3 fileserver - Initializes the File Server component of the fs process
10 B<fileserver> S<<< [B<-auditlog> <I<path to log file>>] >>>
11 S<<< [B<-audit-interface> (file | sysvmq)] >>>
12 S<<< [B<-d> <I<debug level>>] >>>
13 S<<< [B<-p> <I<number of processes>>] >>>
14 S<<< [B<-spare> <I<number of spare blocks>>] >>>
15 S<<< [B<-pctspare> <I<percentage spare>>] >>>
16 S<<< [B<-b> <I<buffers>>] >>>
17 S<<< [B<-l> <I<large vnodes>>] >>>
18 S<<< [B<-s> <I<small vnodes>>] >>>
19 S<<< [B<-vc> <I<volume cachesize>>] >>>
20 S<<< [B<-w> <I<call back wait interval>>] >>>
21 S<<< [B<-cb> <I<number of call backs>>] >>>
24 S<<< [B<-implicit> <I<admin mode bits: rlidwka>>] >>>
25 S<<< [B<-readonly>] >>>
26 S<<< [B<-hr> <I<number of hours between refreshing the host cps>>] >>>
27 S<<< [B<-busyat> <I<< redirect clients when queue > n >>>] >>>
29 S<<< [B<-rxpck> <I<number of rx extra packets>>] >>>
32 S<<< [B<-rxmaxmtu> <I<bytes>>] >>>
36 S<<< [B<-allow-dotted-principals>] >>>
39 S<<< [B<-k> <I<stack size>>] >>>
40 S<<< [B<-realm> <I<Kerberos realm name>>] >>>
41 S<<< [B<-udpsize> <I<size of socket buffer in bytes>>] >>>
42 S<<< [B<-sendsize> <I<size of send buffer in bytes>>] >>>
43 S<<< [B<-abortthreshold> <I<abort threshold>>] >>>
44 S<<< [B<-enable_peer_stats>] >>>
45 S<<< [B<-enable_process_stats>] >>>
46 S<<< [B<-syslog> [<I< loglevel >>]] >>>
47 S<<< [B<-mrafslogs>] >>>
48 S<<< [B<-saneacls>] >>>
50 S<<< [B<-fs-state-dont-save>] >>>
51 S<<< [B<-fs-state-dont-restore>] >>>
52 S<<< [B<-fs-state-verify>] (none | save | restore | both)] >>>
53 S<<< [B<-vhandle-setaside> <I<fds reserved for non-cache io>>] >>>
54 S<<< [B<-vhandle-max-cachesize> <I<max open files>>] >>>
55 S<<< [B<-vhandle-initial-cachesize> <I<fds reserved for non-cache io>>] >>>
56 S<<< [B<-vhashsize> <I<log(2) of number of volume hash buckets>>] >>>
57 S<<< [B<-vlrudisable>] >>>
58 S<<< [B<-vlruthresh> <I<minutes before eligibility for soft detach>>] >>>
59 S<<< [B<-vlruinterval> <I<seconds between VLRU scans>>] >>>
60 S<<< [B<-vlrumax> <I<max volumes to soft detach in one VLRU scan>>] >>>
61 S<<< [B<-vattachpar> <I<number of volume attach threads>>] >>>
62 S<<< [B<-m> <I<min percentage spare in partition>>] >>>
70 The B<fileserver> command initializes the File Server component of the
71 C<fs> process. In the conventional configuration, its binary file is
72 located in the F</usr/afs/bin> directory on a file server machine.
74 The B<fileserver> command is not normally issued at the command shell
75 prompt, but rather placed into a database server machine's
76 F</usr/afs/local/BosConfig> file with the B<bos create> command. If it is
77 ever issued at the command shell prompt, the issuer must be logged onto a
78 file server machine as the local superuser C<root>.
80 The File Server creates the F</usr/afs/logs/FileLog> log file as it
81 initializes, if the file does not already exist. It does not write a
82 detailed trace by default, but the B<-d> option may be used to
83 increase the amount of detail. Use the B<bos getlog> command to
84 display the contents of the log file.
86 The command's arguments enable the administrator to control many aspects
87 of the File Server's performance, as detailed in L<OPTIONS>. By default
88 the B<fileserver> command sets values for many arguments that are suitable
89 for a medium-sized file server machine. To set values suitable for a small
90 or large file server machine, use the B<-S> or B<-L> flag
91 respectively. The following list describes the parameters and
92 corresponding argument for which the B<fileserver> command sets default
93 values, and the table below summarizes the setting for each of the three
100 The maximum number of lightweight processes (LWPs) or pthreads
101 the File Server uses to handle requests for data; corresponds to the
102 B<-p> argument. The File Server always uses a minimum of 32 KB of
103 memory for these processes.
107 The maximum number of directory blocks the File Server caches in memory;
108 corresponds to the B<-b> argument. Each cached directory block (buffer)
109 consumes 2,092 bytes of memory.
113 The maximum number of large vnodes the File Server caches in memory for
114 tracking directory elements; corresponds to the B<-l> argument. Each large
115 vnode consumes 292 bytes of memory.
119 The maximum number of small vnodes the File Server caches in memory for
120 tracking file elements; corresponds to the B<-s> argument. Each small
121 vnode consumes 100 bytes of memory.
125 The maximum volume cache size, which determines how many volumes the File
126 Server can cache in memory before having to retrieve data from disk;
127 corresponds to the B<-vc> argument.
131 The maximum number of callback structures the File Server caches in
132 memory; corresponds to the B<-cb> argument. Each callback structure
133 consumes 16 bytes of memory.
137 The maximum number of Rx packets the File Server uses; corresponds to the
138 B<-rxpck> argument. Each packet consumes 1544 bytes of memory.
142 The default values are:
144 Parameter (Argument) Small (-S) Medium Large (-L)
145 ---------------------------------------------------------------------
146 Number of LWPs (-p) 6 9 128
147 Number of cached dir blocks (-b) 70 90 120
148 Number of cached large vnodes (-l) 200 400 600
149 Number of cached small vnodes (-s) 200 400 600
150 Maximum volume cache size (-vc) 200 400 600
151 Number of callbacks (-cb) 20,000 60,000 64,000
152 Number of Rx packets (-rxpck) 100 150 200
154 To override any of the values, provide the indicated argument (which can
155 be combined with the B<-S> or B<-L> flag).
157 The amount of memory required for the File Server varies. The approximate
158 default memory usage is 751 KB when the B<-S> flag is used (small
159 configuration), 1.1 MB when all defaults are used (medium configuration),
160 and 1.4 MB when the B<-L> flag is used (large configuration). If
161 additional memory is available, increasing the value of the B<-cb> and
162 B<-vc> arguments can improve File Server performance most directly.
164 By default, the File Server allows a volume to exceed its quota by 1 MB
165 when an application is writing data to an existing file in a volume that
166 is full. The File Server still does not allow users to create new files in
167 a full volume. To change the default, use one of the following arguments:
173 Set the B<-spare> argument to the number of extra kilobytes that the File
174 Server allows as overage. A value of C<0> allows no overage.
178 Set the B<-pctspare> argument to the percentage of the volume's quota the
179 File Server allows as overage.
183 By default, the File Server implicitly grants the C<a> (administer) and
184 C<l> (lookup) permissions to system:administrators on the access control
185 list (ACL) of every directory in the volumes stored on its file server
186 machine. In other words, the group's members can exercise those two
187 permissions even when an entry for the group does not appear on an ACL. To
188 change the set of default permissions, use the B<-implicit> argument.
190 The File Server maintains a I<host current protection subgroup> (I<host
191 CPS>) for each client machine from which it has received a data access
192 request. Like the CPS for a user, a host CPS lists all of the Protection
193 Database groups to which the machine belongs, and the File Server compares
194 the host CPS to a directory's ACL to determine in what manner users on the
195 machine are authorized to access the directory's contents. When the B<pts
196 adduser> or B<pts removeuser> command is used to change the groups to
197 which a machine belongs, the File Server must recompute the machine's host
198 CPS in order to notice the change. By default, the File Server contacts
199 the Protection Server every two hours to recompute host CPSs, implying
200 that it can take that long for changed group memberships to become
201 effective. To change this frequency, use the B<-hr> argument.
203 The File Server stores volumes in partitions. A partition is a
204 filesystem or directory on the server machine that is named C</vicepX>
205 or C</vicepXX> where XX is "a" through "z" or "aa" though "iv". Up to
206 255 partitions are allowed. The File Server expects that the /vicepXX
207 directories are each on a dedicated filesystem. The File Server will
208 only use a /vicepXX if it's a mountpoint for another filesystem,
209 unless the file C</vicepXX/AlwaysAttach> exists. The data in the
210 partition is a special format that can only be access using OpenAFS
211 commands or an OpenAFS client.
213 The File Server generates the following message when a partition is nearly
216 No space left on device
218 This command does not use the syntax conventions of the AFS command
219 suites. Provide the command name and all option names in full.
223 Do not use the B<-k> and B<-w> arguments, which are intended for use
224 by the OpenAFS developers only. Changing them from their default
225 values can result in unpredictable File Server behavior. In any case,
226 on many operating systems the File Server uses native threads rather
227 than the LWP threads, so using the B<-k> argument to set the number of
228 LWP threads has no effect.
230 Do not specify both the B<-spare> and B<-pctspare> arguments. Doing so
231 causes the File Server to exit, leaving an error message in the
232 F</usr/afs/logs/FileLog> file.
234 Options that are available only on some system types, such as the B<-m>
235 and B<-lock> options, appear in the output generated by the B<-help>
236 option only on the relevant system type.
238 Currently, the maximum size of a volume is 2 terabytes (2^31 bytes)
239 and the maximum size of a /vicepX partition on a fileserver is 2^64
240 kilobytes. The maximum partition size in releases 1.4.7 and earlier is
241 2 terabytes (2^31 bytes). The maximum partition size for 1.5.x
242 releases 1.5.34 and earlier is 2 terabytes as well.
244 The maximum number of directory entries is 64,000 if all of the entries
245 have names that are 15 octets or less in length. A name that is 15 octets
246 long requires the use of only one block in the directory. Additional
247 sequential blocks are required to store entries with names that are longer
248 than 15 octets. Each additional block provides an additional length of 32
249 octets for the name of the entry. Note that if file names use an encoding
250 like UTF-8, a single character may be encoded into multiple octets.
252 In real world use, the maximum number of objects in an AFS directory
253 is usually between 16,000 and 25,000, depending on the average name
260 =item B<-auditlog> <I<log path>>
262 Turns on audit logging, and sets the path for the audit log. The audit
263 log records information about RPC calls, including the name of the RPC
264 call, the host that submitted the call, the authenticated entity (user)
265 that issued the call, the parameters for the call, and if the call
268 =item B<-audit-interface> (file | sysvmq)
270 Specifies what audit interface to use. The C<file> interface writes audit
271 messages to the file passed to B<-auditlog>. The C<sysvmq> interface
272 writes audit messages to a SYSV message (see L<msgget(2)> and
273 L<msgrcv(2)>). The message queue the C<sysvmq> interface writes to has the
274 key C<ftok(path, 1)>, where C<path> is the path specified in the
279 =item B<-d> <I<debug level>>
281 Sets the detail level for the debugging trace written to the
282 F</usr/afs/logs/FileLog> file. Provide one of the following values, each
283 of which produces an increasingly detailed trace: C<0>, C<1>, C<5>, C<25>,
284 and C<125>. The default value of C<0> produces only a few messages.
286 =item B<-p> <I<number of processes>>
288 Sets the number of threads (or LWPs) to run. Provide a positive integer.
289 The File Server creates and uses five threads for special purposes,
290 in addition to the number specified (but if this argument specifies
291 the maximum possible number, the File Server automatically uses five
292 of the threads for its own purposes).
294 The maximum number of threads can differ in each release of OpenAFS.
295 Consult the I<OpenAFS Release Notes> for the current release.
297 =item B<-spare> <I<number of spare blocks>>
299 Specifies the number of additional kilobytes an application can store in a
300 volume after the quota is exceeded. Provide a positive integer; a value of
301 C<0> prevents the volume from ever exceeding its quota. Do not combine
302 this argument with the B<-pctspare> argument.
304 =item B<-pctspare> <I<percentage spare>>
306 Specifies the amount by which the File Server allows a volume to exceed
307 its quota, as a percentage of the quota. Provide an integer between C<0>
308 and C<99>. A value of C<0> prevents the volume from ever exceeding its
309 quota. Do not combine this argument with the B<-spare> argument.
311 =item B<-b> <I<buffers>>
313 Sets the number of directory buffers. Provide a positive integer.
315 =item B<-l> <I<large vnodes>>
317 Sets the number of large vnodes available in memory for caching directory
318 elements. Provide a positive integer.
320 =item B<-s> <I<small nodes>>
322 Sets the number of small vnodes available in memory for caching file
323 elements. Provide a positive integer.
325 =item B<-vc> <I<volume cachesize>>
327 Sets the number of volumes the File Server can cache in memory. Provide a
330 =item B<-w> <I<call back wait interval>>
332 Sets the interval at which the daemon spawned by the File Server performs
333 its maintenance tasks. Do not use this argument; changing the default
334 value can cause unpredictable behavior.
336 =item B<-cb> <I<number of callbacks>>
338 Sets the number of callbacks the File Server can track. Provide a positive
343 Prints the following banner to F</dev/console> about every 10 minutes.
345 File Server is running at I<time>.
349 Prevents the File Server from breaking the callbacks that Cache Managers
350 hold on a volume that the File Server is reattaching after the volume was
351 offline (as a result of the B<vos restore> command, for example). Use of
352 this flag is strongly discouraged.
354 =item B<-implicit> <I<admin mode bits>>
356 Defines the set of permissions granted by default to the
357 system:administrators group on the ACL of every directory in a volume
358 stored on the file server machine. Provide one or more of the standard
359 permission letters (C<rlidwka>) and auxiliary permission letters
360 (C<ABCDEFGH>), or one of the shorthand notations for groups of permissions
361 (C<all>, C<none>, C<read>, and C<write>). To review the meaning of the
362 permissions, see the B<fs setacl> reference page.
366 Don't allow writes to this fileserver.
368 =item B<-hr> <I<number of hours between refreshing the host cps>>
370 Specifies how often the File Server refreshes its knowledge of the
371 machines that belong to protection groups (refreshes the host CPSs for
372 machines). The File Server must update this information to enable users
373 from machines recently added to protection groups to access data for which
374 those machines now have the necessary ACL permissions.
376 =item B<-busyat> <I<< redirect clients when queue > n >>>
378 Defines the number of incoming RPCs that can be waiting for a response
379 from the File Server before the File Server returns the error code
380 C<VBUSY> to the Cache Manager that sent the latest RPC. In response, the
381 Cache Manager retransmits the RPC after a delay. This argument prevents
382 the accumulation of so many waiting RPCs that the File Server can never
383 process them all. Provide a positive integer. The default value is
386 =item B<-rxpck> <I<number of rx extra packets>>
388 Controls the number of Rx packets the File Server uses to store data for
389 incoming RPCs that it is currently handling, that are waiting for a
390 response, and for replies that are not yet complete. Provide a positive
395 Writes a trace of the File Server's operations on Rx packets to the file
396 F</usr/afs/logs/rx_dbg>.
400 Writes a trace of the File Server's operations on Rx events (such as
401 retransmissions) to the file F</usr/afs/logs/rx_dbg>.
403 =item B<-rxmaxmtu> <I<bytes>>
405 Defines the maximum size of an MTU. The value must be between the
406 minimum and maximum packet data sizes for Rx.
410 Allows the server to send and receive jumbograms. A jumbogram is
411 a large-size packet composed of 2 to 4 normal Rx data packets that share
412 the same header. The fileserver does not use jumbograms by default, as some
413 routers are not capable of properly breaking the jumbogram into smaller
414 packets and reassembling them.
418 Deprecated; jumbograms are disabled by default.
422 Force the fileserver to only bind to one IP address.
424 =item B<-allow-dotted-principals>
426 By default, the RXKAD security layer will disallow access by Kerberos
427 principals with a dot in the first component of their name. This is to avoid
428 the confusion where principals user/admin and user.admin are both mapped to the
429 user.admin PTS entry. Sites whose Kerberos realms don't have these collisions
430 between principal names may disable this check by starting the server
435 Sets values for many arguments in a manner suitable for a large file
436 server machine. Combine this flag with any option except the B<-S> flag;
437 omit both flags to set values suitable for a medium-sized file server
442 Sets values for many arguments in a manner suitable for a small file
443 server machine. Combine this flag with any option except the B<-L> flag;
444 omit both flags to set values suitable for a medium-sized file server
447 =item B<-k> <I<stack size>>
449 Sets the LWP stack size in units of 1 kilobyte. Do not use this argument,
450 and in particular do not specify a value less than the default of C<24>.
452 =item B<-realm> <I<Kerberos realm name>>
454 Defines the Kerberos realm name for the File Server to use. If this
455 argument is not provided, it uses the realm name corresponding to the cell
456 listed in the local F</usr/afs/etc/ThisCell> file.
458 =item B<-udpsize> <I<size of socket buffer in bytes>>
460 Sets the size of the UDP buffer, which is 64 KB by default. Provide a
461 positive integer, preferably larger than the default.
463 =item B<-sendsize> <I<size of send buffer in bytes>>
465 Sets the size of the send buffer, which is 16384 bytes by default.
467 =item B<-abortthreshold> <I<abort threshold>>
469 Sets the abort threshold, which is triggered when an AFS client sends
470 a number of FetchStatus requests in a row and all of them fail due to
471 access control or some other error. When the abort threshold is
472 reached, the file server starts to slow down the responses to the
473 problem client in order to reduce the load on the file server.
475 The throttling behaviour can cause issues especially for some versions
476 of the Windows OpenAFS client. When using Windows Explorer to navigate
477 the AFS directory tree, directories with only "look" access for the
478 current user may load more slowly because of the throttling. This is
479 because the Windows OpenAFS client sends FetchStatus calls one at a
480 time instead of in bulk like the Unix Open AFS client.
482 Setting the threshold to 0 disables the throttling behavior. This
483 option is available in OpenAFS versions 1.4.1 and later.
485 =item B<-enable_peer_stats>
487 Activates the collection of Rx statistics and allocates memory for their
488 storage. For each connection with a specific UDP port on another machine,
489 a separate record is kept for each type of RPC (FetchFile, GetStatus, and
490 so on) sent or received. To display or otherwise access the records, use
491 the Rx Monitoring API.
493 =item B<-enable_process_stats>
495 Activates the collection of Rx statistics and allocates memory for their
496 storage. A separate record is kept for each type of RPC (FetchFile,
497 GetStatus, and so on) sent or received, aggregated over all connections to
498 other machines. To display or otherwise access the records, use the Rx
501 =item B<-syslog [<loglevel>]
503 Use syslog instead of the normal logging location for the fileserver
504 process. If provided, log messages are at <loglevel> instead of the
509 Use MR-AFS (Multi-Resident) style logging. This option is deprecated.
513 Offer the SANEACLS capability for the fileserver. This option is
514 currently unimplemented.
518 Prints the online help for this command. All other valid options are
521 =item B<-fs-state-dont-save>
523 When present, fileserver state will not be saved during shutdown. Default
526 This option is only supported by the demand-attach file server.
528 =item B<-fs-state-dont-restore>
530 When present, fileserver state will not be restored during startup.
531 Default is to restore state on startup.
533 This option is only supported by the demand-attach file server.
535 =item B<-fs-state-verify> (none | save | restore | both)
537 This argument controls the behavior of the state verification mechanism.
538 A value of C<none> turns off all verification. A value of C<save> only
539 performs the verification steps prior to saving state to disk. A value
540 of C<restore> only performs the verification steps after restoring state
541 from disk. A value of C<both> performs all verifications steps both
542 prior to save and following a restore.
544 The default is C<both>.
546 This option is only supported by the demand-attach file server.
548 =item B<-vhandle-setaside> <I<fds reserved for non-cache io>>
550 Number of file handles set aside for I/O not in the cache. Defaults to 128.
552 =item B<-vhandle-max-cachesize> <I<max open files>>
554 Maximum number of available file handles.
556 =item B<-vhandle-initial-cachesize> <I<initial open file cache>>
558 Number of file handles set aside for I/O in the cache. Defaults to 128.
560 =item B<-vhashsize <I<size>>
562 The log(2) number of of volume hash buckets. Default is 8 (i.e., by
563 default, there are 2^8 = 256 volume hash buckets).
565 This option is only supported by the demand-attach file server.
567 =item B<-vlruthresh <I<minutes>>
569 The number of minutes of inactivity before a volume is eligible for soft
570 detachment. Default is 120 minutes.
572 This option is only supported by the demand-attach file server.
574 =item B<-vlruinterval <I<seconds>>
576 The number of seconds between VLRU candidate queue scan. The default is
579 This option is only supported by the demand-attach file server.
581 =item B<-vlrumax <I<positive integer>>
583 The maximum number of volumes which can be soft detached in a single pass
584 of the scanner. Default is 8 volumes.
586 This option is only supported by the demand-attach file server.
588 =item B<-vattachpar> <I<number of volume attach threads>>
590 The number of threads assigned to attach and detach volumes. The default
591 is 1. Warning: many of the I/O parallism features of Demand-Attach
592 Fileserver are turned off when the number of volume attach threads is only
595 This option is only meaningful for a file server built with pthreads
598 =item B<-m> <I<min percentage spare in partition>>
600 Specifies the percentage of each AFS server partition that the AIX version
601 of the File Server creates as a reserve. Specify an integer value between
602 C<0> and C<30>; the default is 8%. A value of C<0> means that the
603 partition can become completely full, which can have serious negative
604 consequences. This option is not supported on platforms other than AIX.
608 Prevents any portion of the fileserver binary from being paged (swapped)
609 out of memory on a file server machine running the IRIX operating system.
610 This option is not supported on platforms other than IRIX.
616 The following B<bos create> command creates an fs process on the file
617 server machine C<fs2.abc.com> that uses the large configuration size, and
618 allows volumes to exceed their quota by 10%. Type the command on a single
621 % bos create -server fs2.abc.com -instance fs -type fs \
622 -cmd "/usr/afs/bin/fileserver -pctspare 10 \
623 -L" /usr/afs/bin/volserver /usr/afs/bin/salvager
626 =head1 TROUBLESHOOTING
628 Sending process signals to the File Server Process can change its
629 behavior in the following ways:
631 Process Signal OS Result
632 ---------------------------------------------------------------------
634 File Server XCPU Unix Prints a list of client IP
637 File Server USR2 Windows Prints a list of client IP
640 File Server POLL HPUX Prints a list of client IP
643 Any server TSTP Any Increases Debug level by a power
644 of 5 -- 1,5,25,125, etc.
645 This has the same effect as the
646 -d XXX command-line option.
648 Any Server HUP Any Resets Debug level to 0
650 File Server TERM Any Run minor instrumentation over
651 the list of descriptors.
653 Other Servers TERM Any Causes the process to quit.
655 File Server QUIT Any Causes the File Server to Quit.
656 Bos Server knows this.
658 The basic metric of whether an AFS file server is doing well is the number
659 of connections waiting for a thread,
660 which can be found by running the following command:
662 % rxdebug <server> | grep waiting_for | wc -l
664 Each line returned by C<rxdebug> that contains the text "waiting_for"
665 represents a connection that's waiting for a file server thread.
667 If the blocked connection count is ever above 0, the server is having
668 problems replying to clients in a timely fashion. If it gets above 10,
669 roughly, there will be noticeable slowness by the user. The total number of
670 connections is a mostly irrelevant number that goes essentially
671 monotonically for as long as the server has been running and then goes back
672 down to zero when it's restarted.
674 The most common cause of blocked connections rising on a server is some
675 process somewhere performing an abnormal number of accesses to that server
676 and its volumes. If multiple servers have a blocked connection count, the
677 most likely explanation is that there is a volume replicated between those
678 servers that is absorbing an abnormally high access rate.
680 To get an access count on all the volumes on a server, run:
682 % vos listvol <server> -long
684 and save the output in a file. The results will look like a bunch of B<vos
685 examine> output for each volume on the server. Look for lines like:
687 40065 accesses in the past day (i.e., vnode references)
689 and look for volumes with an abnormally high number of accesses. Anything
690 over 10,000 is fairly high, but some volumes like root.cell and other
691 volumes close to the root of the cell will have that many hits routinely.
692 Anything over 100,000 is generally abnormally high. The count resets about
695 Another approach that can be used to narrow the possibilities for a
696 replicated volume, when multiple servers are having trouble, is to find all
697 replicated volumes for that server. Run:
699 % vos listvldb -server <server>
701 where <server> is one of the servers having problems to refresh the VLDB
704 % vos listvldb -server <server> -part <partition>
706 to get a list of all volumes on that server and partition, including every
707 other server with replicas.
709 Once the volume causing the problem has been identified, the best way to
710 deal with the problem is to move that volume to another server with a low
711 load or to stop any runaway programs that are accessing that volume
712 unnecessarily. Often the volume will be enough information to tell what's
715 If you still need additional information about who's hitting that server,
716 sometimes you can guess at that information from the failed callbacks in the
717 F<FileLog> log in F</var/log/afs> on the server, or from the output of:
719 % /usr/afsws/etc/rxdebug <server> -rxstats
721 but the best way is to turn on debugging output from the file server.
722 (Warning: This generates a lot of output into FileLog on the AFS server.)
723 To do this, log on to the AFS server, find the PID of the fileserver
728 where <pid> is the PID of the file server process. This will raise the
729 debugging level so that you'll start seeing what people are actually doing
730 on the server. You can do this up to three more times to get even more
731 output if needed. To reset the debugging level back to normal, use (The
732 following command will NOT terminate the file server):
736 The debugging setting on the File Server should be reset back to normal when
737 debugging is no longer needed. Otherwise, the AFS server may well fill its
738 disks with debugging output.
740 The lines of the debugging output that are most useful for debugging load
743 SAFS_FetchStatus, Fid = 2003828163.77154.82248, Host 171.64.15.76
744 SRXAFS_FetchData, Fid = 2003828163.77154.82248
746 (The example above is partly truncated to highlight the interesting
747 information). The Fid identifies the volume and inode within the volume;
748 the volume is the first long number. So, for example, this was:
750 % vos examine 2003828163
751 pubsw.matlab61 2003828163 RW 1040060 K On-line
752 afssvr5.Stanford.EDU /vicepa
753 RWrite 2003828163 ROnly 2003828164 Backup 2003828165
755 Creation Mon Aug 6 16:40:55 2001
756 Last Update Tue Jul 30 19:00:25 2002
757 86181 accesses in the past day (i.e., vnode references)
759 RWrite: 2003828163 ROnly: 2003828164 Backup: 2003828165
761 server afssvr5.Stanford.EDU partition /vicepa RW Site
762 server afssvr11.Stanford.EDU partition /vicepd RO Site
763 server afssvr5.Stanford.EDU partition /vicepa RO Site
765 and from the Host information one can tell what system is accessing that
768 Note that the output of L<vos_examine(1)> also includes the access count, so
769 once the problem has been identified, vos examine can be used to see if the
770 access count is still increasing. Also remember that you can run vos
771 examine on the read-only replica (e.g., pubsw.matlab61.readonly) to see the
772 access counts on the read-only replica on all of the servers that it's
775 =head1 PRIVILEGE REQUIRED
777 The issuer must be logged in as the superuser C<root> on a file server
778 machine to issue the command at a command shell prompt. It is conventional
779 instead to create and start the process by issuing the B<bos create>
797 IBM Corporation 2000. <http://www.ibm.com/> All Rights Reserved.
799 This documentation is covered by the IBM Public License Version 1.0. It was
800 converted from HTML to POD by software written by Chas Williams and Russ
801 Allbery, based on work by Alf Wachsmann and Elizabeth Cassell.