem sections: orangefs and scratch.
166                                                   166 
167 This change should be made before creating the    167 This change should be made before creating the filesystem.
168                                                   168 
169 ::                                                169 ::
170                                                   170 
171     pvfs2-server -f /etc/orangefs/orangefs.con    171     pvfs2-server -f /etc/orangefs/orangefs.conf
172                                                   172 
173 To run xfstests, create /etc/xfsqa.config::       173 To run xfstests, create /etc/xfsqa.config::
174                                                   174 
175     TEST_DIR=/orangefs                            175     TEST_DIR=/orangefs
176     TEST_DEV=tcp://localhost:3334/orangefs        176     TEST_DEV=tcp://localhost:3334/orangefs
177     SCRATCH_MNT=/scratch                          177     SCRATCH_MNT=/scratch
178     SCRATCH_DEV=tcp://localhost:3334/scratch      178     SCRATCH_DEV=tcp://localhost:3334/scratch
179                                                   179 
180 Then xfstests can be run::                        180 Then xfstests can be run::
181                                                   181 
182     ./check -pvfs2                                182     ./check -pvfs2
183                                                   183 
184                                                   184 
185 Options                                           185 Options
186 =======                                           186 =======
187                                                   187 
188 The following mount options are accepted:         188 The following mount options are accepted:
189                                                   189 
190   acl                                             190   acl
191     Allow the use of Access Control Lists on f    191     Allow the use of Access Control Lists on files and directories.
192                                                   192 
193   intr                                            193   intr
194     Some operations between the kernel client     194     Some operations between the kernel client and the user space
195     filesystem can be interruptible, such as c    195     filesystem can be interruptible, such as changes in debug levels
196     and the setting of tunable parameters.        196     and the setting of tunable parameters.
197                                                   197 
198   local_lock                                      198   local_lock
199     Enable posix locking from the perspective     199     Enable posix locking from the perspective of "this" kernel. The
200     default file_operations lock action is to     200     default file_operations lock action is to return ENOSYS. Posix
201     locking kicks in if the filesystem is moun    201     locking kicks in if the filesystem is mounted with -o local_lock.
202     Distributed locking is being worked on for    202     Distributed locking is being worked on for the future.
203                                                   203 
204                                                   204 
205 Debugging                                         205 Debugging
206 =========                                         206 =========
207                                                   207 
208 If you want the debug (GOSSIP) statements in a    208 If you want the debug (GOSSIP) statements in a particular
209 source file (inode.c for example) go to syslog    209 source file (inode.c for example) go to syslog::
210                                                   210 
211   echo inode > /sys/kernel/debug/orangefs/kern    211   echo inode > /sys/kernel/debug/orangefs/kernel-debug
212                                                   212 
213 No debugging (the default)::                      213 No debugging (the default)::
214                                                   214 
215   echo none > /sys/kernel/debug/orangefs/kerne    215   echo none > /sys/kernel/debug/orangefs/kernel-debug
216                                                   216 
217 Debugging from several source files::             217 Debugging from several source files::
218                                                   218 
219   echo inode,dir > /sys/kernel/debug/orangefs/    219   echo inode,dir > /sys/kernel/debug/orangefs/kernel-debug
220                                                   220 
221 All debugging::                                   221 All debugging::
222                                                   222 
223   echo all > /sys/kernel/debug/orangefs/kernel    223   echo all > /sys/kernel/debug/orangefs/kernel-debug
224                                                   224 
225 Get a list of all debugging keywords::            225 Get a list of all debugging keywords::
226                                                   226 
227   cat /sys/kernel/debug/orangefs/debug-help       227   cat /sys/kernel/debug/orangefs/debug-help
228                                                   228 
229                                                   229 
230 Protocol between Kernel Module and Userspace      230 Protocol between Kernel Module and Userspace
231 ============================================      231 ============================================
232                                                   232 
233 Orangefs is a user space filesystem and an ass    233 Orangefs is a user space filesystem and an associated kernel module.
234 We'll just refer to the user space part of Ora    234 We'll just refer to the user space part of Orangefs as "userspace"
235 from here on out. Orangefs descends from PVFS,    235 from here on out. Orangefs descends from PVFS, and userspace code
236 still uses PVFS for function and variable name    236 still uses PVFS for function and variable names. Userspace typedefs
237 many of the important structures. Function and    237 many of the important structures. Function and variable names in
238 the kernel module have been transitioned to "o    238 the kernel module have been transitioned to "orangefs", and The Linux
239 Coding Style avoids typedefs, so kernel module    239 Coding Style avoids typedefs, so kernel module structures that
240 correspond to userspace structures are not typ    240 correspond to userspace structures are not typedefed.
241                                                   241 
242 The kernel module implements a pseudo device t    242 The kernel module implements a pseudo device that userspace
243 can read from and write to. Userspace can also    243 can read from and write to. Userspace can also manipulate the
244 kernel module through the pseudo device with i    244 kernel module through the pseudo device with ioctl.
245                                                   245 
246 The Bufmap                                        246 The Bufmap
247 ----------                                        247 ----------
248                                                   248 
249 At startup userspace allocates two page-size-a    249 At startup userspace allocates two page-size-aligned (posix_memalign)
250 mlocked memory buffers, one is used for IO and    250 mlocked memory buffers, one is used for IO and one is used for readdir
251 operations. The IO buffer is 41943040 bytes an    251 operations. The IO buffer is 41943040 bytes and the readdir buffer is
252 4194304 bytes. Each buffer contains logical ch    252 4194304 bytes. Each buffer contains logical chunks, or partitions, and
253 a pointer to each buffer is added to its own P    253 a pointer to each buffer is added to its own PVFS_dev_map_desc structure
254 which also describes its total size, as well a    254 which also describes its total size, as well as the size and number of
255 the partitions.                                   255 the partitions.
256                                                   256 
257 A pointer to the IO buffer's PVFS_dev_map_desc    257 A pointer to the IO buffer's PVFS_dev_map_desc structure is sent to a
258 mapping routine in the kernel module with an i    258 mapping routine in the kernel module with an ioctl. The structure is
259 copied from user space to kernel space with co    259 copied from user space to kernel space with copy_from_user and is used
260 to initialize the kernel module's "bufmap" (st    260 to initialize the kernel module's "bufmap" (struct orangefs_bufmap), which
261 then contains:                                    261 then contains:
262                                                   262 
263   * refcnt                                        263   * refcnt
264     - a reference counter                         264     - a reference counter
265   * desc_size - PVFS2_BUFMAP_DEFAULT_DESC_SIZE    265   * desc_size - PVFS2_BUFMAP_DEFAULT_DESC_SIZE (4194304) - the IO buffer's
266     partition size, which represents the files    266     partition size, which represents the filesystem's block size and
267     is used for s_blocksize in super blocks.      267     is used for s_blocksize in super blocks.
268   * desc_count - PVFS2_BUFMAP_DEFAULT_DESC_COU    268   * desc_count - PVFS2_BUFMAP_DEFAULT_DESC_COUNT (10) - the number of
269     partitions in the IO buffer.                  269     partitions in the IO buffer.
270   * desc_shift - log2(desc_size), used for s_b    270   * desc_shift - log2(desc_size), used for s_blocksize_bits in super blocks.
271   * total_size - the total size of the IO buff    271   * total_size - the total size of the IO buffer.
272   * page_count - the number of 4096 byte pages    272   * page_count - the number of 4096 byte pages in the IO buffer.
273   * page_array - a pointer to ``page_count * (    273   * page_array - a pointer to ``page_count * (sizeof(struct page*))`` bytes
274     of kcalloced memory. This memory is used a    274     of kcalloced memory. This memory is used as an array of pointers
275     to each of the pages in the IO buffer thro    275     to each of the pages in the IO buffer through a call to get_user_pages.
276   * desc_array - a pointer to ``desc_count * (    276   * desc_array - a pointer to ``desc_count * (sizeof(struct orangefs_bufmap_desc))``
277     bytes of kcalloced memory. This memory is     277     bytes of kcalloced memory. This memory is further initialized:
278                                                   278 
279       user_desc is the kernel's copy of the IO    279       user_desc is the kernel's copy of the IO buffer's ORANGEFS_dev_map_desc
280       structure. user_desc->ptr points to the     280       structure. user_desc->ptr points to the IO buffer.
281                                                   281 
282       ::                                          282       ::
283                                                   283 
284         pages_per_desc = bufmap->desc_size / P    284         pages_per_desc = bufmap->desc_size / PAGE_SIZE
285         offset = 0                                285         offset = 0
286                                                   286 
287         bufmap->desc_array[0].page_array = &bu    287         bufmap->desc_array[0].page_array = &bufmap->page_array[offset]
288         bufmap->desc_array[0].array_count = pa    288         bufmap->desc_array[0].array_count = pages_per_desc = 1024
289         bufmap->desc_array[0].uaddr = (user_de    289         bufmap->desc_array[0].uaddr = (user_desc->ptr) + (0 * 1024 * 4096)
290         offset += 1024                            290         offset += 1024
291                            .                      291                            .
292                            .                      292                            .
293                            .                      293                            .
294         bufmap->desc_array[9].page_array = &bu    294         bufmap->desc_array[9].page_array = &bufmap->page_array[offset]
295         bufmap->desc_array[9].array_count = pa    295         bufmap->desc_array[9].array_count = pages_per_desc = 1024
296         bufmap->desc_array[9].uaddr = (user_de    296         bufmap->desc_array[9].uaddr = (user_desc->ptr) +
297                                                   297                                                (9 * 1024 * 4096)
298         offset += 1024                            298         offset += 1024
299                                                   299 
300   * buffer_index_array - a desc_count sized ar    300   * buffer_index_array - a desc_count sized array of ints, used to
301     indicate which of the IO buffer's partitio    301     indicate which of the IO buffer's partitions are available to use.
302   * buffer_index_lock - a spinlock to protect     302   * buffer_index_lock - a spinlock to protect buffer_index_array during update.
303   * readdir_index_array - a five (ORANGEFS_REA    303   * readdir_index_array - a five (ORANGEFS_READDIR_DEFAULT_DESC_COUNT) element
304     int array used to indicate which of the re    304     int array used to indicate which of the readdir buffer's partitions are
305     available to use.                             305     available to use.
306   * readdir_index_lock - a spinlock to protect    306   * readdir_index_lock - a spinlock to protect readdir_index_array during
307     update.                                       307     update.
308                                                   308 
309 Operations                                        309 Operations
310 ----------                                        310 ----------
311                                                   311 
312 The kernel module builds an "op" (struct orang    312 The kernel module builds an "op" (struct orangefs_kernel_op_s) when it
313 needs to communicate with userspace. Part of t    313 needs to communicate with userspace. Part of the op contains the "upcall"
314 which expresses the request to userspace. Part    314 which expresses the request to userspace. Part of the op eventually
315 contains the "downcall" which expresses the re    315 contains the "downcall" which expresses the results of the request.
316                                                   316 
317 The slab allocator is used to keep a cache of     317 The slab allocator is used to keep a cache of op structures handy.
318                                                   318 
319 At init time the kernel module defines and ini    319 At init time the kernel module defines and initializes a request list
320 and an in_progress hash table to keep track of    320 and an in_progress hash table to keep track of all the ops that are
321 in flight at any given time.                      321 in flight at any given time.
322                                                   322 
323 Ops are stateful:                                 323 Ops are stateful:
324                                                   324 
325  * unknown                                        325  * unknown
326             - op was just initialized             326             - op was just initialized
327  * waiting                                        327  * waiting
328             - op is on request_list (upward bo    328             - op is on request_list (upward bound)
329  * inprogr                                        329  * inprogr
330             - op is in progress (waiting for d    330             - op is in progress (waiting for downcall)
331  * serviced                                       331  * serviced
332             - op has matching downcall; ok        332             - op has matching downcall; ok
333  * purged                                         333  * purged
334             - op has to start a timer since cl    334             - op has to start a timer since client-core
335               exited uncleanly before servicin    335               exited uncleanly before servicing op
336  * given up                                       336  * given up
337             - submitter has given up waiting f    337             - submitter has given up waiting for it
338                                                   338 
339 When some arbitrary userspace program needs to    339 When some arbitrary userspace program needs to perform a
340 filesystem operation on Orangefs (readdir, I/O    340 filesystem operation on Orangefs (readdir, I/O, create, whatever)
341 an op structure is initialized and tagged with    341 an op structure is initialized and tagged with a distinguishing ID
342 number. The upcall part of the op is filled ou    342 number. The upcall part of the op is filled out, and the op is
343 passed to the "service_operation" function.       343 passed to the "service_operation" function.
344                                                   344 
345 Service_operation changes the op's state to "w    345 Service_operation changes the op's state to "waiting", puts
346 it on the request list, and signals the Orange    346 it on the request list, and signals the Orangefs file_operations.poll
347 function through a wait queue. Userspace is po    347 function through a wait queue. Userspace is polling the pseudo-device
348 and thus becomes aware of the upcall request t    348 and thus becomes aware of the upcall request that needs to be read.
349                                                   349 
350 When the Orangefs file_operations.read functio    350 When the Orangefs file_operations.read function is triggered, the
351 request list is searched for an op that seems     351 request list is searched for an op that seems ready-to-process.
352 The op is removed from the request list. The t    352 The op is removed from the request list. The tag from the op and
353 the filled-out upcall struct are copy_to_user'    353 the filled-out upcall struct are copy_to_user'ed back to userspace.
354                                                   354 
355 If any of these (and some additional protocol)    355 If any of these (and some additional protocol) copy_to_users fail,
356 the op's state is set to "waiting" and the op     356 the op's state is set to "waiting" and the op is added back to
357 the request list. Otherwise, the op's state is    357 the request list. Otherwise, the op's state is changed to "in progress",
358 and the op is hashed on its tag and put onto t    358 and the op is hashed on its tag and put onto the end of a list in the
359 in_progress hash table at the index the tag ha    359 in_progress hash table at the index the tag hashed to.
360                                                   360 
361 When userspace has assembled the response to t    361 When userspace has assembled the response to the upcall, it
362 writes the response, which includes the distin    362 writes the response, which includes the distinguishing tag, back to
363 the pseudo device in a series of io_vecs. This    363 the pseudo device in a series of io_vecs. This triggers the Orangefs
364 file_operations.write_iter function to find th    364 file_operations.write_iter function to find the op with the associated
365 tag and remove it from the in_progress hash ta    365 tag and remove it from the in_progress hash table. As long as the op's
366 state is not "canceled" or "given up", its sta    366 state is not "canceled" or "given up", its state is set to "serviced".
367 The file_operations.write_iter function return    367 The file_operations.write_iter function returns to the waiting vfs,
368 and back to service_operation through wait_for    368 and back to service_operation through wait_for_matching_downcall.
369                                                   369 
370 Service operation returns to its caller with t    370 Service operation returns to its caller with the op's downcall
371 part (the response to the upcall) filled out.     371 part (the response to the upcall) filled out.
372                                                   372 
373 The "client-core" is the bridge between the ke    373 The "client-core" is the bridge between the kernel module and
374 userspace. The client-core is a daemon. The cl    374 userspace. The client-core is a daemon. The client-core has an
375 associated watchdog daemon. If the client-core    375 associated watchdog daemon. If the client-core is ever signaled
376 to die, the watchdog daemon restarts the clien    376 to die, the watchdog daemon restarts the client-core. Even though
377 the client-core is restarted "right away", the    377 the client-core is restarted "right away", there is a period of
378 time during such an event that the client-core    378 time during such an event that the client-core is dead. A dead client-core
379 can't be triggered by the Orangefs file_operat    379 can't be triggered by the Orangefs file_operations.poll function.
380 Ops that pass through service_operation during    380 Ops that pass through service_operation during a "dead spell" can timeout
381 on the wait queue and one attempt is made to r    381 on the wait queue and one attempt is made to recycle them. Obviously,
382 if the client-core stays dead too long, the ar    382 if the client-core stays dead too long, the arbitrary userspace processes
383 trying to use Orangefs will be negatively affe    383 trying to use Orangefs will be negatively affected. Waiting ops
384 that can't be serviced will be removed from th    384 that can't be serviced will be removed from the request list and
385 have their states set to "given up". In-progre    385 have their states set to "given up". In-progress ops that can't
386 be serviced will be removed from the in_progre    386 be serviced will be removed from the in_progress hash table and
387 have their states set to "given up".              387 have their states set to "given up".
388                                                   388 
389 Readdir and I/O ops are atypical with respect     389 Readdir and I/O ops are atypical with respect to their payloads.
390                                                   390 
391   - readdir ops use the smaller of the two pre    391   - readdir ops use the smaller of the two pre-allocated pre-partitioned
392     memory buffers. The readdir buffer is only    392     memory buffers. The readdir buffer is only available to userspace.
393     The kernel module obtains an index to a fr    393     The kernel module obtains an index to a free partition before launching
394     a readdir op. Userspace deposits the resul    394     a readdir op. Userspace deposits the results into the indexed partition
395     and then writes them to back to the pvfs d    395     and then writes them to back to the pvfs device.
396                                                   396 
397   - io (read and write) ops use the larger of     397   - io (read and write) ops use the larger of the two pre-allocated
398     pre-partitioned memory buffers. The IO buf    398     pre-partitioned memory buffers. The IO buffer is accessible from
399     both userspace and the kernel module. The     399     both userspace and the kernel module. The kernel module obtains an
400     index to a free partition before launching    400     index to a free partition before launching an io op. The kernel module
401     deposits write data into the indexed parti    401     deposits write data into the indexed partition, to be consumed
402     directly by userspace. Userspace deposits     402     directly by userspace. Userspace deposits the results of read
403     requests into the indexed partition, to be    403     requests into the indexed partition, to be consumed directly
404     by the kernel module.                         404     by the kernel module.
405                                                   405 
406 Responses to kernel requests are all packaged     406 Responses to kernel requests are all packaged in pvfs2_downcall_t
407 structs. Besides a few other members, pvfs2_do    407 structs. Besides a few other members, pvfs2_downcall_t contains a
408 union of structs, each of which is associated     408 union of structs, each of which is associated with a particular
409 response type.                                    409 response type.
410                                                   410 
411 The several members outside of the union are:     411 The several members outside of the union are:
412                                                   412 
413  ``int32_t type``                                 413  ``int32_t type``
414     - type of operation.                          414     - type of operation.
415  ``int32_t status``                               415  ``int32_t status``
416     - return code for the operation.              416     - return code for the operation.
417  ``int64_t trailer_size``                         417  ``int64_t trailer_size``
418     - 0 unless readdir operation.                 418     - 0 unless readdir operation.
419  ``char *trailer_buf``                            419  ``char *trailer_buf``
420     - initialized to NULL, used during readdir    420     - initialized to NULL, used during readdir operations.
421                                                   421 
422 The appropriate member inside the union is fil    422 The appropriate member inside the union is filled out for any
423 particular response.                              423 particular response.
424                                                   424 
425   PVFS2_VFS_OP_FILE_IO                            425   PVFS2_VFS_OP_FILE_IO
426     fill a pvfs2_io_response_t                    426     fill a pvfs2_io_response_t
427                                                   427 
428   PVFS2_VFS_OP_LOOKUP                             428   PVFS2_VFS_OP_LOOKUP
429     fill a PVFS_object_kref                       429     fill a PVFS_object_kref
430                                                   430 
431   PVFS2_VFS_OP_CREATE                             431   PVFS2_VFS_OP_CREATE
432     fill a PVFS_object_kref                       432     fill a PVFS_object_kref
433                                                   433 
434   PVFS2_VFS_OP_SYMLINK                            434   PVFS2_VFS_OP_SYMLINK
435     fill a PVFS_object_kref                       435     fill a PVFS_object_kref
436                                                   436 
437   PVFS2_VFS_OP_GETATTR                            437   PVFS2_VFS_OP_GETATTR
438     fill in a PVFS_sys_attr_s (tons of stuff t    438     fill in a PVFS_sys_attr_s (tons of stuff the kernel doesn't need)
439     fill in a string with the link target when    439     fill in a string with the link target when the object is a symlink.
440                                                   440 
441   PVFS2_VFS_OP_MKDIR                              441   PVFS2_VFS_OP_MKDIR
442     fill a PVFS_object_kref                       442     fill a PVFS_object_kref
443                                                   443 
444   PVFS2_VFS_OP_STATFS                             444   PVFS2_VFS_OP_STATFS
445     fill a pvfs2_statfs_response_t with useles    445     fill a pvfs2_statfs_response_t with useless info <g>. It is hard for
446     us to know, in a timely fashion, these sta    446     us to know, in a timely fashion, these statistics about our
447     distributed network filesystem.               447     distributed network filesystem.
448                                                   448 
449   PVFS2_VFS_OP_FS_MOUNT                           449   PVFS2_VFS_OP_FS_MOUNT
450     fill a pvfs2_fs_mount_response_t which is     450     fill a pvfs2_fs_mount_response_t which is just like a PVFS_object_kref
451     except its members are in a different orde    451     except its members are in a different order and "__pad1" is replaced
452     with "id".                                    452     with "id".
453                                                   453 
454   PVFS2_VFS_OP_GETXATTR                           454   PVFS2_VFS_OP_GETXATTR
455     fill a pvfs2_getxattr_response_t              455     fill a pvfs2_getxattr_response_t
456                                                   456 
457   PVFS2_VFS_OP_LISTXATTR                          457   PVFS2_VFS_OP_LISTXATTR
458     fill a pvfs2_listxattr_response_t             458     fill a pvfs2_listxattr_response_t
459                                                   459 
460   PVFS2_VFS_OP_PARAM                              460   PVFS2_VFS_OP_PARAM
461     fill a pvfs2_param_response_t                 461     fill a pvfs2_param_response_t
462                                                   462 
463   PVFS2_VFS_OP_PERF_COUNT                         463   PVFS2_VFS_OP_PERF_COUNT
464     fill a pvfs2_perf_count_response_t            464     fill a pvfs2_perf_count_response_t
465                                                   465 
466   PVFS2_VFS_OP_FSKEY                              466   PVFS2_VFS_OP_FSKEY
467     file a pvfs2_fs_key_response_t                467     file a pvfs2_fs_key_response_t
468                                                   468 
469   PVFS2_VFS_OP_READDIR                            469   PVFS2_VFS_OP_READDIR
470     jamb everything needed to represent a pvfs    470     jamb everything needed to represent a pvfs2_readdir_response_t into
471     the readdir buffer descriptor specified in    471     the readdir buffer descriptor specified in the upcall.
472                                                   472 
473 Userspace uses writev() on /dev/pvfs2-req to p    473 Userspace uses writev() on /dev/pvfs2-req to pass responses to the requests
474 made by the kernel side.                          474 made by the kernel side.
475                                                   475 
476 A buffer_list containing:                         476 A buffer_list containing:
477                                                   477 
478   - a pointer to the prepared response to the     478   - a pointer to the prepared response to the request from the
479     kernel (struct pvfs2_downcall_t).             479     kernel (struct pvfs2_downcall_t).
480   - and also, in the case of a readdir request    480   - and also, in the case of a readdir request, a pointer to a
481     buffer containing descriptors for the obje    481     buffer containing descriptors for the objects in the target
482     directory.                                    482     directory.
483                                                   483 
484 ... is sent to the function (PINT_dev_write_li    484 ... is sent to the function (PINT_dev_write_list) which performs
485 the writev.                                       485 the writev.
486                                                   486 
487 PINT_dev_write_list has a local iovec array: s    487 PINT_dev_write_list has a local iovec array: struct iovec io_array[10];
488                                                   488 
489 The first four elements of io_array are initia    489 The first four elements of io_array are initialized like this for all
490 responses::                                       490 responses::
491                                                   491 
492   io_array[0].iov_base = address of local vari    492   io_array[0].iov_base = address of local variable "proto_ver" (int32_t)
493   io_array[0].iov_len = sizeof(int32_t)           493   io_array[0].iov_len = sizeof(int32_t)
494                                                   494 
495   io_array[1].iov_base = address of global var    495   io_array[1].iov_base = address of global variable "pdev_magic" (int32_t)
496   io_array[1].iov_len = sizeof(int32_t)           496   io_array[1].iov_len = sizeof(int32_t)
497                                                   497 
498   io_array[2].iov_base = address of parameter     498   io_array[2].iov_base = address of parameter "tag" (PVFS_id_gen_t)
499   io_array[2].iov_len = sizeof(int64_t)           499   io_array[2].iov_len = sizeof(int64_t)
500                                                   500 
501   io_array[3].iov_base = address of out_downca    501   io_array[3].iov_base = address of out_downcall member (pvfs2_downcall_t)
502                          of global variable vf    502                          of global variable vfs_request (vfs_request_t)
503   io_array[3].iov_len = sizeof(pvfs2_downcall_    503   io_array[3].iov_len = sizeof(pvfs2_downcall_t)
504                                                   504 
505 Readdir responses initialize the fifth element    505 Readdir responses initialize the fifth element io_array like this::
506                                                   506 
507   io_array[4].iov_base = contents of member tr    507   io_array[4].iov_base = contents of member trailer_buf (char *)
508                          from out_downcall mem    508                          from out_downcall member of global variable
509                          vfs_request              509                          vfs_request
510   io_array[4].iov_len = contents of member tra    510   io_array[4].iov_len = contents of member trailer_size (PVFS_size)
511                         from out_downcall memb    511                         from out_downcall member of global variable
512                         vfs_request               512                         vfs_request
513                                                   513 
514 Orangefs exploits the dcache in order to avoid    514 Orangefs exploits the dcache in order to avoid sending redundant
515 requests to userspace. We keep object inode at    515 requests to userspace. We keep object inode attributes up-to-date with
516 orangefs_inode_getattr. Orangefs_inode_getattr    516 orangefs_inode_getattr. Orangefs_inode_getattr uses two arguments to
517 help it decide whether or not to update an ino    517 help it decide whether or not to update an inode: "new" and "bypass".
518 Orangefs keeps private data in an object's ino    518 Orangefs keeps private data in an object's inode that includes a short
519 timeout value, getattr_time, which allows any     519 timeout value, getattr_time, which allows any iteration of
520 orangefs_inode_getattr to know how long it has    520 orangefs_inode_getattr to know how long it has been since the inode was
521 updated. When the object is not new (new == 0)    521 updated. When the object is not new (new == 0) and the bypass flag is not
522 set (bypass == 0) orangefs_inode_getattr retur    522 set (bypass == 0) orangefs_inode_getattr returns without updating the inode
523 if getattr_time has not timed out. Getattr_tim    523 if getattr_time has not timed out. Getattr_time is updated each time the
524 inode is updated.                                 524 inode is updated.
525                                                   525 
526 Creation of a new object (file, dir, sym-link)    526 Creation of a new object (file, dir, sym-link) includes the evaluation of
527 its pathname, resulting in a negative director    527 its pathname, resulting in a negative directory entry for the object.
528 A new inode is allocated and associated with t    528 A new inode is allocated and associated with the dentry, turning it from
529 a negative dentry into a "productive full memb    529 a negative dentry into a "productive full member of society". Orangefs
530 obtains the new inode from Linux with new_inod    530 obtains the new inode from Linux with new_inode() and associates
531 the inode with the dentry by sending the pair     531 the inode with the dentry by sending the pair back to Linux with
532 d_instantiate().                                  532 d_instantiate().
533                                                   533 
534 The evaluation of a pathname for an object res    534 The evaluation of a pathname for an object resolves to its corresponding
535 dentry. If there is no corresponding dentry, o    535 dentry. If there is no corresponding dentry, one is created for it in
536 the dcache. Whenever a dentry is modified or v    536 the dcache. Whenever a dentry is modified or verified Orangefs stores a
537 short timeout value in the dentry's d_time, an    537 short timeout value in the dentry's d_time, and the dentry will be trusted
538 for that amount of time. Orangefs is a network    538 for that amount of time. Orangefs is a network filesystem, and objects
539 can potentially change out-of-band with any pa    539 can potentially change out-of-band with any particular Orangefs kernel module
540 instance, so trusting a dentry is risky. The a    540 instance, so trusting a dentry is risky. The alternative to trusting
541 dentries is to always obtain the needed inform    541 dentries is to always obtain the needed information from userspace - at
542 least a trip to the client-core, maybe to the     542 least a trip to the client-core, maybe to the servers. Obtaining information
543 from a dentry is cheap, obtaining it from user    543 from a dentry is cheap, obtaining it from userspace is relatively expensive,
544 hence the motivation to use the dentry when po    544 hence the motivation to use the dentry when possible.
545                                                   545 
546 The timeout values d_time and getattr_time are    546 The timeout values d_time and getattr_time are jiffy based, and the
547 code is designed to avoid the jiffy-wrap probl    547 code is designed to avoid the jiffy-wrap problem::
548                                                   548 
549     "In general, if the clock may have wrapped    549     "In general, if the clock may have wrapped around more than once, there
550     is no way to tell how much time has elapse    550     is no way to tell how much time has elapsed. However, if the times t1
551     and t2 are known to be fairly close, we ca    551     and t2 are known to be fairly close, we can reliably compute the
552     difference in a way that takes into accoun    552     difference in a way that takes into account the possibility that the
553     clock may have wrapped between times."        553     clock may have wrapped between times."
554                                                   554 
555 from course notes by instructor Andy Wang         555 from course notes by instructor Andy Wang
556                                                   556 
                                                      

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