.TH mini_httpd 8 "05 October 1999"
mini_httpd - small HTTP server
.RB [ -C
.IR configfile ]
.RB [ -p
.IR port ]
.RB [ -d
.IR dir ]
.RB [ -dd
.IR data_dir ]
.RB [ -c
.IR cgipat ]
.RB [ -u
.IR user ]
.RB [ -h
.IR hostname ]
.RB [ -r ]
.RB [ -v ]
.RB [ -l
.IR logfile ]
.RB [ -i
.IR pidfile ]
.RB [ -T
.IR charset ]
.RB [ -P
.IR P3P ]
.RB [ -M
.IR maxage ]
.RB [ -S ]
.RB [ -E
.IR certfile ]
.RB [ -Y
.IR cipher ]
.RB [ -D ]
.RB [ -V ]
is a small HTTP server.
Its performance is not great, but for low or medium traffic sites it's
It implements all the basic features of an HTTP server, including:
GET, HEAD, and POST methods.
Security against ".." filename snooping.
The common MIME types.
index.html, index.htm, index.cgi
Multihoming / virtual hosting.
Custom error pages.
It can also be configured to do SSL/HTTPS.
mini_httpd was written for a couple reasons.
One, as an experiment to see just how slow an old-fashioned forking
web server would be with today's operating systems.
The answer is, surprisingly, not that slow - on FreeBSD 3.2, mini_httpd
benchmarks at about 90% the speed of Apache.
The other main reason for writing mini_httpd was to get a simple
platform for experimenting with new web server technology, for instance SSL.
Specifies a config-file to read.
All options can be set either by command-line flags or in the config file.
See below for details.
Specifies an alternate port number to listen on.
The default is 80.
The config-file option name for this flag is "port".
Specifies a directory to chdir() to at startup.
This is merely a convenience - you could just as easily do a cd in the
shell script that invokes the program.
The config-file option name for this flag is "dir".
Specifies a directory to chdir() to after chrooting.
If you're not chrooting, you might as well do a single chdir() with
the \-d flag.
If you are chrooting, this lets you put the web files in a subdirectory
of the chroot tree, instead of in the top level mixed in with the
The config-file option name for this flag is "data_dir".
Specifies a wildcard pattern for CGI programs, for instance "**.cgi"
The default is no CGI.
The config-file option name for this flag is "cgipat".
Specifies what user to switch to after initialization when started as root.
The default is "nobody".
The config-file option name for this flag is "user".
Specifies a hostname to bind to, for multihoming.
The default is to bind to all hostnames supported on the local machine.
The config-file option name for this flag is "host".
Do a chroot() at initialization time, restricting file access
to the program's current directory.
See below for details.
The config-file option names for this flag are "chroot" and "nochroot".
Do virtual hosting.
See below for details.
The config-file option name for this flag is "vhost".
Specifies a log file name.
The default is no logging.
The config-file option name for this flag is "logfile".
Specifies a file to write the process-id to.
If no file is specified, no process-id is written.
You can use this file to send signals to mini_httpd.
The config-file option name for this flag is "pidfile".
Specifies the character set to use with text MIME types.
The default is "UTF-8".
The config-file option name for this flag is "charset".
Specifies a P3P server privacy header to be returned with all responses.
See http://www.w3.org/P3P/ for details.
Mini_httpd doesn't do anything at all with the string except put it in the
P3P: response header.
The config-file option name for this flag is "p3p".
Specifies the number of seconds to be used in a "Cache-Control: max-age"
header to be returned with all responses.
An equivalent "Expires" header is also generated.
The default is no Cache-Control or Expires headers,
which is just fine for most sites.
The config-file option name for this flag is "maxage".
If mini_httpd is configured to do SSL/HTTPS, then the \-S flag is available
to enable this feature.
The config-file option name for this flag is "ssl".
If mini_httpd is configured to do SSL/HTTPS, then you can specify a
server certificate with this flag.
You can make a certificate with the command "make cert".
The default is "mini_httpd.pem" (in the directory where you start mini_httpd).
The config-file option name for this flag is "certfile".
If mini_httpd is configured to do SSL/HTTPS, then you can specify a
cipher set with this flag.
Examples of cipher sets: "RC4-MD5", "DES-CBC3-SHA", "AES256-SHA".
The default is to let each browser negotiate ciphers separately, and
unless you know what you're doing it's best to let them do so.
The config-file option name for this flag is "cipher".
This was originally just a debugging flag, however it's worth mentioning
because one of the things it does is prevent mini_httpd from making itself
a background daemon.
Instead it runs in the foreground like a regular program.
This is necessary when you want to run mini_httpd wrapped in a little shell
script that restarts it if it exits.
The config-file option name for this flag is "debug".
Shows mini_httpd's version and then exits.
mini_httpd supports the CGI 1.1 spec.
In order for a CGI program to be run, its name must match the pattern
you specify with the \-c flag
This is a simple shell-style filename pattern.
You can use * to match any string not including a slash,
or ** to match any string including slashes,
or ? to match any single character.
You can also use multiple such patterns separated by |.
The patterns get checked against the filename
part of the incoming URL.
Don't forget to quote any wildcard characters so that the shell doesn't
mess with them.
.SH "BASIC AUTHENTICATION"
Basic Authentication uses a password file called ".htpasswd", in
the directory to be protected.
This file is formatted as the familiar colon-separated
username/encrypted-password pair, records delimited by newlines.
The protection does not carry over to subdirectories.
The utility program htpasswd(1) is included to help create and
modify .htpasswd files.
chroot() is a system call that restricts the program's view
of the filesystem to the current directory and directories
It becomes impossible for remote users to access any file
outside of the initial directory.
The restriction is inherited by child processes, so CGI programs get it too.
This is a very strong security measure, and is recommended.
The only downside is that only root can call chroot(), so this means
the program must be started as root.
However, the last thing it does during initialization is to
give up root access by becoming another user, so this is safe.
Note that with some other web servers, such as NCSA httpd, setting
up a directory tree for use with chroot() is complicated, involving
creating a bunch of special directories and copying in various files.
With mini_httpd it's a lot easier, all you have to do is make sure
any shells, utilities, and config files used by your CGI programs and
scripts are available.
If you have CGI disabled, or if you make a policy that all CGI programs
must be written in a compiled language such as C and statically linked,
then you probably don't have to do any setup at all.
However, one thing you should do is tell syslogd about the chroot tree,
so that mini_httpd can still generate syslog messages.
Check your system's syslodg man page for how to do this.
In FreeBSD you would put something like this in /etc/rc.conf:
Substitute in your own chroot tree's pathname, of course.
Don't worry about creating the log socket, syslogd wants to do that itself.
(You may need to create the dev directory.)
In Linux the flag is \-a instead of \-l, and there may be other differences.
Multihoming means using one machine to serve multiple hostnames.
For instance, if you're an internet provider and you want to let
all of your customers have customized web addresses, you might
have www.joe.acme.com, www.jane.acme.com, and your own www.acme.com,
all running on the same physical hardware.
This feature is also known as "virtual hosts".
There are three steps to setting this up.
One, make DNS entries for all of the hostnames.
The current way to do this, allowed by HTTP/1.1, is to use CNAME aliases,
www.acme.com IN A 220.127.116.11
www.joe.acme.com IN CNAME www.acme.com
www.jane.acme.com IN CNAME www.acme.com
However, this is incompatible with older HTTP/1.0 browsers.
If you want to stay compatible, there's a different way - use A records
instead, each with a different IP address, like so:
www.acme.com IN A 18.104.22.168
www.joe.acme.com IN A 22.214.171.124
www.jane.acme.com IN A 126.96.36.199
This is bad because it uses extra IP addresses, a somewhat scarce resource.
But if you want people with older browsers to be able to visit your
sites, you still have to do it this way.
If you're using the modern CNAME method of multihoming, then you can
skip this step.
Otherwise, using the older multiple-IP-address method you
must set up IP aliases or multiple interfaces for the extra addresses.
You can use ifconfig(8)'s alias command to tell the machine to answer to
all of the different IP addresses.
ifconfig le0 www.acme.com
ifconfig le0 www.joe.acme.com alias
ifconfig le0 www.jane.acme.com alias
If your OS's version of ifconfig doesn't have an alias command, you're
probably out of luck.
Third and last, you must set up mini_httpd to handle the multiple hosts.
The easiest way is with the \-v flag.
This works with either CNAME multihosting or multiple-IP multihosting.
What it does is send each incoming request to a subdirectory based on the
hostname it's intended for.
All you have to do in order to set things up is to create those subdirectories
in the directory where mini_httpd will run.
With the example above, you'd do like so:
mkdir www.acme.com www.joe.acme.com www.jane.acme.com
If you're using old-style multiple-IP multihosting, you should also create
symbolic links from the numeric addresses to the names, like so:
ln \-s www.acme.com 188.8.131.52
ln \-s www.joe.acme.com 184.108.40.206
ln \-s www.jane.acme.com 220.127.116.11
This lets the older HTTP/1.0 browsers find the right subdirectory.
There's an optional alternate step three if you're using multiple-IP
multihosting: run a separate mini_httpd process for each hostname, using
the \-h flag to specify which one is which.
This gives you more flexibility, since you can run each of these processes
in separate directories or with different options.
( cd /usr/www ; mini_httpd \-h www.acme.com )
( cd /usr/www/joe ; mini_httpd \-u joe \-h www.joe.acme.com )
( cd /usr/www/jane ; mini_httpd \-u jane \-h www.jane.acme.com )
But remember, this multiple-process method does not work with CNAME
multihosting \(hy for that, you must use a single mini_httpd process with
the \-v flag.
.SH "CUSTOM ERRORS"
mini_httpd lets you define your own custom error pages for the various
There's a separate file for each error number, all stored in one
The directory name is "errors", at the top of the web directory tree.
The error files should be named "errNNN.html", where NNN is the error number.
So for example, to make a custom error page for the authentication failure
error, which is number 401, you would put your HTML into the file
If no custom error file is found for a given error number, then the
usual built-in error page is generated.
If you're using the virtual hosts option, you can also have different
custom error pages for each different virtual host.
In this case you put another "errors" directory in the top of that
virtual host's web tree.
mini_httpd will look first in the virtual host errors directory, and
then in the server-wide errors directory, and if neither of those
has an appropriate error file then it will generate the built-in error.
.SH "NON-LOCAL REFERRERS"
Sometimes another site on the net will embed your image files in their
HTML files, which basically means they're stealing your bandwidth.
You can prevent them from doing this by using non-local referrer filtering.
With this option, certain files can only be fetched via a local referrer.
The files have to be referenced by a local web page.
If a web page on some other site references the files, that fetch will
There are three config-file variables for this feature:
A wildcard pattern for the URLs that should require a local referrer.
This is typically just image files, sound files, and so on.
For most sites, that one setting is all you need to enable referrer filtering.
By default, requests with no referrer at all, or a null referrer, or a
referrer with no apparent hostname, are allowed.
With this variable set, such requests are disallowed.
A wildcard pattern that specifies the local host or hosts.
This is used to determine if the host in the referrer is local or not.
If not specified it defaults to the actual local hostname.
mini_httpd will terminate cleanly upon receipt of a number of different
signals, which you can send via the standard Unix kill(1) command.
Any of SIGTERM, SIGINT, or SIGUSR1 will do the trick.
All requests in progress will be completed.
The network socket used to accept new connections gets
closed immediately, which means a fresh mini_httpd can be started up
This is convenient when you're rotating your log files.
In addition, a SIGHUP will attempt to close and re-open the log file.
This is a little tricky to set up correctly, for instance if you are using
chroot() then the log file must be within the chroot tree, but it's
If you're going to serve SSL/HTTPS you will need a server certificate.
There are a bunch of companies that will issue one for you; see the
lists at http://www.apache-ssl.org/#Digital_Certificates and
You can also create one for yourself, using the openssl tool.
Step one - create the key and certificate request:
openssl req \-new > cert.csr
Step two \(hy remove the passphrase from the key:
openssl rsa \-in privkey.pem \-out key.pem
Step three \(hy convert the certificate request into a signed certificate:
openssl x509 \-in cert.csr \-out cert.pem \-req \-signkey key.pem \-days 365
This creates four files.
The ones you want are cert.pem and key.pem.
You don't need cert.csr and privkey.pem, and may remove them.
.SH "SEE ALSO"
htpasswd(1), weblog_parse(1), http_get(1)
Copyright \[co] 1999,2000 by Jef Poskanzer <jef\[at]mail.acme.com>. All rights reserved.
.\" Redistribution and use in source and binary forms, with or without
.\" modification, are permitted provided that the following conditions
.\" are met:
.\" 1. Redistributions of source code must retain the above copyright
.\" notice, this list of conditions and the following disclaimer.
.\" 2. Redistributions in binary form must reproduce the above copyright
.\" notice, this list of conditions and the following disclaimer in the
.\" documentation and/or other materials provided with the distribution.
.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
.\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
.\" SUCH DAMAGE.