1 This is a work-in-progress. My plan is to wikify the existing text, make any updates/corections/additions I can, and then announce the updated FAQ's exisatance to openafs-info. I have tried to contact the current maintainer, but recieved no response - but the last updated date being what it is, perhaps he has a new email.
5 - Formatting Pass: Up to and not including 1.05.b
6 - Update Pass: Not Started
7 - Editing Pass: Not Started
9 -- [[DanielClark]] - 21 Jan 2002
13 Archive-name: afs-faq Version: 1.113 Last-modified: 1950 Thursday 9th July 1998
15 # <a name="AFS frequently asked questions"></a> AFS frequently asked questions
19 This posting contains answers to frequently asked questions about AFS. Your comments and contributions are welcome (email: <mpb@acm.org>)
21 Most newsreaders can skip from topic to topic with control-G.
25 <dd><a href="file:///afs/transarc.com/public/afs-contrib/doc/faq/afs-faq.html" target="_top">file:///afs/transarc.com/public/afs-contrib/doc/faq/afs-faq.html</a> <a href="ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/afs-faq.html" target="_top">ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/afs-faq.html</a> <a href="http://www.angelfire.com/hi/plutonic/afs-faq.html" target="_top">http://www.angelfire.com/hi/plutonic/afs-faq.html</a></dd>
32 <li><a href="#AFS frequently asked questions"> AFS frequently asked questions</a><ul>
33 <li><a href="#0 Preamble"> 0 Preamble</a><ul>
34 <li><a href="#0.01 Purpose and audience"> 0.01 Purpose and audience</a></li>
35 <li><a href="#0.02 Acknowledgements"> 0.02 Acknowledgements</a></li>
36 <li><a href="#0.03 Disclaimer"> 0.03 Disclaimer</a></li>
37 <li><a href="#0.04 Release Notes"> 0.04 Release Notes</a></li>
38 <li><a href="#0.05 Quote"> 0.05 Quote</a></li>
41 <li><a href="#1 General"> 1 General</a><ul>
42 <li><a href="#1.01 What is AFS?"> 1.01 What is AFS?</a></li>
43 <li><a href="#1.02 Who supplies AFS?"> 1.02 Who supplies AFS?</a></li>
44 <li><a href="#1.03 What is /afs?"> 1.03 What is /afs?</a></li>
45 <li><a href="#1.04 What is an AFS cell?"> 1.04 What is an AFS cell?</a></li>
46 <li><a href="#1.05 What are the benefits of u"> 1.05 What are the benefits of using AFS?</a><ul>
47 <li><a href="#1.05.a Cache Manager"> 1.05.a Cache Manager</a></li>
48 <li><a href="#1.05.b Location independence"> 1.05.b Location independence</a></li>
49 <li><a href="#1.05.c Scalability"> 1.05.c Scalability</a></li>
50 <li><a href="#1.05.d Improved security"> 1.05.d Improved security</a></li>
51 <li><a href="#1.05.e Single systems image (SS"> 1.05.e Single systems image (SSI)</a></li>
52 <li><a href="#1.05.f Replicated AFS volumes"> 1.05.f Replicated AFS volumes</a></li>
53 <li><a href="#1.05.g Improved robustness to s"> 1.05.g Improved robustness to server crash</a></li>
54 <li><a href="#1.05.h "Easy to use" networking"> 1.05.h "Easy to use" networking</a></li>
55 <li><a href="#1.05.i Communications protocol"> 1.05.i Communications protocol</a></li>
56 <li><a href="#1.05.j Improved system manageme"> 1.05.j Improved system management capability</a></li>
59 <li><a href="#1.06 Which systems is AFS avail"> 1.06 Which systems is AFS available for?</a></li>
60 <li><a href="#1.07 What does "ls /afs" displa"> 1.07 What does "ls /afs" display in the Internet AFS filetree?</a></li>
61 <li><a href="#1.08 Why does AFS use Kerberos"> 1.08 Why does AFS use Kerberos authentication?</a></li>
62 <li><a href="#1.09 Does AFS work over protoco"> 1.09 Does AFS work over protocols other than TCP/IP?</a></li>
63 <li><a href="#1.10 How can I access AFS from"> 1.10 How can I access AFS from my PC?</a></li>
64 <li><a href="#1.11 How does AFS compare with"> 1.11 How does AFS compare with NFS?</a></li>
67 <li><a href="#2 Using AFS"> 2 Using AFS</a><ul>
68 <li><a href="#2.01 What are the differences b"> 2.01 What are the differences between AFS and a unix filesystem?</a></li>
69 <li><a href="#2.02 What is an AFS protection"> 2.02 What is an AFS protection group?</a></li>
70 <li><a href="#2.03 What are the AFS defined p"> 2.03 What are the AFS defined protection groups?</a></li>
71 <li><a href="#2.04 What is an AFS access cont"> 2.04 What is an AFS access control list (ACL)?</a></li>
72 <li><a href="#2.05 What are the AFS access ri"> 2.05 What are the AFS access rights?</a></li>
73 <li><a href="#2.06 What is pagsh?"> 2.06 What is pagsh?</a></li>
74 <li><a href="#2.07 Why use a PAG?"> 2.07 Why use a PAG?</a></li>
75 <li><a href="#2.08 How can I tell if I have a"> 2.08 How can I tell if I have a PAG?</a></li>
76 <li><a href="#2.09 Can I still run cron jobs"> 2.09 Can I still run cron jobs with AFS?</a></li>
77 <li><a href="#2.10 How much disk space does a"> 2.10 How much disk space does a 1 byte file occupy in AFS?</a></li>
78 <li><a href="#2.11 Is it possible to specify"> 2.11 Is it possible to specify a user who is external</a></li>
79 <li><a href="#2.12 Are there any problems pri"> 2.12 Are there any problems printing files in /afs?</a></li>
80 <li><a href="#2.13 Can I create a fifo (aka n"> 2.13 Can I create a fifo (aka named pipe) in /afs?</a></li>
81 <li><a href="#2.14 If an AFS server crashes,"> 2.14 If an AFS server crashes, do I have to reboot my AFS client?</a></li>
82 <li><a href="#2.15 Can I use AFS on my diskle"> 2.15 Can I use AFS on my diskless workstation?</a></li>
83 <li><a href="#2.16 Can I test for AFS tokens"> 2.16 Can I test for AFS tokens from within my program?</a></li>
84 <li><a href="#2.17 What's the difference betw"> 2.17 What's the difference between /afs/cellname and /afs/.cellname?</a></li>
85 <li><a href="#2.18 Can I klog as two users on"> 2.18 Can I klog as two users on a machine in the same cell?</a></li>
86 <li><a href="#2.19 What are the ~/._afsXXXX f"> 2.19 What are the ~/.__afsXXXX files?</a></li>
89 <li><a href="#3 AFS administration"> 3 AFS administration</a><ul>
90 <li><a href="#3.01 Is there a version of xdm"> 3.01 Is there a version of xdm available with AFS authentication?</a></li>
91 <li><a href="#3.02 Is there a version of xloc"> 3.02 Is there a version of xlock available with AFS authentication?</a></li>
92 <li><a href="#3.03 What is /afs/@cell?"> 3.03 What is /afs/@cell?</a></li>
93 <li><a href="#3.04 Given that AFS data is loc"> 3.04 Given that AFS data is location independent, how does</a></li>
94 <li><a href="#3.05 Which protocols does AFS u"> 3.05 Which protocols does AFS use?</a></li>
95 <li><a href="#3.06 Are setuid programs execut"> 3.06 Are setuid programs executable across AFS cell boundaries?</a></li>
96 <li><a href="#3.07 How does AFS maintain cons"> 3.07 How does AFS maintain consistency on read-write files?</a></li>
97 <li><a href="#3.08 How can I run daemons with"> 3.08 How can I run daemons with tokens that do not expire?</a></li>
98 <li><a href="#3.09 Can I check my user's pass"> 3.09 Can I check my user's passwords for security purposes?</a></li>
99 <li><a href="#3.10 Is there a way to automati"> 3.10 Is there a way to automatically balance disk usage across</a></li>
100 <li><a href="#3.11 Can I shutdown an AFS file"> 3.11 Can I shutdown an AFS fileserver without affecting users?</a></li>
101 <li><a href="#3.12 How can I set up mail deli"> 3.12 How can I set up mail delivery to users with $HOMEs in AFS?</a></li>
102 <li><a href="#3.13 Should I replicate a _Read"> 3.13 Should I replicate a ReadOnly volume on the same partition</a></li>
103 <li><a href="#3.14 Should I start AFS before"> 3.14 Should I start AFS before NFS in /etc/inittab?</a></li>
104 <li><a href="#3.15 Will AFS run on a multi-ho"> 3.15 Will AFS run on a multi-homed fileserver?</a></li>
105 <li><a href="#3.16 Can I replicate my user's"> 3.16 Can I replicate my user's home directory AFS volumes?</a></li>
106 <li><a href="#3.17 Which TCP/IP ports and pro"> 3.17 Which TCP/IP ports and protocols do I need to enable</a></li>
107 <li><a href="#3.18 What is the Andrew Benchma"> 3.18 What is the Andrew Benchmark?</a></li>
108 <li><a href="#3.19 Is there a version of HP V"> 3.19 Is there a version of HP VUE login with AFS authentication?</a></li>
109 <li><a href="#3.20 How can I list which clien"> 3.20 How can I list which clients have cached files from a server?</a></li>
110 <li><a href="#3.21 Do Backup volumes require"> 3.21 Do Backup volumes require as much space as ReadWrite volumes?</a></li>
111 <li><a href="#3.22 Should I run timed on my A"> 3.22 Should I run timed on my AFS client?</a></li>
112 <li><a href="#3.23 Why should I keep /usr/vic"> 3.23 Why should I keep /usr/vice/etc/CellServDB current?</a></li>
113 <li><a href="#3.24 How can I keep /usr/vice/e"> 3.24 How can I keep /usr/vice/etc/CellServDB current?</a></li>
114 <li><a href="#3.25 How can I compute a list o"> 3.25 How can I compute a list of AFS fileservers?</a></li>
115 <li><a href="#3.26 How can I set up anonymous"> 3.26 How can I set up anonymous FTP login to access /afs?</a></li>
116 <li><a href="#3.27 Where can I find the Andre"> 3.27 Where can I find the Andrew Benchmark?</a></li>
119 <li><a href="#4 Getting more information"> 4 Getting more information</a><ul>
120 <li><a href="#4.01 Is there an anonymous FTP"> 4.01 Is there an anonymous FTP site with AFS information?</a></li>
121 <li><a href="#4.02 Which USENET newsgroups di"> 4.02 Which USENET newsgroups discuss AFS?</a></li>
122 <li><a href="#4.03 Where can I get training i"> 4.03 Where can I get training in AFS?</a></li>
123 <li><a href="#4.04 Where can I find AFS resou"> 4.04 Where can I find AFS resources in World Wide Web (WWW)?</a></li>
124 <li><a href="#4.05 Is there a mailing list fo"> 4.05 Is there a mailing list for AFS topics?</a></li>
125 <li><a href="#4.06 Where can I find an archiv"> 4.06 Where can I find an archive of <a href="mailto:info-afs@transarc.com">info-afs@transarc.com</a>?</a></li>
126 <li><a href="#4.07 Where can I find an archiv"> 4.07 Where can I find an archive of alt.filesystems.afs?</a></li>
127 <li><a href="#4.08 Where can I find AFS relat"> 4.08 Where can I find AFS related GIFs?</a></li>
128 <li><a href="#4.09 Gibt es eine deutsche AFS"> 4.09 Gibt es eine deutsche AFS Benutzer Gruppe?</a></li>
129 <li><a href="#4.10 Donde puedo encontrar info"> 4.10 Donde puedo encontrar informacion en Espanol sobre AFS?</a></li>
132 <li><a href="#5 About the AFS faq"> 5 About the AFS faq</a><ul>
133 <li><a href="#5.01 How can I get a copy of th"> 5.01 How can I get a copy of the AFS faq?</a></li>
134 <li><a href="#5.02 How can I get my question"> 5.02 How can I get my question (and answer) into the AFS faq?</a></li>
135 <li><a href="#5.03 How can I access the AFS f"> 5.03 How can I access the AFS faq via the World Wide Web?</a></li>
138 <li><a href="#6 Bibliography"> 6 Bibliography</a></li>
146 ## <a name="0 Preamble"></a> 0 Preamble
148 ### <a name="0.01 Purpose and audience"></a> 0.01 Purpose and audience
150 The aim of this compilation is to provide information about AFS including:
152 - A brief introduction
153 - Answers to some often asked questions
154 - Pointers to further information
156 Definitive and detailed information on AFS is provided in Transarc's AFS manuals ([23], [24], [25]).
158 The intended audience ranges from people who know little of the subject and want to know more to those who have experience with AFS and wish to share useful information by contributing to the faq.
160 ### <a name="0.02 Acknowledgements"></a> 0.02 Acknowledgements
162 The information presented here has been gleaned from many sources. Some material has been directly contributed by people listed below.
164 - I would like to thank the following for contributing:
165 - Pierette Maniago VanRyzin (Transarc)
166 - Lyle Seaman (Transarc)
167 - Joseph Jackson (Transarc)
168 - Dan Lovinger (Microsoft)
169 - Lucien Van Elsen (IBM)
170 - Jim Rees (University of Michigan)
171 - Derrick J. Brashear (Carnegie Mellon University)
172 - Hans-Werner Paulsen (MPI fuer Astrophysik, Garching)
173 - Margo Hikida (Hewlett Packard)
174 - Michael Fagan (IBM)
175 - Robert Malick (National Institute of Health, USA)
176 - Rainer Toebbicke (European Laboratory for Particle Physics, CERN)
177 - Mic Bowman (Transarc)
179 - Bob Oesterlin (IBM)
180 - Pat Wilson (Dartmouth College)
181 - Cristian Espinoza (Pontificia Universidad Catolica de Chile)
182 - Mary Ann DelBusso (Transarc)
183 - Michael Niksch (IBM)
184 - Kelly Chambers (Transarc)
186 - Thanks also to indirect contributors:
190 - Dawn E. Johnson (Transarc)
191 - David Snearline (University of Michigan Engineering)
192 - Rens Troost (New Century Systems)
193 - Anton Knaus (Carnegie Mellon University)
194 - Mike Shaddock (SAS Institute Inc.)
196 If this compilation has any merit then much credit belongs to Pierette for giving inspiration, support, answers, and proof-reading.
198 ### <a name="0.03 Disclaimer"></a> 0.03 Disclaimer
200 I make no representation about the suitability of this information for any purpose.
202 While every effort is made to keep the information in this document accurate and current, it is provided "as is" with no warranty expressed or implied.
204 ### <a name="0.04 Release Notes"></a> 0.04 Release Notes
206 This compilation contains material used with permission of Transarc Corporation. Permission to copy is given provided any copyright notices and acknowledgements are retained.
208 Column 1 is used to indicate changes from the last issue:
213 Changes from the last version are to be found at the end of this file.
217 ### <a name="0.05 Quote"></a> 0.05 Quote
219 "'Tis true; there's magic in the web of it;" Othello, Act 3 Scene 4
220 --William Shakespeare (1564-1616)
224 ## <a name="1 General"></a> 1 General
226 ### <a name="1.01 What is AFS?"></a> 1.01 What is AFS?
228 AFS is a distributed filesystem that enables co-operating hosts (clients and servers) to efficiently share filesystem resources across both local area and wide area networks.
230 AFS is marketed, maintained, and extended by Transarc Corporation.
232 AFS is based on a distributed file system originally developed at the Information Technology Center at Carnegie-Mellon University that was called the "Andrew File System".
234 "Andrew" was the name of the research project at CMU - honouring th founders of the University. Once Transarc was formed and AFS became a product, the "Andrew" was dropped to indicate that AFS had gone beyond the Andrew research project and had become a supported, product quality filesystem. However, there were a number of existing cells that rooted their filesystem as /afs. At the time, changing the root of the filesystem was a non-trivial undertaking. So, to save the early AFS sites from having to rename their filesystem, AFS remained as the name and filesystem root.
236 ### <a name="1.02 Who supplies AFS?"></a> 1.02 Who supplies AFS?
238 Transarc Corporation phone: +1 (412) 338-4400
240 707 Grant Street fax: +1 (412) 338-4404
242 PA 15219 email: information@transarc.com
243 United States of America afs-sales@transarc.com
245 WWW: http://www.transarc.com
247 ### <a name="1.03 What is /afs?"></a> 1.03 What is /afs?
249 The root of the AFS filetree is /afs. If you execute "ls /afs" you will see directories that correspond to AFS cells (see below). These cells may be local (on same LAN) or remote (eg halfway around the world).
251 With AFS you can access all the filesystem space under /afs with commands you already use (eg: cd, cp, rm, and so on) provided you have been granted permission (see AFS ACL below).
253 ### <a name="1.04 What is an AFS cell?"></a> 1.04 What is an AFS cell?
255 An AFS cell is a collection of servers grouped together administratively and presenting a single, cohesive filesystem. Typically, an AFS cell is a set of hosts that use the same Internet domain name.
257 Normally, a variation of the domain name is used as the AFS cell name.
259 Users log into AFS client workstations which request information and files from the cell's servers on behalf of the users.
261 ### <a name="1.05 What are the benefits of u"></a> 1.05 What are the benefits of using AFS?
263 The main strengths of AFS are its:
267 - simplicity of addressing
269 - communications protocol
271 Here are some of the advantages of using AFS in more detail:
273 #### <a name="1.05.a Cache Manager"></a> 1.05.a Cache Manager
275 AFS client machines run a Cache Manager process. The Cache Manager maintains information about the identities of the users logged into the machine, finds and requests data on their behalf, and keeps chunks of retrieved files on local disk.
277 The effect of this is that as soon as a remote file is accessed a chunk of that file gets copied to local disk and so subsequent accesses (warm reads) are almost as fast as to local disk and considerably faster than a cold read (across the network).
279 Local caching also significantly reduces the amount of network traffic, improving performance when a cold read is necessary.
281 #### <a name="1.05.b Location independence"></a> 1.05.b Location independence
283 Unlike NFS, which makes use of /etc/filesystems (on a client) to map (mount) between a local directory name and a remote filesystem, AFS does its mapping (filename to location) at the server. This has the tremendous advantage of making the served filespace location independent.
285 Location independence means that a user does not need to know which fileserver holds the file, the user only needs to know the pathname of a file. Of course, the user does need to know the name of the AFS cell to which the file belongs. Use of the AFS cellname as the second part of the pathname (eg: /afs/$AFSCELL/somefile) is helpful to distinguish between file namespaces of the local and non-local AFS cells.
287 To understand why such location independence is useful, consider having 20 clients and two servers. Let's say you had to move a filesystem "/home" from server a to server b.
289 Using NFS, you would have to change the /etc/filesystems file on 20 clients and take "/home" off-line while you moved it between servers.
291 With AFS, you simply move the AFS volume(s) which constitute "/home" between the servers. You do this "on-line" while users are actively using files in "/home" with no disruption to their work.
293 (Actually, the AFS equivalent of "/home" would be /afs/$AFSCELL/home where $AFSCELL is the AFS cellname.)
295 #### <a name="1.05.c Scalability"></a> 1.05.c Scalability
297 With location independence comes scalability. An architectural goal of the AFS designers was client/server ratios of 200:1 which has been successfully exceeded at some sites.
299 Transarc do not recommend customers use the 200:1 ratio. A more cautious value of 50:1 is expected to be practical in most cases. It is certainly possible to work with a ratio somewhere between these two values. Exactly what value depends on many factors including: number of AFS files, size of AFS files, rate at which changes are made, rate at which file are being accessed, speed of servers processor, I/O rates, and network bandwidth.
301 AFS cells can range from the small (1 server/client) to the massive (with tens of servers and thousands of clients).
303 Cells can be dynamic: it is simple to add new fileservers or clients and grow the computing resources to meet new user requirements.
305 #### <a name="1.05.d Improved security"></a> 1.05.d Improved security
307 Firstly, AFS makes use of Kerberos to authenticate users. This improves security for several reasons:
309 - passwords do not pass across the network in plaintext
311 - encrypted passwords no longer need to be visible
313 You don't have to use NIS, aka yellow pages, to distribute /etc/passwd - thus "ypcat passwd" can be eliminated.
315 If you do choose to use NIS, you can replace the password field with "X" so the encrypted password is not visible. (These issues are discussed in detail in [25]).
317 - AFS uses mutual authentication - both the service provider and service requester prove their identities
319 Secondly, AFS uses access control lists (ACLs) to enable users to restrict access to their own directories.
321 #### <a name="1.05.e Single systems image (SS"></a> 1.05.e Single systems image (SSI)
323 Establishing the same view of filestore from each client and server in a network of systems (that comprise an AFS cell) is an order of magnitude simpler with AFS than it is with, say, NFS.
325 This is useful to do because it enables users to move from workstation to workstation and still have the same view of filestore. It also simplifies part of the systems management workload.
327 In addition, because AFS works well over wide area networks the SSI is also accessible remotely.
329 As an example, consider a company with two widespread divisions (and two AFS cells): ny.acme.com and sf.acme.com. Mr Fudd, based in the New York office, is visiting the San Francisco office.
331 Mr. Fudd can then use any AFS client workstation in the San Francisco office that he can log into (a unprivileged guest account would suffice). He could authenticate himself to the ny.acme.com cell and securely access his New York filespace.
335 The following shows a guest in the sf.acme.com AFS cell: \{0\} add AFS executables directory to PATH \{1\} obtaining a PAG with pagsh command (see 2.06) \{2\} use the klog command to authenticate into the ny.acme.com AFS cell \{3\} making a HOME away from home \{4\} invoking a homely .profile
337 <guest@toontown.sf.acme.com> $ PATH=/usr/afsws/bin:$PATH # \{0\} <guest@toontown.sf.acme.com> $ pagsh # \{1\} $ klog -cell ny.acme.com -principal elmer # \{2\} Password: $ HOME=/afs/ny.acme.com/user/elmer; export HOME # \{3\} $ cd $ . .profile # \{4\} you have new mail guest@toontown $
339 It is not necessary for the San Francisco sys admin to give Mr. Fudd an AFS account in the sf.acme.com cell. Mr. Fudd only needs to be able to log into an AFS client that is:
341 1. 1. ) on the same network as his cell and
342 2. ) his ny.acme.com cell is mounted in the sf.acme.com cell (as would certainly be the case in a company with two cells).
344 #### <a name="1.05.f Replicated AFS volumes"></a> 1.05.f Replicated AFS volumes
346 AFS files are stored in structures called Volumes. These volumes reside on the disks of the AFS file server machines. Volumes containing frequently accessed data can be read-only replicated on several servers.
348 Cache managers (on users client workstations) will make use of replicate volumes to load balance. If accessing data from one replicate copy, and that copy becomes unavailable due to server or network problems, AFS will automatically start accessing the same data from a different replicate copy.
350 An AFS client workstation will access the closest volume copy. By placing replicate volumes on servers closer to clients (eg on same physical LAN) access to those resources is improved and network traffic reduced.
352 #### <a name="1.05.g Improved robustness to s"></a> 1.05.g Improved robustness to server crash
354 The Cache Manager maintains local copies of remotely accessed files.
356 This is accomplished in the cache by breaking files into chunks of up to 64k (default chunk size). So, for a large file, there may be several chunks in the cache but a small file will occupy a single chunk (which will be only as big as is needed).
358 A "working set" of files that have been accessed on the client is established locally in the client's cache (copied from fileserver(s)).
360 If a fileserver crashes, the client's locally cached file copies remain readable but updates to cached files fail while the server is down.
362 Also, if the AFS configuration has included replicated read-only volumes then alternate fileservers can satisfy requests for files from those volumes.
364 #### <a name="1.05.h "Easy to use" networking"></a> 1.05.h "Easy to use" networking
366 Accessing remote file resources via the network becomes much simpler when using AFS. Users have much less to worry about: want to move a file from a remote site? Just copy it to a different part of /afs.
368 Once you have wide-area AFS in place, you don't have to keep local copies of files. Let AFS fetch and cache those files when you need them.
370 #### <a name="1.05.i Communications protocol"></a> 1.05.i Communications protocol
372 AFS communications protocol is optimized for Wide Area Networks. Retransmitting only the single bad packet in a batch of packets and allowing the number of unacknowledged packets to be higher (than in other protocols, see [4]).
374 #### <a name="1.05.j Improved system manageme"></a> 1.05.j Improved system management capability
376 Systems administrators are able to make configuration changes from any client in the AFS cell (it is not necessary to login to a fileserver).
378 With AFS it is simple to effect changes without having to take systems off-line.
382 A department (with its own AFS cell) was relocated to another office. The cell had several fileservers and many clients. How could they move their systems without causing disruption?
384 First, the network infrastructure was established to the new location. The AFS volumes on one fileserver were migrated to the other fileservers. The "freed up" fileserver was moved to the new office and connected to the network.
386 A second fileserver was "freed up" by moving its AFS volumes across the network to the first fileserver at the new office. The second fileserver was then moved.
388 This process was repeated until all the fileservers were moved.
390 All this happened with users on client workstations continuing to use the cell's filespace. Unless a user saw a fileserver being physically moved (s)he would have no way to tell the change had taken place.
392 Finally, the AFS clients were moved - this was noticed!
394 ### <a name="1.06 Which systems is AFS avail"></a> 1.06 Which systems is AFS available for?
396 AFS runs on systems from: HP, Next, DEC, IBM, SUN, and SGI.
398 Transarc customers have done ports to Crays, and the 3090, but all are based on some flavour of unix. Some customers have done work to make AFS data available to PCs and Macs, although they are using something similar to the AFS/NFS translator (a system that enables "NFS only" clients to NFS mount the AFS filetree /afs).
400 There is a client only implementation "AFS Client for Windows/NT".
402 N A page describing the current systems for which AFS is supported N may be found at: N N <http://www.transarc.com/Support/afs/relversions/platforms.html> N There are also ports of AFS done by customers available from Transarc on an "as is" unsupported basis.
404 More information on this can be found at:
406 /afs/transarc.com/public/afs-contrib/bin/README <ftp://ftp.transarc.com/pub/afs-contrib/bin/README>
408 These ports of AFS client code include:
410 HP (Apollo) Domain OS - by Jim Rees at the University of Michigan. sun386i - by Derek Atkins and Chris Provenzano at MIT. Linux - by Derek Atkins, mailing list: <linux-afs-request@mit.edu> <http://www.mit.edu:8008/menelaus/linux-afs/> [[NetBSD]] - by John Kohl, mailing list: <netbsd-afs@mit.edu>
412 There is some information about AFS on OS/2 at: <http://www.club.cc.cmu.edu/~jgrande/afsos2.html>
414 N The AFS on Linux FAQ may be found at: N <http://www.umlug.umd.edu/linuxafs/>
416 ### <a name="1.07 What does "ls /afs" displa"></a> 1.07 What does "ls /afs" display in the Internet AFS filetree?
418 Essentially this displays the AFS cells that co-operate in the Internet AFS filetree.
420 Note that the output of this will depend on the cell you do it from; a given cell may not have all the publicly advertised cells available, and it may have some cells that aren't advertised outside of the given site.
422 The definitive source for this information is:
424 <file:///afs/transarc.com/service/etc/CellServDB.export>
426 I've included the list of cell names included in it below:
428 asu.edu #ASU uni-freiburg.de #Albert-Ludwigs-Universitat Freiburg anl.gov #Argonne National Laboratory fl.mcs.anl.gov # Argonne National Laboratory MCS Division FL dapnia.saclay.cea.fr #Axlan-CEA bcc.ac.uk #Bloomsbury Computing Consortium bu.edu #Boston University cs.brown.edu #Brown University Department of Computer Science caspur.it #CASPUR Inter-University Computing Consortium,Rome ciesin.org #CIESIN mathematik-cip.uni-stuttgart.de #CIP-Pool of Math. Dept, Univ. Stuttgart gg.caltech.edu #Caltech Computer Graphics Group cards.com #Cards - Electronic Warfare Associates cheme.cmu.edu #Carnegie Mellon Univ. Chemical Engineering Dept. cmu.edu #Carnegie Mellon University andrew.cmu.edu #Carnegie Mellon University - Campus ce.cmu.edu #Carnegie Mellon University - Civil Eng. Dept. ece.cmu.edu #Carnegie Mellon University - Elec. Comp. Eng. Dept. me.cmu.edu #Carnegie Mellon University - Mechanical Engineering cs.cmu.edu #Carnegie Mellon University - School of Comp. Sci. club.cc.cmu.edu #Carnegie Mellon University Computer Club cert.org #CERT/Coordination Center others.chalmers.se #Chalmers University of Technology - General users cipool.uni-stuttgart.de #CIP Pool, Rechenzentrum University of Stuttgart clarkson.edu #Clarkson University, Potsdam, USA msc.cornell.edu #Cornell University Materials Science Center graphics.cornell.edu #Cornell University Program of Computer Graphics theory.cornell.edu #Cornell University Theory Center ifh.de #DESY-IfH Zeuthen northstar.dartmouth.edu #Dartmouth College, Project Northstar desy.de #Deutsches Elektronen-Synchrotron dkrz.de #Deutsches Klimarechenzentrum Hamburg dis.uniroma1.it #DIS, Univ. "La Sapienza", Rome, area Buonarotti msrc.pnl.gov #EMSL's AFS Cell zdvpool.uni-tuebingen.de#Eberhard-Karls-Universitaet Tuebingen, WS-Pools enea.it #enea.it es.net #Energy Sciences Net research.ec.org #Esprit Research Network of Excellence dce.emsl.pnl.gov #EMSL's DCE Cell cern.ch #European Laboratory for Particle Physics, Geneva fnal.gov #Fermi National Acclerator Laboratory fh-heilbronn.de #Fachhochschule Heilbronn hephy.at #hephy-vienna sleeper.nsa.hp.com #HP Cupertino palo\_alto.hpl.hp.com #HP Palo Alto afs.hursley.ibm.com #IBM Hursley Laboratories (UK), external cell ibm.uk #IBM UK, AIX Systems Support Centre zurich.ibm.ch #IBM Zurich Internet Cell ctp.se.ibm.com #IBM/4C, Chalmers, Sweden ipp-hgw.mpg.de #IPP site at Greifswald in2p3.fr #IN2P3 production cell lngs.infn.it #INFN Laboratori Nazionali di Gran Sasso, Italia le.infn.it #INFN Sezione di Lecce, Italia pi.infn.it #INFN Sezione di Pisa ike.uni-stuttgart.de #Institut fuer Kernenergetik, Universitaet Stuttgart ipp-garching.mpg.de #Institut fuer Plasmaphysik csv.ica.uni-stuttgart.de #Institut fuer Computeranwendungen, Uni. Stuttgart iastate.edu #Iowa State University infn.it #Istituto Nazionale di Fisica Nucleare, Italia jpl.nasa.gov #Jet Propulsion Laboratory zdv.uni-mainz.de #Johannes-Gutenberg-Universitaet Mainz isk.kth.se #KTH College of Engineering cc.keio.ac.jp #Keio University, Fac. of Sci. & Tech. Computing Ctr sfc.keio.ac.jp #Keio University, Japan afs-math.zib-berlin.de #Konrad-Zuse-Zentrum fuer Informationstechnik Berlin thermo-a.mw.tu-muenchen.de #Lehrstuhl A fuer Thermodynamik,TUM lrz-muenchen.de #Leibniz-Rechenzentrum Muenchen Germany athena.mit.edu #MIT/Athena cell net.mit.edu #MIT/Network Group cell sipb.mit.edu #MIT/SIPB cell msu.edu #Michigan State University home cell mpa-garching.mpg.de #Max-Planck-Institut fuer Astrophysik federation.atd.net #Multi Resident AFS at Naval Research Lab - CCS isl.ntt.jp #NTT Information and Communication nersc.gov #National Energy Research Supercomputer Center alw.nih.gov #National Institutes of Health nrel.gov #National Renewable Energy Laboratory cmf.nrl.navy.mil #Naval Research Lab lcp.nrl.navy.mil #Naval Research Lab - Lab for Computational Physics nrlfs1.nrl.navy.mil #Naval Research Laboratory eos.ncsu.edu #NCSU - College of Engineering unity.ncsu.edu #NCSU Campus ncat.edu #North Carolina Agricultural and Technical State U. bp.ncsu.edu #North Carolina State University - Backbone Prototype ri.osf.org #OSF Research Institute gr.osf.org #OSF Research Institute, Grenoble urz.uni-magdeburg.de #Otto-von-Guericke-Universitaet, Magdeburg N ovpit.indiana.edu #OVPIT at Indiana University psc.edu #PSC (Pittsburgh Supercomputing Center) psu.edu #Penn State phy.bnl.gov #Physics Deptpartment, Brookhaven National Lab postech.ac.kr #Pohang University of Science pppl.gov #Princeton Plasma Physics Laboratory rwcp.or.jp #Real World Computer Partnership(rwcp) rz.uni-jena.de #Rechenzentrum University of Jena, Germany rhrk.uni-kl.de #Rechenzentrum University of Kaiserslautern rus.uni-stuttgart.de #Rechenzentrum University of Stuttgart rhic #Relativistic Heavy Ion Collider rpi.edu #Rensselaer Polytechnic Institute uni-bonn.de #Rheinische Friedrich Wilhelm Univesitaet Bonn rose-hulman.edu #Rose-Hulman Institute of Technology cs.rose-hulman.edu # Rose-Hulman Inst. of Tech., CS Department nada.kth.se #Royal Institute of Technology, NADA rl.ac.uk #Rutherford Appleton Lab, England slac.stanford.edu #Stanford Linear Accelerator Center dsg.stanford.edu #Stanford Univ. - Comp. Sci. - Distributed Systems ir.stanford.edu #Stanford University afs1.scri.fsu.edu #Supercomputer Computations Research Instit ethz.ch #Swiss Federal Inst. of Tech. - Zurich, Switzerland hrzone.th-darmstadt.de #TH-Darmstadt tu-bs.de #Technical University of Braunschweig, Germany tu-chemnitz.de #Technische Universitaet Chemnitz-Zwickau, Germany telos.com #Telos Systems Group - Chantilly, Va. transarc.com #Transarc Corporation cats.ucsc.edu #UC Santa Cruz, Comp and Tech Services, California umr.edu #UMR - Missouri's Technological University hep.net #US High Energy Physics Information cell uni-mannheim.de #Uni Mannheim (Rechenzentrum) ece.ucdavis.edu #Univ California - Davis campus geo.uni-koeln.de #Univ. of Cologne Inst. for Geophysics & Meteorology meteo.uni-koeln.de #Univ. of Cologne Inst. for Geophysics & Meteorology N dsi.uniroma1.it #Univ. Rome-1, Dept. of Computer Science U spv.uniroma1.it #Univ. Rome-1, Area San Pietro in Vincoli N vn.uniroma3.it #Univ. Rome-3, Area Vasca Navale urz.uni-heidelberg.de #Universitaet Heidelberg spc.uchicago.edu #University of Chicago - Social Sciences rrz.uni-koeln.de #University of Cologne - Reg Comp Center wu-wien.ac.at #University of Economics, Vienna, Austria uni-hohenheim.de #University of Hohenheim ncsa.uiuc.edu #University of Illinois wam.umd.edu #University of Maryland Network WAM Project glue.umd.edu #University of Maryland - Project Glue engin.umich.edu #University of Michigan - CAEN umich.edu #University of Michigan - Campus dmsv.med.umich.edu #University of Michigan - DMSV citi.umich.edu #University of Michigan - IFS Development lsa.umich.edu #University of Michigan - LSA College math.lsa.umich.edu #University of Michigan - Math Cell sph.umich.edu #University of Michigan -- School of Public cs.unc.edu #University of North Carolina at Chapel Hill nd.edu #University of Notre Dame pitt.edu #University of Pittsburgh vn.uniroma3.it #University of Rome 3, Area Vasca Navale, Italy isi.edu #University of Southern California/ISI dce.uni-stuttgart.de #University of Stuttgart - DCE/DFS Cell ihf.uni-stuttgart.de #University of Stuttgart, Ins. fuer Hochfrequenz-Tec mathematik.uni-stuttgart.de #University of Stuttgart, Math Dept. cs.utah.edu #University of Utah Computer Science Dept utah.edu #University of Utah Information Tech. Service cs.washington.edu #University of Washington Comp Sci Department wisc.edu #University of Wisconsin-Madison, Campus cs.wisc.edu #University of Wisconsin-Madison, Comp Sci Dept belwue.uni-tuebingen.de #ZDV Universitaet Tuebingen
430 This shows different and widespread organizations making use of the Internet AFS filetree.
432 Note that it is also possible to use AFS "behind the firewall" within the confines of your organization's network - you don't have to participate in the Internet AFS filetree.
434 Indeed, there are lots of benefits of using AFS on a local area network without using the WAN capabilities.
436 ### <a name="1.08 Why does AFS use Kerberos"></a><a name="1.08 Why does AFS use Kerberos "></a> 1.08 Why does AFS use Kerberos authentication?
438 It improves security.
440 Kerberos uses the idea of a trusted third party to prove identification. This is a bit like using a letter of introduction or quoting a referee who will vouch for you.
442 When a user authenticates using the klog command (s)he is prompted for a password. If the password is accepted the Kerberos Authentication Server (KAS) provides the user with an encrypted token (containing a "ticket granting ticket").
444 From that point on, it is the encrypted token that is used to prove the user's identity. These tokens have a limited lifetime (typically a day) and are useless when expired.
446 In AFS, it is possible to authenticate into multiple AFS cells. A summary of the current set of tokens held can be displayed by using the "tokens" command.
448 For example: elmer@toontown $ tokens
450 Tokens held by the Cache Manager:
452 User's (AFS ID 9997) tokens for <afs@ny.acme.com> [Expires Sep 15 06:50] User's (AFS ID 5391) tokens for <afs@sf.acme.com> [Expires Sep 15 06:48] --End of list--
454 Kerberos improves security because a users's password need only be entered once (at klog time).
456 AFS uses Kerberos to do complex mutual authentication which means that both the service requester and the service provider have to prove their identities before a service is granted.
458 Transarc's implementation of Kerberos is slightly different from MIT Kerberos V4 but AFS can work with either version.
460 Joe Jackson wrote about this in: <http://www.cs.cmu.edu/afs/andrew.cmu.edu/usr/shadow/www/afs/afs-with-kerberos.html>
462 For more detail on this and other Kerberos issues see the faq for Kerberos (posted to news.answers and comp.protocols.kerberos) [28]. (Also, see [15], [16], [26], [27])
464 ### <a name="1.09 Does AFS work over protoco"></a> 1.09 Does AFS work over protocols other than TCP/IP?
466 No. AFS was designed to work over TCP/IP.
468 ### <a name="1.10 How can I access AFS from"></a><a name="1.10 How can I access AFS from "></a> 1.10 How can I access AFS from my PC?
470 You can use PC-Interface which is available from Transarc and Locus Computing Corporations.
472 For more information on PC-Interface see the PC-Interface Frequently Asked Questions file in:
474 <file:///afs/transarc.com/public/afs-contrib/doc/faq/pci.faq> <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/pci.faq>
476 There is also SAMBA (an SMB/netbios server for UNIX). The current version will authenticate the connecting process with AFS as well.
478 U <http://samba.anu.edu.au/samba/>
482 U <http://samba.anu.edu.au/samba/docs/faq/sambafaq-1.html#ss1.1>
484 The SAMBA mailing list can be joined via: <samba-request@anu.edu.au>
486 ### <a name="1.11 How does AFS compare with"></a><a name="1.11 How does AFS compare with "></a> 1.11 How does AFS compare with NFS?
488 AFS NFS File Access Common name space from Different file names from all workstations different workstations
490 File Location Automatic tracking by Mountpoints to files set by Tracking file system processes administrators and users and databases
492 Performance Client caching to reduce No local disk caching; network load; callbacks limited cache consistency to maintain cache consis- tency
494 Andrew Benchmark Average time of 210 Average time of 280 (5 phases, 8 clients) seconds/client seconds/client
496 Scaling capabilities Maintains performance in Best in small to mid-size small and very large installations installations
498 Excellent performance on Best in local-area wide-area configuration configurations
500 Security Kerberos mutual authen- Security based on tication unencrypted user ID's
502 Access control lists on No access control lists directories for user and group access
504 Availability Replicates read-mostly No replication data and AFS system information
506 Backup Operation No system downtime with Standard UNIX backup system specially developed AFS Backup System
508 Reconfiguration By volumes (groups of Per-file movement files)
510 No user impact; files Users lose access to files remain accessible during and filenames change moves, and file names do (mountpoints need to be not change reset)
512 System Management Most tasks performed from Frequently involves telnet any workstation to other workstations
514 Autonomous Autonomous administrative File servers and clients Architecture units called cells, in addition to file servers and clients
516 No trust required between No security distinctions cells between sites
518 [ source: <ftp://ftp.transarc.com/pub/afsps/doc/afs-nfs.comparison> ]
522 + Some vendors offer more secure versions of NFS but implementations vary. Many NFS ports have no extra security features (such as Kerberos).
524 + The AFS Cache Manager can be configured to work with a RAM (memory) based cache. This offers signifigant performance benefits over a disk based cache.
526 NFS has no such feature. Imagine how much faster it is to access files cached into RAM!
528 + The Andrew benchmark demonstrates that AFS has better performance than NFS as the number of clients increases. A graph of this (taken from Andrew benchmark report) is available in:
530 U ![andrew1.jpg](http://www.angelfire.com/hi/plutonic/images/andrew1.jpg)
532 ## <a name="2 Using AFS"></a> 2 Using AFS
534 ### <a name="2.01 What are the differences b"></a> 2.01 What are the differences between AFS and a unix filesystem?
536 Essentially, from a user's point of view, there is little difference between AFS and local unix filestore. Nearly all the commands normally used to access local files can be used to access files in /afs.
538 In the following set of sections, I have attempted to "target" each section to an appropriate type of user by including to the right of each section heading one of: User, Programmer, [[SysAdmin]].
540 Here is a summary of the differences:
543 <dt> Authentication</dt>
547 Before a user can access protected AFS files (s)he needs to become authenticated to AFS using the klog command (Kerberos login) to get a Kerberos "ticket granting ticket" (called a token from here on).
549 Without a token, an unauthenticated user is given the AFS identity "system:anyuser" and as such is only able to access files in directories that have ACLs granting system:anyuser access.
551 Many systems have the klog function built into the system login program. So a user would not even have to know they gain a token on logging in. If you use a system where you have to issue the klog command after login then you should run the pagsh command first (see below).
553 AFS provides access control lists to give more precise control to users wishing to protect their files (see AFS ACL below).
555 File permissions: [ User ]
557 Unix mode bits for group and other are ignored. The mode bits for the file owner don't work the way they used to.
559 Users should protect their AFS files with (directory) ACLs only. Just use mode bits to make a file executable.
561 Data protection with AFS ACLs: [ User ]
563 Some versions of unix (eg IBM's AIX version 3) allow ACLs on local files. In AFS, ACLs protect directories and used with AFS protection groups (see below) provide a finer granularity of protection than can be achieved with basic unix file permissions. (AFS ACLs are described in more detail below.)
565 Protection groups: [ User ]
567 Users can create and maintain their own protection groups in AFS - as opposed to unix where only sys admins can manage protection groups.
571 In AFS, hard links (eg: ln old new) are only valid within a directory. This is because AFS ACLs protect directories (not individual files) and allowing hard links that span directories would subvert ACL protection.
573 Symbolic links work in AFS because they reference a pathname and not an i-node directly. (Hard links reference an i-node directly.)
575 Changing file protection by moving a file: [ User ]
577 Moving a file to a different directory will change the protection of a file if the ACL on the new directory if different to the ACL on the original directory.
579 chown and chgrp: [ User ]
581 Only members of the AFS group "system:administrators" can use these commands on files in /afs.
583 Save on close: [ Programmer ]
585 AFS Cache Manager does not send file modifications to a file server until the close() or fsync() system call.
587 write() system calls only update the local cache copy on the client.
589 Note the difference in semantic of writing a file:
591 local unix file: writes update the file "immediately" AFS file: local cached copy updated "immediately" but the server copy is only updated when the file is closed or fsync'ed.
593 It is important to understand that most applications (eg: vi, emacs, frame, interleaf, wingz, dogz, etc) issue the close() system call when the user chooses/issues the "save" command in the application.
595 Users are not required to exit the application to "save" their changes back to the server.
597 byte-range file locking: [ Programmer ]
599 AFS does not support byte-range locking within a file, although lockf() and fcntl() calls will return 0 (success). The first time a byte-range lock is attempted, AFS will display:
605 <dd> byte-range lock/unlock ignored; make sure no one else else is running this program." </dd>
610 whole file locking: [ Programmer ]
612 AFS does support advisory locking an entire file with flock(). Processes on the same client workstation that attempt to lock a file obey the proper locking semantics.
614 Processes on different AFS clients requesting a lock on the same file would get EWOULDBLOCK returned.
616 character and block special files: [ [[SysAdmin]] ]
618 AFS does not support character and block special files. The mknod command does not create either character or block special files in /afs.
620 AFS version of fsck: [ [[SysAdmin]] ]
622 On an AFS server, the partitions containing served files are NOT unix filesystems and standard fsck **must** not be used - use the AFS version instead.
624 ### <a name="2.02 What is an AFS protection"></a><a name="2.02 What is an AFS protection "></a> 2.02 What is an AFS protection group?
626 A named list of users.
628 Group names are used in AFS ACLs to identify lists of users with particular access permissions.
630 In AFS, users can create and maintain their own protection groups. This is different to unix where only the system administrator can manage /etc/group.
632 AFS groups are stored in the protection database on fileserver(s) and managed by using the "pts" command.
634 An AFS group typically has the format:
638 By default, only the owner of a group can change its members.
640 It is possible to have both users and IP addresses as members of an AFS group. By using an IP address like this you can specify all the users from the host with that IP address.
642 ### <a name="2.03 What are the AFS defined p"></a> 2.03 What are the AFS defined protection groups?
646 Everyone who has access to an AFS client in any cell that is on the same network as your cell.
650 Everyone who has access to an AFS client in any cell that is on the same network as your cell **and** has valid tokens for your cell (ie has been authenticated in your cell).
652 system:administrators
654 Users who have privileges to execute some but not all system administrator commands.
656 ### <a name="2.04 What is an AFS access cont"></a> 2.04 What is an AFS access control list (ACL)?
658 There is an ACL for every directory in AFS. The ACL specifies protection at the directory level (not file level) by listing permissions of users and/or groups to a directory. There is a maximum of 20 entries on an ACL.
662 An AFS ACL is displayed by using the "fs" command as shown below:
664 tweety@toontown $ fs listacl . Access list for . is Normal rights: fac:coords rlidwka system:anyuser rl
666 This ACL shows that members of the AFS protection group "fac:coords" have full access rights to the current directory and "system:anyuser" has only read and lookup rights.
668 The members of "fac:coords" can be determined by accessing the protection group database using the "pts" command as shown below:
670 tweety@toontown $ pts membership fac:coords Members of fac:coords (id: -1577) are: sylvester roadrunner yosemite.sam
672 ### <a name="2.05 What are the AFS access ri"></a> 2.05 What are the AFS access rights?
674 In AFS, there are seven access rights that may be set or not set:
676 lookup l Permission to examine the ACL and traverse the directory (needed with most other access rights). Permission to look up filenames in a directory. read r View the contents of files in the directory insert i Add new files or sub-directories write w Modify file contents, use "chmod" delete d Remove file(s) in directory lock k Permission for programs to "flock" files in the directory administer a Ability to change the ACL
678 There are short-hand forms:
680 read rl read and lookup write rlidwk all rights except administer all rlidwka none removes all rights
682 ### <a name="2.06 What is pagsh?"></a> 2.06 What is pagsh?
684 A command to get a new shell with a process authentication group (PAG).
686 This is normally used if your system does not use the AFS version of login. It is used to get a PAG prior to running klog.
688 The PAG uniquely identifies the user to the Cache Manager. Without a PAG the Cache Manager uses the unix UID to identify a user.
690 ### <a name="2.07 Why use a PAG?"></a> 2.07 Why use a PAG?
692 There are two reasons:
694 a) Child processes inherit the PAG and the Kerberos token so they are AFS authenticated.
696 b) For security: if you don't have a PAG then the Cache Manager identifies you by unix UID. Another user with root access to the client could su to you and therefore use your token.
698 ### <a name="2.08 How can I tell if I have a"></a> 2.08 How can I tell if I have a PAG?
700 You can tell if you have a PAG by typing "groups". A PAG is indicated by the appearance of two integers in the list of groups.
702 For example: sylvester@toontown $ groups
704 1. 1. 32533 staff catz
706 ### <a name="2.09 Can I still run cron jobs"></a><a name="2.09 Can I still run cron jobs "></a> 2.09 Can I still run cron jobs with AFS?
708 Yes, but remember that in order to fully access files in AFS you have to be AFS authenticated. If your cron job doesn't klog then it only gets system:anyuser access.
710 The klog command has a "-pipe" option which will read a password from stdin. IF (yes, that's a big if :-) you are prepared to store your password in a local (non-AFS) file then you might use the following:
712 a) create a "wrapper" script to get a PAG, get your AFS token and execute a command:
714 #!/usr/afsws/bin/pagsh
717 # AUTHOR Paul Blackburn <mpb@acm.org>
718 # PURPOSE Run an AFS authenticated cron job.
719 # Get a PAG, get the user's token,
720 # then exec user's command
725 echo "Usage: ${CMD} [ -principal AFSID ] passwordfile command" >&2
728 if [ ${1} = "-principal" ]; then
729 PRINCIPAL="${1} ${2}"
733 if [ -z "${1}" ]; then
734 echo "${CMD} error: need name of password file" >&2
742 /usr/afsws/bin/klog ${PRINCIPAL} -pipe < ${passwordfile}
744 if [ -z "${1}" ]; then
745 echo "${CMD} error: need name of command to run" >&2
750 command=`echo ${command_line} | awk '{print $1}'`
752 # Check if we can run the command.
753 # If we got this far, it is likely that the command name is correct
754 # but there may be a problem in accessing the command file.
755 # If there is an error, log it via syslog (logger) rather than ">&2"
757 if [ ! -x "${command}" ]; then
758 M="error: unable to execute command ${command}"
759 logger -i -t "${CMD}" "${M}"
765 b) Store your password in a local (non-AFS) file that only you have access to (perhaps: /home/$USER/.p).
767 Make sure that this file is mode 600 and also be sure that you trust whoever has root access on this system and whoever has access to backup tapes! Also, don't forget to change this file if you change your AFS password.
769 c) In your crontab file, run afs\_wrap\_cron followed by unlog:
771 0 6 * * * /usr/local/bin/afs_wrap_cron /home/$USER/.p \
772 $HOME/bin/6AMdaily; /usr/afsws/bin/unlog
774 Note that you can still run a cron job without getting a token if the task does not need to be AFS authenticated. In this case, you may get stderr from the cron job if your .profile is not accessible because of the ACL protecting your $HOME. Simply redirect to /dev/null:
776 0 7 * * * $sys_anyuser_readable_dir/7AMdaily 2>/dev/null
778 ### <a name="2.10 How much disk space does a"></a> 2.10 How much disk space does a 1 byte file occupy in AFS?
782 Other filesystems allocate different file block sizes. For example, IBM's AIX version 3 journaled file system (JFS) uses 4K blocks (exception: 2K for the 160MB disk drive).
784 Such blocksize differences lead to variations on the amount of disk space required to store files. Copying a directory from AFS to AIX JFS would require more space in JFS because of the block fragmentation.
788 a) Create a one byte file in AFS and use "ls -s" to show how many kilobytes it occupies:
790 ariel@atlantica $ echo z >/afs/dsea/tmp/one_byte_file
791 ariel@atlantica $ ls -s /afs/dsea/tmp/one_byte_file
792 1 /afs/dsea/tmp/one_byte_file
794 b) Create same file in local filesystem (AIX JFS):
796 ariel@atlantica $ echo z >/tmp/one_byte_file
797 ariel@atlantica $ ls -s /tmp/one_byte_file
800 ### <a name="2.11 Is it possible to specify"></a><a name="2.11 Is it possible to specify "></a> 2.11 Is it possible to specify a user who is external
802 to the current AFS cell on an ACL?
804 No. You cannot reference a particular user from another AFS cell.
806 You can specify an IP address on the ACL; this means any and all users from the host with that IP address.
808 Another solution to this problem is to give the external user an "authentication-only" account in your AFS cell. This means that (s)he can klog (but has no home directory) in your cell.
810 # Example: AFS administrator creates an authentication-only user $ uss add daffy "Daffy Duck" -t /dev/null $ kas setpassword daffy -admin admin
812 Cross-realm authentication (where co-operating cells are able to specify remore users as "user@remote.cell" on an ACL) is an **unsupported** feature of AFS 3.3a. That means that Transarc doesn't promise to make it work for you, nor keep it running in future releases.
814 ### <a name="2.12 Are there any problems pri"></a> 2.12 Are there any problems printing files in /afs?
816 The issue of printing in AFS is almost always the same: what do you send to the printing daemon? Do you send it the bytes you want to print or do you just send the file name containing those bytes? If you send it a file name, you have to be sure that the printing daemon can read it. Most daemons run with no AFS tokens, so can't access directories unless they are open for system:anyuser read access. Often, printing commands (lpr, lp, enq) have an option that allows for both modes of operation, though the default behavior varies from system to system. If you're interested in making your daemons authenticate to AFS, check out the example scripts in AFS-Contrib:
818 <file:///afs/transarc.com/public/afs-contrib/tools/reauth-example> <ftp://ftp.transarc.com/pub/afs-contrib/tools/reauth-example/>
820 Another common problem is setuid printing commands. For instance, the "enq" command runs as root, daemon, or some such user. If you aren't using the AFS login and simply issue "klog" to get tokens, those tokens are associated with your uid. When setuid programs run, they lose access to your token and often can't read the file name given as an argument. The solution in this case is to use "pagsh" before "klog" so that your tokens are transferred to subprocesses automatically by group membership. This works even if the uid changes, as for setuid programs.
822 ### <a name="2.13 Can I create a fifo (aka n"></a> 2.13 Can I create a fifo (aka named pipe) in /afs?
824 No. AFS does not support "mknod fifofile p".
826 ### <a name="2.14 If an AFS server crashes,"></a><a name="2.14 If an AFS server crashes, "></a> 2.14 If an AFS server crashes, do I have to reboot my AFS client?
830 Typically, if an AFS server becomes unavailable, the AFS Cache Manager on your AFS client will see you through the outage until the server returns. This robustness is dependent on the way your AFS cell has been configured including the following factors:
832 + On the client side: + How big is the cache? + Are the files you need already in the cache?
834 + On the server side: + How many servers? It's best to have a minimum of three. + Is the data you are accessing replicated? In AFS, replicas are [[ReadOnly]] copies.
836 With replicated volumes, the AFS Cache Manager knows about all of the servers on which the replicas are located. Therefore, when the Cache Manager accesses a replicated volume, if the RPC times out, the Cache Manager automatically retrys the RPC, using a different file server.
838 If necessary, the Cache Manager will attempt to contact all file servers on which a replica of the volume resides.
840 If you are accessing [[ReadWrite]] volumes on a crashed server then you will not be able to save changes back to the server until it returns.
842 You don't need to reboot, and the Cache Manager activity is "invisible" to the user.
844 ### <a name="2.15 Can I use AFS on my diskle"></a> 2.15 Can I use AFS on my diskless workstation?
846 Yes. The AFS Cache Manager can be configured to work with either a disk based cache or a memory (RAM) based cache. With the latter, you can expect file access from the cache with a whizz!
848 U <http://www.uni-hohenheim.de/~schaefer/afs/info-afs/1306.html>
850 ### <a name="2.16 Can I test for AFS tokens"></a><a name="2.16 Can I test for AFS tokens "></a> 2.16 Can I test for AFS tokens from within my program?
852 Yes. Some sample code showing how to do this can be found in:
854 <file:///afs/transarc.com/public/afs-contrib/tools/auth-samples/listtokens.c> <ftp://ftp.transarc.com/pub/afs-contrib/tools/auth-samples/listtokens.c>
856 ### <a name="2.17 What's the difference betw"></a> 2.17 What's the difference between /afs/cellname and /afs/.cellname?
858 AFS has [[ReadOnly]] (RO) and [[ReadWrite]] (RW) volumes.
860 The convention in AFS is to mount the RW volume "root.cell" as /afs/.cellname and the RO volume "root.cell.readonly" as /afs/cellname.
862 This is so that when you travel down the /afs/.cellname link, AFS will always use the RW site of any volumes that have RO clones.
864 This allows your administrator to update the RW copy of a volume and "vos release $volname" so that it will appear in /afs/cellname.
866 ### <a name="2.18 Can I klog as two users on"></a> 2.18 Can I klog as two users on a machine in the same cell?
868 Yes, if you use two different PAGs.
872 <dd> "One token per PAG per client system." </dd>
875 From one shell you can only authenticate as a single user of a cell. If you open another shell (with another PAG) you can klog as a different user of the same cell from the same client.
877 You can authenticate into many cells from one client shell.
879 ### <a name="2.19 What are the ~/._afsXXXX f"></a> 2.19 What are the ~/.\_\_afsXXXX files?
881 They are temporary reference files used by the AFS Cache Manager.
883 In UNIX filesystems, when you a remove a file that is kept open by a process, the file stays around physically while it is no longer referenced in any directory (which you will see as a mismatch between disk space usage according to df and du).
885 Some applications rely on that feature, e.g. they create a temporary file and remove it immediatley while keeping the file descriptor open. The file then disappears from the filesystem automagically when the process terminates or the file descriptor gets closed otherwise. Such applications could get into trouble with older versions of AFS, where the file could really disappear while it was held open.
887 Newer versions of AFS rename such files to .\_\_afsXXXX, thus making sure that the data stays around as expected by the application. As soon as the file gets closed, the associated .\_\_afsXXXX should disappear.
889 ## <a name="3 AFS administration"></a> 3 AFS administration
891 ### <a name="3.01 Is there a version of xdm"></a><a name="3.01 Is there a version of xdm "></a> 3.01 Is there a version of xdm available with AFS authentication?
893 Yes, xdm can be found in:
895 <file:///afs/transarc.com/public/afs-contrib/tools/xdm> <ftp://ftp.transarc.com/pub/afs-contrib/tools/xdm/>
897 ### <a name="3.02 Is there a version of xloc"></a> 3.02 Is there a version of xlock available with AFS authentication?
899 Yes, xlock can be found in:
901 <file:///afs/transarc.com/public/afs-contrib/tools/xlock> <ftp://ftp.transarc.com/pub/afs-contrib/tools/xlock/>
903 ### <a name="3.03 What is /afs/@cell?"></a> 3.03 What is /afs/@cell?
905 It is a symbolic link pointing at /afs/$your\_cell\_name.
907 NB, @cell is not something that is provided by AFS. You may decide it is useful in your cell and wish to create it yourself.
909 /afs/@cell is useful because:
911 + If you look after more than one AFS cell, you could create the link in each cell then set your PATH as: PATH=$PATH:/afs/@cell/@sys/local/bin
913 + For most cells, it shortens the path names to be typed in thus reducing typos and saving time.
915 A disadvantage of using this convention is that when you cd into /afs/@cell then type "pwd" you see "/afs/@cell" instead of the full name of your cell. This may appear confusing if a user wants to tell a user in another cell the pathname to a file.
917 You could create your own /afs/@cell with the following:
919 #/bin/ksh - # author: mpb [ -L /afs/@cell ] && echo We already have @cell! && exit cell=$(cat /usr/vice/etc/ThisCell) cd /afs/.$\{cell\} && fs mkm temp root.afs cd temp ln -s /afs/$\{cell\} @cell ln -s /afs/.$\{cell\} .@cell # .@cell for RW path cd /afs/.$\{cell\} && fs rmm temp vos release root.afs; fs checkv
921 U <http://www-archive.stanford.edu/lists/info-afs/hyper95/0298.html>
923 ### <a name="3.04 Given that AFS data is loc"></a> 3.04 Given that AFS data is location independent, how does
925 an AFS client determine which server houses the data its user is attempting to access?
927 The Volume Location Database (VLDB) is stored on AFS Database Servers and is ideally replicated across 3 or more Database Server machines. Replication of the Database ensures high availability and load balances the requests for the data. The VLDB maintains information regarding the current physical location of all volume data (files and directories) in the cell, including the IP address of the [[FileServer]], and the name of the disk partition the data is stored on.
929 A list of a cell's Database Servers is stored on the local disk of each AFS Client machine as: /usr/vice/etc/CellServDB
931 The Database Servers also house the Kerberos Authentication Database (encrypted user and server passwords), the Protection Database (user UID and protection group information) and the Backup Database (used by System Administrators to backup AFS file data to tape).
933 ### <a name="3.05 Which protocols does AFS u"></a> 3.05 Which protocols does AFS use?
935 AFS may be thought of as a collection of protocols and software processes, nested one on top of the other. The constant interaction between and within these levels makes AFS a very sophisticated software system.
937 At the lowest level is the UDP protocol, which is part of TCP/IP. UDP is the connection to the actual network wire. The next protocol level is the remote procedure call (RPC). In general, RPCs allow the developer to build applications using the client/server model, hiding the underlying networking mechanisms. AFS uses Rx, an RPC protocol developed specifically for AFS during its development phase at Carnegie Mellon University.
939 Above the RPC is a series of server processes and interfaces that all use Rx for communication between machines. Fileserver, volserver, upserver, upclient, and bosserver are server processes that export RPC interfaces to allow their user interface commands to request actions and get information. For example, a bos status command will examine the bos server process on the indicated file server machine.
941 Database servers use ubik, a replicated database mechanism which is implemented using RPC. Ubik guarantees that the copies of AFS databases of multiple server machines remain consistent. It provides an application programming interface (API) for database reads and writes, and uses RPCs to keep the database synchronized. The database server processes, vlserver, kaserver, and ptserver, reside above ubik. These processes export an RPC interface which allows user commands to control their operation. For instance, the pts command is used to communicate with the ptserver, while the command klog uses the kaserver's RPC interface.
943 Some application programs are quite complex, and draw on RPC interfaces for communication with an assortment of processes. Scout utilizes the RPC interface to file server processes to display and monitor the status of file servers. The uss command interfaces with kaserver, ptserver, volserver and vlserver to create new user accounts.
945 The Cache Manager also exports an RPC interface. This interface is used principally by file server machines to break callbacks. It can also be used to obtain Cache Manager status information. The program cmdebug shows the status of a Cache Manager using this interface.
947 For additional information, Section 1.5 of the AFS System Administrator's Guide and the April 1990 Cache Update contain more information on ubik. Udebug information and short descriptions of all debugging tools were included in the January 1991 Cache Update. Future issues will discuss other debugging tools in more detail.
949 [ source: <ftp://ftp.transarc.com/pub/afsug/newsletter/apr91> ] [ Copyright 1991 Transarc Corporation ]
951 ### <a name="3.06 Are setuid programs execut"></a> 3.06 Are setuid programs executable across AFS cell boundaries?
953 By default, the setuid bit is ignored but the program may be run (without setuid privilege).
955 It is possible to configure an AFS client to honour the setuid bit. This is achieved by root running:
957 root@toontown # fs setcell -cell $cellname -suid
959 (where $cellname is the name of the foreign cell. Use with care!).
963 <dd> making a program setuid (or setgid) in AFS does <strong>not</strong> mean that the program will get AFS permissions of a user or group. To become AFS authenticated, you have to klog. If you are not authenticated, AFS treats you as "system:anyuser". </dd>
966 ### <a name="3.07 How does AFS maintain cons"></a> 3.07 How does AFS maintain consistency on read-write files?
968 AFS uses a mechanism called "callback".
970 Callback is a promise from the fileserver that the cache version of a file/directory is up-to-date. It is established by the fileserver with the caching of a file.
972 When a file is modified the fileserver breaks the callback. When the user accesses the file again the Cache Manager fetches a new copy if the callback has been broken.
974 The following paragraphs describe AFS callback mechanism in more detail:
976 If I open() fileA and start reading, and you then open() fileA, write() a change **\*\*and close() or fsync()\*\*** the file to get your changes back to the server - at the time the server accepts and writes your changes to the appropriate location on the server disk, the server also breaks callbacks to all clients to which it issued a copy of fileA.
978 So my client receives a message to break the callback on fileA, which it dutifully does. But my application (editor, spreadsheet, whatever I'm using to read fileA) is still running, and doesn't really care that the callback has been broken.
980 When something causes the application to read() more of the file the read() system call executes AFS cache manager code via the VFS switch, which does check the callback and therefore gets new copies of the data.
982 Of course, the application may not re-read data that it has already read, but that would also be the case if you were both using the same host. So, for both AFS and local files, I may not see your changes.
984 Now if I exit the application and start it again, or if the application does another open() on the file, then I will see the changes you've made.
986 This information tends to cause tremendous heartache and discontent - but unnecessarily so. People imagine rampant synchronization problems. In practice this rarely happens and in those rare instances, the data in question is typically not critical enough to cause real problems or crashing and burning of applications. Since 1985, we've found that the synchronization algorithm has been more than adequate in practice - but people still like to worry!
988 The source of worry is that, if I make changes to a file from my workstation, your workstation is not guaranteed to be notified until I close or fsync the file, at which point AFS guarantees that your workstation will be notified. This is a significant departure from NFS, in which no guarantees are provided.
990 Partially because of the worry factor and largely because of Posix, this will change in DFS. DFS synchronization semantics are identical to local file system synchronization.
992 [ DFS is the Distributed File System which is part of the Distributed ] [ Computing Environment (DCE). ]
994 ### <a name="3.08 How can I run daemons with"></a> 3.08 How can I run daemons with tokens that do not expire?
996 It is not a good idea to run with tokens that do not expire because this would weaken one of the security features of Kerberos.
998 A better approach is to re-authenticate just before the token expires.
1000 There are two examples of this that have been contributed to afs-contrib. The first is "reauth":
1002 <file:///afs/transarc.com/public/afs-contrib/tools/reauth/> <ftp://ftp.transarc.com/pub/afs-contrib/tools/reauth/>
1004 The second is "lat":
1006 /afs/transarc.com/public/afs-contrib/pointers /UMich-lat-authenticated-batch-jobs <ftp://ftp.transarc.com/pub/afs-contrib/pointers> /UMich-lat-authenticated-batch-jobs
1008 ### <a name="3.09 Can I check my user's pass"></a> 3.09 Can I check my user's passwords for security purposes?
1010 Yes. Alec Muffett's Crack tool (at version 4.1f) has been converted to work on the Transarc kaserver database. This modified Crack (AFS Crack) is available via anonymous ftp from:
1012 <ftp://export.acs.cmu.edu/pub/crack.tar.Z>
1014 and is known to work on: pmax\_\* sun4\*\_\* hp700\_\* rs\_aix\* next\_\*
1016 It uses the file /usr/afs/db/kaserver.DB0, which is the database on the kaserver machine that contains the encrypted passwords. As a bonus, AFS Crack is usually two to three orders of magnitude faster than the standard Crack since there is no concept of salting in a Kerberos database.
1018 On a normal UNIX /etc/passwd file, each password can have been encrypted around 4096 (2^12) different saltings of the crypt(3) algorithm, so for a large number of users it is easy to see that a potentially large (up to 4095) number of seperate encryptions of each word checked has been avoided.
1022 <dd> Dan Lovinger </dd>
1024 <dd> Derrick J. Brashear <shadow+@andrew.cmu.edu> </dd>
1029 <dd> AFS Crack does not work for MIT Kerberos Databases. The author is willing to give general guidance to someone interested in doing the (probably minimal) amount of work to port it to do MIT Kerberos. The author does not have access to a MIT Kerberos server to do this. </dd>
1032 ### <a name="3.10 Is there a way to automati"></a> 3.10 Is there a way to automatically balance disk usage across
1036 Yes. There is a tool, balance, which does exactly this. It can be retrieved via anonymous ftp from:
1038 <ftp://ftp.andrew.cmu.edu/pub/balance-1.1a.tar.Z>
1040 Actually, it is possible to write arbitrary balancing algorithms for this tool. The default set of "agents" provided for the current version of balance balance by usage, # of volumes, and activity per week, the latter currently requiring a source patch to the AFS volserver. Balance is highly configurable.
1044 <dd> Dan Lovinger </dd>
1046 <dd> Derrick Brashear <shadow+@andrew.cmu.edu> </dd>
1049 ### <a name="3.11 Can I shutdown an AFS file"></a> 3.11 Can I shutdown an AFS fileserver without affecting users?
1051 Yes, this is an example of the flexibility you have in managing AFS.
1053 Before attempting to shutdown an AFS fileserver you have to make some arrangements that any services that were being provided are moved to another AFS fileserver:
1055 1. ) Move all AFS volumes to another fileserver. (Check you have the space!) This can be done "live" while users are actively using files in those volumes with no detrimental effects.
1057 1. ) Make sure that critical services have been replicated on one (or more) other fileserver(s). Such services include:
1059 kaserver - Kerberos Authentication server vlserver - Volume Location server ptserver - Protection server buserver - Backup server
1061 It is simple to test this before the real shutdown by issuing:
1063 bos shutdown $server $service
1069 <dd> $server is the name of the server to be shutdown and $service is one (or all) of: kaserver vlserver ptserver buserver </dd>
1074 Other points to bear in mind:
1076 - "vos remove" any RO volumes on the server to be shutdown. Create corresponding RO volumes on the 2nd fileserver after moving the RW. There are two reasons for this:
1078 1. 1. An RO on the same partition ("cheap replica") requires less space than a full-copy RO.
1080 1. 1. Because AFS always accesses RO volumes in preference to RW, traffic will be directed to the RO and therefore quiesce the load on the fileserver to be shutdown.
1082 - If the system to be shutdown has the lowest IP address there may be a brief delay in authenticating because of timeout experienced before contacting a second kaserver.
1084 ### <a name="3.12 How can I set up mail deli"></a> 3.12 How can I set up mail delivery to users with $HOMEs in AFS?
1086 There are many ways to do this. Here, only two methods are considered:
1088 Method 1: deliver into local filestore
1090 This is the simplest to implement. Set up your mail delivery to append mail to /var/spool/mail/$USER on one mailserver host. The mailserver is an AFS client so users draw their mail out of local filestore into their AFS $HOME (eg: inc).
1092 Note that if you expect your (AFS unauthenticated) mail delivery program to be able to process .forward files in AFS $HOMEs then you need to add "system:anyuser rl" to each $HOMEs ACL.
1096 + Simple to implement and maintain. + No need to authenticate into AFS.
1100 - It doesn't scale very well. - Users have to login to the mailserver to access their new mail. - Probably less secure than having your mailbox in AFS. - System administrator has to manage space in /var/spool/mail.
1102 Method 2: deliver into AFS
1104 This takes a little more setting up than the first method.
1106 First, you must have your mail delivery daemon AFS authenticated (probably as "postman"). The reauth example in afs-contrib shows how a daemon can renew its token. You will also need to setup the daemon startup soon after boot time to klog (see the -pipe option).
1108 Second, you need to set up the ACLs so that "postman" has lookup rights down to the user's $HOME and "lik" on $HOME/Mail.
1112 + Scales better than first method. + Delivers to user's $HOME in AFS giving location independence. + Probably more secure than first method. + User responsible for space used by mail.
1116 - More complicated to set up. - Need to correctly set ACLs down to $HOME/Mail for every user. - Probably need to store postman's password in a file so that the mail delivery daemon can klog after boot time. This may be OK if the daemon runs on a relatively secure host.
1118 An example of how to do this for IBM RISC System/6000 is auth-sendmail. A beta test version of auth-sendmail can be found in:
1120 <file:///afs/transarc.com/public/afs-contrib/doc/faq/auth-sendmail.tar.Z> <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/auth-sendmail.tar.Z>
1122 ### <a name="3.13 Should I replicate a _Read"></a> 3.13 Should I replicate a [[ReadOnly]] volume on the same partition
1124 and server as the [[ReadWrite]] volume?
1126 Yes, Absolutely! It improves the robustness of your served volumes.
1128 If [[ReadOnly]] volumes exist (note use of term **exist** rather than **are available**), Cache Managers will **never** utilize the [[ReadWrite]] version of the volume. The only way to access the RW volume is via the "dot" path (or by special mounting).
1130 This means if **all** RO copies are on dead servers, are offline, are behind a network partition, etc, then clients will not be able to get the data, even if the RW version of the volume is healthy, on a healthy server and in a healthy network.
1132 However, you are **very** strongly encouraged to keep one RO copy of a volume on the **same server and partition** as the RW. There are two reasons for this:
1134 1. ) The RO that is on the same server and partition as the RW is a clone (just a copy of the header - not a full copy of each file). It therefore is very small, but provides access to the same set of files that all other (full copy) [[ReadOnly]] volume do. Transarc trainers refer to this as the "cheap replica".
1136 1. ) To prevent the frustration that occurs when all your ROs are unavailable but a perfectly healthy RW was accessible but not used.
1138 If you keep a "cheap replica", then by definition, if the RW is available, one of the RO's is also available, and clients will utilize that site.
1140 ### <a name="3.14 Should I start AFS before"></a><a name="3.14 Should I start AFS before "></a> 3.14 Should I start AFS before NFS in /etc/inittab?
1142 Yes, it is possible to run both AFS and NFS on the same system but you should start AFS first.
1144 In IBM's AIX 3.2, your /etc/inittab would contain:
1146 rcafs:2:wait:/etc/rc.afs > /dev/console 2>&1 # Start AFS daemons rcnfs:2:wait:/etc/rc.nfs > /dev/console 2>&1 # Start NFS daemons
1148 With AIX, you need to load NFS kernel extensions before the AFS KEs in /etc/rc.afs like this:
1150 #!/bin/sh - # example /etc/rc.afs for an AFS fileserver running AIX 3.2 # echo "Installing NFS kernel extensions (for AFS+NFS)" /etc/gfsinstall -a /usr/lib/drivers/nfs.ext echo "Installing AFS kernel extensions..." D=/usr/afs/bin/dkload $\{D\}/cfgexport -a $\{D\}/export.ext $\{D\}/cfgafs -a $\{D\}/afs.ext /usr/afs/bin/bosserver &
1152 ### <a name="3.15 Will AFS run on a multi-ho"></a> 3.15 Will AFS run on a multi-homed fileserver?
1154 (multi-homed = host has more than one network interface.)
1156 Yes, it will. However, AFS was designed for hosts with a single IP address. There can be problems if you have one host name being resolved to several IP addresses.
1158 Transarc suggest designating unique hostnames for each network interface. For example, a host called "spot" has two tokenring and one ethernet
1161 <dt> interfaces</dt>
1162 <dd> spot-tr0, spot-tr1, spot-en0. Then, select which interface will be used for AFS and use that hostname in the [[Main/CellServDB]] file (eg: spot-tr0). </dd>
1165 You also have to remember to use the AFS interface name with any AFS commands that require a server name (eg: vos listvol spot-tr0).
1167 There is a more detailed discussion of this in the August 1993 issue of "Cache Update" (see: <ftp://ftp.transarc.com/pub/afsug/newsletter/aug93>).
1169 The simplest way of dealing with this is to make your AFS fileservers single-homed (eg only use one network interface).
1171 At release 3.4 of AFS, it is possible to have multi-homed fileservers (but _not_ multi-homed database servers).
1173 ### <a name="3.16 Can I replicate my user's"></a><a name="3.16 Can I replicate my user's "></a> 3.16 Can I replicate my user's home directory AFS volumes?
1177 Users with $HOMEs in /afs normally have an AFS [[ReadWrite]] volume mounted in their home directory.
1179 You can replicate a RW volume but only as a [[ReadOnly]] volume and there can only be one instance of a [[ReadWrite]] volume.
1181 In theory, you could have RO copies of a user's RW volume on a second server but in practice this won't work for the following reasons:
1183 a) AFS has built-in bias to always access the RO copy of a RW volume. So the user would have a [[ReadOnly]] $HOME which is not too useful!
1185 b) Even if a) was not true you would have to arrange frequent synchronisation of the RO copy with the RW volume (for example: "vos release user.fred; fs checkv") and this would have to be done for all such user volumes.
1187 c) Presumably, the idea of replicating is to recover the $HOME in the event of a server crash. Even if a) and b) were not problems consider what you might have to do to recover a $HOME:
1189 1. 1. ) Create a new RW volume for the user on the second server (perhaps named "user.fred.2").
1191 1. 1. ) Now, where do you mount it?
1193 The existing mountpoint cannot be used because it already has the [[ReadOnly]] copy of the original volume mounted there.
1195 Let's choose: /afs/MyCell/user/fred.2
1197 1. 1. ) Copy data from the RO of the original into the new RW volume user.fred.2
1199 1. 1. ) Change the user's entry in the password file for the new $HOME: /afs/MyCell/user/fred.2
1201 You would have to attempt steps 1 to 4 for every user who had their RW volume on the crashed server. By the time you had done all of this, the crashed server would probably have rebooted.
1203 The bottom line is: you cannot replicate $HOMEs across servers.
1205 ### <a name="3.17 Which TCP/IP ports and pro"></a> 3.17 Which TCP/IP ports and protocols do I need to enable
1207 in order to operate AFS through my Internet firewall?
1209 Assuming you have already taken care of nameserving, you may wish to use an Internet timeserver for Network Time Protocol [35] [36]:
1213 A list of NTP servers is available via anonymous FTP from: <http://www.eecis.udel.edu/~mills/ntp/servers.html>
1215 For further details on NTP see: <http://www.eecis.udel.edu/~ntp/>
1217 For a "minimal" AFS service which does not allow inbound or outbound klog:
1219 fileserver 7000/udp cachemanager 7001/udp ptserver 7002/udp vlserver 7003/udp kaserver 7004/udp volserver 7005/udp reserved 7006/udp bosserver 7007/udp
1221 (Ports in the 7020-7029 range are used by the AFS backup system, and won't be needed by external clients performing simple file accesses.)
1223 Additionally, for "klog" to work through the firewall you need to allow inbound and outbound UDP on ports >1024 (probably 1024<port<2048 would suffice depending on the number of simultaneous klogs).
1225 See also: <http://www-archive.stanford.edu/lists/info-afs/hyper95/0874.html>
1227 ### <a name="3.18 What is the Andrew Benchma"></a> 3.18 What is the Andrew Benchmark?
1229 "It is a script that operates on a collection of files constituting an application program. The operations are intended to represent typical actions of an average user. The input to the benchmark is a source tree of about 70 files. The files total about 200 KB in size. The benchmark consists of five distinct phases:
1231 I [[MakeDir]] - Construct a target subtree that is identical to the source subtree. II Copy - Copy every file from the source subtree to the target subtree. III [[ScanDir]] - Traverse the target subtree and examine the status of every file in it. IV [[ReadAll]] - Scan every byte of every file in the target subtree. V Make - Complete and link all files in the target subtree."
1233 Source: <file:///afs/transarc.com/public/afs-contrib/doc/benchmark/Andrew.Benchmark.ps> <ftp://ftp.transarc.com/pub/afs-contrib/doc/benchmark/Andrew.Benchmark.ps>
1235 ### <a name="3.19 Is there a version of HP V"></a> 3.19 Is there a version of HP VUE login with AFS authentication?
1237 Yes, the availability of this is described in: <file:///afs/transarc.com/public/afs-contrib/pointers/HP-VUElogin.txt> <ftp://ftp.transarc.com/pub/afs-contrib/pointers/HP-VUElogin.txt>
1239 U If you don't have access to the above, please contact Rajeev Pandey U of Hewlett Packard whose email address is <rpandey@cv.hp.com>.
1241 ### <a name="3.20 How can I list which clien"></a> 3.20 How can I list which clients have cached files from a server?
1243 By using the following script:
1248 # AUTHOR Rainer Toebbicke <rtb@dxcern.cern.ch>
1250 # PURPOSE Display AFS clients which have grabbed files from a server
1253 echo "Usage: $0 <afs_server 1> ... <afsserver n>"
1257 /usr/afsws/etc/rxdebug -servers $n -allconn
1258 done | grep '^Connection' | \
1259 while read x y z ipaddr rest; do echo $ipaddr; done | sort -u |
1260 while read ipaddr; do
1262 n="`nslookup $ipaddr`"
1270 ### <a name="3.21 Do Backup volumes require"></a><a name="3.21 Do Backup volumes require "></a> 3.21 Do Backup volumes require as much space as [[ReadWrite]] volumes?
1274 The technique used is to create a new volume, where every file in the RW copy is pointed to by the new backup volume. The files don't exist in the BK, only in the RW volume. The backup volume therefore takes up very little space.
1276 If the user now starts modifying data, the old copy must not be destroyed.
1278 There is a Copy-On-Write bit in the vnode - if the fileserver writes to a vnode with the bit on it allocates a new vnode for the data and turns off the COW bit. The BK volume hangs onto the old data, and the RW volume slowly splits itself away over time.
1280 The BK volume is re-synchronised with the RW next time a "vos backupsys" is run.
1282 The space needed for the BK volume is directly related to the size of all files changed in the RW between runs of "vos backupsys".
1284 ### <a name="3.22 Should I run timed on my A"></a> 3.22 Should I run timed on my AFS client?
1288 The AFS Cache Manager makes use of NTP [35] [36] to synchronise time with your cell's NTP servers.
1290 Typically, one of your AFS cell's servers synchronises with an external NTP server and provides accurate time to your cell.
1292 ### <a name="3.23 Why should I keep /usr/vic"></a> 3.23 Why should I keep /usr/vice/etc/CellServDB current?
1294 On AFS clients, /usr/vice/etc/CellservDB, defines the cells and (their servers) that can be accessed via /afs.
1296 Over time, site details change: servers are added/removed or moved onto new network addresses. New sites appear.
1298 In order to keep up-to-date with such changes, the [[CellservDB]] file on each AFS client should be kept consistent with some master copy (at your site).
1300 As well as updating [[CellservDB]], your AFS administrator should ensure that new cells are mounted in your cell's root.afs volume.
1302 ### <a name="3.24 How can I keep /usr/vice/e"></a> 3.24 How can I keep /usr/vice/etc/CellServDB current?
1304 Do a daily copy from a master source and update the AFS kernel sitelist.
1306 The client [[CellServDB]] file must not reside under /afs and is best located in local filespace.
1308 Simply updating a client [[CellServDB]] file is not enough. You also need to update the AFS kernel sitelist by either:
1310 1. rebooting the client or
1311 2. running "fs newcell $cell\_name $server\_list" for each site in the [[CellServDB]] file.
1313 A script to update the AFS kernel sitelist on a running system is newCellServDB.
1315 <file:///afs/ece.cmu.edu/usr/awk/Public/newCellServDB> <ftp://ftp.ece.cmu.edu/pub/afs-tools/newCellServDB>
1317 One way to distribute [[CellServDB]] is to have a root cron job on each AFS client copy the file then run newCellServDB.
1323 # NAME syncCellServDB
1324 # PURPOSE Update local CellServDB file and update AFS kernel sitelist
1325 # USAGE run by daily root cron job eg:
1326 # 0 3 * * * /usr/local/sbin/syncCellServDB
1328 # NOTE "@cell" is a symbolic link to /afs/$this_cell_name
1330 src=/afs/@cell/service/etc/CellServDB
1331 dst=/usr/vice/etc/CellServDB
1332 xec=/usr/local/sbin/newCellServDB
1333 log=/var/log/syncCellServDB
1335 if [ -s ${src} ]; then
1336 if [ ${src} -nt ${dst} ]; then
1337 cp $dst ${dst}- && cp $src $dst && $xec 2>&1 >$log
1339 echo "master copy no newer: no processing to be done" >$log
1342 echo "zero length file: ${src}" >&2
1345 ### <a name="3.25 How can I compute a list o"></a> 3.25 How can I compute a list of AFS fileservers?
1347 Here is a Korn shell command to do it:
1349 stimpy@nick $ vos listvldb -cell $(cat /usr/vice/etc/ThisCell) | awk '(/server/) \{print $2\}' | sort -u
1351 ### <a name="3.26 How can I set up anonymous"></a> 3.26 How can I set up anonymous FTP login to access /afs?
1353 The easiest way on a primarily "normal" machine (where you don't want to have everything in AFS) is to actually mount root.cell under ~ftp, and then symlink /afs to ~ftp/afs or whatever. It's as simple as changing the mountpoint in /usr/vice/etc/cacheinfo and restarting afsd.
1355 Note that when you do this, anon ftp users can go anywhere system:anyuser can (or worse, if you're using IP-based ACLs and the ftp host is PTS groups). The only "polite" solution I've arrived at is to have the ftp host machine run a minimal [[CellServDB]] and police my ACLs tightly.
1357 Alternatively, you can make ~ftp an AFS volume and just mount whatever you need under that - this works well if you can keep everything in AFS, and you don't have the same problems with anonymous "escapes" into /afs.
1359 Unless you need to do authenticating ftp, you are _strongly_ recommended using wu-ftpdv2.4 (or better).
1361 ### <a name="3.27 Where can I find the Andre"></a> 3.27 Where can I find the Andrew Benchmark?
1363 <file:///afs/transarc.com/public/afs-contrib/doc/faq/ab.tar.Z> [156k] <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/ab.tar.Z> [156k]
1365 This is a tar archive of <file:///afs/cs.cmu.edu/user/satya/ftp/ab/>
1367 ## <a name="4 Getting more information"></a> 4 Getting more information
1369 ### <a name="4.01 Is there an anonymous FTP"></a><a name="4.01 Is there an anonymous FTP "></a> 4.01 Is there an anonymous FTP site with AFS information?
1371 Yes, it is: ftp.transarc.com
1373 A brief summary of contents:
1377 pub/afsug/newsletter AFS user group newsletters pub/afs-contrib Contributed tools and documents pub/afsps/doc release notes, SUPPORTED\_SYSTEMS.afs.\* pub/afsug AFS user group (see README for detail) pub/afsps/progint AFS programming interface docs
1379 These directories are also accessible via AFS. For example: /afs/transarc.com/public/afs-contrib
1381 (NB "pub" => "public" when using AFS to access these.)
1383 ### <a name="4.02 Which USENET newsgroups di"></a> 4.02 Which USENET newsgroups discuss AFS?
1385 alt.filesystems.afs and occasionally in comp.unix.admin.
1387 ### <a name="4.03 Where can I get training i"></a> 4.03 Where can I get training in AFS?
1389 Transarc provide user and administrator courses. These can be provided at the customer site or at Transarc's offices.
1391 Transarc's education coordinator may be contacted by:
1397 <dd> +1 412 338 4363 email: <a href="mailto:education@transarc.com">education@transarc.com</a></dd>
1402 U <http://www.transarc.com>
1404 ### <a name="4.04 Where can I find AFS resou"></a> 4.04 Where can I find AFS resources in World Wide Web (WWW)?
1406 Here are some I have found (please let me know if you find more):
1408 a) A collection of AFS information maintained by Derrick Brashear at CMU:
1410 <http://www.cs.cmu.edu/afs/andrew.cmu.edu/usr/shadow/www/afs.html> (Also accessible in: /afs/andrew.cmu.edu/usr/shadow/www)
1412 b) AFS Beginners Guide (ALW/NIH): [http://www.alw.nih.gov/Docs/AFS/AFS\_toc.html](http://www.alw.nih.gov/Docs/AFS/AFS_toc.html)
1414 c) NCSA AFS User Guide: <http://www.ncsa.uiuc.edu/Pubs/UserGuides/AFSGuide/AFSv2.1Book.html>
1416 d) Transarc AFS Product Information: U <http://www.transarc.com/dfs/public/www/htdocs/.hosts/external/Product/EFS/AFS/afsoverview.html>
1418 e) CERN AFS User's Guide: <http://wsspinfo.cern.ch/file/doc/afsug.html>
1420 f) MIT SIPB's Inessential AFS <http://web.mit.edu/afs/sipb.mit.edu/project/doc/afs/html/afs-new.html>
1422 g) Stanford University hypermail archive of <info-afs@transarc.com> <http://www-archive.stanford.edu/lists/info-afs.html>
1424 N h) Linux AFS FAQ: N <http://www.umlug.umd.edu/linuxafs/>
1426 ### <a name="4.05 Is there a mailing list fo"></a> 4.05 Is there a mailing list for AFS topics?
1428 Yes, it is <info-afs@transarc.com>.
1430 An automated program called Majordomo is now handling the info-afs list. To join the mailing list, send a message to:
1432 <majordomo@transarc.com>
1434 In the body (not the Subject line) of the message, type:
1440 $ mail -s "subscribe to info-afs" <majordomo@transarc.com> <<% subscribe info-afs %
1444 $ mail -s "unsubscribe from info-afs" <majordomo@transarc.com> <<% unsubscribe info-afs
1446 ### <a name="4.06 Where can I find an archiv"></a> 4.06 Where can I find an archive of <info-afs@transarc.com>?
1448 There is a hypermail archive at: <http://www-archive.stanford.edu/lists/info-afs.html>
1450 ### <a name="4.07 Where can I find an archiv"></a> 4.07 Where can I find an archive of alt.filesystems.afs?
1452 <file:///afs/ibm.uk/common/archive/alt.filesystems.afs/>
1454 Both the <info-afs@transarc.com> and alt.filesystems.afs archives are incomplete. If you have material to contribute, please let me know.
1456 ### <a name="4.08 Where can I find AFS relat"></a> 4.08 Where can I find AFS related GIFs?
1458 U <file:///afs/transarc.com/public/afs-contrib/doc/faq/images/index.html> U <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/images/index.html>
1460 ### <a name="4.09 Gibt es eine deutsche AFS"></a><a name="4.09 Gibt es eine deutsche AFS "></a> 4.09 Gibt es eine deutsche AFS Benutzer Gruppe?
1462 Ja, wenn Sie mitmachen wollen, schicken Sie bitte eine E-Mail an:
1464 <afsdeu-request@hrz.th-darmstadt.de>
1466 Ueber diese Adresse werden "subscribe" und "unsubscribe" Requests bearbeitet.
1468 ### <a name="4.10 Donde puedo encontrar info"></a> 4.10 Donde puedo encontrar informacion en Espanol sobre AFS?
1470 Hay algunas notas en Espanol sobre AFS en: <http://w3.ing.puc.cl/~cet/afs.html>
1472 ## <a name="5 About the AFS faq"></a> 5 About the AFS faq
1474 I started compiling the FAQ after attending an AFS administrators class and while waiting for the distribution tape to arrive from Transarc (back in July 93). The initial goal was to assist users at my site to understand AFS issues.
1476 The FAQ seemed to be a more widely useful resource so it was made generally available.
1478 I hope you have found the AFS FAQ useful.
1480 Your criticism or suggestions for improving it are welcome, so please don't hesitate to email your views (or just say "hello").
1482 This compilation is dedicated to my AFS teacher and all those who inspire through good humour, enthusiasm, wit and wisdom. -- paul <http://acm.org/~mpb/homepage.html>
1484 ### <a name="5.01 How can I get a copy of th"></a> 5.01 How can I get a copy of the AFS faq?
1486 If you do make a copy, please be aware that this compilation changes over time: you will need to do a periodic re-copy to keep your copy up-to-date.
1488 There are two reference sources:
1490 1. ) The text only version, available via AFS from: /afs/transarc.com/public/afs-contrib/doc/faq/afs.faq
1492 1. ) The World Wide Web (HTML) version, available via URL:
1494 U <http://www.angelfire.com/hi/plutonic/afs-faq.html>
1496 There are several other ways to get a copy.
1498 via AFS: /afs/transarc.com/public/afs-contrib/doc/faq/afs.faq
1500 U via FTP: <ftp://rtfm.mit.edu/pub/usenet/news.answers/afs-faq>
1502 U via WWW: <http://www.angelfire.com/hi/plutonic/afs-faq.html>
1506 From time to time this faq will be posted to the USENET newsgroups: alt.filesystems.afs alt.answers news.answers
1510 The AFS faq is now available on CD-ROM "Internet Info" (containing
1512 1. 1. ,420 documents including other FAQs, RFCs, IENs, etc) from:
1514 Walnut Creek CDROM phone: 1 800 786-9907 (US tollfree)
1516 1. 1. 1. Pike Lane, Ste D-www +1 510 674-0783 Concord, CA 94250 fax: +1 510 674-0821 United States of America email: <orders@cdrom.com> WWW: <http://www.cdrom.com/>
1518 The file is in: $cd\_mount\_point/faqs/alt/filesystems.afs
1520 ### <a name="5.02 How can I get my question"></a><a name="5.02 How can I get my question "></a> 5.02 How can I get my question (and answer) into the AFS faq?
1522 Comments and contributions are welcome, please send to: <mpb@acm.org>
1524 I am looking for reviewers to help me check the material here, please let me know if you would like to help.
1526 ### <a name="5.03 How can I access the AFS f"></a> 5.03 How can I access the AFS faq via the World Wide Web?
1528 To access the World Wide Web you either need your own browser or have telnet access to WWW servers.
1530 WWW browsers exist for most machines. Here's a list of some browsers;
1532 Name System/requirements Available from (among others) <code>**== =================**</code> <code>**==========**</code> Mosaic X windows, MS-Windows, Mac ftp.ncsa.uiuc.edu /Web lynx vt100 ftp.wustl.edu /packages/www/lynx
1534 From your own browser, OPEN or GO to the following document:
1536 U <http://www.angelfire.com/hi/plutonic/afs-faq.html>
1538 It is much better to run your own browser but if this is not possible there are several WWW servers accessible via telnet:
1540 - telnet info.cern.ch
1542 U then type: go <http://www.angelfire.com/hi/plutonic/afs-faq.html>
1544 - telnet www.njit.edu (login: www) then type: g
1546 U <http://www.angelfire.com/hi/plutonic/afs-faq.html>
1548 - telnet ukanaix.cc.ukans.edu (login: www, needs vt100)
1550 U then type: ghttp://www.angelfire.com/hi/plutonic/afs-faq.html
1552 ## <a name="6 Bibliography"></a> 6 Bibliography
1554 If documentation is available via anonymous FTP it is indicated by a World Wide Web URL like:
1556 <ftp://athena-dist.mit.edu/pub/kerberos/doc/usenix.PS>
1558 where: athena-dist.mit.edu is the anonymous FTP site and pub/kerberos/doc/usenix.PS is the filename
1560 Similarly, for those who have appropriate access, documents available via AFS are shown with the format:
1564 [1] John H Howard, Michael L Kazar, Sherri G Menees, David A Nichols, M Satyanarayanan, Robert N Sidebotham, Michael J West "Scale and Performance in a Distributed File System", ACM Transactions on Computer Systems, Vol. 6, No. 1, Feb 1988 pp 51-81.
1566 [2] Michael L Kazar, "Synchronisation and Caching Issues in the Andrew File System", USENIX Proceedings, Dallas, TX, Winter 1988
1568 [3] Alfred Z Spector, Michael L Kazar, "Uniting File Systems", UNIX Review, March 1989
1570 [4] Johna Till Johnson, "Distributed File System brings LAN Technology to WANs", Data Communications, November 1990, pp 66-67.
1572 [5] Michael Padovano, PADCOM Associates, "AFS widens your horizons in distributed computing", Systems Integration, March 1991
1574 [6] Steve Lammert, "The AFS 3.0 Backup System", LISA IV Conference Proceedings, Colorado Springs, Colorado, October 1990.
1576 [7] Michael L Kazar, Bruce W Leverett, Owen T Anderson, Vasilis Apostolides, Beth A Bottos, Sailesh Chutani, Craig F Everhart, W Anthony Mason, Shu-Tsui Tu, Edward R Zayas, "DEcorum File System Architectural Overview", USENIX Conference Proceedings, Anaheim, Texas, Summer 1990.
1578 [8] "AFS Drives DCE Selection", Digital Desktop, Vol 1 No 6 Sept 1990.
1580 [9] James J Kistler, M Satyanarayanan, "Disconnected Operation in the Coda Filesystem", CMU School of Computer Science technical report, CMU-CS-91-166 26th July 1991.
1582 [10] Puneet Kumar. M Satyanarayanan, "Log-based Directory Resolution in the Coda File System", CMU School of Computer Science internal document, 2 July 1991.
1584 [11] Edward R Zayas, "Administrative Cells: Proposal for Cooperative Andrew File Systems", Information Technology Center internal document, Carnegie-Mellon University, 25th June 1987
1586 [12] Ed Zayas, Craig Everhart, "Design and Specification of the Cellular Andrew Environment", Information Technology Center, Carnegie-Mellon University, CMU-ITC-070, 2 August 1988
1588 [13] Kazar, Michael L, Information Technology Center, Carnegie-Mellon University, "Ubik - A library for Managing Ubiquitous Data", ITCID, Pittsburgh, PA, 1988
1590 [14] Kazar, Michael L, Information Technology Center, Carnegie-Mellon University, "Quorum Completion", ITCID, Pittsburgh, PA, 1988
1592 [15] SP Miller, BC Neuman, JI Schiller, JH Saltzer, "Kerberos Authentication and Authorization System", Project Athena technical Plan, Section E.2.1, MIT, December 1987 <ftp://athena-dist.mit.edu/pub/kerberos/doc/techplan.PS> <ftp://athena-dist.mit.edu/pub/kerberos/doc/techplan.txt> <file:///afs/watson.ibm.com/projects/agora/papers/kerberos/techplan.PS>
1594 [16] Bill Bryant, "Designing an Authentication System: a Dialogue in Four Scenes", Project Athena internal document, MIT, draft of 8th February 1988 <ftp://athena-dist.mit.edu/pub/kerberos/doc/dialogue.PS> <ftp://athena-dist.mit.edu/pub/kerberos/doc/dialogue.mss> <file:///afs/watson.ibm.com/projects/agora/papers/kerberos/dialogue.PS>
1596 [17] Edward R Zayas, "AFS-3 Programmer's Reference: Architectural Overview", Transarc Corporation, FS-00-D160, September 1991 <ftp://ftp.transarc.com/pub/afsps/doc/progint/archov-doc.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/archov-doc.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/archov-doc.ps> <file:///afs/transarc.com/public/afsps/doc/progint/archov-doc.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/archov-doc.ps>
1598 [18] "AFS Programmer's Reference: Authentication Server Interface", Transarc Corporation, 12th April 1993 <ftp://ftp.transarc.com/pub/afsps/doc/progint/asrv-ispec.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/asrv-ispec.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/asrv-ispec.ps> <file:///afs/transarc.com/public/afsps/doc/progint/asrv-ispec.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/asrv-ispec.ps>
1600 [19] Edward R Zayas, "AFS-3 Programmer's Reference: BOS Server Interface", Transarc Corporation, FS-00-D161, 28th August 1991 <ftp://ftp.transarc.com/pub/afsps/doc/progint/bsrv-spec.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/bsrv-spec.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/bsrv-spec.ps> <file:///afs/transarc.com/public/afsps/doc/progint/bsrv-spec.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/bsrv-spec.ps>
1602 [20] Edward R Zayas, "AFS-3 Programmer's Reference: File Server/Cache Manager Interface", Transarc Corporation, FS-00-D162, 20th August 1991 <ftp://ftp.transarc.com/pub/afsps/doc/progint/fscm-ispec.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/fscm-ispec.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/fscm-ispec.ps> <file:///afs/transarc.com/public/afsps/doc/progint/fscm-ispec.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/fscm-ispec.ps>
1604 [21] Edward R Zayas, "AFS-3 Programmer's Reference: Specification for the Rx Remote Procedure Call Facility", Transarc Corporation, FS-00-D164, 28th August 1991 <ftp://ftp.transarc.com/pub/afsps/doc/progint/rx-spec.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/rx-spec.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/rx-spec.ps> <file:///afs/transarc.com/public/afsps/doc/progint/rx-spec.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/rx-spec.ps>
1606 [22] Edward R Zayas, "AFS-3 Programmer's Reference: Volume Server/Volume Location Server Interface", Transarc Corporation, FS-00-D165, 29th August 1991 <ftp://ftp.transarc.com/pub/afsps/doc/progint/vvl-spec.ps> <ftp://ftp.transarc.com/pub/afsps/doc/progint/vvl-spec.dvi> <file:///afs/transarc.com/public/afsps/doc/progint/vvl-spec.ps> <file:///afs/transarc.com/public/afsps/doc/progint/vvl-spec.dvi> <file:///afs/watson.ibm.com/projects/agora/papers/afs/vvl-spec.ps>
1608 [23] "AFS User Guide", Transarc Corporation, FS-D200-00.08.3
1610 [24] "AFS Commands Reference Manual", Transarc Corporation, FS-D200-00.11.3
1612 [25] "AFS Systems Administrators Guide", Transarc Corporation, FS-D200-00.10.3
1614 [26] Steven M. Bellovin, Michael Merritt "Limitations of the Kerberos Authentication System", Computer Communications Review, October 1990, Vol 20 #5, pp. 119-132 [ftp://research.att.com/dist/internet\_security/kerblimit.usenix.ps](ftp://research.att.com/dist/internet_security/kerblimit.usenix.ps) <file:///afs/watson.ibm.com/projects/agora/papers/kerberos/limitations.PS>
1616 [27] Jennifer G. Steiner, Clifford Neuman, Jeffrey I. Schiller "Kerberos: An Authentication Service for Open Network Systems" <ftp://athena-dist.mit.edu/pub/kerberos/doc/usenix.PS> <ftp://athena-dist.mit.edu/pub/kerberos/doc/usenix.txt>
1618 [28] Barry Jaspan "Kerberos Users' Frequently Asked Questions" <ftp://rtfm.mit.edu/pub/usenet/news.answers/kerberos-faq/user> <http://www.ov.com/misc/krb-faq.html>
1620 [29] P. Honeyman, L.B. Huston, M.T. Stolarchuk "Hijacking AFS" <ftp://ftp.sage.usenix.org/pub/usenix/winter92/hijacking-afs.ps.Z> [file:///afs/watson.ibm.com/projects/agora/papers/afs/afs\_hijacking.ps](file:///afs/watson.ibm.com/projects/agora/papers/afs/afs_hijacking.ps)
1622 [30] R.N. Sidebotham "Rx: Extended Remote Procedure Call" Proceedings of the Nationwide File System Workshop Information Technology Center, Carnegie Mellon University, (August 1988)
1624 [31] R.N. Sidebotham "Volumes: The Andrew File System Data Structuring Primitive" Technical Report CMU-ITC-053, Information Technology Center, Carnegie Mellon University, (August 1986)
1626 [32] Cohen, David L. "AFS: NFS on steroids", LAN Technology March 1993 v9 n3 p51(9) [ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/NFS\_on\_steroids](ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/NFS_on_steroids)
1628 [33] Marybeth Schultz "AFS Troubleshooting Tools" Transarc Corporation, January 11 1993, draft document <ftp://ftp.transarc.com/pub/afsps/doc/trguide/external.afsug.ps>
1630 [34] William Stallings "Kerberos Keeps the Enterprise Secure" Data Communications, October 1994, Vol 23 No 14 Page 103
1632 [35] DL Mills "Internet Time Synchronization: the Network Time Protocol" RFC 1129, October 1989 <ftp://nic.ddn.mil/rfc/rfc1129.ps>
1634 [36] DL Mills "Network Time Protocol (Version 3) Specification, Implementation and Analysis" RFC 1305, March 1992 <ftp://nic.ddn.mil/rfc/rfc1305.tar.Z> <ftp://nic.ddn.mil/rfc/rfc1305.txt>
1636 [37] Craig Everhart "Conventions for Names in the Service Directory in the AFS Distributed File System" March 1990 <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/service-spec.ez.ps> <ftp://ftp.transarc.com/pub/afs-contrib/doc/faq/service-spec.ez> <file:///afs/transarc.com/public/afs-contrib/doc/faq/service-spec.ez> <file:///afs/transarc.com/public/afs-contrib/doc/faq/service-spec.ez.ps>
1638 [38] AFS Programmer's Reference Manual <ftp://ftp.transarc.com/pub/afsps/doc/progref/3.0/> <file:///afs/transarc.com/public/afsps/doc/progref/3.0/>