archie/prospero/doc/manual.tex
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\begin{document}
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\begin{titlepage}
\renewcommand{\thefootnote}{}
\footnotetext{\hspace*{-21pt}
Digital copies of the latest revision of this document may be obtained
through Prospero as
\mbox{\verb"/papers/subjects/operating-systems/prospero/doc/user-manual.PS.Z"},
in the \mbox{\tt \#/INET/EDU/ISI/swa} virtual system, or through
Anonymous FTP from \mbox{\tt PROSPERO.ISI.EDU} as
\mbox{\verb"/pub/prospero/doc/prospero-user-manual.PS.Z"}
}
\footnotetext{\hspace*{-21pt}
This work was supported in part by the National Science
Foundation (Grant No. CCR-8619663), the Washington Technology Center,
Digital Equipment Corporation, and the Defense Advance Research
Projects Agency under NASA Cooperative Agreement NCC-2-539.
The views and conclusions contained in
this document are those of the authors and should not be interpreted as
representing the official policies, either expressed or implied, of
any of the funding agencies.
The authors may be reached
at USC/ISI, 4676 Admiralty Way, Marina del Rey, California\ \ 90292-6695, USA.
Telephone +1 (310) 822-1511, email \mbox{\verb"info-prospero@isi.edu"}. }
\renewcommand{\thefootnote}{\arabic{footnote}}
\vspace*{\fill}
\begin{center}
\LARGE Prospero User's Manual\\
\Large Version 5\\
\vskip 1.5em
{\large Draft of 8 July 1993} \\
{\large Document Revision No. 0.2} \\
\end{center}
\vspace{.5in}
\Large \hspace*{\fill} B. Clifford Neuman
%\footnotetext{\hspace*{-18pt}
% To Contact the Authors: \\
% Electronic Mail: \mbox{\verb"info-prospero@isi.edu"} \\
% Telephone: +1 (310) 822-1511 \\
% Mail: USC Information Sciences Institute, 4676 Admiralty Way,
% Marina del Rey, California 90292--6695\ \ U.S.A.
%}
\hfill Steven Seger Augart \hspace*{\fill} \\
\vspace{.2in}
\begin{center}
\Large Information Sciences Institute \\
University of Southern California
\end{center}
\vspace*{1.2in}
\vspace*{\fill}
\end{titlepage}
\tableofcontents
\section{Introduction}
The Prospero file system is based on the Virtual System Model.
\nocite{nfclosure,vsmldos}
% \nocite{phdneuman,vsmtp}
It differs from traditional distributed file systems in several ways.
In traditional file systems, the mapping of names to files is the same
for all users. Prospero supports user centered naming: users
construct customized views of the files that are accessible. A
virtual system defines this view and controls the mapping from names
to files. Objects may be organized in multiple ways and the same
object may appear in different virtual systems, or even with multiple
names in the same virtual system.
Prospero directories can contain references to files and directories
that are stored on remote nodes. This allows distribution at a much
finer level of granularity than is possible in traditional distributed
file systems. Prospero also provides several tools to support
customization. Among them are the union link and the filter.
\section{The Directory Mechanism}
{In \samepage Prospero, the global file system consists of a collection of {\it
virtual file systems}. Virtual file systems usually start as a copy
of a prototype. The root contains links to files or
directories\footnote{To distinguish them from directories and links in
traditional systems, and because they are often illusory, directories
and links in Prospero are sometimes referred to as virtual directories and
virtual links.} selected by the user. Directory links can be of
several types: conventional, union, and filtered.}
A conventional link is similar to a hard link in traditional file
systems. It may be made to any type of object, including a directory.
It maps a name for an object to the information needed to access the
object. As long as an unexpired link to an object exists the object
may be accessed by that name. If the object moves, a forwarding
pointer will allow continued access using the same name. An object is
only deleted when no unexpired links to it remain.
A union link can only be made to a directory. With a union link, the
objects included in the linked directory become part of the virtual
directory containing the link. Thus, the contents of a virtual
directory are the union of the collection of conventional links it
contains, and the contents of all directories included through union
links.
Filters may be attached to either type of link. A filter alters the
set of links that are seen in directories whose paths pass through the
filtered link. A filter can specify which links are to appear and
which are to be ignored, it can change the features of individual
links, or it can synthesize new links that are not in the original
directory. Client-side filters are written in C and are dynamically
linked during name resolution. A filtered link contains a reference
to the filter and any arguments required by the filter.
\section{Using the Prospero File System}
This section assumes that Prospero has already been installed on your
system. Section~\ref{new_system} describes the installation
procedure.
To use Prospero you must first determine the name of the directory
that contains the executables.\footnote{By default, the installation
directory is {\it /usr/pfs/bin}.}
\begin{itemize}
\item{CSH users} That directory
contains a file called vfsetup.source, the contents of which must be
read by the shell. This can be accomplished by {\tt source}ing it.
For example, if the Prospero file system binaries are stored in {\it
/usr/pfs/bin} you should either execute the following command or add
it to your {\it .cshrc} file:
\begin{verbatim}
source /usr/pfs/bin/vfsetup.source
\end{verbatim}
\item{SH users} That directory
contains a file called {\tt vfsetup.profil}, the contents of which must be
read by the shell. This can be accomplished with the {\tt .} command.
For example, if the Prospero file system binaries are stored in {\it
/usr/pfs/bin} you should either execute the following command or add
it to your {\it .profile} file:
\begin{verbatim}
. /usr/pfs/bin/vfsetup.profil
\end{verbatim}
\end{itemize}
Before you can begin using the Prospero file system a virtual system
must be created for you. Section~\ref{creating_vfs} explains how the Prospero
site administrator can create a new virtual system. Don't be frightened away from
experimenting by these comments! Most Prospero
sites support a {\it guest} virtual system which can be used until your
own virtual system is created. Prospero, as shipped, is configured
so that once you compile the clients you can type ``{\tt vfsetup
guest}'' and start working right out of the box using a guest virtual
system at the USC Information Sciences Institute.
To use a virtual system, you must first execute the {\tt vfsetup}
command to initialize your environment. For example, if the name of
your virtual system is {\it guest} you should execute the following
command:
\begin{verbatim}
vfsetup guest
\end{verbatim}
\section{Using the menu browser}
The menu browser provides a simple straightforward interface to the
Prospero file system.
\subsection{Starting it up}
In the simplest case, invoke it as ``{\tt menu}''. If you are vfsetup to a
virtual system and there is a directory named {\tt /MENU} in that virtual
system, it will use that directory. If you have not run the {\tt
vfsetup} command or if there is no link named {\tt /MENU} in the
current virtual system, it will bring up the default menu for your
site. We have set up a default menu for people who compile Prospero
to use the default site, the ISI guest site.
If you are already vfsetup to a virtual system, you can invoke the
menu browser as ``{\tt menu {\it linkname}}''. The browser will
display the Prospero directory {\it linkname} as its root menu.
\subsection{Using it}
The browser will display a numbered list showing the contents of the
directory. The items in the list will be followed by one of four
characters:
\begin{itemize}
\item[{\tt .}] A file. If it is a data file, you will be able to retrieve
it and save it. If it is a text file, you can retrieve it and view
it, and then have the option of mailing it, saving it, or printing it.
\item[{\tt $>$}] A directory (submenu). You can select it to see the
contents, and then type {\tt u} to go up to the previous menu.
\item[{\tt \verb"]"}] A portal. This represents a service you will have to
connect to via {\em telnet} or some similar protocol. Select it in
order to receive some instructions and begin a {\em telnet} session.
\item[{\tt :}] A search. It will display some initiali documentation. It may
ask you to select among several possible searches, and will then
prompt you for what you are searching for. Later versions of the menu
browser will check what you type at the prompts to make sure the
format is correct. Type {\tt ?} at the
beginning of any line in order to receive further documentation about
the meaning of that line.\footnote{If you want to search for an item
beginning with a literal {\tt ?}, then precede it with a backslash to
escape it. %type {\tt \verb"\"?}}.
If you want to search for something beginning with a backslash, then precede it with
another backslash to excape it.
%beginning with a literal \verb"\", then type \verb"\\".
}
The results of the search will be displayed as a new menu that
contains a list of the items that matched the search, possibly
including subdirectories.\footnote{N.B.: If you make a search that is relayed
through the Prospero/Gopher gateway, you may be immediately presented with a
submenu containing a single item, and will have to open that item to
see the results of your search.}
\end{itemize}
Type the number of the item you wish to explore in order to explore
that item. Type {\tt q} to quit.
\subsection{Making your own menus}
The main current deficiency of the menu browser interface is that at
the moment the browser is read-only. For now, you will have to learn
a bit about the command-line client interface in order to set up new
directories under Prospero, in order to change the names of menu
items, and in order to create new links. We are currently working to
put most of the power of the command line interface into the menu
browser so that one does not have to use two user interfaces for most
purposes.
To make your own menus, you will have to learn the {\tt set\_atr}
command, to set attributes on objects, the {\tt vln} command, to make
new links, and the {\tt vmkdir} command, to make subdirectories.
\section{Using the command-line clients}
\subsection{File Names}
The slash, colon, pound sign, open and close parenthesis, and backslash
({\tt /, :, \#, (, ),} and \verb"\") are special characters in
Prospero. The slash separates components of file names and the colon
separates information identifying a virtual system from the name of a
file within the virtual system. These characters should not appear in
any component of a file name unless they have been quoted.
All special characters, including the backslash, can be quoted by
preceding them with a backslash. This is important to know,
especially when you're working with names returned by the Prospero
GOPHER-GW gateway; those names often contain colons, slashes, and other special
symbols.
The slash is used in user-level names to indicate moving into a
subdirectory, just as it does in {\sc unix}-like operating systems.
This is the only important special character to know about upon the
first reading of this document; the others are more specialized.
By default, names are resolved relative to the active virtual system.
If a colon ({\tt :}) appears in a name, the name is resolved relative
to the name space identified preceding the colon. If the character
preceding the colon is a pound sign ({\tt \#}), then the name
preceding the pound sign will be treated as an alias for a previously
specified virtual system. For this reason, virtual systems should not
have names ending in a pound sign. A double colon ({\tt ::}) is the
closure operator. When encountered, the name space identified by the
{\sc closure} attribute\footnote{See the Attributes appendix to the Prospero
Protocol specification for the definition of this attribute} of the
object named before the double colon is used to resolve the name that
follows.
The pound sign ({\tt \#}) is also used to resolve name conflicts when
the same component of a name is used by more than one object. In this
case the pound sign is followed by the magic number of the desired
object. For this reason, unless quoted, the pound sign should not be
used in a component of a file name if followed by a number (including
sign), and if there are no intervening non-numeric characters between
the pound sign and the end of the component.
The pound sign ({\tt \#}) is additionally used to indicate that a
particular named union link is to be followed when resolving a name,
or to indicate that a filter is to be applied. In these cases, the
pound sign is the first character of a component in a name and it is
followed by the name of the union link to be followed or the name of
the filter to be applied. For this reason, unless quoted, the pound
sign should not be used as the first character in a component of a
file name (unless the full name of the component is {\tt \#}).
The open and close parenthesis ({\tt (} and {\tt )}) are used to
delimit the arguments to a filter specified as part of a file name.
The arguments immediately follow the name of the filter (which itself
follows a single or double pound sign). If the filter name follows a
single pound sign, it is a client-side filter. If the filter name
follows a double pound sign, it is a server-side filter.
Therefore, it follows that if the name of a union link ends in a {\tt
)}, and it is explicitly specified as part of path name, the {\tt )}
must be quoted.
We have not yet specified a syntax for
differentiating between client-side pre-expansion and post-expansion
filters, nor for differentiating among directory, hierarchy, object,
update, and link filters.
If no arguments are required, the null argument list {\tt ()} must be
included. These uses of the \# convention to specify a filter is not
currently supported.
\paragraph{Loadable Filters}
The above filter syntax works for predefined filters. Loadable
filters are not currently used. The working definition of their
syntax, which is being redefined due to it being difficult to parse,
is: If the filter name contains an unquoted colon or slash, then it is
interpreted as a loadable filter. If the filter name does not, it is
interpreted as a predefined filter. Note that you can specify a
loadable filter in the current virtual directory by prefixing its name
with the sequence {\tt ./}.
\subsection{Finding Things}
The Prospero file system provides tools that make it easier to keep
track of and organize information in large systems. When first
created, your virtual file system is likely to contain links to
directories that organize information in different ways. As the
master copy of each of these directories is updated, you will see the
changes. You may customize these directories. The changes you make
to a customized directory are only seen from within your own virtual
system, but changes made to the master copy will also be visible to
you. See section~\ref{customizing} for instructions on customizing a
directory.
Users are encouraged to organize their own projects and papers in a
manner that will allow them to be easily added to the master
directory. For example, users should consider creating a virtual
directory that contains pointers to copies of each of the papers that
they want made available to the outside world. This virtual directory
may appear anywhere in the user's virtual system. Once set up, a link
may be added to the master author directory. In this manner, others
will be able to find this directory. Once added to the master
directory, any future changes will be immediately available to other
users.
To add a link to the master copy of any of the shared directories,
send a message to your site administrator. The address should be {\it
pfs-administrator} on the primary system for the site. If you are
using a virtual system stored at the USC Information Sciences Institute, the
address would be {\it pfs-administrator@isi.edu}.
\subsection{The Commands}
This section
%steps though the process of creating and using a virtual file system.
%It
assumes that the Prospero file system has been installed on the system
being used. Later sections explain how to install the Prospero file
system at a new site and on individual systems.
Most of the commands that are specific to the Prospero file system
take a debug option. The form is {\em -D\#} where \# is an optional
integer and specifies the level of detail. The higher the integer,
the greater the detail. By itself, {\em -D} sets the debugging level
to 1. Debugging levels of 9 and above display the actual Prospero
protocol messages that go across the network.
\subsubsection{Initialization and Changing Virtual Systems}
\begin{verbatim}
vfsetup [-n host path , [-r,v] name , -f file]
\end{verbatim}
The {\tt vfsetup}\footnote{Because it changes environment variables,
this command only has an affect when its output is read by the shell.
If {\it vfsetup.source} has been {\tt source}ed, then {\tt vfsetup} is
an alias which will call the {\it vfsetup} executable in the
appropriate manner.} command sets up the selected virtual system. It
adds the appropriate directories to the search path and sets all
necessary environment variables. {\tt vfsetup} can be called in
several ways. With no arguments, it reads the file {\it
\verb+~+/.virt-sys} and uses the information found to access the
virtual system description. The {\em -v} option takes the name of the
virtual directory containing the system description. The {\em -n}
option takes the name of a host and the physical name of the virtual
directory on that host that contains the virtual system description.
The {\em -f} option takes the name of a Unix file that is to be read
in place of {\it \verb+~+/.virt-sys}.
It is also possible to set up a virtual system by specifying its name.
If the {\em -r} option is specified, the name is taken to be the
default name for the virtual system at the local site. If the name is
specified without a modifier, the name is looked up in the {\sc
/virtual-systems} directory of the presently active virtual system
(the site default is used if no virtual system is presently active).
For example, if the name of your virtual system is {\it guest} you can
set up the virtual system using following command.
\begin{verbatim}
vfsetup guest
\end{verbatim}
\subsubsection{Creating Directories}
\begin{verbatim}
vmkdir directory
\end{verbatim}
{\tt vmkdir} creates a virtual directory with the selected name and
adds a link from its parent directory.
\subsubsection{Adding and Deleting Links}
\paragraph{vln}
\begin{verbatim}
vln [-i, -u, -s, -m, -a] {-e access-method-info, -n host hsoname, linkname } newname
\end{verbatim}
{\tt vln} adds a new link to a directory. {\em oldname} is an
existing name for the object to which the link is to be made. {\em
newname} is the name of the new link. The {\em -u} option indicates
that the new link is to be a union link. The {\em -s} option is used
to specify a symbolic link. The {\em -i} option is used to specify an
invisible link which will not be displayed in a normal directory listing.
The {\em -n} option (short for {\em native}) requires the specification of the
name of the host containing the target. The {\em -n} option indicates
that the native information for the target has been specified. {\em
host} is the name of the host on which the target resides and {\em
oldname} is the name of the target on that host. If the {\em -s}
option has also been specified, then {\em host} is the name of the
virtual system to which oldname is relative.
The {\em -e access-method-info} (external) option indicates that the
object resides on a host that does not run Prospero. There are are
number of possible values for the {\em access-method-info}:
\begin{description}
\item[GOPHER {\em host}({\em port}) {\em gopher-selector} \{BINARY {\em or} TEXT\}]
This access method indicates that the object can be retrieved by
sending the selector string {\em gopher-selector} to a server running
at port {\em port} on host {\em host}. You must specify whether you
want the object to be retrieved using the Gopher binary or text
retrieval methods.
\item[TELNET {\em host}[({\em optional-port})] {\em introductory-message}]
If you do not provide a port inside parentheses, then the default {\em
telnet} port will be used. The {\em introductory-message} will be
displayed before the user connects to the service. For example:
\begin{quote}
Type {\tt LAX} at the prompt in order to get the current Los Angeles weather
forecast; type {\tt X} to quit.
\end{quote}
\item[AFTP {\em host} {\em path} \{BINARY {\em or} TEXT\}] This access method
specifies that the object can be retrieved via anonymous FTP, using
either the {\em binary} or {\em text} retrieval methods.
\item[AFS {\em afs-path}] This access method specifies that the object is
available through the Andrew File System. Its name via {\sc afs} is {\em
afs-path}. You should not precede the {\em afs-path} with {\tt
/nfs/afs}, {\tt /afs}, or whatever the prefix is that your local
system prepends to {\sc afs} names.
\item[{\em \#-of-access-method-args} {\em method-name} \\
{\em host-type} {\em host} {\em hsoname-type} {\em hsoname} {\em any additional args}]
This type is used to provide an explicit value for the {\sc access-method}
attribute. See appendix A of the Prospero protocol specification for
a discussion of the format of this attribute.
\end{description}
Note that some of the host names specified in these access methods may
include a port number inside parentheses. You will probably have to
quote the port number so that whatever shell you use does not
interpret it in a way you don't expect.
\subparagraph{Some examples of making links}
Here I'm making an external Gopher TEXT link to a recipie:
\begin{verbatim}
vln -e GOPHER 'ashpool.micro.umn.edu(70)' 0/fun/Recipes/Balls/rum-balls TEXT rum-balls
\end{verbatim}
I can now retrieve this document with {\tt vget} or by running ``{\tt
menu .}''.
Here I'm making a link to a telnettable service. In this case, I have
decided to make the {\em introductory-message} a null string, since
the service I'm linking to has its own excellent documentation facilities:
\begin{verbatim}
vln -e TELNET 'DOWNWIND.SPRL.UMICH.EDU(3000)' '' weather
set_atr weather OBJECT-INTERPRETATION PORTAL
\end{verbatim}
In this case, I also had to run {\tt set\_atr} so that the menu
browser would know this was a {\sc PORTAL}.
Here I'm making a native link to a directory gatewayed through the ISI
Gopher gateway (shipped as part of this distribution). Note that we are
currently providing a demonstration Gopher gateway on Prospero server
on ZEPHYR.ISI.EDU, port 1570.
\begin{verbatim}
vln -n 'ZEPHYR.ISI.EDU(1570)' 'GOPHER-GW/GOPHER.MICRO.UMN.EDU(70)/1/' minnesota-root-gopher
\end{verbatim}
\subparagraph{Specialized capabilities for Closure}
If the standard input to {\tt vln} has been redirected, the input will
be searched for a line of the form ``Virtual-system-name: vs-name''.
If found, {\em oldname} will be relative to the virtual system which
has been read from (closed with) the input. If the {\em -m} option
has been specified, the input will be additionally searched for a line
for the form ``Virtual-file-name: filename''. If found, {\em
filename} will be used in place of {\it oldname}. The reading of the
standard input can be suppressed by specifying the {\em -a} option, in
which case the currently active virtual system will be used.
\paragraph{vrm}
\begin{verbatim}
vrm link
\end{verbatim}
{\tt vrm} removes the named link from a directory. It is important to
note that {\tt vrm} only removes the link. The object will continue
to exist if there are any additional links to it. If there are none,
then the object will become subject to garbage collection at a future
time.
Another important thing to note is that {\tt vrm} will only remove a link
if it exists in the directly indicated directory. You may be confused
by {\tt vrm} claiming that a link is not present when you can see it
quite clearly via {\tt als} or {\tt vls} or {\tt menu}. This problem
arises because the link you're seeing is actually included via a union
link. Use the {\em -u} flag to {\tt vls} to see if this is the case.
You can use the {\em -u} flag to {\tt vcd} to put yourself into the
directory that actually contains the link and try the {\tt vrm} again.
This problem also often arises with the {\tt list\_acl}, {\tt
set\_acl}, and {\tt set\_atr} commands, and it has the same solution.
\subsubsection{Listing Directories}
Virtual directories may be listed using the {\tt als} command or {\tt
vls}. {\tt als} produces straightforward output similar to that
produced by the standard {\sc unix} {\tt ls} utility. We recommend
its use. {\tt vls} produces more complex output and is more useful
for maintaining directories than for exploring them. Of course, if
one is interested in browsing, in our opinion invoking the menu
broswer program on the current directory (to do this, invoke it as
{\tt menu .}) gives one the most straightforward user interface.
\begin{verbatim}
vls [-A, -a,-c,-f,-i,-u,-v] [ -A attribute ] [-a attribute ] [path]
\end{verbatim}
{\tt vls} takes the virtual path name for a file or directory. If the
path is for a directory, the links within that directory are
displayed. If the path is for any other type of object, then the
information for the named link is displayed.
By default, {\tt vls} displays for each link the link name (i.e., the
local component of the path name) and the target of the link. The
target of the link is generally a host and a name relative to that
host.\footnote{
We call these names Host-Specific Object Names, or {\sc hsoname}s.}
Some special characters may precede the link name; their meanings are:
\begin{itemize}
\item[U] This is a union link (always to a DIRECTORY or
DIRECTORY+FILE). Usually only shown if {\it -u} flag was specified,
unless expanding the link failed.
\item[I] for an invisible link (only shown if {\it -i} flag specified)
(could be to a FILE, DIRECTORY, or DIRECTORY+FILE).
\item[blank (' ')] if a normal link to a FILE.
\item[S] for SYMBOLIC
\item[E] for EXTERNAL (to an object on a host that does not run
Prospero)
\item[N] for NULL (returned if inadequate permissions),
\item[D] for DIRECTORY
\item[B] (Both) for DIRECTORY+FILE
\item[O] for OBJECT (neither a DIRECTORY nor a FILE, just something
that can have attributes associated with it.)
\item[*] Indicates that a filter is associated with the
link.
\item[F] Expanding this union link failed.
\end{itemize}
The {\em -v} option causes the object type, and the type of each field
to be displayed, and it lists the filters associated with the link.
It also prevents the truncation of fields that are too long to be
cleanly displayed without the {\em -v} option.
The {\em -u} option indicates that union links are not to be expanded.
By default, union links are expanded, and the results of that
expansion displayed. To see which union links are included in a
directory, the {\em -u} option must be specified.
The {\em -i} option indicates that invisible links should be
displayed; they are normally not.
The {\em -d} flag indicates that even if the {\it path} argument to
{\tt vls} is a directory, we want to look at that link instead of
looking at the contents of the directory. It is just like the {\it
-d} flag to the UNIX {\tt ls} command.
There are cases when a directory might include more than one link with
the same name. One way this can happen is if the directory contains
union links. By default, only the first link with a particular name
is displayed. The {\em -c} option tells {\tt vls} to display all
links, including those with conflicting names. The name of
conflicting links will be followed by a ``\#'' and a number that
allows them to be uniquely identified.
The {\em -f} option causes union links which could not be expanded to
be displayed. This option is presently set by default.
The {\em -a} option indicates that the attributes associated with each
object pointed to by the link are to be displayed. It also forces the
verbose option. If only a particular attribute is desired, the
attribute can be specified as
part of the {\em -a} option itself (e.g. -a{\sc forwarding-pointer}).
The {\em -a} option by itself displays all attributes. The {\em -A}
option is similar to the {\em -a} option, but it only lists the
attributes associated with the link itself, not those associated with
the object referenced by the link\footnote{When using {\tt vls} to
list the results of an archie query, the {\em -c} and the {\em -A}
options should be specified.}.
\subsubsection{Moving Around}
\begin{verbatim}
vcd [-u] path
\end{verbatim}
The {\tt vcd}\footnote{Because it changes environment variables, this
command only has an affect when its output is read by the shell. {\tt
vcd} is an alias which calls the {\it p\_\_vcd} executable in the
appropriate manner.} command allows one to change the virtual working
directory. If no argument is specified, the home directory is
assumed. Otherwise, paths starting with a slash ({\tt /}) are treated
as relative to the root of the virtual file system, and other paths
are treated as relative to the current working directory. ``..''
specifies the directory above the current working directory along the
active path from the root.
The {\em -u} option allows one to change one's virtual working directory
to a directory included through a named union link.
\begin{verbatim}
vwd
vwp
\end{verbatim}
The {\tt vwd} command prints the name of the current virtual directory
relative to the root of the virtual system. The {\tt vwp} command
prints the information describing its physical storage location.
These are actually aliases defined at the time you run {\tt vfsetup}.
\subsection{Retrieving Files}
\begin{verbatim}
vget virtual-file [local-file]
\end{verbatim}
The commands described so far allow you to move around the virtual
file system, but they do not allow you to access the files that it
names. If a program has been linked with the Prospero compatibility
library, the program can access files directly.
The {\tt vget} command can be used to explicitly retrieve a file. The
{\it virtual-file} is the name of the file to be retrieved from the
Prospero file system. {\it local-file} is the real name that you want
the file to have in your real current working directory. If {\it
local-file} is omitted the last component of the virtual file name
will be used.
If the standard input to {\tt vget} has been redirected, the input
will be searched for a line of the form ``Virtual-system-name:
vs-name''. If found, {\em virtual-file} will be relative to the
virtual system which has been read from (closed with) the input. If
the {\em -m} option has been specified, the input will be additionally
searched for a line for the form ``Virtual-file-name: filename''. If
found, {\em filename} will be used in place of {\it virtual-file}.
The {\em -a} option can be used to suppress the searching of the
standard input.
{\tt vget} does not currently open {\em telnet} connections to objects
with access methods of type {\sc telnet}. Nor does it treat objects
with an {\sc object-interpretation} {\sc search} in any interesting
way; you should use the {\tt menu} program to open such objects.
\subsection{Customizing a Directory\label{customizing}}
When a change is made to a directory, that change is often
visible regardless of the path through which the directory is viewed.
There are times when it is desirable to make a change that is only
visible when the directory is viewed through a particular path, or
from a particular virtual system. Such a change creates a customized
view of the directory; the change will not affect the view of the
directory when reached through other paths, or from other virtual
systems.
To create a customized view of a directory, create an empty directory,
add a union link from the directory you just created to the target
directory, then remove the link to the old directory and replace it
with a link to the directory that was just created.
Links that are added to the customized directory will only be visible
through the customized directory, but changes to the target directory
will also be visible through the customized directory.
Some directories in your virtual system have already been customized.
The root of your virtual system is your own. Changes in the root do
not appear in the roots of other virtual systems. Each of the links
from the root is also a customized directory. For example, if you add
a link to the /authors directory, that link will not be visible to
others. Directories at the next level, however, are not customized.
Thus, if you add a link to the directory /authors/Shakespeare,William,
that change will be visible to others unless you first customize that
directory.
You can determine whether a directory has been customized by using the
{\tt vls -u} command. That command will show the current directory
without expanding union links. Admittedly, this is a little
confusing. Future releases will support the concept of an owning
virtual system. This will clear up some of the confusion by allowing
automatic creation of a customized directory when one is needed.
To have a link added to the master copy of a shared directory you
should send a message to {\it pfs-administrator} at your site, or to
{\it pfs-administrator@isi.edu}.
\subsection{Attributes}
Attributes associated with the object to which a link points may be
retrieved using the {\it -a} option to the {\tt vls} command.
Attributes associated with the link itself may be retrieved
using the {\it -A} option to {\tt vls}. Attributes may be set using
the {\tt set\_atr} command.
Attributes in Prospero have three different value types: {\sc
sequence, filter, link}. They can be in one of three namespaces: {\sc
application, field,} and {\sc intrinsic.} They have five different
precedences: {\sc object, additional, replacement, cached,} and {\sc link.}
The {\sc filter} type, in turn, has a number of options. These are
all discussed in depth in the Prospero protocol manual. A link or
object may have multiple instances of any attribute on it. This array
of specialized features makes {\tt set\_atr} appear confusing at first.
\paragraph{set\_atr}
\subparagraph{Shortcuts}
However, there are some useful shortcuts: if you are organizing your
information through Prospero, theattributes you are likely to want to
set on an object ({\sc collation-order, menu-item-description,} and {\sc
object-interpretation}) are in the {\sc application} namespace, which
is the default for {\tt set\_atr}. You almost certainly want to
just keep one instance of the attribute around, so {\tt set\_atr}
defaults to using its {\em replace} option. If you want to delete the
attribute entirely, use the {\em -delete-all} option.
If no attribute precedence is explicitly specified, {\tt set\_atr}
selects what it believes the correct attribute precedences are using
an adaptive mode: If a link is {\em external}, {\tt set\_atr} will set
a a {\sc replacement} attribute on it. If a link is to an object
stored under Prospero, {\tt set\_atr} will set an {\sc object}
attribute on the object and then cache the value of the {\sc object}
attribute with a {\sc cached} value on the link itself. If {\tt
set\_atr} can't modify the object itself, it will override the
object's value of the attribute by putting a {\sc replacement} value
on the link.
\subparagraph{Examples}
Here is an example of how I use {\tt set\_atr} to organize the
anonymous FTP Area of a host which has just started running a prospero
server.
First, make a starting link to the AFTP area on that host:
\begin{verbatim}
vln -n ZEPHYR.ISI.EDU AFTP starting-link
vcd starting-link
\end{verbatim}
I now run an {\tt als} on the directory and verify the contents.
Let's say it contains a file named ``00README''. I want to make this
file have a more descriptive name for people using a menu browser. I
also want to make it appear first in the directory, above any
files which do not have an explicit {\sc collation-order} specified.
Moreover, I want another file, {\tt Incomplete}, to appear last in the
directory:
\begin{verbatim}
als
(contents scroll by)
set_atr 00README MENU-ITEM-DESCRIPTION 'Information about the files in this directory'
set_atr -linkprec 00README COLLATION-ORDER NUMERIC 1
set_atr Incomplete MENU-ITEM-DESCRIPTION 'This file is still unfinished.'
set_atr -linkprec Incomplete COLLATION-ORDER LAST NUMERIC 1
\end{verbatim}
In this case, I specified the additional {\em -linkprec} option to
set\_atr, because {\sc collation-order} is an attribute that applies
only to a link in a directory, not to the underlying object.
If I know that a file is of a particular type, I can set the {\sc
object-interpretation} attribute on this file to help the menu browser
handle the contents effectively:
\begin{verbatim}
set_atr group-photo.gif OBJECT-INTERPRETATION IMAGE GIF
\end{verbatim}
\begin{sloppy}
The {\sc object-interpretation} attribute is described in the document\linebreak[4]
\mbox{{\tt doc/working-notes/object-interpretation.txt}}, which is included
in the Prospero distribution, but which has not yet been integrated
into this manual.
\end{sloppy}
A quick example of turning a file invisible with the -linkprec option:
\begin{verbatim}
set_atr .cap -linkprec LINK-TYPE I
\end{verbatim}
\subparagraph{The full gamut of options}
This has not been fully documented yet. Type {\tt set\_atr} by itself
to receive a full list of options.
\subsection{Forwarding Pointers}
This release includes preliminary support for forwarding pointers. If
a file or directory has moved and a forwarding pointer exists, the
forwarding pointer will be returned and the request retried. At the
moment, forwarding pointers must be added by hand; there are not
presently any programs to add them. For information on how to add
these by hand, send a message to {\it info-prospero@isi.edu}.
\section{Protection}
Access control lists (ACLs) may be associated with directories in
Prospero, and with individual links within a directory. These access
control lists specify how directory information is to be protected.
They have nothing to do with the protection of the file to which a
link refers. Table~\ref{acl_perm_tab_man} lists the protection modes
that may appear within an access control list entry.
\begin{table}
\begin{center}
\caption{Protection modes in access control lists\label{acl_perm_tab_man}}
\begin{tabular}{|c|l||c|l|}\hline
\multicolumn{2}{|c||}{Directory} & \multicolumn{2}{|c|}{Link} \\ \hline
Character & Meaning & Character & Meaning \\ \hline \hline
A & Administer & a & Administer \\ \hline
V & View & v & View \\ \hline
L & List & l & List \\ \hline
R & Read & r & Read \\ \hline
M & Modify & m & Modify \\ \hline
D & Delete & d & Delete \\ \hline
I & Insert & \multicolumn{2}{|c|}{does not apply to link} \\ \hline
B & Administer & \multicolumn{2}{|c|}{does not override link} \\ \hline
Y & View & \multicolumn{2}{|c|}{does not override link} \\ \hline
\( > \) & Add-rights & ] & Add-rights \\ \hline
\( < \) & Remove-rights & [ & Remove-rights \\ \hline
) & Add-rights & \multicolumn{2}{|c|}{does not override link} \\ \hline
( & Remove-rights & \multicolumn{2}{|c|}{does not override link} \\ \hline
\end{tabular}
\end{center}
\end{table}
When an entry appears in both columns, it means that the entry on the
directory overrides the entry on a link. For example, a user with R
access to the directory can read a link even if denied r access to the
link. If a link permission is stored in a directory access control
list, then that permission indicates the default protection associated
with links in the directory that do not specify their own access
control lists.
The administer permission allows the changing of the access control
list. View allows it to be viewed. List allows one to see a
directory entry using wildcard searches. Read is required to
determine the binding of a link (the file it references). If one is
allowed read, but not list, then one can only retrieve the link if its
exact name is specified. Modify allows one to change the binding of a
link, but it does not allow one to add or delete links. Insert allows
links to be added, and delete allows them to be deleted. The add and
remove rights are a restricted form of administer. They allow an
individual to add or remove a restricted set of rights. For example,
``\(>\)r'' allows one to grant read access to someone else without
also allowing one to grant modify access.
Negative rights may be specified by prepending a minus sign (-) to the
rights field. The order of access control list entries is important.
For negative rights to have an effect, they must precede any rights
that authorize access by that individual. When new ACL entries are
added, they are added at the front of the list, meaning that recent
entries take precedence over older ones.
When access is checked for a link, three access control lists are
checked. First, the ACL associated with the link itself is checked.
If the link does not have its own ACL, then the default ACL associated
with the directory is used. Next, the ACL associated with the
directory is checked to see if it grants rights that override those in
the link. Finally, if access has still not been granted, a special
override ACL is checked. This is maintained by the system and should
be used only in emergencies. Negative rights in one list does not
override access granted in another.
There are several different ACL entry types. {\sc default}, {\sc
system}, and {\sc directory} cause other access control lists to be
included. {\sc default} is the default ACL specified by the system on
which the Prospero server is running. {\sc system} is also specified
separately on each Prospero server. It usually grants additional
access to system administrators. {\sc directory} is the default
access control list associated with the directory containing a link.
It allows one to easily specify that the rights on a link are to be in
addition to the default rights specified in the directory. If no
rights are associated with these ACL entry types, then the rights
granted are based on those in the {\sc default}, {\sc system}, or {\sc
directory} access control lists themselves. If rights are specified
for such entries, then the rights are the minimum of those specified,
and those in the included ACL. The ACLs for new files and directories
allow access to {\sc default} and {\sc system} as defined in those
lists. Users have the option of removing such access\footnote{The
{\sc system} access control list is separate from the {\sc override}
list which can not be removed.}.
The {\sc any}, {\sc authent}, {\sc asrthost}, and {\sc trsthost} ACL
types grant rights to the specified individuals according to the
accompanying permission list. {\sc any} matches any user. {\sc
authent} specifies an authentication method, and the name of the
authorized individual as returned by that method. At present, this
entry type is not supported. The {\sc asrthost} method specifies a
list of authorized principals in the form {\em user@internet-address}.
If no Internet address is specified (and no atsign), then the user is
matched regardless of the requesting host. Octets of the Internet
address can be wildcarded, or replaced with a `{\tt \%}'. A wildcard
matches any number, and a `{\tt \%}' matches the number corresponding to the
local host. For example, ``{\tt bcn@\%.\%.\%.*}'' matches the user ``bcn''
on the local subnet. The {\em user} may be specified as {\tt *},
meaning to match any user at that {\em internet-address}.
The {\sc asrthost} type accepts the username asserted by the client.
It is not possible to verify that the user has not modified the
software to claim someone else's identity. The Internet address can
generally be considered accurate, though it too can be spoofed by a
knowledgeable and determined attacker. The {\sc trsthost} type is
identical to the {\sc asrthost} type, but is accepted only when the
request originates from a privileged port on the requesting system.
Although this method might be used to provide security similar to that
for the Berkeley R commands, it is not recommended that you install
Prospero binaries setuid root until the sources have undergone careful
scrutiny for possible security holes\footnote{By no means should vget
or vcache be installed setuid root as these command write files to
paths specified by the user.}.
The discussion of ACLs in this section is not inaccurate, but it does
not yet reflect the new object and container ACLs that are new with
Prospero version Alpha.5.2. Preliminary documentation on the new
rights we have developed for object ACLs is available in the text file
{\tt doc/working-notes/new-acl-types} in the Prospero distribution.
This text file will be merged into this manual shortly.
The {\tt ppw} command, which allows one to set and manipulate a
password-based authentication mechanism that is stronger than the {\tt
ASRTHOST} type also needs to be documented here, as do the Kerberos
version 5 authentication facilities which are present in this release.
The system administrator's {\tt pw\_edit} command also must be
documented here.
\subsubsection*{Listing ACLs}
The {\tt list\_acl} command may be used to list the contents of an
access control list.
\begin{verbatim}
list_acl [-d dir] [-i host acl-name] [ -o object ] [link-name]
\end{verbatim}
With no arguments, it lists the ACL for the current directory. If the
{\em -d} option is specified, the argument that follows the option
specifies the directory whose ACL is to be listed. An optional
link-name specifies that the ACL to be listed is that of the named
link within the directory. The {\em -o} option indicates that the ACL
should be listed for the underlying object.
\subsubsection*{Modifying ACLs}
The {\tt set\_acl} command allows one to change the access control list
associated with a link or directory.
\begin{verbatim}
set_acl [-asirKE,-n,-N] [-t type] [-d dir] [-l link] [-o link-to-object]
rights principals
\end{verbatim}
The {\em -d} option is followed by the name of a directory. By
default, the ACL for the directory is modified. The {\em -l} option
allows one the modify the ACL for an individual link. The {\em -o}
option allows one to modify the ACL for the object pointed to by the
link {\em link-to-object}.
The {\em -a, -s, -i, -r, -K,} and {\em -E} options indicate the
operation to be performed on the ACL. They correspond in order to add
rights, subtract rights, insert a new entry, remove an entry, kill the
entire ACL (setting it to the default), and replacing the entire ACL.
If the {\em -t} option is specified, it must be followed by the type
of the ACL entry to be added, deleted, etc. If the {\em -t} option is
not specified, {\sc asrthost} is the default.
The first field following the options specifies the rights to be added
or deleted. All remaining arguments are the names of the principals
to be included in the particular ACL entry.
When an ACL is set to an initial value (using the {\em -K} or {\em -E}
options), the {\sc system} ACL is automatically included. The {\sc
system} entry can be removed by using the {\em -r} option in a
subsequent {\tt set\_acl} command. The addition of the {\sc system}
entry can be suppressed by using the {\em -n} option in conjunction
with the original {\em -K} or {\em -E} option. Whenever rights are
removed from an ACL, the system checks to make sure that the user
removing the rights will be able to fix any mistakes. If the the
change would result in the user being unable to make subsequent
changes, the minimal rights allowing the user to make subsequent
changes are automatically added back. This safety mechanism may be
overridden by specifying the {\em -N} option.
\section{Server Maintenance and Informational Commands}
\subsection{\tt pstatus}
\begin{verbatim}
pstatus [<server>]
\end{verbatim}
Use {\tt pstatus} to see if the server {\em server} is alive.
\subsection{{\tt padmin}}
\begin{verbatim}
padmin [-D#] [-N<priority>] [-force] { -kill | -restart
| -motd | {-set <parameter>} | {-get <parameter>}
| {-command [-headers | -1 ]} } [<server>]
\end{verbatim}
\subsubsection*{Summary}
The old {\tt pkl} and {\tt psrvchat} commands have been replaced by the new
'padmin' command. Padmin can be used to administer a Prospero server
(kill it, restart it, set the message of the day). It can also be
used by a programmer to send raw Prospero protocol messages to the
server (with the {\tt -command} option) and by anybody to retrieve the
message of the day (with the {\tt -motd} option).
\subsubsection*{Long Explanation of the options}
The {\tt -D} flag, as usual, sets the debugging level.
{\tt -N} ('nice') sets the priority for a query. Setting a priority of
32765 or greater ({\tt -N} by itself does this) means that this command will
be processed only after the queue is empty. This is handy for
terminating or restarting a server that gets a lot of traffic and
often has requests waiting in the queue.
{\tt -kill} kills the server. {\tt -restart} causes a complete
restart, including reloading the binary (handy if you've just updated
the binary). If these options are specified, padmin will ask for
confirmation, unless the {\tt -force} flag is specified.
If the {\tt -force} flag is specified, padmin will not confirm the {\tt -kill} and
{\tt -restart} flags, nor will it output the reply received. (This is
modeled upon the {\tt -f} flag to rm).
{\tt -set} takes an extra argument for a parameter to set on the server. It
will then read from standard input for the text to send. This can
only be used to set parameters whose value is a SEQUENCE consisting of
a single ASCII string. {\tt -motd} is equivalent to {\tt -set} MOTD. (Note that,
currently, the only parameters defined on most servers are MOTD,
RESTART, and TERMINATE, and they all have this form.)
{\tt -command} reads raw Prospero protocol messages from the standard input
and sends them to the server, then shows the response to the user.
A {\tt -header} option may follow the {\tt -command} option. The {\tt -header} option
will prefix the messages read from the standard input with standard
Prospero VERSION and AUTHENTICATE statements for the current Prospero
version. (Note for Prospero programmers: the headers from the {\tt -header}
option are generated with the standard {\tt p\_\_start\_req()} pfs library
call). A {\tt -1} option may follow {\tt -command} instead of {\tt -header}. This will
generate VERSION and AUTHENTICATE statements for Prospero version 1
protocol format.
{\tt -k}, {\tt -r}, {\tt -f}, {\tt -m}, {\tt -s}, {\tt -g}, and {\tt -c} also work, as synonyms for the spelled
out options. They can't be grouped together, though; you must specify
them independently. (i.e., ``{\tt padmin -kfD9}'' won't work; you must say
``{\tt padmin -k -f -D9}''.)
For those used to the previous {\tt pkl} command, the default
installation procedure also installs {\tt pkl} as a link to {\tt
padmin}. When invoked with the name {\tt pkl}, {\tt padmin}
duplicates {\tt pkl}'s full functionality.
\section{The compatability library}
This section documents what we call the ``compatability library''
interface to Prospero. The compatability library interface is not
compiled by default; your site maintainer must specify it. We have
not focused recent work on it, and it is not as useful an interface as
the menu browser interface and the command line interface, both of
which are discussed above.
This section does not apply to you unless your maintainer has turned
on the compatability library interface
\subsection{Using Existing Applications\label{exist_app}}
The Prospero file system is presently implemented as a library. We
provide versions of {\tt cat} and {\tt ls} which have been linked with
the Prospero compatability library, which is an additional wrapper
around the main Prospero library. The relinked versions may be found
in the same directory as the other Prospero binaries, and will appear
in your search path once the {\tt vfsetup} command has been executed.
If the {\tt venable} command (see section~\ref{exist_app}) has been
executed to set the default name resolution mechanisms to the virtual
file system, then the {\tt cd} command may be used to change
virtual directories.
If the {\tt venable} command (see section~\ref{exist_app}) has been
executed to set the default name resolution mechanisms to the virtual
file system, then the {\tt ls} command may be used to list virtual
directories.
By default, names which are to be resolved using Prospero must contain
or be preceded by a colon ({\tt :}). File names that do not contain
and are not preceded by a colon are treated as native Unix file names.
The default behavior can be modified by setting the {\sc pfs\_default}
environment variable. This may be done by using the {\tt venable}
command. When enabled, names are resolved relative to the active
virtual system by default. Names that are to be treated as native
Unix file names must be preceded by an atsign ({\tt @}). {\tt
vdisable} will return the default to its original state. The meanings
of the values for the {\sc pfs\_default} environment variable are
listed in Table~\ref{pfs_default_tab}.
\begin{table}
\begin{center}
\caption{Settings for the {\sc pfs\_default} environment
variable\label{pfs_default_tab}}
\vspace{0.1in}
\begin{tabular}{|c|p{3.9in}|} \hline
Value & Meaning \\ \hline \hline
0 & Never resolve names within the virtual system \\ \hline
1 & Always resolve names within the virtual system \\ \hline
2 & Resolve names within the virtual system if they contain a : \\ \hline
3 & Resolve names within the virtual system by default, but
treat names beginning with an @ or full path names that
don't exist in the virtual system as native file names \\ \hline
4 & Resolve names within the virtual system by default, but
treat names beginning with an @ as native file names \\ \hline
\end{tabular}
\vspace{-0.1in}
\end{center}
\end{table}
\section{Filters}
Client-side filters are written in C, compiled, and dynamically linked
during name resolution. Because of portability problems with the
dynamic linker, client-side filters are not included in this release,
but are available upon request. There are also server-side filters,
which are precompiled into the server. These are intended to be used
by special applications; the only ones currently in general use are
used by version 3 of Archie.
\section{Setting up a new system\label{new_system}}
This section explains how to install the Prospero file system on a new
system. It assumes that the local site has already been configured.
This section (Section~\ref{new_system}) can be skipped by most users.
\subsection{Building the Binaries\label{compiling}}
[See the INSTALLATION file in the distribution]
\subsection{Running the Server on Unix (like) Systems}
If you are installing the Prospero server, a user and group ID must be
established under which the directory server will run. The directory
associated with the user ID should be a location in which additional
information about virtual files and directories can be stored. New
files which are to exist only within the Prospero file system will
also be stored under this directory. It is suggested that you chose
the user name {\it pfs} for this pseudo-user, but other names may be
used as well.
Once the user ID has been set up, install the binaries. The directory
in which they must be installed is selected at compile time. As
originally distributed, it is {\it /usr/pfs/bin}. The program {\tt
pstart} should be installed setuid and setgid the pseudo-user just
described.
\begin{verbatim}
pstart [hostname]
\end{verbatim}
To start the server run {\tt pstart}. {\tt pstart} takes an optional
host name. If specified, the host name must be the primary name for
the host on which the server is running. In most cases, the server is
able to determine the name on its own and there is no need to specify
it as an argument.
{\tt pstart} will connect to the directory associated with the
pseudo-user, it will check to make sure that the user id is set
appropriately, and it will exec the directory server with the
appropriate arguments.
Although it is not recommended, the directory server can also be
started manually. You must first be logged in as (or be su'ed to) the
user under whose ID you want the server to run. You can then execute
{\tt dirsrv} passing as arguments the required directory names.
\begin{verbatim}
dirsrv [-p#portnum] [-m] root shadow data aftpdir afsdir hostname
\end{verbatim}
The {\em -p\#} option allows one to specify an alternate port to run
the server on. This alternate server can be reached with the hostname
``your-hostname(portnum)''. For instance, at ISI, we run a publicly
accessible GOPHER-GW server at {\tt ZEPHYR.ISI.EDU(1570)}.
Common reasons for running additional servers on alternate ports are
for testing reasons, to take some of the load off of your primary
server, or to run a server dedicated to publishing a special
database.\footnote{Caveat: The common {\sc unix} shells require you to
quote the {\tt \#} in the {\em -p\#} option in order to keep it from
being interpreted as the start of a comment.}
The {\em -m} (manual) option prevents the directory server from
dissociating itself from the terminal. It is only useful for
debugging. {\em root} is the logical root of the system. Only files
below this point (and those under aftpdir and afsdir) will be
accessible through the Prospero file system. {\em shadow} is the name
of the directory that is to contain additional information about files
and directories. It should typically be the {\it shadow} subdirectory
of the pseudo-user described above. {\em data} is the local directory
under in which new virtual directories and their contents will be
stored.
{\em aftpdir} is the name of the directory hierarchy to which
anonymous FTP has access and {\em afsdir} is the name of the directory
through which files from the Andrew File System may be accessed. If
these access methods are not supported by your system, these arguments
should be the null string.
Users can use the Prospero file system even if the server is not
running, but they will be unable to access files or directories stored
locally. If {\tt pstart} is installed setuid and setgid to the
Prospero user and group IDs, then the directory server can be started
by any user. You may also want to start the directory server from the
system's {\it /etc/rc} file.
As things stand, users can access files and directories created on the
local system, but they can not create new virtual systems stored
locally. If you want to allow virtual systems to be stored locally,
then you must have the site administrator add a reference to the new
system from the {\it pfs\_storage} virtual directory.
\subsubsection*{Adding References to the New System}
The remainder of this section describes the actions that are to be
taken by the site administrator. Systems that are running the release
as distributed are part of the USC Information Sciences Institute
guest site. The site administrator is {\it
pfs-administrator@isi.edu}. This applies even if your system is
running a server. If you are not a site administrator, you can skip
this section.
If you want to allow virtual systems to be stored locally, several
links must be added and a new virtual directory must be created. This
will only be possible if the server has {\bf not} been configured read-only.
When a new site is established (see Section~\ref{new_site}) these
links and directories are automatically created on the primary system
for the site. The following steps are only required when adding
additional systems.
In the following steps, HOST is the fully qualified domain name for
the host to be added and PATH is the full path of the subdirectory of
the pseudo-user (described above) which will store the new virtual
directories. The last component will typically be {\it pfsdat}. If
that directory does not already exist, it should be physically created.
A link must be added from the virtual directory {\it pfs\_storage} to
the pfsdat directory on the new site. While still in the master
virtual system, the following steps will add this link.
\begin{verbatim}
vcd /pfs_storage
vln -n HOST PATH HOST
\end{verbatim}
You will next have to create the {\it local\_vsystems} virtual
directory. You do this by issuing the commands:
\begin{verbatim}
vcd HOST
vmkdir local_vsystems
\end{verbatim}
\subsubsection{Creating a Virtual File System\label{creating_vfs}}
A virtual file system is created using the {\tt newvs} command. The
{\tt newvs} command is for use by the site
administrator\footnote{Systems which are running the release as
distributed are part of the University of Southern California
Information Sciences Institute guest site. The site
administrator is {\it pfs-administrator@isi.edu}. This
applies even if your system is running a server.}. To have a virtual
system created, send a message to {\it pfs-administrator} at your
site.
If you want to run a server but don't want the hassle of setting up
your own site, we can arrange to have virtual systems stored on your
server but have your server still be part of the ISI guest site. We
recommend this option.
\begin{verbatim}
newvs [-v#] [-e] [host [name [home [owner [desc_file]]]]]
\end{verbatim}
The {\tt newvs} command is used to create a new virtual system. If
called with no arguments, the user is prompted for the system on which
the new virtual system is to reside, the name of the virtual system,
the home directory, the owner, and the name of the description file.
The name of the virtual system is the default name with which it will
appear in the local site's master list of virtual systems. This name
is not automatically exported beyond the local site.
{\tt newvs} will create the virtual system, assign a global name to
it, and add the selected name in the master list of virtual systems
for the local site. It will also copy the links from the {\it
prototype} virtual system to the newly created one. The {\em -e}
option will suppress this copying, and will leave the new virtual
system empty. As a final step, {\tt newvs} will optionally write a
description file that may be read by {\tt vfsetup}.
The {\em -v} option is followed by an integer and sets the verbosity
level. The meaning of the verbosity levels are presented in
Table~\ref{newvs_verbosity_tab}.
\begin{table}
\begin{center}
\caption{Verbosity levels for newvs\label{newvs_verbosity_tab}}
\vspace{0.1in}
\begin{tabular}{|l|l|}\hline
Value & Meaning \\ \hline \hline
0 (default) & Prompt for required input \\ \hline
1 (-v) & Explain what is required when asking for input \\ \hline
2 & List each action taken \\ \hline
3 & Stop before each step \\ \hline
4 & Stop before each step and explain the action \\ \hline
\end{tabular}
\vspace{-0.1in}
\end{center}
\end{table}
\section{Setting up a New Site\label{new_site}}
This section explains how to set up a new site. Systems that are
running the release as distributed are part of the USC Information
Sciences Institute guest site. This applies even if your system is running a
server. If you would like to set up your own site, send a message to
{\it info-prospero@isi.edu} to obtain the appropriate
additional files. Unless you are setting up
your own site, you may skip the remainder of this section.
Before you begin, you will have to obtain a global prefix that will
uniquely identify the virtual systems registered at your site. A
prefix may be obtained by sending a message to {\it
pfs-administrator@isi.edu}.
The global prefix is part of the low level name for each virtual
system. It should be thought of as an address. Users employ higher
level names to specify virtual systems. Registering a prefix will
allow objects created at your site to be named by others. Even if
your site will not be reachable by any other sites, it is still
important to register a prefix. Doing so guarantees that no other
site has the same prefix. This will make it possible to connect with
the rest of the global system should a connection ever be established.
More information on setting up an isolated site is described in
Section~\ref{isolated}.
\subsection{Setting up the Master Directories}
To initially set up a new site, run the command {\tt newpsite}.
{\tt newpsite} will construct a skeletal site configuration based on the
compile time options described in the previous section.
Once the site has been set up, it will be necessary to create
additional directories and add them to the prototype on which new
virtual systems will be modeled.
\subsection{Setting up an Isolated Site\label{isolated}}
As was already mentioned, even if your site will be isolated from
others, you should still try to register a unique global prefix.
If your site will be isolated from other sites you will have to set up
a replica of the global root. This directory must be reachable with
the name ``\#'' from your site's master list of virtual systems. To
create a replica of the global root, create a directory and add nested
subdirectories corresponding to each component of your sites global
prefix. The last entry should be a link to your site's master list of
virtual systems.
\subsubsection{If You Cannot Register a Prefix\label{no_prefix}}
If it is not possible to contact {\it
pfs-administrator@isi.edu,} then it may still be possible to
generate a unique global prefix based on a unique identifier assigned
by another authority. Right now, the only names that may be turned
into unique global prefixes are officially registered Internet domain
names.
\paragraph{Internet Domain Names.} If you have an officially
registered Internet domain name, it may be turned into a global prefix
by reversing the order of the components, replacing the periods with
slashes, and prepending ``\#/INET/''.
\begin{verbatim}
ISI.EDU = #/INET/EDU/ISI
\end{verbatim}
\section{Glossary}
\paragraph{conventional link.} A conventional link is similar to
a hard link in the Unix file system. It maps a name for an object to
the information needed to access it.
\paragraph{filter.} A filter is a program attached to a link.
A filter can modify the results of directory queries where the path
from the root of the virtual file system to the queried directory
passes through the filtered link.
\paragraph{global file system.} The global file system is the collection
of links and directories that make up the virtual file systems
accessible to the user. The links and directories form a generalized
directed-graph.
\paragraph{link.} A link is either a conventional link or a union
link, with or without an attached filter.
\paragraph{local system.} The local system is the physical system to
which a user is logged in, on which processes execute, or on which
files are stored.
\paragraph{master directory.} A master directory is a directory
maintained at the site level, and included through union links as part
of the corresponding directory in multiple virtual systems.
\paragraph{site.} A site is a collection of virtual systems
administered by a particular organization. An important
characteristic of a site is that its virtual systems contain prominent
references to the other virtual systems that are part of the site.
\paragraph{union link.} A union link is a link to a directory that
causes the links that are part of the linked directory to appear as
part of the directory containing the union link. A directory's
contents are the union of the set of conventional links it contains
and the contents of all directories included through union links.
\paragraph{view.} A view is a mapping from names to objects. Name
spaces, parts of name spaces, and individual directories all define
views. Because it specifies a name space, a virtual system also
imposes a view. It is possible for more than one virtual system to
impose the same or similar views.
\newpage
\paragraph{virtual directory.} A virtual directory is a directory in
a virtual file system. The contents of a virtual directory might be
calculated at the time the directory is queried by applying filters or
expanding union links.
\paragraph{virtual file system.} A virtual file system is the file
system part of a virtual system. It consists of a root directory and
all the files and directories that can be reached by traversing 0 or
more links. The virtual file system is a projection of the
global file system as viewed from the selected root.
\paragraph{virtual system.} A virtual system is a distributed system
that is assembled from the files, processors, services, applications,
users and other components available over a global network. The owner
of a virtual system identifies the components of interest, and
assembles them into a virtual system by assigning names.
\newpage
\section{Quick Reference}
\subsection*{Commands affecting the Prospero file system:}
This reference sheet is not as up to date as the rest of this manual.
Sorry.
\begin{verbatim}
vfsetup [-n host path , [-r,v] name , -f file]
vcd [-u] path
vwd
vls [-v] [-u] [-f] [path]
vln [-u] [-s] [-e] [-n host1] name1 name2
vmkdir directory
vrm link
vget virtual-file [local-file]
padmin [ -motd | -kill | -restart | -set parameter | -get parameter
| -command ] [ server ]
newvs [-v#] [-e] [host [name [home [desc_file]]]]
list_acl [-d dir] [link-name]
set_acl [-asirKE,-n,-N] [-t type] [-d dir] [-l link] rights principals
vdisable ( not at all installations)
venable ( not at all installations)
\end{verbatim}
\vspace{-.25in}
\subsection*{Meanings for PFS\_DEFAULT:}
\vspace{-.12in}
The meanings of the values for the {\sc pfs\_default} environment variable
are:
\begin{table}[h]
\begin{center}
\caption{Settings for the {\sc pfs\_default} environment variable}
\vspace{0.1in}
\begin{tabular}{|c|p{3.9in}|} \hline
Value & Meaning \\ \hline \hline
0 & Never resolve names within the virtual system \\ \hline
1 & Always resolve names within the virtual system \\ \hline
2 & Resolve names within the virtual system if they contain a : \\ \hline
3 & Resolve names within the virtual system by default, but
treat names beginning with an @ or full path names that
don't exist in the virtual system as native file names \\ \hline
4 & Resolve names within the virtual system by default, but
treat names beginning with an @ as native file names \\ \hline
\end{tabular}
\vspace{-0.1in}
\end{center}
\end{table}
\end{document}