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\section{HTTP server}\label{sec:httpd}
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%
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\begin{description}
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\item[Used files:] httpd-core.scm, httpd-handlers.scm, httpd-options.scm
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\item[Name of the package:] httpd-core, httpd-basic-handler, httpd-make-options
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\end{description}
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%
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\subsection{Introduction}
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The \Scheme underground Web system is a package of \Scheme code
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that provides utilities for interacting with the World-Wide Web.
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This includes:
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\begin{itemize}
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\item A Web server.
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\item URI and URL parsers and un-parsers (see sections \ref{sec:uri}
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and \ref{sec:url}).
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\item RFC822-style header parsers (see section \ref{sec:rfc822}).
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\item Code for performing structured html output
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\item Code to assist in writing CGI \Scheme programs that can be used by
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any CGI-compliant HTTP server (such as NCSA's httpd, or the S.U.
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Web server).
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\end{itemize}
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The code can be obtained via anonymous
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ftp\footnote{\ttt{}ftp://ftp-swiss.ai.mit.edu/pub/scsh/contrib/net/net.tar.gz}
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and is implemented in \scm, using the system calls and support
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procedures of scsh, the \Scheme Shell. The code was written to be
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clear and modifiable -- it is voluminously commented and all non-\RnRS
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dependencies are described at the beginning of each source file.
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\FIXME{We should remove the note to read the source files and insert
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the essentials here instead.}
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I do not have the time to write detailed documentation for these
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packages. However, they are very thoroughly commented, and I strongly
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recommend reading the source files; they were written to be read, and
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the source code comments should provide a clear description of the
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system. The remainder of this note gives an overview of the server's
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basic architecture and interfaces.
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\subsection{The Scheme Underground Web Server}
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The server was designed with three principle goals in mind:
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\begin{description}
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\item{Extensibility} \\
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The server is designed to make it easy to extend the basic
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functionality. In fact, the server is nothing but extensions. There
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is no distinction between the set of basic services provided by the
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server implementation and user extensions -- they are both
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implemented in Scheme, and have equal status. The design is ``turtles
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all the way down''.
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\item{Mobile code} \\
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Because the server is written in \scm, it is simple to use the \scm
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module system to upload programs to the server for safe execution
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within a protected, server-chosen environment. The server comes with
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a simple example upload service to demonstrate this capability.
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\item{Clarity of implementation} \\
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Because the server is written in a high-level language, it should
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make for a clearer exposition of the HTTP protocol and the
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associated URL and URI notations than one written in a low-level
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language such as C. This also should help to make the server easy to
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modify and adapt to different uses.
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\end{description}
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\subsubsection*{Basic server structure}
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The Web server is started by calling the httpd procedure, which takes
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one argument, a \ex{httpd\=options}-record:
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\defun{httpd}{options}{\noreturn}
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\begin{desc}
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This procedure starts the server. The various \semvar{options} can
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be set via the options transformers that are explained below.
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The server's basic loop is to wait on the port for a connection from
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an HTTP client. When it receives a connection, it reads in and
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parses the request into a special request data structure. Then the
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server forks a thread, who binds the current I/O ports to the
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connection socket, and then hands off to the top-level
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\semvar{path-handler} (the first argument to httpd). The
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\semvar{path-handler} procedure is responsible for actually serving
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the request -- it can be any arbitrary computation. Its output goes
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directly back to the HTTP client that sent the request.
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Before calling the path handler to service the request, the HTTP
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server installs an error handler that fields any uncaught error,
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sends an error reply to the client, and aborts the request
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transaction. Hence any error caused by a path-handler will be
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handled in a reasonable and robust fashion.
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The basic server loop, and the associated request data structure are
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the fixed architecture of the S.U. Web server; its flexibility lies
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in the notion of path handlers.
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\end{desc}
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\defun{with-port}{port \ovar{options}}{options}
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\defunx{with-root-directory}{root-directory
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\ovar{options}}{options}
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\defunx{with-fqdn}{fqdn \ovar{options}}{options}
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\defunx{with-reported-port}{reported-port
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\ovar{options}}{options}
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\defunx{with-path-handler}{path-handler
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\ovar{options}}{options}
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\defunx{with-server-admin}{mail-address
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\ovar{options}}{options}
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\defunx{with-simultaneous-requests}{requests
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\ovar{options}}{options}
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\defunx{with-logfile}{logfile \ovar{options}}{options}
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\defunx{with-syslog?}{syslog? \ovar{options}}{options}
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\begin{desc}
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As noted above, these transformers set the options for the web
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server. Every transformer changes one aspect of the
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\semvar{options} (for the \ex{httpd}). If this optional argument is missing, the
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default values are used. These are the following:
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\begin{tabular}{ll}
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\bf{transformer} & \bf{default value} \\
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\hline
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\ex{with\=port} & 80 \\
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\ex{with\=root\=directory} & ``\ex{/}'' \\
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\ex{with\=fqdn} & \sharpf \\
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\ex{with\=reported-port} & \sharpf \\
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\ex{with\=path\=handler} & \sharpf \\
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\ex{with\=server\=admin} & \sharpf \\
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\ex{with\=simultaneous\=requests} & \sharpf \\
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\ex{with\=logfile} & ``\ex{/logfile.log}''\\
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\ex{with\=syslog?} & \sharpt \\
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\end{tabular}
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% that can be found in the \ex{httpd\=make\=options}-structure:
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% \ex{with\=port}, \ex{with\=root\=directory}, \ex{with\=fqdn},
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% \ex{with\=reported-port}, \ex{with\=path\=handler},
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% \ex{with\=server\=admin}, \ex{with\=simultaneous-requests},
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% \ex{with\=logfile}, \ex{with\=syslog?} that set the port the server
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% is listening to, the root-directory of the server, the FQDN of the
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% server, the port the server assumes it is listening to, the
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% path-handler of the server (see below), the mail-address of the
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% server-admin, the maximum number of simultaneous handled requests,
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% the name of the file or the port logging in the Common Log Format
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% (CLF) is output to and if the server shall create syslog messages,
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% respectively. The port defaults to 80, the root directory defaults
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% to ``\ex{/}'', the mail address of the server-admin defaults to
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% ``\ex{sperber@\ob{}informatik.\ob{}uni\=tuebingen.\ob{}de}'',
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% \FIXME{Why does the server admin mail address have
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% sperber@informatik... as default value?}logging is done to
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% ``\ex{httpd.log}'' and syslog is enabled. All other options default
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% to \sharpf.
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For example
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\begin{code}
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(httpd (with-path-handler
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(rooted-file-handler "/usr/local/etc/httpd")
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(with-root-directory "/usr/local/etc/httpd")))
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\end{code}
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starts the server on port 80 with
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``\ex{/usr/\ob{}local/\ob{}etc/\ob{}httpd}'' as root directory and
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lets it serve any file out from this directory.
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\ex{rooted\=file\=handler} creates a path handler and is explained
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below. You see, the transformers are used nested. So, every
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transformer changes one aspect of the options that the following
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transformer returns and the last transformer (here:
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\ex{with\=root\=directory}) changes an aspect of the default values
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\semvar{port} is the port the server is listening to,
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\semvar{root-directory} is the directory in the file system the
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server uses as root, \semvar{fqdn} is the fully qualified domain
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name the server reports, \semvar{reported-port} is the port the
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server reports it is listening to and \semvar{server-admin} is the
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mail address of the server admin. \semvar{requests} denote the
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maximum number of allowed simultaneous requests to the server.
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\sharpf\ means infinite. \semvar{logfile} is either a string, then
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it is the file name of the logfile, or a port, where the log entries
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are written to, or \sharpf, that means no logging is made. The
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logfile is in Common Log Format (CLF). \semvar{syslog?} tells the
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server to write syslog messages (\sharpt) or not (\sharpf).
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\end{desc}
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\subsubsection*{Path handlers}
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\label{httpd:path-handlers}
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A path handler is a procedure taking two arguments:
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\defun{path-handler}{path req}{value}
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\begin{desc}
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The \semvar{req} argument is a request record giving all the details
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of the client's request; it has the following structure: \FIXME{Make
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the record's structure a table}
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\begin{code}
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(define-record request
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method ; A string such as "GET", "PUT", etc.
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uri ; The escaped URI string as read from request line.
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url ; An http URL record (see url.scm).
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version ; A (major . minor) integer pair.
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headers ; An rfc822 header alist (see rfc822.scm).
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socket) ; The socket connected to the client.\end{code}
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The \semvar{path} argument is the URL's path, parsed and split at
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slashes into a string list. For example, if the Web client
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dereferences URL
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\codex{http://\ob{}clark.\ob{}lcs.\ob{}mit.\ob{}edu:\ob{}8001/\ob{}h/\ob{}shi\ob{}vers/\ob{}co\ob{}de/\ob{}web.\ob{}tar.\ob{}gz}
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then the server would pass the following path to the top-level
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handler: \ex{("h"\ob{} "shivers"\ob{} "code"\ob{}
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"web.\ob{}tar.\ob{}gz")}
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The \semvar{path} argument's pre-parsed representation as a string
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list makes it easy for the path handler to implement recursive
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operations dispatch on URL paths.
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\end{desc}
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Path handlers can do anything they like to respond to HTTP requests;
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they have the full range of Scheme to implement the desired
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functionality. When handling HTTP requests that have an associated
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entity body (such as POST), the body should be read from the current
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input port. Path handlers should in all cases write their reply to the
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current output port. Path handlers should not perform I/O on the
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request record's socket. Path handlers are frequently called
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recursively, and doing I/O directly to the socket might bypass a
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filtering or other processing step interposed on the current I/O ports
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by some superior path handler.
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\subsubsection*{Basic path handlers}
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Although the user can write any path-handler he likes, the S.U. server
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comes with a useful toolbox of basic path handlers that can be used
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and built upon (exported by the \ex{httpd\=basic\=handlers}-structure):
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\begin{defundesc}{alist-path-dispatcher}{ph-alist default-ph}{path-handler}
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This procedure takes a \ex{string->\ob{}path\=handler} alist, and a
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default path handler, and returns a handler that dispatches on its
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path argument. When the new path handler is applied to a path
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\ex{("foo"\ob{} "bar"\ob{} "baz")}, it uses the first element of
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the path -- ``\ex{foo}'' -- to index into the alist. If it finds an
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associated path handler in the alist, it hands the request off to
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that handler, passing it the tail of the path, \ex{("bar"\ob{}
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"baz")}. On the other hand, if the path is empty, or the alist
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search does not yield a hit, we hand off to the default path
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handler, passing it the entire original path, \ex{("foo"\ob{}
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"bar"\ob{} "baz")}.
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This procedure is how you say: ``If the first element of the URL's
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path is `foo', do X; if it's `bar', do Y; otherwise, do Z.'' If one
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takes an object-oriented view of the process, an alist path-handler
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does method lookup on the requested operation, dispatching off to
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the appropriate method defined for the URL.
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The slash-delimited URI path structure implies an associated tree of
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names. The path-handler system and the alist dispatcher allow you to
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procedurally define the server's response to any arbitrary subtree
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of the path space.
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Example: A typical top-level path handler is
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\begin{code}
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(define ph
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(alist-path-dispatcher
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`(("h" . ,(home-dir-handler "public_html"))
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("cgi-bin" . ,(cgi-handler "/usr/local/etc/httpd/cgi-bin"))
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("seval" . ,seval-handler))
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(rooted-file-handler "/usr/local/etc/httpd/htdocs")))\end{code}
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This means:
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\begin{itemize}
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\item If the path looks like \ex{("h"\ob{} "shivers"\ob{}
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"code"\ob{} "web.\ob{}tar.\ob{}gz")}, pass the path
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\ex{("shivers"\ob{} "code"\ob{} "web.\ob{}tar.\ob{}gz")} to a
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home-directory path handler.
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\item If the path looks like \ex{("cgi-\ob{}bin"\ob{} "calendar")},
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pass ("calendar") off to the CGI path handler.
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\item If the path looks like \ex{("seval"\ob{} \ldots)}, the tail
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of the path is passed off to the code-uploading seval path
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handler.
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\item Otherwise, the whole path is passed to a rooted file handler,
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who will convert it into a filename, rooted at
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\ex{/usr/\ob{}lo\ob{}cal/\ob{}etc/\ob{}httpd/\ob{}htdocs},
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and serve that file.
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\end{itemize}
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\end{defundesc}
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\begin{defundesc}{home-dir-handler}{subdir}{path-handler}
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This procedure builds a path handler that does basic file serving
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out of home directories. If the resulting \semvar{path-handler} is
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passed a path of \ex{(user . file\=path)}, then it serves the file
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\ex{user's\=ho\ob{}me\=di\ob{}rec\ob{}to\ob{}ry/\ob{}sub\ob{}dir/\ob{}file\=path}
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The path handler only handles GET requests; the filename is not
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allowed to contain \ex{..} elements.
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\end{defundesc}
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\begin{defundesc}{tilde-home-dir-handler}{subdir default-path-handler}{path-handler}
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This path handler examines the car of the path. If it is a string
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beginning with a tilde, e.g., \ex{"~ziggy"}, then the string is
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taken to mean a home directory, and the request is served similarly
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to a home-dir-handler path handler. Otherwise, the request is passed
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off in its entirety to the \semvar{default-path-handler}.
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This procedure is useful for implementing servers that provide the
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semantics of the NCSA httpd server.
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\end{defundesc}
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\begin{defundesc}{cgi-handler}{cgi-directory}{path-handler}
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This procedure returns a path-handler that passes the request off to
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some program using the CGI interface. The script name is taken from
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the car of the path; it is checked for occurrences of \ex{..}'s. If
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the path is \ex{("my\=prog"\ob{} "foo"\ob{} "bar")} then the
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program executed is
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\ex{cgi\=di\ob{}rec\ob{}to\ob{}ry\ob{}my\=prog}.
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When the CGI path handler builds the process environment for the CGI
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script, several elements (e.g., \ex{\$PATH and \$SERVER\_SOFTWARE}) are request-invariant, and can be
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computed at server start-up time. This can be done by calling
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\codex{(initialise-request-invariant-cgi-env)}
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when the server starts up. This is not necessary, but will make CGI
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requests a little faster.
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\end{defundesc}
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\begin{defundesc}{rooted-file-handler}{root-dir}{path-handler}
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Returns a path handler that serves files from a particular root in
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the file system. Only the GET operation is provided. The path
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argument passed to the handler is converted into a filename, and
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appended to root-dir. The file name is checked for \ex{..}
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components, and the transaction is aborted if it does. Otherwise,
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the file is served to the client.
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\end{defundesc}
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\begin{defundesc}{null-path-handler}{path req}{\noreturn}
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This path handler is useful as a default handler. It handles no
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requests, always returning a ``404 Not found'' reply to the client.
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\end{defundesc}
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\subsection{HTTP errors}
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Authors of path-handlers need to be able to handle errors in a
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|
reasonably simple fashion. The S.U. Web server provides a set of error
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|
conditions that correspond to the error replies in the HTTP protocol.
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These errors can be raised with the \ex{http\=error} procedure. When
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the server runs a path handler, it runs it in the context of an error
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handler that catches these errors, sends an error reply to the client,
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|
and closes the transaction.
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\begin{defundesc}{http-error}{reply-code req \ovar{extra \ldots}}{\noreturn}
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This raises an http error condition. The reply code is one of the
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|
|
numeric HTTP error reply codes, which are bound to the variables
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\ex{http\=re\ob{}ply/\ob{}ok, http\=re\ob{}ply/\ob{}not\=found,
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|
http\=re\ob{}ply/\ob{}bad\=request}, and so forth. The
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|
\semvar{req} argument is the request record that caused the error.
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|
Any following extra args are passed along for informational
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|
purposes. Different HTTP errors take different types of extra
|
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|
arguments. For example, the ``301 moved permanently'' and ``302
|
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|
|
moved temporarily'' replies use the first two extra values as the
|
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|
|
\ex{URI:} and \ex{Lo\-ca\-tion:} fields in the reply header,
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|
|
respectively. See the clauses of the
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|
\ex{send\=http\=er\ob{}ror\=re\ob{}ply} procedure for details.
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|
\end{defundesc}
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|
|
\begin{defundesc}{send-http-error-reply}{reply-code request \ovar{extra \ldots}}{\noreturn}
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|
This procedure writes an error reply out to the current output port.
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|
If an error occurs during this process, it is caught, and the
|
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|
|
procedure silently returns. The http server's standard error handler
|
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|
|
passes all http errors raised during path-handler execution to this
|
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|
|
procedure to generate the error reply before aborting the request
|
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|
|
transaction.
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|
\end{defundesc}
|
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|
|
\subsection{Simple directory generation}
|
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|
|
|
|
|
Most path-handlers that serve files to clients eventually call an
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|
|
internal procedure named \ex{file\=serve}, which implements a simple
|
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|
|
directory-generation service using the following rules:
|
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|
|
\begin{itemize}
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|
|
\item If the filename has the form of a directory (i.e., it ends with
|
|
|
|
a slash), then \ex{file\=serve} actually looks for a file named
|
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|
|
``index.html'' in that directory.
|
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|
|
\item If the filename names a directory, but is not in directory form
|
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|
|
(i.e., it doesn't end in a slash, as in
|
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|
|
``\ex{/usr\ob{}in\ob{}clu\ob{}de}'' or ``\ex{/usr\ob{}raj}''),
|
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|
|
then \ex{file\=serve} sends back a ``301 moved permanently''
|
|
|
|
message, redirecting the client to a slash-terminated version of the
|
|
|
|
original URL. For example, the URL
|
|
|
|
\ex{http://\ob{}clark.\ob{}lcs.\ob{}mit.\ob{}edu/\ob{}~shi\ob{}vers}
|
|
|
|
would be redirected to
|
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|
|
\ex{http://\ob{}clark.\ob{}lcs.\ob{}mit.\ob{}edu/\ob{}~shi\ob{}vers/}
|
|
|
|
\item If the filename names a regular file, it is served to the
|
|
|
|
client.
|
|
|
|
\end{itemize}
|
|
|
|
|
|
|
|
\subsection{Support procs}
|
|
|
|
|
|
|
|
The source files contain a host of support procedures which will be of
|
|
|
|
utility to anyone writing a custom path-handler. Read the files first.
|
|
|
|
\FIXME{Let us read the files and paste the contents here.}
|
|
|
|
|
|
|
|
\subsection{Losing}
|
|
|
|
|
|
|
|
Be aware of two Unix problems, which may require workarounds:
|
|
|
|
\begin{enumerate}
|
|
|
|
\item NeXTSTEP's Posix implementation of the \ex{get\ob{}pwnam()}
|
|
|
|
routine will silently tell you that every user has uid 0. This means
|
|
|
|
that if your server, running as root, does a
|
|
|
|
\codex{(set-uid (user->uid "nobody"))}
|
|
|
|
it will essentially do a
|
|
|
|
\codex{(set-uid 0)}
|
|
|
|
and you will thus still be running as root. The fix is to manually
|
|
|
|
find out who user nobody is (he's -2 on my system), and to hard-wire
|
|
|
|
this into the server:
|
|
|
|
\codex{(set-uid -2)}
|
|
|
|
This problem is NeXTSTEP specific. If you are using not using
|
|
|
|
NeXTSTEP, no problem.
|
|
|
|
\item On NeXTSTEP, the \ex{ip\=ad\ob{}dress->\ob{}host\=name}
|
|
|
|
translation routine (in C, \ex{get\ob{}host\ob{}by\ob{}addr()}; in
|
|
|
|
scsh, \ex{(host\=in\ob{}fo addr)}) does not use the DNS system; it
|
|
|
|
goes through NeXT's propietary Netinfo system, and may not return a
|
|
|
|
fully-qualified domain name. For example, on my system, I get
|
|
|
|
``\ex{ame\ob{}lia\=ear\ob{}hart}'', when I want
|
|
|
|
``\ex{ame\ob{}lia\=ear\ob{}hart.\ob{}lcs.\ob{}mit.\ob{}edu}''. Since
|
|
|
|
the server uses this name to construct redirection URL's to be sent
|
|
|
|
back to the Web client, they need to be FQDN's.
|
|
|
|
|
|
|
|
This problem may occur on other OS's; I cannot determine if
|
|
|
|
\ex{get\ob{}host\ob{}by\ob{}addr()} is required to return a FQDN or
|
|
|
|
not. (I would appreciate hearing the answer if you know; my local
|
|
|
|
Internet guru's couldn't tell me.)
|
|
|
|
|
|
|
|
If your system doesn't give you a complete Internet address when you
|
|
|
|
say
|
|
|
|
\codex{(host-info:name (host-info (system-name)))}
|
|
|
|
then you have this problem.
|
|
|
|
|
|
|
|
The server has a workaround. There is a procedure exported from the
|
|
|
|
\ex{httpd\=core} package:
|
|
|
|
\codex{(set-my-fqdn name)}
|
|
|
|
Call this to crow-bar the server's idea of its own Internet host
|
|
|
|
name before running the server, and all will be well.
|
|
|
|
\end{enumerate}
|
|
|
|
|
|
|
|
%%% Local Variables:
|
|
|
|
%%% mode: latex
|
|
|
|
%%% TeX-master: t
|
|
|
|
%%% End:
|