miniupnpc/miniupnpd/INSTALL

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MiniUPnP project.
(c) 2006-2020 Thomas Bernard
Homepage : http://miniupnp.free.fr/
Mirror: https://miniupnp.tuxfamily.org/
github: https://github.com/miniupnp/miniupnp
miniupnpd is still under developpement. This documentation is
likely to be a little outdated when you read it. So please go on the
web forum https://miniupnp.tuxfamily.org/ if you need more information.
================================ *BSD/pf =================================
To Build and Install :
- first use ./configure
For more details about options :
> ./configure -h
then edit config.h to fine tune to your preferences.
- use BSD make to compile.
- add "rdr-anchor miniupnpd" or/and "anchor miniupnpd" lines to /etc/pf.conf
(Since OpenBSD 4.7, rdr-anchor lines are no longer used and should be
removed, leaving only the anchor lines).
- some FreeBSD users reported that it is also necessary for them
to explicitly allow udp traffic on 239.0.0.0/8 by adding the two following
lines to /etc/pf.conf :
pass out on $int_if from any to 239.0.0.0/8 keep state
pass in on $int_if from any to 239.0.0.0/8 keep state
- don't forget to " pfctl -f /etc/pf.conf "
- you can check your modifications are taken into account with
"pfctl -s nat" and "pfctl -s rule". Look for the "rdr-anchor miniupnpd"
(if applicable) and/or "anchor miniupnpd" lines.
- OpenBSD users may need to add a multicast_host= line to /etc/rc.conf.local
see $man 8 netstart
- install as root using :
# make install
or
# PREFIX=/usr/local make install
- run as root : The daemon needs rights to modify pf rules.
=========================== *BSD,*Solaris/ipf =============================
configure tries to detect wether ipf or pf should be
used. If it fails, you can use ./configure --firewall=ipf
Installation steps are allmost the same as with pf.
*Solaris users would be interested in reading informations from :
http://blogs.sun.com/avalon/category/IPFilter
============================= Mac OS X/ipfw ===============================
- To enable non standard compilation options,
> ./configure -h
- use either 'bsdmake -f Makefile.bsd' (if available) or 'make' to build
============================== Mac OS X/pf ================================
Starting with Mac OS X 10.7 Lion, pf replaced ipfw as the OS X firewall.
also bsdmake is not available anymore.
Make sure you have installed the Xcode commande line tools (from the
Xcode Preferences menu or using 'xcode-select --install' command)
You need to download xnu sources : https://opensource.apple.com/tarballs/xnu/
- If version of xnu >= 4570,
> ./configure
Then edit config.h, adding line "#define PFVAR_NEW_STYLE" to it.
> INCLUDES="-I.../xnu/bsd -I.../xnu/libkern" make
============================ Linux/netfilter ==============================
To Build and install :
- make sure you have libiptc available on your system :
if you are using debian, "apt-get install iptables-dev"
Some versions of the iptables-dev package don't include the
necessary files : read "how to get libiptc with its headers on debian" below.
In anycase, libiptc is available in iptables sources packages
from http://netfilter.org
- edit and run netfilter/iptables_init.sh shell script.
This script must allways be run before the daemon
to set up initial rules and chains.
- Build and edit the config.h file
> ./configure
> vi config.h
- Build the daemon
> make
If not using iptables from your system,
> ./configure --iptablespath=/path/to/iptables-1.4.1
> make
- install as root using :
> make install
- A miniupnpd script should be installed to /etc/init.d
and the configuration files to /etc/miniupnpd
- anytime, you can use the netfilter/iptables_flush.sh
script to flush all rules added by the daemon.
- after killing the daemon, you can get back to
iptables initial state by running the netfilter/iptables_removeall.sh
script. Don't forget to edit the script to your convenience.
NOTE: a /etc/init.d/miniupnpd script will be installed.
If it suits you, you can use is with start, stop or restart argument.
# /etc/init.d/miniupnpd restart
How to get libiptc with its headers on debian :
(Note: that should be useless now that netfilter/tiny_nf_nat.h is included)
- Use apt-get to get sources :
> apt-get source iptables
you should then have an iptables-x.x.x/ directory.
- configure and compile :
> cd iptables-x.x.x/
> ./configure --enable-static
> make
- it is now possible to compile miniupnpd using the following command :
> ./configure --iptablespath=/path/to/iptables-x.x.x
> make
======================== Linux/netfilter nftables =========================
work is in progress.
install the required development libraries. For debian :
> apt-get install libnftnl-dev libmnl-dev
To build :
> ./configure --firewall=nftables
> make
(first clean any old config if you built the netfilter/iptables version
previoulsy)
see :
https://miniupnp.tuxfamily.org/forum/viewtopic.php?p=4370
https://github.com/miniupnp/miniupnp/pull/114
=========================== Configuration =============================
Edit the /etc/miniupnpd.conf file to set options. Almost all options are
also available through command line switches.
A basic configuration would set :
ext_ifname : WAN network interface (interface connected to the internet)
listening_ip : LAN network interface (network where to supply NAT traversal)
enable_natpmp=yes
enable_upnp=yes
and the permission rules (see below).
Historically, LAN had to be specified by IP/mask, such as
listening_ip=192.168.0.1/24
but if you compiled with IPv6 support, you need to specify an interface name :
listening_ip=eth0
The current code assumes there is only one IPv4 address assigned to LAN
interfaces. That is not the case with some CARP setup, there is then a risk
the wrong mask would be picked. You can force the mask when using interface
names :
listening_ip=eth0/24
Some users want to use miniupnpd on a NAT router which is connected to the
internet through another NAT router (NAT behind NAT). This kind of setup is
strongly discouraged. miniupnpd will refuses to launch when detecting a
private (RFC1918) "WAN" IP address. The ext_ip option sould be added :
ext_ifname=eth1 # "WAN" network interface, whose IP could be 192.168.1.22
ext_ip=80.1.2.3 # Real public IP address
listening_ip=eth0
Please note that miniupnpd doesn't redirect any port on the other NAT router.
UPNP requests forwarding is not implemented.
It is however possible to use STUN. See the ext_perform_stun / ext_stun_host
/ ext_stun_port options.
it is also possible to set a different interface for IPv6 WAN
ext_ifname=eth0
ext_ifname6=sit0
miniupnpd supports some kind of security check for allowing or disallowing
redirection to be made. The UPnP permission rules are read from the
miniupnpd.conf configuration file.
When a new redirection is requested, permission rules are evaluated in
top-down order and the first permission rule matched gives the response :
redirection allowed or denied. If no rule is matching, the redirection is
allowed, so it is a good practice to have a "catch all" deny permission
rule at the end of your permission ruleset.
Sample permission ruleset :
allow 4662-4672 192.168.1.34/32 4662-4672
deny 0-65535 192.168.1.34/32 0-65535
allow 1024-65535 192.168.1.0/24 1024-65535
deny 0-65535 0.0.0.0/0 0-65535
With this ruleset, redirections are allowed only for host on the subnet
192.168.1.0/255.255.255.0 for the ports 1024 or above. There is an exception
for the host 192.168.1.34 for which only redirections from/to port 4662 to
4672 are allowed.
You can generate the uuid for your UPnP device with the uuidgen available
under linux. The following following OpenBSD package is also providing
a "uuid" tool :
http://www.openbsd.org/4.0_packages/i386/uuid-1.5.0.tgz-long.html
An web based uuid generator is also available :
http://kruithof.xs4all.nl/uuid/uuidgen
On linux systems, one could also use the command
'cat /proc/sys/kernel/random/uuid' to generate an uuid.
More simple, use the genuuid makefile target :
> make genuuid
This target is needed by the "install" target, so it is done automatically
during install.
To stop the daemon use :
# kill `cat /var/run/miniupnpd.pid`
or if your linux system use /etc/init.d/
# /etc/init.d/miniupnpd stop
* Signals :
miniupnpd handles the following signals :
SIGUSR1: Send public IP address change notification
SIGUSR2: Handle special actions in Tomato Firmware version
Or rewrite the lease_file
SIGINT: Close gracefully
SIGTERM: Close gracefully
SIGPIPE: Ignore
There is code to detect change in network interfaces bsd/ifacewatcher.c and
linux/ifacewatcher.c, but if that code doesn't work for you, you may want to
send SIGUSR1 to miniupnpd if you public IP address changed.