@node GNUnet Installation Handbook
@chapter GNUnet Installation Handbook
This handbook describes how to install (build setup, compilation) and setup
(configuration, start) GNUnet 0.10.x. After following these instructions you
should be able to install and then start user-interfaces to interact with the
network.
This manual is far from complete, and we welcome informed contributions, be it
in the form of new chapters or insightful comments.
@menu
* Dependencies::
* Pre-installation notes::
* Generic installation instructions::
* Build instructions for Ubuntu 12.04 using Git::
* Build Instructions for Microsoft Windows Platforms::
* Build instructions for Debian 7.5::
* Installing GNUnet from Git on Ubuntu 14.4::
* Build instructions for Debian 8::
* Outdated build instructions for previous revisions::
* Portable GNUnet::
* The graphical configuration interface::
* How to start and stop a GNUnet peer::
@end menu
@node Dependencies
@section Dependencies
@c %**end of header
This document lists the various known dependencies for GNUnet 0.10.x.
Suggestions for missing dependencies or wrong version numbers are welcome.
@menu
* External dependencies::
* Fixing libgnurl build issues::
* Internal dependencies::
@end menu
@node External dependencies
@subsection External dependencies
@c %**end of header
These packages must be installed before a typical GNUnet installation
can be performed:
@table @asis
@item
GNU libmicrohttpd 0.9.30 or higher
@item
GNU libextractor 1.0 or higher
@item
GNU libtool 2.2 or higher
@item
GNU libunistring 0.9.1.1 or higher
@item
GNU libidn 1.0.0 or higher
@item
@uref{https://gnupg.org/software/libgcrypt/index.html, GNU libgcrypt}
@uref{https://gnupg.org/ftp/gcrypt/libgcrypt/, 1.6.0} or higher
@item
@uref{https://gnutls.org/, GnuTLS}
@uref{https://www.gnupg.org/ftp/gcrypt/gnutls/v3.2/, 3.2.7} or higher,
compile with libunbound for DANE support; GnuTLS also requires GNU
nettle 2.7 (update: GnuTLS 3.2.7 appears NOT to work against GNU nettle
> 2.7, due to some API updatings done by nettle. Thus it should be compiled
against nettle 2.7 and, in case you get some error on the reference to
`rpl_strerror' being undefined, follow the instructions on@
@uref{http://lists.gnupg.org/pipermail/gnutls-devel/2013-November/006588.html, this}
post (and the link inside it)).
@item
@uref{https://gnunet.org/gnurl, gnURL} libgnurl 7.34.0 or higher,
must be compiled after @code{GnuTLS}
@item
libglpk 4.45 or higher
@item
@uref{http://www.openssl.org/, OpenSSL} (binary) 1.0 or higher
@item
TeX Live 2012 or higher, optional (for gnunet-bcd)
@item
libpulse 2.0 or higher, optional (for gnunet-conversation)
@item
libopus 1.0.1 or higher, optional (for gnunet-conversation)
@item
libogg 1.3.0 or higher, optional (for gnunet-conversation)
@item
certool (binary)
optional for convenient installation of the GNS proxy
(available as part of Debian's libnss3-tools)
@item
python-zbar 0.10 or higher, optional (for gnunet-qr)
@item
libsqlite 3.8.0 or higher (note that the code will compile and often work with lower
version numbers, but you may get subtle bugs with respect to quota management
in certain rare cases); alternatively, MySQL or Postgres can also be installed,
but those databases will require more complex configurations (not recommended
for first-time users)
@item
zlib any version we tested worked
@item
Gtk+ 3.0 or higher, optional (for gnunet-gtk)
@item
libgladeui must match Gtk+ version, optional (for gnunet-gtk)
@item
libqrencode 3.0 or higher, optional (for gnunet-namestore-gtk)
@end table
@node Fixing libgnurl build issues
@subsection Fixing libgnurl build issues
If you have to compile libgnurl from source since the version included in your
distribution is to old you perhaps get an error message while running the
@file{configure} script:
@code{@
$ configure@
...@
checking for 64-bit curl_off_t data type... unknown@
checking for 32-bit curl_off_t data type... unknown@
checking for 16-bit curl_off_t data type... unknown@
configure: error: cannot find data type for curl_off_t.@
}
Solution:
Before running the configure script, set:
@code{CFLAGS="-I. -I$BUILD_ROOT/include" }
@node Internal dependencies
@subsection Internal dependencies
This section tries to give an overview of what processes a typical GNUnet peer
running a particular application would consist of. All of the processes listed
here should be automatically started by @code{gnunet-arm -s}. The list is given
as a rough first guide to users for failure diagnostics. Ideally, end-users
should never have to worry about these internal dependencies.
In terms of internal dependencies, a minimum file-sharing system consists of
the following GNUnet processes (in order of dependency):
@itemize @bullet
@item
gnunet-service-arm
@item
gnunet-service-resolver (required by all)
@item
gnunet-service-statistics (required by all)
@item
gnunet-service-peerinfo
@item
gnunet-service-transport (requires peerinfo)
@item
gnunet-service-core (requires transport)
@item
gnunet-daemon-hostlist (requires core)
@item
gnunet-daemon-topology (requires hostlist, peerinfo)
@item
gnunet-service-datastore
@item
gnunet-service-dht (requires core)
@item
gnunet-service-identity
@item
gnunet-service-fs (requires identity, mesh, dht, datastore, core)
@end itemize
A minimum VPN system consists of the following GNUnet processes (in order of
dependency):
@itemize @bullet
@item
gnunet-service-arm
@item
gnunet-service-resolver (required by all)
@item
gnunet-service-statistics (required by all)
@item
gnunet-service-peerinfo
@item
gnunet-service-transport (requires peerinfo)
@item
gnunet-service-core (requires transport)
@item
gnunet-daemon-hostlist (requires core)
@item
gnunet-service-dht (requires core)
@item
gnunet-service-mesh (requires dht, core)
@item
gnunet-service-dns (requires dht)
@item
gnunet-service-regex (requires dht)
@item
gnunet-service-vpn (requires regex, dns, mesh, dht)
@end itemize
A minimum GNS system consists of the following GNUnet processes (in order of
dependency):
@itemize @bullet
@item
gnunet-service-arm
@item
gnunet-service-resolver (required by all)
@item
gnunet-service-statistics (required by all)
@item
gnunet-service-peerinfo
@item
gnunet-service-transport (requires peerinfo)
@item
gnunet-service-core (requires transport)
@item
gnunet-daemon-hostlist (requires core)
@item
gnunet-service-dht (requires core)
@item
gnunet-service-mesh (requires dht, core)
@item
gnunet-service-dns (requires dht)
@item
gnunet-service-regex (requires dht)
@item
gnunet-service-vpn (requires regex, dns, mesh, dht)
@item
gnunet-service-identity
@item
gnunet-service-namestore (requires identity)
@item
gnunet-service-gns (requires vpn, dns, dht, namestore, identity)
@end itemize
@node Pre-installation notes
@section Pre-installation notes
Please note that in the code instructions for the installation,
@emph{#} indicates commands run as privileged root user and
@emph{$} shows commands run as unprivileged ("normal") system user.
@node Generic installation instructions
@section Generic installation instructions
First, in addition to the GNUnet sources you must download the latest version
of various dependencies. Most distributions do not include sufficiently recent
versions of these dependencies. Thus, a typically installation on a "modern"
GNU/Linux distribution requires you to install the following
dependencies (ideally in this order):
@itemize @bullet
@item
libgpgerror and libgcrypt
@item
libnettle and libunbound (possibly from distribution), GnuTLS
@item
libgnurl (read the README)
@item
GNU libmicrohttpd
@item
GNU libextractor (make sure to first install the various mandatory and optional
dependencies including development headers from your distribution)
@end itemize
Other dependencies that you should strongly consider to install is a
database (MySQL, sqlite or Postgres). The following instructions will assume
that you installed at least sqlite. For most distributions you should be able
to find pre-build packages for the database. Again, make sure to install the
client libraries and the respective development headers (if they are
packaged separately) as well.
You can find specific, detailed instructions for installing of the dependencies
(and possibly the rest of the GNUnet installation) in the platform-specific
descriptions, which are linked from the bottom of this page. Please consult
them now. If your distribution is not listed, please study the instructions for
Debian stable carefully as you try to install the dependencies for your own
distribution. Contributing additional instructions for further platforms is
always appreciated.
Before proceeding further, please double-check the dependency list. Note that
in addition to satisfying the dependencies, you might have to make sure that
development headers for the various libraries are also installed. There maybe
files for other distributions, or you might be able to find equivalent packages
for your distribution.
While it is possible to build and install GNUnet without having root access,
we will assume that you have full control over your system in these
instructions. First, you should create a system user @emph{gnunet} and an additional
group @emph{gnunetdns}. On Debian and Ubuntu GNU/Linux, type:@
@code{@
# adduser --system --home /var/lib/gnunet --group --disabled-password gnunet@
# addgroup --system gnunetdns@
}@
On other Unixes, this should have the same effect:@
@code{@
# useradd --system --groups gnunet --home-dir /var/lib/gnunet@
# addgroup --system gnunetdns@
}@
Now compile and install GNUnet using:@
@code{@
$ tar xvf gnunet-0.10.?.tar.gz@
$ cd gnunet-0.10.?@
$ ./configure --with-sudo=sudo --with-nssdir=/lib@
$ make@
$ sudo make install@
}@
If you want to be able to enable DEBUG-level log messages, add
@code{--enable-logging=verbose} to the end of the @code{./configure} command.
DEBUG-level log messages are in English-only and should only be useful for
developers (or for filing really detailed bug reports).
Finally, you probably want to compile @code{gnunet-gtk}, which includes gnunet-setup
(graphical tool for configuration) and @code{gnunet-fs-gtk} (graphical tool for
file-sharing):@
@code{@
$ tar xvf gnunet-gtk-0.10.?.tar.gz@
$ cd gnunet-gtk-0.10.?@
$ ./configure --with-gnunet=/usr/local/@
$ make@
$ sudo make install@
$ cd ..@
$ sudo ldconfig # just to be safe@
}@
Next, edit the file @file{/etc/gnunet.conf} to contain the following:@
@code{@
[arm]@
SYSTEM_ONLY = YES@
USER_ONLY = NO@
}@
You may need to update your ld.so cache to include files installed in
@file{/usr/local/lib}:@
@code{@
# ldconfig@
}@
Then, switch from user root to user gnunet to start the peer:@
@code{@
# su -s /bin/sh - gnunet@
$ gnunet-arm -c /etc/gnunet.conf -s@
}@
You may also want to add the last line in the gnunet users @file{crontab}
prefixed with @code{@@reboot} so that it is executed whenever the system is
booted:@
@code{@
@@reboot /usr/local/bin/gnunet-arm -c /etc/gnunet.conf -s@
}@
This will only start the system-wide GNUnet services. Type exit to get back
your root shell. Now, you need to configure the per-user part. For each
$USER on the system, run:@
@code{@
# adduser $USER gnunet@
}@
to allow them to access the system-wide GNUnet services. Then, each user should
create a configuration file @file{~/.config/gnunet.conf} with the lines:@
@code{@
[arm]@
SYSTEM_ONLY = NO@
USER_ONLY = YES@
DEFAULTSERVICES = gns@
}@
and start the per-user services using@
@code{@
$ gnunet-arm -c ~/.config/gnunet.conf -s@
}@
Again, adding a @code{crontab} entry to autostart the peer is advised:@
@code{@
@@reboot /usr/local/bin/gnunet-arm -c $HOME/.config/gnunet.conf -s@
}@
Note that some GNUnet services (such as SOCKS5 proxies) may need a system-wide
TCP port for each user. For those services, systems with more than one user may
require each user to specify a different port number in their personal
configuration file.
Finally, the user should perform the basic initial setup for the GNU Name
System. This is done by running two commands:@
@example
$ gnunet-gns-import.sh@
$ gnunet-gns-proxy-setup-ca@
@end example
The first generates the default zones, wheras the second setups the GNS
Certificate Authority with the user's browser. Now, to actiave GNS in the
normal DNS resolution process, you need to edit your @file{/etc/nsswitch.conf}
where you should find a line like this:
@example
hosts: files mdns4_minimal [NOTFOUND=return] dns mdns4
@end example
The exact details may differ a bit, which is fine. Add the text
@emph{"gns [NOTFOUND=return]"} after @emph{"files"}:
@example
hosts: files gns [NOTFOUND=return] mdns4_minimal [NOTFOUND=return] dns mdns4
@end example
You might want to make sure that @file{/lib/libnss_gns.so.2} exists on your
system, it should have been created during the installation.
@node Build instructions for Ubuntu 12.04 using Git
@section Build instructions for Ubuntu 12.04 using Git
@menu
* Install the required build tools::
* Install libgcrypt 1.6 and libgpg-error::
* Install gnutls with DANE support::
* Install libgnurl::
* Install libmicrohttpd from Git::
* Install libextractor from Git::
* Install GNUnet dependencies::
* Build GNUnet::
* Install the GNUnet-gtk user interface from Git::
@end menu
@node Install the required build tools
@subsection Install the required build tools
First, make sure Git is installed on your system:@
$ sudo apt-get install git@
Install the essential buildtools:@
$ sudo apt-get install automake autopoint autoconf libtool
@node Install libgcrypt 1.6 and libgpg-error
@subsection Install libgcrypt 1.6 and libgpg-error
$ wget ftp://ftp.gnupg.org/gcrypt/libgpg-error/libgpg-error-1.12.tar.bz2@
$ tar xf libgpg-error-1.12.tar.bz2@
$ cd libgpg-error-1.12@
$ ./configure@
$ sudo make install@
$ cd ..@
@node Install gnutls with DANE support
@subsection Install gnutls with DANE support
@example
$ wget http://www.lysator.liu.se/~nisse/archive/nettle-2.7.1.tar.gz@
$ tar xf nettle-2.7.1.tar.gz@
$ cd nettle-2.7.1@
$ ./configure@
$ sudo make install@
$ cd ..
@end example
@example
$ wget https://www.nlnetlabs.nl/downloads/ldns/ldns-1.6.16.tar.gz@
$ tar xf ldns-1.6.16.tar.gz@
$ cd ldns-1.6.16@
$ ./configure@
$ sudo make install@
$ cd ..
@end example
@example
$ wget https://unbound.net/downloads/unbound-1.4.21.tar.gz@
$ tar xf unbound-1.4.21.tar.gz@
$ cd unbound-1.4.21@
$ ./configure@
$ sudo make install@
$ cd ..
@end example
@example
$ wget ftp://ftp.gnutls.org/gcrypt/gnutls/v3.1/gnutls-3.1.17.tar.xz@
$ tar xf gnutls-3.1.17.tar.xz@
$ cd gnutls-3.1.17@
$ ./configure@
$ sudo make install@
$ cd ..
@end example
@example
$ wget ftp://ftp.gnupg.org/gcrypt/libgcrypt/libgcrypt-1.6.0.tar.bz2@
$ tar xf libgcrypt-1.6.0.tar.bz2@
$ cd libgcrypt-1.6.0@
$ ./configure@
$ sudo make install@
$ cd ..@
@end example
@node Install libgnurl
@subsection Install libgnurl
@example
$ wget https://gnunet.org/sites/default/files/gnurl-7.34.0.tar.bz2@
$ tar xf gnurl-7.34.0.tar.bz2@
$ cd gnurl-7.34.0@
$ ./configure --enable-ipv6 --with-gnutls --without-libssh2 \
--without-libmetalink --without-winidn --without-librtmp \
--without-nghttp2 --without-nss --without-cyassl \
--without-polarssl --without-ssl --without-winssl \
--without-darwinssl --disable-sspi --disable-ntlm-wb \
--disable-ldap --disable-rtsp --disable-dict --disable-telnet \
--disable-tftp --disable-pop3 --disable-imap --disable-smtp \
--disable-gopher --disable-file --disable-ftp@
$ sudo make install@
$ cd ..@
@end example
@node Install libmicrohttpd from Git
@subsection Install libmicrohttpd from Git
@example
$ git clone https://gnunet.org/git/libmicrohttpd@
$ cd libmicrohttpd/@
$ ./bootstrap@
$ ./configure@
$ sudo make install@
$ cd ..@
@end example
@node Install libextractor from Git
@subsection Install libextractor from Git
Install libextractor dependencies:@
@example
$ sudo apt-get install zlib1g-dev libgsf-1-dev libmpeg2-4-dev libpoppler-dev \
libvorbis-dev libexiv2-dev libjpeg-dev libtiff-dev libgif-dev libvorbis-dev \
libflac-dev libsmf-dev g++@
@end example
Build libextractor:@
@example
$ git clone https://gnunet.org/git/libextractor@
$ cd libextractor@
$ ./bootstrap@
$ ./configure@
$ sudo make install@
$ cd ..@
@end example
@node Install GNUnet dependencies
@subsection Install GNUnet dependencies
@example
$ sudo apt-get install libidn11-dev libunistring-dev libglpk-dev \
libpulse-dev libbluetooth-dev libsqlite-dev@
@end example
Install libopus@
@example
$ wget http://downloads.xiph.org/releases/opus/opus-1.1.tar.gz@
$ tar xf opus-1.1.tar.gz@
$ cd opus-1.1/@
$ ./configure@
$ sudo make install@
@end example
Choose one or more database backends@
@itemize @bullet
@item
SQLite3 @code{$ sudo apt-get install libsqlite3-dev}
@item
MySQL @code{$ sudo apt-get install libmysqlclient-dev}
@item
PostgreSQL @code{$ sudo apt-get install libpq-dev postgresql}
@end itemize
@node Build GNUnet
@subsection Build GNUnet
@menu
* Configuring the installation path::
* Configuring the system::
* Installing components requiring sudo permission::
* Build::
@end menu
@node Configuring the installation path
@subsubsection Configuring the installation path
You can specify the location of the GNUnet installation by setting the prefix
when calling the configure script:@code{ --prefix=DIRECTORY}
@code{@
$ export PATH=$PATH:DIRECTORY/bin@
}
@node Configuring the system
@subsubsection Configuring the system
Please make sure NOW that you have created a user and group 'gnunet'@
and additionally a group 'gnunetdns':@
@code{@
$ sudo addgroup gnunet@
$ sudo addgroup gnunetdns@
$ sudo adduser gnunet@
}
Each GNUnet user should be added to the 'gnunet' group (may@
require fresh login to come into effect):
@code{@
$ sudo useradd -G gnunet@
}
@node Installing components requiring sudo permission
@subsubsection Installing components requiring sudo permission
Some components, like the nss plugin required for GNS, may require root
permissions. To allow these few components to be installed use:@
@code{@
$ ./configure --with-sudo}
@node Build
@subsubsection Build
@code{@
$ git clone https://gnunet.org/git/gnunet/@
$ cd gnunet/@
$ ./bootstrap@
}
Use the required configure call including the optional installation prefix
PREFIX or the sudo permissions@
@code{$ ./configure [ --with-sudo | --with-prefix=PREFIX ]}@
@code{$ make; sudo make install}
After installing it, you need to create an empty configuration file:@
@code{mkdir ~/.gnunet; touch ~/.gnunet/gnunet.conf}
And finally you can start GNUnet with@
@code{$ gnunet-arm -s}
@node Install the GNUnet-gtk user interface from Git
@subsection Install the GNUnet-gtk user interface from Git
Install depencies:@
@code{$ sudo apt-get install libgtk-3-dev libunique-3.0-dev libgladeui-dev libqrencode-dev}
To build GNUnet (with an optional prefix)and execute:@
@code{@
$ git clone https://gnunet.org/git/gnunet-gtk/@
$ cd gnunet-gtk/@
$ ./bootstrap@
$ ./configure [--prefix=PREFIX] --with-gnunet=DIRECTORY@
$ make; sudo make install@
}
@node Build Instructions for Microsoft Windows Platforms
@section Build Instructions for Microsoft Windows Platforms
@menu
* Introduction to building on MS Windows::
* Requirements::
* Dependencies & Initial Setup::
* GNUnet Installation::
* Adjusting Windows for running and testing GNUnet::
* Building the GNUnet Installer::
* Using GNUnet with Netbeans on Windows::
@end menu
@node Introduction to building on MS Windows
@subsection Introduction to building on MS Windows
This document is a guide to building GNUnet and its dependencies on Windows
platforms. GNUnet development is mostly done under Linux and especially SVN
checkouts may not build out of the box. We regret any inconvenience, and if you
have problems, please report them.
@node Requirements
@subsection Requirements
The Howto is based upon a @strong{Windows Server 2008 32bit@strong{
Installation, @strong{sbuild} and thus a @uref{http://www.mingw.org/wiki/MSYS,
MSYS+MinGW} (W32-GCC-Compiler-Suite + Unix-like Userland) installation. sbuild
is a convenient set of scripts which creates a working msys/mingw installation
and installs most dependencies required for GNUnet. }}
As of the point of the creation of this Howto, GNUnet @strong{requires} a
Windows @strong{Server} 2003 or newer for full feature support. Windows Vista
and later will also work, but
@strong{non-server version can not run a VPN-Exit-Node} as the NAT features
have been removed as of Windows Vista.
@node Dependencies & Initial Setup
@subsection Dependencies & Initial Setup
@itemize @bullet
@item
Install a fresh version of @strong{Python 2.x}, even if you are using a x64-OS,
install a 32-bit version for use with sbuild. Python 3.0 currently is
incompatible.
@item
Install your favorite @uref{http://code.google.com/p/tortoisegit/, GIT} &
@uref{http://tortoisesvn.net/, SVN}-clients.
@item
You will also need some archive-manager like @uref{http://www.7-zip.org/, 7zip}.
@item
Pull a copy of sbuild to a directory of your choice, which will be used in the
remainder of this guide. For now, we will use @file{c:\gnunet\sbuild\}
@item
in @file{sbuild\src\mingw\mingw32-buildall.sh}, comment out the packages
@strong{gnunet-svn} and @strong{gnunet-gtk-svn}, as we don't want sbuild to
compile/install those for us.
@item
Follow LRN's sbuild installation instructions.-
@end itemize
Please note that sbuild may (or will most likely) fail during installation,
thus you really HAVE to @strong{check the logfiles} created during the
installation process. Certain packages may fail to build initially due to
missing dependencies, thus you may have to
@strong{substitute those with binary-versions initially}. Later on once
dependencies are satisfied you can re-build the newer package versions.
@strong{It is normal that you may have to repeat this step multiple times and
there is no uniform way to fix all compile-time issues, as the build-process
of many of the dependencies installed are rather unstable on win32 and certain
releases may not even compile at all.}
Most dependencies for GNUnet have been set up by sbuild, thus we now should add
the @file{bin/} directories in your new msys and mingw installations to PATH.
You will want to create a backup of your finished msys-environment by now.
@node GNUnet Installation
@subsection GNUnet Installation
First, we need to launch our msys-shell, you can do this via
@file{C:\gnunet\sbuild\msys\msys.bat}
You might wish to take a look at this file and adjust some login-parameters to
your msys environment.
Also, sbuild added two pointpoints to your msys-environment, though those
might remain invisible:
@itemize @bullet
@item
/mingw, which will mount your mingw-directory from sbuild/mingw and the other one is
@item
/src which contains all the installation sources sbuild just compiled.
@end itemize
Check out the current gnunet-sources (svn-head) from the gnunet-repository,
we will do this in your home directory:
@code{svn checkout https://gnunet.org/svn/gnunet/ ~/gnunet}
Now, we will first need to bootstrap the checked out installation and then
configure it accordingly.
@example
cd ~/gnunet@
./bootstrap@
STRIP=true CPPFLAGS="-DUSE_IPV6=1 -DW32_VEH" CFLAGS="$CFLAGS -g -O2" ./configure --prefix=/ --docdir=/share/doc/gnunet --with-libiconv-prefix=/mingw --with-libintl-prefix=/mingw --with-libcurl=/mingw --with-extractor=/mingw --with-sqlite=/mingw --with-microhttpd=/mingw --with-plibc=/mingw --enable-benchmarks --enable-expensivetests --enable-experimental --with-qrencode=/mingw --enable-silent-rules --enable-experimental 2>&1 | tee -a ./configure.log
@end example
The parameters above will configure for a reasonable gnunet installation to the
your msys-root directory. Depending on which features your would like to build
or you may need to specify additional dependencies. Sbuild installed most libs
into the /mingw subdirectory, so remember to prefix library locations with
this path.
Like on a unixoid system, you might want to use your home directory as prefix
for your own gnunet installation for development, without tainting the
buildenvironment. Just change the "prefix" parameter to point towards
~/ in this case.
Now it's time to compile gnunet as usual. Though this will take some time, so
you may fetch yourself a coffee or some Mate now...
@example
make@
make install
@end example
@node Adjusting Windows for running and testing GNUnet
@subsection Adjusting Windows for running and testing GNUnet
Assuming the build succeeded and you
@strong{added the bin directory of your gnunet to PATH}, you can now use your
gnunet-installation as usual. Remember that UAC or the windows firewall may
popup initially, blocking further execution of gnunet until you acknowledge
them (duh!).
You will also have to take the usual steps to get p2p software running properly
(port forwarding, ...), and gnunet will require administrative permissions as
it may even install a device-driver (in case you are using gnunet-vpn and/or
gnunet-exit).
@node Building the GNUnet Installer
@subsection Building the GNUnet Installer
The GNUnet installer is made with @uref{http://nsis.sourceforge.net/, NSIS}@
The installer script is located in @file{contrib\win} in the GNUnet source tree.
@node Using GNUnet with Netbeans on Windows
@subsection Using GNUnet with Netbeans on Windows
TODO
@node Build instructions for Debian 7.5
@section Build instructions for Debian 7.5
These are the installation instructions for Debian 7.5. They were tested using
a minimal, fresh Debian 7.5 AMD64 installation without non-free software
(no contrib or non-free). By "minimal", we mean that during installation, we
did not select any desktop environment, servers or system utilities during the
"tasksel" step. Note that the packages and the dependencies that we will
install during this chapter take about 1.5 GB of disk space. Combined with
GNUnet and space for objects during compilation, you should not even attempt
this unless you have about 2.5 GB free after the minimal Debian installation.
Using these instructions to build a VM image is likely to require a minimum of
4-5 GB for the VM (as you will likely also want a desktop manager).
GNUnet's security model assumes that your @file{/home} directory is encrypted.
Thus, if possible, you should encrypt your home partition
(or per-user home directory).
Naturally, the exact details of the starting state for your installation
should not matter much. For example, if you selected any of those installation
groups you might simply already have some of the necessary packages installed.
We did this for testing, as this way we are less likely to forget to mention a
required package. Note that we will not install a desktop environment, but of
course you will need to install one to use GNUnet's graphical user interfaces.
Thus, it is suggested that you simply install the desktop environment of your
choice before beginning with the instructions.
@menu
* Update::
* Stable? Hah!::
* Update again::
* Installing packages::
* Installing dependencies from source::
* Installing GNUnet from source::
* But wait there is more!::
@end menu
@node Update
@subsection Update
After any installation, you should begin by running
@example
# apt-get update@
# apt-get upgrade@
@end example
to ensure that all of your packages are up-to-date. Note that the "#" is used
to indicate that you need to type in this command as "root"
(or prefix with "sudo"), whereas "$" is used to indicate typing in a command
as a normal user.
@node Stable? Hah!
@subsection Stable? Hah!
Yes, we said we start with a Debian 7.5 "stable" system. However, to reduce the
amount of compilation by hand, we will begin by allowing the installation of
packages from the testing and unstable distributions as well. We will stick to
"stable" packages where possible, but some packages will be taken from the
other distributions. Start by modifying @file{/etc/apt/sources.list} to contain
the following (possibly adjusted to point to your mirror of choice):
@example
# These were there before:
deb http://ftp.de.debian.org/debian/ wheezy main
deb-src http://ftp.de.debian.org/debian/ wheezy main
deb http://security.debian.org/ wheezy/updates main
deb-src http://security.debian.org/ wheezy/updates main
deb http://ftp.de.debian.org/debian/ wheezy-updates main
deb-src http://ftp.de.debian.org/debian/ wheezy-updates main
# Add these lines (feel free to adjust the mirror):
deb http://ftp.de.debian.org/debian/ testing main
deb http://ftp.de.debian.org/debian/ unstable main
@end example
The next step is to create/edit your @file{/etc/apt/preferences} file to look
like this:
@example
Package: *
Pin: release a=stable,n=wheezy
Pin-Priority: 700
Package: *
Pin: release o=Debian,a=testing
Pin-Priority: 650
Package: *
Pin: release o=Debian,a=unstable
Pin-Priority: 600
@end example
You can read more about Apt Preferences here and here. Note that other pinnings
are likely to also work for GNUnet, the key thing is that you need some
packages from unstable (as shown below). However, as unstable is unlikely to
be comprehensive (missing packages) or might be problematic (crashing packages),
you probably want others from stable and/or testing.
@node Update again
@subsection Update again
Now, run again@
@example
# apt-get update@
# apt-get upgrade@
@end example
to ensure that all your new distribution indices are downloaded, and that your
pinning is correct: the upgrade step should cause no changes at all.
@node Installing packages
@subsection Installing packages
We begin by installing a few Debian packages from stable:@
@example
# apt-get install gcc make python-zbar libltdl-dev libsqlite3-dev \
libunistring-dev libopus-dev libpulse-dev openssl libglpk-dev \
texlive libidn11-dev libmysqlclient-dev libpq-dev libarchive-dev \
libbz2-dev libexiv2-dev libflac-dev libgif-dev libglib2.0-dev \
libgtk-3-dev libmagic-dev libjpeg8-dev libmpeg2-4-dev libmp4v2-dev \
librpm-dev libsmf-dev libtidy-dev libtiff5-dev libvorbis-dev \
libogg-dev zlib1g-dev g++ gettext libgsf-1-dev libunbound-dev \
libqrencode-dev libgladeui-dev nasm texlive-latex-extra \
libunique-3.0-dev gawk miniupnpc libfuse-dev libbluetooth-dev
@end example
After that, we install a few more packages from unstable:@
@example
# apt-get install -t unstable nettle-dev libgstreamer1.0-dev \
gstreamer1.0-plugins-base gstreamer1.0-plugins-good \
libgstreamer-plugins-base1.0-dev
@end example
@node Installing dependencies from source
@subsection Installing dependencies from source
Next, we need to install a few dependencies from source. You might want to do
this as a "normal" user and only run the @code{make install} steps as root
(hence the @code{sudo} in the commands below). Also, you do this from any
directory. We begin by downloading all dependencies, then extracting the
sources, and finally compiling and installing the libraries:@
@example
$ wget https://libav.org/releases/libav-9.10.tar.xz@
$ wget http://ftp.gnu.org/gnu/libextractor/libextractor-1.3.tar.gz@
$ wget ftp://ftp.gnupg.org/gcrypt/libgpg-error/libgpg-error-1.12.tar.bz2@
$ wget ftp://ftp.gnupg.org/gcrypt/libgcrypt/libgcrypt-1.6.0.tar.bz2@
$ wget ftp://ftp.gnutls.org/gcrypt/gnutls/v3.2/gnutls-3.2.7.tar.xz@
$ wget http://ftp.gnu.org/gnu/libmicrohttpd/libmicrohttpd-0.9.33.tar.gz@
$ wget https://gnunet.org/sites/default/files/gnurl-7.34.0.tar.bz2@
$ tar xvf libextractor-1.3.tar.gz@
$ tar xvf libgpg-error-1.12.tar.bz2@
$ tar xvf libgcrypt-1.6.0.tar.bz2@
$ tar xvf gnutls-3.2.7.tar.xz@
$ tar xvf libmicrohttpd-0.9.33.tar.gz@
$ tar xvf gnurl-7.34.0.tar.bz2@
$ cd libav-0.9 ; ./configure --enable-shared; make; sudo make install ; cd ..@
$ cd libextractor-1.3 ; ./configure; make ; sudo make install; cd ..@
$ cd libgpg-error-1.12; ./configure ; make ; sudo make install ; cd ..@
$ cd libgcrypt-1.6.0; ./configure --with-gpg-error-prefix=/usr/local; make ; sudo make install ; cd ..@
$ cd gnutls-3.2.7 ; ./configure ; make ; sudo make install ; cd ..@
$ cd libmicrohttpd-0.9.33; ./configure ; make ; sudo make install ; cd ..@
$ cd gnurl-7.34.0@
$ ./configure --enable-ipv6 --with-gnutls=/usr/local --without-libssh2 \
--without-libmetalink --without-winidn --without-librtmp --without-nghttp2 \
--without-nss --without-cyassl --without-polarssl --without-ssl \
--without-winssl --without-darwinssl --disable-sspi --disable-ntlm-wb \
--disable-ldap --disable-rtsp --disable-dict --disable-telnet --disable-tftp \
--disable-pop3 --disable-imap --disable-smtp --disable-gopher --disable-file \
--disable-ftp@
$ make ; sudo make install; cd ..@
@end example
@node Installing GNUnet from source
@subsection Installing GNUnet from source
For this, simply follow the generic installation instructions from
here.
@node But wait there is more!
@subsection But wait there is more!
So far, we installed all of the packages and dependencies required to ensure
that all of GNUnet would be built. However, while for example the plugins to
interact with the MySQL or Postgres databases have been created, we did not
actually install or configure those databases. Thus, you will need to install
and configure those databases or stick with the default Sqlite database.
Sqlite is usually fine for most applications, but MySQL can offer better
performance and Postgres better resillience.
@node Installing GNUnet from Git on Ubuntu 14.4
@section Installing GNUnet from Git on Ubuntu 14.4
@strong{Install the required build tools:}
@code{@
$ sudo apt-get install git automake autopoint autoconf@
}
@strong{Install the required dependencies}
@example
$ sudo apt-get install libltdl-dev libgpg-error-dev libidn11-dev \
libunistring-dev libglpk-dev libbluetooth-dev libextractor-dev \
libmicrohttpd-dev libgnutls28-dev
@end example
@strong{Choose one or more database backends}@
SQLite3@
@code{@
$ sudo apt-get install libsqlite3-dev@
}@
MySQL@
@code{@
$ sudo apt-get install libmysqlclient-dev@
}@
PostgreSQL@
@code{@
$ sudo apt-get install libpq-dev postgresql@
}
@strong{Install the optional dependencies for gnunet-conversation:}@
@code{@
$ sudo apt-get install gstreamer1.0 libpulse-dev libopus-dev@
}
@strong{Install the libgrypt 1.6.1:}@
For Ubuntu 14.04:@
@code{$ sudo apt-get install libgcrypt20-dev}@
For Ubuntu older 14.04:@
@code{$ wget ftp://ftp.gnupg.org/gcrypt/libgcrypt/libgcrypt-1.6.1.tar.bz2@
$ tar xf libgcrypt-1.6.1.tar.bz2@
$ cd libgcrypt-1.6.1@
$ ./configure@
$ sudo make install@
$ cd ..}@
@strong{Install libgnurl}@
@example
$ wget https://gnunet.org/sites/default/files/gnurl-7.35.0.tar.bz2@
$ tar xf gnurl-7.35.0.tar.bz2@
$ cd gnurl-7.35.0@
$ ./configure --enable-ipv6 --with-gnutls --without-libssh2 \
--without-libmetalink --without-winidn --without-librtmp --without-nghttp2 \
--without-nss --without-cyassl --without-polarssl --without-ssl \
--without-winssl --without-darwinssl --disable-sspi --disable-ntlm-wb \
--disable-ldap --disable-rtsp --disable-dict --disable-telnet --disable-tftp \
--disable-pop3 --disable-imap --disable-smtp --disable-gopher --disable-file \
--disable-ftp
$ sudo make install@
$ cd ..@
@end example
@strong{Install GNUnet}@
@code{@
$ git clone https://gnunet.org/git/gnunet/@
$ cd gnunet/@
$ ./bootstrap@
}
If you want to:
@itemize @bullet
@item
Install to a different directory:@
--prefix=PREFIX
@item
Have sudo permission, but do not want to compile as root:@
--with-sudo
@item
Want debug message enabled:@
-- enable-logging=verbose
@end itemize
@code{@
$ ./configure [ --with-sudo | --prefix=PREFIX | --- enable-logging=verbose]@
$ make; sudo make install@
}
After installing it, you need to create an empty configuration file:@
@code{touch ~/.config/gnunet.conf}
And finally you can start GNUnet with@
@code{$ gnunet-arm -s}
@node Build instructions for Debian 8
@section Build instructions for Debian 8
These are the installation instructions for Debian 8. They were tested using a
fresh Debian 8 AMD64 installation without non-free software (no contrib or
non-free). During installation, I only selected "lxde" for the desktop
environment. Note that the packages and the dependencies that we will install
during this chapter take about 1.5 GB of disk space. Combined with GNUnet and
space for objects during compilation, you should not even attempt this unless
you have about 2.5 GB free after the Debian installation. Using these
instructions to build a VM image is likely to require a minimum of 4-5 GB for
the VM (as you will likely also want a desktop manager).
GNUnet's security model assumes that your @code{/home} directory is encrypted.
Thus, if possible, you should encrypt your entire disk, or at least just your
home partition (or per-user home directory).
Naturally, the exact details of the starting state for your installation should
not matter much. For example, if you selected any of those installation groups
you might simply already have some of the necessary packages installed. Thus,
it is suggested that you simply install the desktop environment of your choice
before beginning with the instructions.
@menu
* Update Debian::
* Installing Debian Packages::
* Installing Dependencies from Source2::
* Installing GNUnet from Source2::
* But wait (again) there is more!::
@end menu
@node Update Debian
@subsection Update Debian
After any installation, you should begin by running@
@code{@
# apt-get update@
# apt-get upgrade@
}@
to ensure that all of your packages are up-to-date. Note that the "#" is used
to indicate that you need to type in this command as "root" (or prefix with
"sudo"), whereas "$" is used to indicate typing in a command as a normal
user.
@node Installing Debian Packages
@subsection Installing Debian Packages
We begin by installing a few Debian packages from stable:@
@example
# apt-get install gcc make python-zbar libltdl-dev libsqlite3-dev \
libunistring-dev libopus-dev libpulse-dev openssl libglpk-dev texlive \
libidn11-dev libmysqlclient-dev libpq-dev libarchive-dev libbz2-dev \
libflac-dev libgif-dev libglib2.0-dev libgtk-3-dev libmpeg2-4-dev \
libtidy-dev libvorbis-dev libogg-dev zlib1g-dev g++ gettext libgsf-1-dev \
libunbound-dev libqrencode-dev libgladeui-dev nasm texlive-latex-extra \
libunique-3.0-dev gawk miniupnpc libfuse-dev libbluetooth-dev \
gstreamer1.0-plugins-base gstreamer1.0-plugins-good \
libgstreamer-plugins-base1.0-dev nettle-dev libextractor-dev libgcrypt20-dev \
libmicrohttpd-dev
@end example
@node Installing Dependencies from Source2
@subsection Installing Dependencies from Source2
Yes, we said we start with a Debian 8 "stable" system, but because Debian
linked GnuTLS without support for DANE, we need to compile a few things, in
addition to GNUnet, still by hand. Yes, you can run GNUnet using the respective
Debian packages, but then you will not get DANE support.
Next, we need to install a few dependencies from source. You might want to do
this as a "normal" user and only run the @code{make install} steps as root
(hence the @code{sudo} in the commands below). Also, you do this from any
directory. We begin by downloading all dependencies, then extracting the
sources, and finally compiling and installing the libraries:@
@code{@
$ wget ftp://ftp.gnutls.org/gcrypt/gnutls/v3.3/gnutls-3.3.12.tar.xz@
$ wget https://gnunet.org/sites/default/files/gnurl-7.40.0.tar.bz2@
$ tar xvf gnutls-3.3.12.tar.xz@
$ tar xvf gnurl-7.40.0.tar.bz2@
$ cd gnutls-3.3.12 ; ./configure ; make ; sudo make install ; cd ..@
$ cd gnurl-7.40.0@
$ ./configure --enable-ipv6 --with-gnutls=/usr/local --without-libssh2 \
--without-libmetalink --without-winidn --without-librtmp --without-nghttp2 \
--without-nss --without-cyassl --without-polarssl --without-ssl \
--without-winssl --without-darwinssl --disable-sspi --disable-ntlm-wb \
--disable-ldap --disable-rtsp --disable-dict --disable-telnet --disable-tftp \
--disable-pop3 --disable-imap --disable-smtp --disable-gopher --disable-file \
--disable-ftp --disable-smb
$ make ; sudo make install; cd ..@
}
@node Installing GNUnet from Source2
@subsection Installing GNUnet from Source2
For this, simply follow the generic installation instructions from@
here.
@node But wait (again) there is more!
@subsection But wait (again) there is more!
So far, we installed all of the packages and dependencies required to ensure
that all of GNUnet would be built. However, while for example the plugins to
interact with the MySQL or Postgres databases have been created, we did not
actually install or configure those databases. Thus, you will need to install
and configure those databases or stick with the default Sqlite database. Sqlite
is usually fine for most applications, but MySQL can offer better performance
and Postgres better resillience.
@node Outdated build instructions for previous revisions
@section Outdated build instructions for previous revisions
This chapter contains a collection of outdated, older installation guides. They
are mostly intended to serve as a starting point for writing up-to-date
instructions and should not be expected to work for GNUnet 0.10.x.
@menu
* Installing GNUnet 0.10.1 on Ubuntu 14.04::
* Build instructions for FreeBSD 8::
* Basic installation for Mac OS X::
* Basic Installation for Fedora/PlanetLab nodes running Fedora 12::
* Basic Installation for Fedora/PlanetLab nodes running Fedora 8 .::
* Build instructions for Gentoo::
* Building GLPK for MinGW::
* GUI build instructions for Ubuntu 12.04 using Subversion::
* Installation with gnunet-update::
* Instructions for Microsoft Windows Platforms (Old)::
@end menu
@node Installing GNUnet 0.10.1 on Ubuntu 14.04
@subsection Installing GNUnet 0.10.1 on Ubuntu 14.04
Install the required dependencies@
@example
$ sudo apt-get install libltdl-dev libgpg-error-dev libidn11-dev \
libunistring-dev libglpk-dev libbluetooth-dev libextractor-dev \
libmicrohttpd-dev libgnutls28-dev
@end example
Choose one or more database backends@
SQLite3@
@code{@
$ sudo apt-get install libsqlite3-dev@
}@
MySQL@
@code{@
$ sudo apt-get install libmysqlclient-dev@
}@
PostgreSQL@
@code{@
$ sudo apt-get install libpq-dev postgresql@
}
Install the optional dependencies for gnunet-conversation:@
@code{@
$ sudo apt-get install gstreamer1.0 libpulse-dev libopus-dev@
}
Install the libgrypt 1.6:@
For Ubuntu 14.04:@
@code{$ sudo apt-get install libgcrypt20-dev}@
For Ubuntu older 14.04:@
@code{$ wget ftp://ftp.gnupg.org/gcrypt/libgcrypt/libgcrypt-1.6.1.tar.bz2@
$ tar xf libgcrypt-1.6.1.tar.bz2@
$ cd libgcrypt-1.6.1@
$ ./configure@
$ sudo make install@
$ cd ..}
Install libgnurl@
@example
$ wget https://gnunet.org/sites/default/files/gnurl-7.35.0.tar.bz2@
$ tar xf gnurl-7.35.0.tar.bz2@
$ cd gnurl-7.35.0@
$ ./configure --enable-ipv6 --with-gnutls --without-libssh2 \
--without-libmetalink --without-winidn --without-librtmp --without-nghttp2 \
--without-nss --without-cyassl --without-polarssl --without-ssl \
--without-winssl --without-darwinssl --disable-sspi --disable-ntlm-wb \
--disable-ldap --disable-rtsp --disable-dict --disable-telnet --disable-tftp \
--disable-pop3 --disable-imap --disable-smtp --disable-gopher --disable-file \
--disable-ftp@
$ sudo make install@
$ cd ..@
@end example
Install GNUnet@
@code{@
$ wget http://ftpmirror.gnu.org/gnunet/gnunet-0.10.1.tar.gz@
$ tar xf gnunet-0.10.1.tar.gz@
$ cd gnunet-0.10.1@
}
If you want to:
@itemize @bullet
@item
Install to a different directory:@
--prefix=PREFIX
@item
Have sudo permission, but do not want to compile as root:@
--with-sudo
@item
Want debug message enabled:@
-- enable-logging=verbose
@end itemize
@code{@
$ ./configure [ --with-sudo | --prefix=PREFIX | --enable-logging=verbose]@
$ make; sudo make install@
}
After installing it, you need to create an empty configuration file:@
@code{touch ~/.config/gnunet.conf}
And finally you can start GNUnet with@
@code{$ gnunet-arm -s}
@node Build instructions for FreeBSD 8
@subsection Build instructions for FreeBSD 8
To get GNUnet 0.9 to compile on FreeBSD (at least FreeBSD 8.0):@ in order to
install the library @code{libiconv}, at first change the directory to your
ports directory, e.g.@
@code{@
$ cd /usr/ports/@
}@
following that, go to the install file of @code{libiconv} and install it,@
@code{@
$ cd converters/libiconv,@
$ make install@
}
after that, change the directory to where you will check out
@code{libextractor} and GNUnet, and install latest @code{libextractor},@
first of all, checkout @code{libextractor}, e.g.@
@code{@
$ svn co https://gnunet.org/svn/Extractor@
}@
then change the directory into which it was checked out, e.g.@
@code{@
$ cd Extractor@
}@
before the installation, you should do following steps,@
@example
$ ./bootstrap@
$ ./configure --with-ltdl-include=/usr/local/include \
--with-ltdl-lib=/usr/local/lib@
@end example
if these steps complete successfully, you can install the library,@
@example
$ make install@
@end example
to check out the GNUnet, you should do the similar steps as
@code{libextractor}, firstly, change back to starting directory, e.g.@
@code{@
$ cd ../@
}@
Set the following environmental variables:@
@code{@
export CPPFLAGS="-I/usr/local/include"@
export LDFLAGS="-L/usr/local/lib"@
}@
next, checkout GNUnet using@
@code{@
$ svn co https://gnunet.org/svn/gnunet@
}@
then change directory into newly checked out directory,@
@code{@
$ cd gnunet@
}@
at last, start to install GNUnet,@
@example
$ ./bootstrap@
$ ./configure --with-ltdl-include=/usr/local/include \
--with-ltdl-lib=/usr/local/lib --with-extractor=/usr/local
## NOTE: you may not need the --with-extractor option!@
$ make install
@end example
@node Basic installation for Mac OS X
@subsection Basic installation for Mac OS X
This documentation may be outdated!
This page is providing guidelines for users trying to install GNUnet on Mac OS
X.@ Mainly users trying to install GNUnet by building source code are the most
welcome readers.@ The steps below are tested on an Intel Architecture running
Mac OS X Tiger (10.4.11). Ideally they should work on other Mac boxes with
different configurations as all the configuration done for it is dependent on
@uref{http://www.macports.org/, MacPorts}
For having GNUnet installed successfully, some dependencies should be firstly
resolved:
@itemize @bullet
@item
Install/Update your @uref{http://developer.apple.com/tools/xcode/, Xcode}
version 3.2.1 or later for Snow Leopard, 3.1.4 or later for Leopard, or 2.5 for
Tiger.
@item
Download and install @uref{http://www.macports.org/, MacPorts}.@
Now you are ready for installing GNunet dependencies.
@item
First, you'd better make sure that: /opt/local/bin and /opt/local/sbin are
available in your PATH. (For doing so, open a terminal and type:@
@example
$ echo $PATH
@end example
and examine the output of it). If the paths are not available in your
environment, you have to add them (You can add them by editing your .profile
file in your home directory, append them to the PATH line). Then type:
@example
$ source ~/.profile
@end example
and re-examine the echo command output.
@item
Use MacPorts to download and install the dependencies:@
The libraries are:
@itemize @bullet
@item
@uref{http://trac.macports.org/browser/trunk/dports/www/libmicrohttpd/Portfile, libmicrohttpd.}
@item
@uref{http://trac.macports.org/browser/trunk/dports/devel/libgcrypt/Portfile, libgcrypt.}
@item
@uref{http://trac.macports.org/browser/trunk/dports/net/curl/Portfile, libcurl.}
@item
@uref{http://trac.macports.org/browser/trunk/dports/devel/libtool/Portfile, libltdl.}
@item
@uref{http://trac.macports.org/browser/trunk/dports/databases/sqlite3/Portfile, SQlite.}
@item
libunistring
@item
glpk
@end itemize
The port command is as follows:@
@example
port install libmicrohttpd libgcrypt curl libtool sqlite3 linunistring glpk
@end example
One of the dependencies, the libextractor, should be explicitly installed,
since the version available from macports is outdated to work with GNUnet. To
install the latest libextractor:
@itemize @bullet
@item
Install the Subversion Client:@
For more information about Subversion visit:
@uref{http://subversion.tigris.org/, http://subversion.tigris.org/}
@example
# port install subversion
@end example
@item
Use Subversion to download the latest Extractor:
@example
$ svn checkout https://gnunet.org/svn/Extractor
@end example
@item
Go to the installation directory of the Extractor, compile and install it:
@example
$ ./bootstrap
$ export CPPFLAGS="-I/opt/local/include"
$ export LDFLAGS="-L/opt/local/lib"
$ ./configure --prefix=/opt/local
$ make
# make install
@end example
@end itemize
@item
Now, your system is ready to install GNunet. If you downloaded GNUnet by
checking it out from svn, you should start by running the bootstrap script.
Open a terminal pointing to the GNUnet directory and type:@
@example
$ ./bootstrap
@end example
@item
Run the configure script:
@example
$ export CPPFLAGS="-I/opt/local/include"
$ export LDFLAGS="-L/opt/local/lib"
$ ./configure --prefix=/tmp/gnunet_build
@end example
GNUnet will be installed in the directory /tmp/gnunet_build (Of course that
installation path can be changed).@ The CPPFLAGS and LDFLAGS are mentioned in
order to inform the compiler and the linker to lookup headers and libraries in
/opt/local/include and /opt/local/lib.
@item
Compile@
@example
$ make
@end example
@item
Install GNUnet
@example
# make install
@end example
@end itemize
@node Basic Installation for Fedora/PlanetLab nodes running Fedora 12
@subsection Basic Installation for Fedora/PlanetLab nodes running Fedora 12
@strong{This documentation is outdated and not valid for GNUnet 0.10.0!}@
GNUnet installation on Fedora 8/Planetlab nodes can be done as following:
1. Install the build tools to build GNUnet@
@example
sudo yum -y -t --nogpgcheck install gcc make autoconf gettext-devel \
texinfo subversion@
@end example
2. Install the GNUnet dependencies@
@example
sudo yum -y -t --nogpgcheck install libunistring-devel libunistring-devel \
libgcrypt-devel zlib-devel sqlite-devel postgresql-devel mysql-devel \
libgsf-devel libvorbis-devel@
@end example
3. Install outdated dependencies from source@
libtool@
@example
wget http://ftp.gnu.org/gnu/libtool/libtool-2.4.2.tar.gz@
tar xvfz libtool-2.4.2.tar.gz@
cd libtool-2.4.2@
./configure@
sudo make install@
@end example
glpk@
@example
wget http://ftp.gnu.org/gnu/glpk/glpk-4.47.tar.gz@
tar xvfz glpk-4.47.tar.gz@
cd glpk-4.47@
./configure@
sudo make install@
@end example
libcurl@
@example
wget http://curl.haxx.se/download/curl-7.26.0.tar.gz@
tar xvfz curl-7.26.0.tar.gz@
cd curl-7.26.0@
./configure@
sudo make install@
@end example
4. Install libextractor@
@example
svn co https://gnunet.org/svn/libextractor@
cd libextractor@
libtoolize@
./bootstrap@
./configure@
sudo make install@
@end example
5. Install libmicrohttpd@
@example
svn co https://gnunet.org/svn/libmicrohttpd@
cd libmicrohttpd@
libtoolize@
./bootstrap@
./configure@
sudo make install@
@end example
6. Set GNUnet prefix and add to PATH@
@example
export GNUNET_PREFIX=@
export PATH=$PATH:$GNUNET_PREFIX/bin@
@end example
7. Install GNUnet from svn@
@example
export LD_LIBRARY_PATH=/usr/local/lib@
svn co https://gnunet.org/svn/gnunet@
cd gnunet@
libtoolize@
./bootstrap@
./configure --prefix=$GNUNET_PREFIX --with-extractor=/usr \
--with-mysql=/usr/lib/mysql --enable-logging=verbose@
make install@
@end example
Done!
@node Basic Installation for Fedora/PlanetLab nodes running Fedora 8 .
@subsection Basic Installation for Fedora/PlanetLab nodes running Fedora 8 .
@c %**end of header
@strong{This documentation is outdated and not valid for GNUnet 0.10.0!}@
GNUnet installation on Fedora 8/Planetlab nodes can be done as following:
1. Install the build tools to build GNUnet@
@example
sudo yum -y -t --nogpgcheck install gcc make automake autoconf gettext-devel \
texinfo zlib-devel subversion@
@end example
2. Install the GNUnet dependencies@
@example
sudo yum -y -t --nogpgcheck install gnutls-devel gnutls-devel libgcrypt-devel \
sqlite-devel postgresql-devel mysql-devel libgsf-devel libvorbis-devel \
libidn-devel
@end example
3. Install outdated dependencies from source@
libtool@
@code{@
wget http://ftp.gnu.org/gnu/libtool/libtool-2.4.2.tar.gz@
tar xvfz libtool-2.4.2.tar.gz@
cd libtool-2.4.2@
./configure@
sudo make install@
}
libtool@
@code{@
wget http://ftp.gnu.org/gnu/libtool/libtool-2.4.2.tar.gz@
tar xvfz libtool-2.4.2.tar.gz@
cd libtool-2.4.2@
./configure@
sudo make install@
}
glpk@
@code{@
wget http://ftp.gnu.org/gnu/glpk/glpk-4.47.tar.gz@
tar xvfz glpk-4.47.tar.gz@
cd glpk-4.47@
./configure@
sudo make install@
}
libgpg-error@
@code{@
wget ftp://ftp.gnupg.org/gcrypt/libgpg-error/libgpg-error-1.10.tar.bz2@
tar xvfj libgpg-error-1.10.tar.bz2@
cd libgpg-error-1.10@
./configure --prefix=/usr@
sudo make install@
}
libgcrypt@
@code{@
wget ftp://ftp.gnupg.org/gcrypt/libgcrypt/libgcrypt-1.5.0.tar.bz2@
tar xvfj libgcrypt-1.5.0.tar.tar.bz2@
cd libgcrypt-1.5.0@
./configure --prefix=/usr@
sudo make install@
}
libcurl@
@code{@
wget http://curl.haxx.se/download/curl-7.26.0.tar.gz@
tar xvfz curl-7.26.0.tar.gz@
cd curl-7.26.0@
./configure@
sudo make install@
}
libunistring@
@code{@
wget http://ftp.gnu.org/gnu/libunistring/libunistring-0.9.3.tar.gz@
tar xvfz libunistring-0.9.3.tar.gz@
cd libunistring-0.9.3@
./configure@
sudo make install@
}
4. Remove conflicting packages@
@code{@
sudo rpm -e --nodeps libgcrypt libgpg-error@
}
4. Install libextractor@
@code{@
wget ftp://ftp.gnu.org/gnu/libextractor/libextractor-0.6.3.tar.gz@
tar xvfz libextractor-0.6.3.tar.gz@
cd libextractor-0.6.3@
./configure@
sudo make install@
}
5. Install libmicrohttpd and dependencies
nettle@
@code{@
wget http://ftp.gnu.org/gnu/nettle/nettle-2.5.tar.gz@
tar xvfz nettle-2.5.tar.gz@
cd nettle-2.5@
./configure@
sudo make install@
}
GnuTLS@
@code{@
wget http://ftp.gnu.org/gnu/gnutls/gnutls-2.12.20.tar.bz2@
tar xvfj gnutls-2.12.20.tar.bz2@
cd gnutls-2.12.20@
./configure --without-p11-kit@
sudo make install@
}
libmicrohttpd@
@code{@
wget ftp://ftp.gnu.org/gnu/libmicrohttpd/libmicrohttpd-0.9.21.tar.gz@
tar xvfz libmicrohttpd-0.9.21.tar.gz@
cd libmicrohttpd-0.9.21@
./configure@
sudo make install@
}
6. Set GNUnet prefix and add to PATH@
@code{@
export GNUNET_PREFIX=@
export PATH=$PATH:$GNUNET_PREFIX/bin@
}
7. Install GNUnet from svn@
@example
export LD_LIBRARY_PATH=/usr/local/lib@
svn co https://gnunet.org/svn/gnunet@
cd gnunet@
libtoolize@
./bootstrap@
./configure --prefix=$GNUNET_PREFIX --with-extractor=/usr/local \
--with-curl=/usr/local --with-mysql=/usr/lib/mysql --enable-logging=verbose@
make install@
@end example
Done!
@node Build instructions for Gentoo
@subsection Build instructions for Gentoo
This page describes how to install GNUnet 0.9 on Gentoo.
Since the GNUnet 0.9 ebuilds are not in the official portage tree yet, we need
to add them to the local portage overlay. All the commands below should be
executed as root.
Specify your local portage directory in the /etc/make.conf, for example:@
@code{$ echo 'PORTDIR_OVERLAY="/usr/local/portage"' >> /etc/make.conf}
Create directories for the ebuilds:@
@code{$ mkdir -p /usr/local/portage/media-libs/libextractor /usr/local/portage/net-p2p/gnunet/files}
Download the latest ebuilds, init and config files from here and put them into
respective directories:@
@code{$ cp libextractor-0.6.2.ebuild /usr/local/portage/media-libs/libextractor@
$ cp gnunet-0.9.2.ebuild /usr/local/portage/net-p2p/gnunet@
$ cp gnunet-0.9.2.conf gnunet-0.9.2.confd gnunet-0.9.2.initd /usr/local/portage/net-p2p/gnunet/files}
Generate Manifest files for the ebuilds:@
@code{$ cd /usr/local/portage/net-p2p/gnunet@
$ ebuild gnunet-0.9.2.ebuild digest@
$ cd /usr/local/portage/media-libs/libextractor@
$ ebuild libextractor-0.6.2.ebuild digest}
Unmask GNUnet and dependencies in the /etc/portage/package.keywords. For
example, if you use x86-64 architecture, add the following lines:@
@code{net-p2p/gnunet ~amd64@
media-libs/libextractor ~amd64@
net-libs/libmicrohttpd ~amd64@
net-misc/curl ~amd64}
Add either sqlite or mysql USE-flag in the /etc/portage/package.use:@
@code{net-p2p/gnunet sqlite}
Now everything is ready to install GNUnet:@
@code{$ emerge -av gnunet}
Use /etc/init.d/gnunet to start/stop GNUnet.
@node Building GLPK for MinGW
@subsection Building GLPK for MinGW
GNUnet now requires the GNU Linear Programming Kit (GLPK). Since there's is no
package you can install with @code{mingw-get} you have to compile it from
source:
@itemize @bullet
@item
Download the latest version from http://ftp.gnu.org/gnu/glpk/
@item
Unzip it using your favourite unzipper@
In the MSYS shell:
@item
change to the respective directory
@item
@code{./configure '--build=i686-pc-mingw32'}
@item
run @code{make install check }
MinGW does not automatically detect the correct buildtype so you have to
specify it manually
@end itemize
@node GUI build instructions for Ubuntu 12.04 using Subversion
@subsection GUI build instructions for Ubuntu 12.04 using Subversion
After installing GNUnet you can continue installing the GNUnet GUI tools:
First, install the required dependencies:
@code{@
$ sudo apt-get install libgladeui-dev libqrencode-dev@
}
Please ensure that the GNUnet shared libraries can be found by the linker. If
you installed GNUnet libraries in a non standard path (say
GNUNET_PREFIX=/usr/local/lib/), you can
@itemize @bullet
@item
set the environmental variable permanently to@
@code{LD_LIBRARY_PATH=$GNUNET_PREFIX}
@item
or add @code{$GNUNET_PREFIX} to @code{/etc/ld.so.conf}
@end itemize
Now you can checkout and compile the GNUnet GUI tools@
@code{@
$ svn co https://gnunet.org/svn/gnunet-gtk@
$ cd gnunet-gtk@
$ ./bootstrap@
$ ./configure --prefix=$GNUNET_PREFIX/.. --with-gnunet=$GNUNET_PREFIX/..@
$ make install@
}
@node Installation with gnunet-update
@subsection Installation with gnunet-update
gnunet-update project is an effort to introduce updates to GNUnet
installations. An interesting to-be-implemented-feature of gnunet-update is
that these updates are propagated through GNUnet's peer-to-peer network. More
information about gnunet-update can be found at
https://gnunet.org/svn/gnunet-update/README.
While the project is still under development, we have implemented the following
features which we believe may be helpful for users and we would like them to be
tested:
@itemize @bullet
@item
Packaging GNUnet installation along with its run-time dependencies into update
packages
@item
Installing update packages into compatible hosts
@item
Updating an existing installation (which had been installed by gnunet-update)
to a newer one
@end itemize
The above said features of gnunet-update are currently available for testing on
GNU/Linux systems.
The following is a guide to help you get started with gnunet-update. It shows
you how to install the testing binary packages of GNUnet 0.9.1 we have at
https://gnunet.org/install/
gnunet-update needs the following:
@itemize @bullet
@item
python ( 2.6 or above)
@item
gnupg
@item
python-gpgme
@end itemize
Checkout gnunet-update:@
@code{@
$ svn checkout -r24905 https://gnunet.org/svn/gnunet-update@
}
For security reasons, all packages released for gnunet-update from us are
signed with the key at https://gnunet.org/install/key.txt You would need to
import this key into your gpg key ring. gnunet-update uses this key to verify
the integrity of the packages it installs@
@code{@
$ gpg --recv-keys 7C613D78@
}
Download the packages relevant to your architecture (currently I have access to
GNU/Linux machines on x86_64 and i686, so only two for now, hopefully more
later) from https://gnunet.org/install/.
To install the downloaded package into the directory /foo:
@code{@
gnunet-update/bin/gnunet-update install downloaded/package /foo@
}
The installer reports the directories into which shared libraries and
dependencies have been installed. You may need to add the reported shared
library installation paths to LD_LIBRARY_PATH before you start running any
installed binaries.
Please report bugs at https://gnunet.org/bugs/ under the project
'gnunet-update'.
@node Instructions for Microsoft Windows Platforms (Old)
@subsection Instructions for Microsoft Windows Platforms (Old)
This document is a DEPRECATED installation guide for gnunet on windows. It will
not work for recent gnunet versions, but maybe it will be of some use if
problems arise.
The Windows build uses a UNIX emulator for Windows,
@uref{http://www.mingw.org/, MinGW}, to build the executable modules. These
modules run natively on Windows and do not require additional emulation
software besides the usual dependencies.
GNUnet development is mostly done under Linux and especially SVN checkouts may
not build out of the box. We regret any inconvenience, and if you have
problems, please report them.
@menu
* Hardware and OS requirements::
* Software installation::
* Building libextractor and GNUnet::
* Installer::
* Source::
@end menu
@node Hardware and OS requirements
@subsubsection Hardware and OS requirements
@itemize @bullet
@item
Pentium II or equivalent processor, 350 MHz or better
@item
128 MB RAM
@item
600 MB free disk space
@item
Windows 2000 or Windows XP are recommended
@end itemize
@node Software installation
@subsubsection Software installation
@itemize @bullet
@item
@strong{Compression software}@
@
The software packages GNUnet depends on are usually compressed using UNIX
tools like tar, gzip and bzip2.@ If you do not already have an utility that is
able to extract such archives, get @uref{http://www.7-zip.org/, 7-Zip}.
@item
@strong{UNIX environment}@
@
The MinGW project provides the compiler toolchain that is used to build
GNUnet.@ Get the following packages from
@uref{http://sourceforge.net/projects/mingw/files/, the MinGW project}:
@itemize @bullet
@item
GCC core
@item
GCC g++
@item
MSYS
@item
MSYS Developer Tool Kit (msysDTK)
@item
MSYS Developer Tool Kit - msys-autoconf (bin)
@item
MSYS Developer Tool Kit - msys-automake (bin)
@item
MinGW Runtime
@item
MinGW Utilities
@item
Windows API
@item
Binutils
@item
make
@item
pdcurses
@item
GDB (snapshot)
@end itemize
@itemize @bullet
@item
Install MSYS (to c:\mingw, for example.)@
Do @strong{not} use spaces in the pathname (c:\program files\mingw).
@item
Install MinGW runtime, utilities and GCC to a subdirectory (to c:\mingw\mingw,
for example)
@item
Install the Development Kit to the MSYS directory (c:\mingw)
@item
Create a batch file bash.bat in your MSYS directory with the files:@
@example
bin\sh.exe --login
@end example
This batch file opens a shell which is used to invoke the build processes..@
MinGW's standard shell (msys.bat) is not suitable because it opens a separate
console window@ On Vista, bash.bat needs to be run as administrator.
@item
Start bash.sh and rename (c:\mingw\mingw\)lib\libstdc++.la to avoid problems:@
@example
mv /usr/mingw/lib/libstdc++.la /usr/mingw/lib/libstdc++.la.broken
@end example
@item
Unpack the Windows API to the MinGW directory (c:\mingw\mingw\) and remove the
declaration of DATADIR from (c:\mingw\mingw\)include\objidl.h (lines 55-58)
@item
Unpack autoconf, automake to the MSYS directory (c:\mingw)
@item
Install all other packages to the MinGW directory (c:\mingw\mingw\)
@end itemize
@item
@strong{GNU Libtool}@
@
GNU Libtool is required to use shared libraries.@
@
Get the prebuilt package from here and unpack it to the MinGW directory
(c:\mingw)
@item
@strong{Pthreads}@
@
GNUnet uses the portable POSIX thread library for multi-threading..@
@itemize @bullet
@item
Save @uref{ftp://sources.redhat.com/pub/pthreads-win32/dll-latest/lib/x86/libpthreadGC2.a, libpthreadGC2.a} (x86) or @uref{ftp://sources.redhat.com/pub/pthreads-win32/dll-latest/lib/x64/libpthreadGC2.a, libpthreadGC2.a} (x64) as libpthread.a into the lib directory (c:\mingw\mingw\lib\libpthread.a)
@item
Save @uref{ftp://sources.redhat.com/pub/pthreads-win32/dll-latest/lib/x86/pthreadGC2.dll, pthreadGC2.dll} (x86) or @uref{ftp://sources.redhat.com/pub/pthreads-win32/dll-latest/lib/x64/pthreadGC2.dll, libpthreadGC2.a} (x64) into the MinGW bin directory (c:\mingw\mingw\bin)
@item
Download all header files from @uref{ftp://sources.redhat.com/pub/pthreads-win32/dll-latest/include/, include/} to the include directory (c:\mingw\mingw\include)
@end itemize
@item
@strong{GNU MP@
}@
@
GNUnet uses the GNU Multiple Precision library for special cryptographic operations.@
@
Get the GMP binary package from the @uref{http://sourceforge.net/projects/mingwrep/, MinGW repository} and unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{GNU Gettext}@
@
GNU gettext is used to provide national language support.@
@
Get the prebuilt package from hereand unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{GNU iconv}@
@
GNU Libiconv is used for character encoding conversion.@
@
Get the prebuilt package from here and unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{SQLite}@
@
GNUnet uses the SQLite database to store data.@
@
Get the prebuilt binary from here and unpack it to your MinGW directory.
@item
@strong{MySQL}@
@
As an alternative to SQLite, GNUnet also supports MySQL.
@itemize @bullet
@item
Get the binary installer from the @uref{http://dev.mysql.com/downloads/mysql/4.1.html#Windows, MySQL project} (version 4.1),@
install it and follow the instructions in README.mysql.
@item
Create a temporary build directory (c:\mysql)
@item
Copy the directories include\ and lib\ from the MySQL directory to the new directory
@item
Get the patches from @uref{http://bugs.mysql.com/bug.php?id=8906&files=1, Bug #8906} and @uref{http://bugs.mysql.com/bug.php?id=8872&files=1, Bug #8872} (the latter is only required for MySQL
@example
patch -p 0
@end example
@item
Move lib\opt\libmysql.dll to lib\libmysql.dll
@item
Change to lib\ and create an import library:@
@example
dlltool --input-def ../include/libmySQL.def --dllname libmysql.dll
--output-lib libmysqlclient.a -k
@end example
@item
Copy include\* to include\mysql\
@item
Pass "--with-mysql=/c/mysql" to ./configure and copy libmysql.dll to your PATH or GNUnet′s bin\ directory
@end itemize
@item
@strong{GTK+}@
@
gnunet-gtk and libextractor depend on GTK.@
@
Get the the binary and developer packages of atk, glib, gtk, iconv, gettext-runtime, pango from @uref{ftp://ftp.gtk.org/pub/gtk/v2.6/win32, gtk.org} and unpack it to the MinGW directory (c:\mingw\mingw)@
@
Get @uref{http://www.gtk.org/download/win32.php, pkg-config} and libpng and unpack them to the MinGW directory (c:\mingw\mingw)@
@
Here is an all-in-one package for @uref{http://ftp.gnome.org/pub/gnome/binaries/win32/gtk+/2.24/gtk+-bundle_2.24.10-20120208_win32.zip, gtk+dependencies}. Do not overwrite any existing files!
@item
@strong{Glade}@
@
gnunet-gtk and and gnunet-setup were created using this interface builder@
@itemize @bullet
@item
Get the Glade and libglade (-bin and -devel) packages (without GTK!) from @uref{http://gladewin32.sourceforge.net/, GladeWin32} and unpack it to the MinGW directory (c:\mingw\mingw)
@item
Get libxml from here and unpack it to the MinGW directory (c:\mingw\mingw).
@end itemize
@item
@strong{zLib}@
@
libextractor requires zLib to decompress some file formats. GNUnet uses it to (de)compress meta-data.@
@
Get zLib from here (Signature) and unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{Bzip2}@
@
libextractor also requires Bzip2 to decompress some file formats.@
@
Get Bzip2 (binary and developer package) from @uref{http://gnuwin32.sourceforge.net/packages/bzip2.htm, GnuWin32} and unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{Libgcrypt}@
@
Libgcrypt provides the cryptographic functions used by GNUnet@
@
Get Libgcrypt from @uref{ftp://ftp.gnupg.org/gcrypt/libgcrypt/, here}, compile and place it in the MinGW directory (c:\mingw\mingw). Currently you need at least version 1.4.2 to compile gnunet.
@item
@strong{PlibC}@
@
PlibC emulates Unix functions under Windows.@
@
Get PlibC from here and unpack it to the MinGW directory (c:\mingw\mingw)
@item
@strong{OGG Vorbis}@
@
OGG Vorbis is used to extract meta-data from .ogg files@
@
Get the packages @uref{http://www.gnunet.org/libextractor/download/win/libogg-1.1.4.zip, libogg} and @uref{http://www.gnunet.org/libextractor/download/win/libvorbis-1.2.3.zip, libvorbis} from the @uref{http://ftp.gnu.org/gnu/libextractor/libextractor-w32-1.0.0.zip, libextractor win32 build} and unpack them to the MinGW directory (c:\mingw\mingw)
@item
@strong{Exiv2}@
@
(lib)Exiv2 is used to extract meta-data from files with Exiv2 meta-data@
@
Download @uref{http://www.gnunet.org/libextractor/download/win/exiv2-0.18.2.zip, Exiv2} and unpack it to the MSYS directory (c:\mingw)
@end itemize
@node Building libextractor and GNUnet
@subsubsection Building libextractor and GNUnet
Before you compile libextractor or GNUnet, be sure to set@
PKG_CONFIG_PATH:
@example
export PKG_CONFIG_PATH=/mingw/lib/pkgconfig
@end example
See Installation for basic instructions on building libextractor and GNUnet.
By default, all modules that are created in this way contain debug information and are quite large.@
To compile release versions (small and fast) set the variable CFLAGS:
@example
export CFLAGS='-O2 -march=pentium -fomit-frame-pointer'
./configure --prefix=$HOME --with-extractor=$HOME
@end example
@node Installer
@subsubsection Installer
The GNUnet installer is made with @uref{http://nsis.sourceforge.net/, NSIS}@
The installer script is located in contrib\win in the GNUnet source tree.
@node Source
@subsubsection Source
The sources of all dependencies are available here.
@node Portable GNUnet
@section Portable GNUnet
Quick instructions on how to use the most recent GNUnet on most GNU/Linux
distributions
Currently this has only been tested on Ubuntu 12.04, 12.10, 13.04, Debian and
CentOS 6, but it should work on almost any GNU/Linux distribution. More
in-detail information can be found in the handbook.
@menu
* Prerequisites::
* Download & set up gnunet-update::
* Install GNUnet::
@end menu
@node Prerequisites
@subsection Prerequisites
Open a terminal and paste this line into it to install all required tools
needed:@
@code{sudo apt-get install python-gpgme subversion}
@node Download & set up gnunet-update
@subsection Download & set up gnunet-update
The following command will download a working version of gnunet-update with the
subversion tool and import the public key which is needed for authentication:@
@example
svn checkout -r24905 https://gnunet.org/svn/gnunet-update ~/gnunet-update &&
cd ~/gnunet-update
gpg --keyserver "hkp://keys.gnupg.net" --recv-keys 7C613D78
@end example
@node Install GNUnet
@subsection Install GNUnet
Download and install GNUnet binaries which can be found here and set library
paths:@
@code{@
wget -P /tmp https://gnunet.org/install/packs/gnunet-0.9.4-`uname -m`.tgz@
./bin/gnunet-update install /tmp/gnunet-0.9*.tgz ~@
echo "PATH DEFAULT=$@{PATH@}:$HOME/bin" >> ~/.pam_environment@
echo -e "$@{HOME@}/lib\n$@{HOME@}/lib/gnunet-deps" | sudo tee /etc/ld.so.conf.d/gnunet.conf > /dev/null@
sudo ldconfig@
}@
You may need to re-login once after executing these last commands
That's it, GNUnet is installed in your home directory now. GNUnet can be
configured and afterwards started by executing@
@code{gnunet-arm -s}
@node The graphical configuration interface
@section The graphical configuration interface
If you also would like to use gnunet-gtk and gnunet-setup (highly recommended
for beginners), do:
@example
wget -P /tmp https://gnunet.org/install/packs/gnunet-0.9.4-gtk-0.9.4-`uname -m`.tgz@
sh ~/gnunet-update/bin/gnunet-update install /tmp/gnunet-*gtk*.tgz ~@
sudo ldconfig
@end example
Now you can run @code{gnunet-setup} for easy configuration of your GNUnet peer.
@menu
* Configuring your peer::
* Configuring the Friend-to-Friend (F2F) mode::
* Configuring the hostlist to bootstrap::
* Configuration of the HOSTLIST proxy settings::
* Configuring your peer to provide a hostlist ::
* Configuring the datastore::
* Configuring the MySQL database::
* Reasons for using MySQL::
* Reasons for not using MySQL::
* Setup Instructions::
* Testing::
* Performance Tuning::
* Setup for running Testcases::
* Configuring the Postgres database::
* Reasons to use Postgres::
* Reasons not to use Postgres::
* Manual setup instructions::
* Testing the setup manually::
* Configuring the datacache::
* Configuring the file-sharing service::
* Configuring logging::
* Configuring the transport service and plugins::
* Configuring the wlan transport plugin::
* Configuring HTTP(S) reverse proxy functionality using Apache or nginx::
* Blacklisting peers::
* Configuration of the HTTP and HTTPS transport plugins::
* Configuring the GNU Name System::
* Configuring the GNUnet VPN::
* Bandwidth Configuration::
* Configuring NAT::
* Peer configuration for distributions::
@end menu
@node Configuring your peer
@subsection Configuring your peer
This chapter will describe the various configuration options in GNUnet.
The easiest way to configure your peer is to use the gnunet-setup tool.
gnunet-setup is part of the gnunet-gtk download. You might have to install it
separately.
Many of the specific sections from this chapter actually are linked from within
gnunet-setup to help you while using the setup tool.
While you can also configure your peer by editing the configuration file by
hand, this is not recommended for anyone except for developers.
@node Configuring the Friend-to-Friend (F2F) mode
@subsection Configuring the Friend-to-Friend (F2F) mode
GNUnet knows three basic modes of operation. In standard "peer-to-peer" mode,
your peer will connect to any peer. In the pure "friend-to-friend" mode, your
peer will ONLY connect to peers from a list of friends specified in the
configuration. Finally, in mixed mode, GNUnet will only connect to arbitrary
peers if it has at least a specified number of connections to friends.
When configuring any of the F2F modes, you first need to create a file with the
peer identities of your friends. Ask your friends to run
$ gnunet-peerinfo -sq
The output of this command needs to be added to your friends file, which is
simply a plain text file with one line per friend with the output from the
above command.
You then specify the location of your friends file in the "FRIENDS" option of
the "topology" section.
Once you have created the friends file, you can tell GNUnet to only connect to
your friends by setting the "FRIENDS-ONLY" option (again in the "topology"
section) to YES.
If you want to run in mixed-mode, set "FRIENDS-ONLY" to NO and configure a
minimum number of friends to have (before connecting to arbitrary peers) under
the "MINIMUM-FRIENDS" option.
If you want to operate in normal P2P-only mode, simply set "MINIMUM-FRIENDS" to
zero and "FRIENDS_ONLY" to NO. This is the default.
@node Configuring the hostlist to bootstrap
@subsection Configuring the hostlist to bootstrap
After installing the software you need to get connected to the GNUnet network.
The configuration file included in your download is already configured to
connect you to the GNUnet network. In this section the relevant configuration
settings are explained.
To get an initial connection to the GNUnet network and to get to know peers
already connected to the network you can use the so called bootstrap servers.
These servers can give you a list of peers connected to the network. To use
these bootstrap servers you have to configure the hostlist daemon to activate
bootstrapping.
To activate bootstrapping edit your configuration file and edit the
@code{[hostlist]}-section. You have to set the argument "-b" in the options
line:
@example
[hostlist]
OPTIONS = -b
@end example
Additionally you have to specify which server you want to use. The default
bootstrapping server is "@uref{http://v10.gnunet.org/hostlist,
http://v10.gnunet.org/hostlist}". [^] To set the server you have to edit the
line "SERVERS" in the hostlist section. To use the default server you should
set the lines to
@example
SERVERS = http://v10.gnunet.org/hostlist [^]
@end example
To use bootstrapping your configuration file should include these lines:
@example
[hostlist]
OPTIONS = -b
SERVERS = http://v10.gnunet.org/hostlist [^]
@end example
Besides using bootstrap servers you can configure your GNUnet peer to recieve
hostlist advertisements. Peers offering hostlists to other peers can send
advertisement messages to peers that connect to them. If you configure your
peer to receive these messages, your peer can download these lists and connect
to the peers included. These lists are persistent, which means that they are
saved to your hard disk regularly and are loaded during startup.
To activate hostlist learning you have to add the "-e" switch to the OPTIONS
line in the hostlist section:
@example
[hostlist]
OPTIONS = -b -e
@end example
Furthermore you can specify in which file the lists are saved. To save the
lists in the file "hostlists.file" just add the line:
@example
HOSTLISTFILE = hostlists.file
@end example
Best practice is to activate both bootstrapping and hostlist learning. So your
configuration file should include these lines:
@example
[hostlist]
OPTIONS = -b -e
HTTPPORT = 8080
SERVERS = http://v10.gnunet.org/hostlist [^]
HOSTLISTFILE = $SERVICEHOME/hostlists.file
@end example
@node Configuration of the HOSTLIST proxy settings
@subsection Configuration of the HOSTLIST proxy settings
The hostlist client can be configured to use a proxy to connect to the hostlist
server. This functionality can be configured in the configuration file directly
or using the gnunet-setup tool.
The hostlist client supports the following proxy types at the moment:
@itemize @bullet
@item
HTTP and HTTP 1.0 only proxy
@item
SOCKS 4/4a/5/5 with hostname
@end itemize
In addition authentication at the proxy with username and password can be
configured.
To configure proxy support for the hostlist client in the gnunet-setup tool,
select the "hostlist" tab and select the appropriate proxy type. The hostname
or IP address (including port if required) has to be entered in the "Proxy
hostname" textbox. If required, enter username and password in the "Proxy
username" and "Proxy password" boxes. Be aware that these information will be
stored in the configuration in plain text.
To configure these options directly in the configuration, you can configure the
following settings in the @code{[hostlist]} section of the configuration:@
@example
# Type of proxy server,@
# Valid values: HTTP, HTTP_1_0, SOCKS4, SOCKS5, SOCKS4A, SOCKS5_HOSTNAME@
# Default: HTTP@
# PROXY_TYPE = HTTP
# Hostname or IP of proxy server@
# PROXY =@
# User name for proxy server@
# PROXY_USERNAME =@
# User password for proxy server@
# PROXY_PASSWORD =@
@end example
@node Configuring your peer to provide a hostlist
@subsection Configuring your peer to provide a hostlist
If you operate a peer permanently connected to GNUnet you can configure your
peer to act as a hostlist server, providing other peers the list of peers known
to him.
Yor server can act as a bootstrap server and peers needing to obtain a list of
peers can contact him to download this list. To download this hostlist the peer
uses HTTP. For this reason you have to build your peer with libcurl and
microhttpd support. How you build your peer with this options can be found
here: https://gnunet.org/generic_installation
To configure your peer to act as a bootstrap server you have to add the "-p"
option to OPTIONS in the [hostlist] section of your configuration file. Besides
that you have to specify a port number for the http server. In conclusion you
have to add the following lines:
@example
[hostlist]
HTTPPORT = 12980
OPTIONS = -p
@end example
If your peer acts as a bootstrap server other peers should know about that. You
can advertise the hostlist your are providing to other peers. Peers connecting
to your peer will get a message containing an advertisement for your hostlist
and the URL where it can be downloaded. If this peer is in learning mode, it
will test the hostlist and, in the case it can obtain the list successfully, it
will save it for bootstrapping.
To activate hostlist advertisement on your peer, you have to set the following
lines in your configuration file:
@example
[hostlist]
EXTERNAL_DNS_NAME = example.org
HTTPPORT = 12981
OPTIONS = -p -a
@end example
With this configuration your peer will a act as a bootstrap server and
advertise this hostlist to other peers connecting to him. The URL used to
download the list will be @code{@uref{http://example.org:12981/,
http://example.org:12981/}}.
Please notice:
@itemize @bullet
@item
The hostlist is not human readable, so you should not try to download it using
your webbrowser. Just point your GNUnet peer to the address!
@item
Advertising without providing a hostlist does not make sense and will not work.
@end itemize
@node Configuring the datastore
@subsection Configuring the datastore
The datastore is what GNUnet uses to for long-term storage of file-sharing
data. Note that long-term does not mean 'forever' since content does have an
expiration date, and of course storage space is finite (and hence sometimes
content may have to be discarded).
Use the "QUOTA" option to specify how many bytes of storage space you are
willing to dedicate to GNUnet.
In addition to specifying the maximum space GNUnet is allowed to use for the
datastore, you need to specify which database GNUnet should use to do so.
Currently, you have the choice between sqLite, MySQL and Postgres.
@node Configuring the MySQL database
@subsection Configuring the MySQL database
This section describes how to setup the MySQL database for GNUnet.
Note that the mysql plugin does NOT work with mysql before 4.1 since we need
prepared statements. We are generally testing the code against MySQL 5.1 at
this point.
@node Reasons for using MySQL
@subsection Reasons for using MySQL
@itemize @bullet
@item
On up-to-date hardware where mysql can be used comfortably, this module will
have better performance than the other database choices (according to our
tests).
@item Its often possible to recover the mysql database from internal
inconsistencies. Some of the other databases do not support repair.
@end itemize
@node Reasons for not using MySQL
@subsection Reasons for not using MySQL
@itemize @bullet
@item
Memory usage (likely not an issue if you have more than 1 GB)
@item
Complex manual setup
@end itemize
@node Setup Instructions
@subsection Setup Instructions
@itemize @bullet
@item
In @code{gnunet.conf} set in section "DATASTORE" the value for "DATABASE" to
"mysql".
@item
Access mysql as root:@
@example
$ mysql -u root -p
@end example
and issue the following commands, replacing $USER with the username@
that will be running gnunet-arm (so typically "gnunet"):
@example
CREATE DATABASE gnunet;
GRANT select,insert,update,delete,create,alter,drop,create temporary tables
ON gnunet.* TO $USER@@localhost;
SET PASSWORD FOR $USER@@localhost=PASSWORD('$the_password_you_like');
FLUSH PRIVILEGES;
@end example
@item
In the $HOME directory of $USER, create a ".my.cnf" file with the following lines@
@example
[client]
user=$USER
password=$the_password_you_like
@end example
@end itemize
Thats it. Note that @code{.my.cnf} file is a slight security risk unless its
on@ a safe partition. The $HOME/.my.cnf can of course be a symbolic@ link.
Luckily $USER has only priviledges to mess up GNUnet's tables, which should be
pretty harmless.
@node Testing
@subsection Testing
You should briefly try if the database connection works. First, login as $USER.
Then use:
@example
$ mysql -u $USER
mysql> use gnunet;
@end example
If you get the message "Database changed" it probably works.
If you get "ERROR 2002: Can't connect to local MySQL server@
through socket '/tmp/mysql.sock' (2)" it may be resolvable by@
"ln -s /var/run/mysqld/mysqld.sock /tmp/mysql.sock"@
so there may be some additional trouble depending on your mysql setup.
@node Performance Tuning
@subsection Performance Tuning
For GNUnet, you probably want to set the option
@example
innodb_flush_log_at_trx_commit = 0
@end example
for a rather dramatic boost in MySQL performance. However, this reduces the
"safety" of your database as with this options you may loose transactions
during a power outage. While this is totally harmless for GNUnet, the option
applies to all applications using MySQL. So you should set it if (and only if)
GNUnet is the only application on your system using MySQL.
@node Setup for running Testcases
@subsection Setup for running Testcases
If you want to run the testcases, you must create a second database
"gnunetcheck" with the same username and password. This database will then be
used for testing ("make check").
@node Configuring the Postgres database
@subsection Configuring the Postgres database
This text describes how to setup the Postgres database for GNUnet.
This Postgres plugin was developed for Postgres 8.3 but might work for earlier
versions as well.
@node Reasons to use Postgres
@subsection Reasons to use Postgres
@itemize @bullet
@item
Easier to setup than MySQL
@item
Real database
@end itemize
@node Reasons not to use Postgres
@subsection Reasons not to use Postgres
@itemize @bullet
@item
Quite slow
@item
Still some manual setup required
@end itemize
@node Manual setup instructions
@subsection Manual setup instructions
@itemize @bullet
@item
In @code{gnunet.conf} set in section "DATASTORE" the value for@
"DATABASE" to "postgres".
@item
Access Postgres to create a user:@
@table @asis
@item with Postgres 8.x, use:
@example
# su - postgres
$ createuser
@end example
and enter the name of the user running GNUnet for the role interactively.
Then, when prompted, do not set it to superuser, allow the creation of
databases, and do not allow the creation of new roles.@
@item with Postgres 9.x, use:
@example
# su - postgres
$ createuser -d $GNUNET_USER
@end example
where $GNUNET_USER is the name of the user running GNUnet.@
@end table
@item
As that user (so typically as user "gnunet"), create a database (or two):@
@example
$ createdb gnunet
$ createdb gnunetcheck # this way you can run "make check"
@end example
@end itemize
Now you should be able to start @code{gnunet-arm}.
@node Testing the setup manually
@subsection Testing the setup manually
You may want to try if the database connection works. First, again login as
the user who will run gnunet-arm. Then use,
@example
$ psql gnunet # or gnunetcheck
gnunet=> \dt
@end example
If, after you have started gnunet-arm at least once, you get a @code{gn090}
table here, it probably works.
@node Configuring the datacache
@subsection Configuring the datacache
@c %**end of header
The datacache is what GNUnet uses for storing temporary data. This data is
expected to be wiped completely each time GNUnet is restarted (or the system
is rebooted).
You need to specify how many bytes GNUnet is allowed to use for the datacache
using the "QUOTA" option in the section "dhtcache". Furthermore, you need to
specify which database backend should be used to store the data. Currently,
you have the choice between sqLite, MySQL and Postgres.
@node Configuring the file-sharing service
@subsection Configuring the file-sharing service
In order to use GNUnet for file-sharing, you first need to make sure that the
file-sharing service is loaded. This is done by setting the AUTOSTART option in
section "fs" to "YES". Alternatively, you can run
@example
$ gnunet-arm -i fs
@end example
to start the file-sharing service by hand.
Except for configuring the database and the datacache the only important option
for file-sharing is content migration.
Content migration allows your peer to cache content from other peers as well as
send out content stored on your system without explicit requests. This content
replication has positive and negative impacts on both system performance an
privacy.
FIXME: discuss the trade-offs. Here is some older text about it...
Setting this option to YES allows gnunetd to migrate data to the local machine.
Setting this option to YES is highly recommended for efficiency. Its also the
default. If you set this value to YES, GNUnet will store content on your
machine that you cannot decrypt. While this may protect you from liability if
the judge is sane, it may not (IANAL). If you put illegal content on your
machine yourself, setting this option to YES will probably increase your chances
to get away with it since you can plausibly deny that you inserted the content.
Note that in either case, your anonymity would have to be broken first (which
may be possible depending on the size of the GNUnet network and the strength of
the adversary).
@node Configuring logging
@subsection Configuring logging
Logging in GNUnet 0.9.0 is controlled via the "-L" and "-l" options.
Using "-L", a log level can be specified. With log level "ERROR" only serious
errors are logged. The default log level is "WARNING" which causes anything of
concern to be logged. Log level "INFO" can be used to log anything that might
be interesting information whereas "DEBUG" can be used by developers to log
debugging messages (but you need to run configure with
@code{--enable-logging=verbose} to get them compiled). The "-l" option is used
to specify the log file.
Since most GNUnet services are managed by @code{gnunet-arm}, using the "-l" or
"-L" options directly is not possible. Instead, they can be specified using the
"OPTIONS" configuration value in the respective section for the respective
service. In order to enable logging globally without editing the "OPTIONS"
values for each service, @code{gnunet-arm} supports a "GLOBAL_POSTFIX" option.
The value specified here is given as an extra option to all services for which
the configuration does contain a service-specific "OPTIONS" field.
"GLOBAL_POSTFIX" can contain the special sequence "@{@}" which is replaced by
the name of the service that is being started. Furthermore,
@code{GLOBAL_POSTFIX} is special in that sequences starting with "$" anywhere
in the string are expanded (according to options in "PATHS"); this expansion
otherwise is only happening for filenames and then the "$" must be the first
character in the option. Both of these restrictions do not apply to
"GLOBAL_POSTFIX". Note that specifying @code{%} anywhere in the "GLOBAL_POSTFIX"
disables both of these features.
In summary, in order to get all services to log at level "INFO" to log-files
called @code{SERVICENAME-logs}, the following global prefix should be used:
@example
GLOBAL_POSTFIX = -l $SERVICEHOME/@{@}-logs -L INFO
@end example
@node Configuring the transport service and plugins
@subsection Configuring the transport service and plugins
The transport service in GNUnet is responsible to maintain basic connectivity
to other peers. Besides initiating and keeping connections alive it is also
responsible for address validation.
The GNUnet transport supports more than one transport protocol. These protocols
are configured together with the transport service.
The configuration section for the transport service itself is quite similar to
all the other services
@code{@
AUTOSTART = YES@
@@UNIXONLY@@ PORT = 2091@
HOSTNAME = localhost@
HOME = $SERVICEHOME@
CONFIG = $DEFAULTCONFIG@
BINARY = gnunet-service-transport@
#PREFIX = valgrind@
NEIGHBOUR_LIMIT = 50@
ACCEPT_FROM = 127.0.0.1;@
ACCEPT_FROM6 = ::1;@
PLUGINS = tcp udp@
UNIXPATH = /tmp/gnunet-service-transport.sock@
}
Different are the settings for the plugins to load @code{PLUGINS}. The first
setting specifies which transport plugins to load.
@itemize @bullet
@item
transport-unix
A plugin for local only communication with UNIX domain sockets. Used for
testing and available on unix systems only. Just set the port
@code{@
[transport-unix]@
PORT = 22086@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}
@item
transport-tcp
A plugin for communication with TCP. Set port to 0 for client mode with
outbound only connections
@code{@
[transport-tcp]@
# Use 0 to ONLY advertise as a peer behind NAT (no port binding)@
PORT = 2086@
ADVERTISED_PORT = 2086@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
# Maximum number of open TCP connections allowed@
MAX_CONNECTIONS = 128@
}
@item
transport-udp
A plugin for communication with UDP. Supports peer discovery using broadcasts.@
@code{@
[transport-udp]@
PORT = 2086@
BROADCAST = YES@
BROADCAST_INTERVAL = 30 s@
MAX_BPS = 1000000@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}
@item
transport-http
HTTP and HTTPS support is split in two part: a client plugin initiating
outbound connections and a server part accepting connections from the client.
The client plugin just takes the maximum number of connections as an argument.@
@code{@
[transport-http_client]@
MAX_CONNECTIONS = 128@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}@
@code{@
[transport-https_client]@
MAX_CONNECTIONS = 128@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}
The server has a port configured and the maximum nunber of connections.@
The HTTPS part has two files with the certificate key and the certificate file.
The server plugin supports reverse proxies, so a external hostname can be set
using@
the @code{EXTERNAL_HOSTNAME} setting. The webserver under this address should
forward the request to the peer and the configure port.
@code{@
[transport-http_server]@
EXTERNAL_HOSTNAME = fulcrum.net.in.tum.de/gnunet@
PORT = 1080@
MAX_CONNECTIONS = 128@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}@
@code{@
[transport-https_server]@
PORT = 4433@
CRYPTO_INIT = NORMAL@
KEY_FILE = https.key@
CERT_FILE = https.cert@
MAX_CONNECTIONS = 128@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}
@item
transport-wlan
There is a special article how to setup the WLAN plugin, so here only the
settings. Just specify the interface to use:@
@code{@
[transport-wlan]@
# Name of the interface in monitor mode (typically monX)@
INTERFACE = mon0@
# Real hardware, no testing@
TESTMODE = 0@
TESTING_IGNORE_KEYS = ACCEPT_FROM;@
}
@end itemize
@node Configuring the wlan transport plugin
@subsection Configuring the wlan transport plugin
The wlan transport plugin enables GNUnet to send and to receive data on a wlan
interface. It has not to be connected to a wlan network as long as sender and
receiver are on the same channel. This enables you to get connection to the
GNUnet where no internet access is possible, for example while catastrophes or
when censorship cuts you off the internet.
@menu
* Requirements for the WLAN plugin::
* Configuration::
* Before starting GNUnet::
* Limitations and known bugs::
@end menu
@node Requirements for the WLAN plugin
@subsubsection Requirements for the WLAN plugin
@itemize @bullet
@item
wlan network card with monitor support and packet injection
(see @uref{http://www.aircrack-ng.org/, aircrack-ng.org})
@item
Linux kernel with mac80211 stack, introduced in 2.6.22, tested with 2.6.35
and 2.6.38
@item
Wlantools to create the a monitor interface, tested with airmon-ng of the
aircrack-ng package
@end itemize
@node Configuration
@subsubsection Configuration
There are the following options for the wlan plugin (they should be like this
in your default config file, you only need to adjust them if the values are
incorrect for your system)@
@code{@
# section for the wlan transport plugin@
[transport-wlan]@
# interface to use, more information in the
# "Before starting GNUnet" section of the handbook.
INTERFACE = mon0@
# testmode for developers:@
# 0 use wlan interface,@
#1 or 2 use loopback driver for tests 1 = server, 2 = client@
TESTMODE = 0@
}
@node Before starting GNUnet
@subsubsection Before starting GNUnet
Before starting GNUnet, you have to make sure that your wlan interface is in
monitor mode. One way to put the wlan interface into monitor mode (if your
interface name is wlan0) is by executing:@
@code{@
sudo airmon-ng start wlan0@
}
Here is an example what the result should look like:@
@code{@
Interface Chipset Driver@
wlan0 Intel 4965 a/b/g/n iwl4965 - [phy0]@
(monitor mode enabled on mon0)@
}@
The monitor interface is mon0 is the one that you have to put into the
configuration file.
@node Limitations and known bugs
@subsubsection Limitations and known bugs
Wlan speed is at the maximum of 1 Mbit/s because support for choosing the wlan
speed with packet injection was removed in newer kernels. Please pester the
kernel developers about fixing this.
The interface channel depends on the wlan network that the card is connected
to. If no connection has been made since the start of the computer, it is
usually the first channel of the card. Peers will only find each other and
communicate if they are on the same channel. Channels must be set manually
(i.e. using @code{iwconfig wlan0 channel 1}).
@node Configuring HTTP(S) reverse proxy functionality using Apache or nginx
@subsection Configuring HTTP(S) reverse proxy functionality using Apache or nginx
The HTTP plugin supports data transfer using reverse proxies. A reverse proxy
forwards the HTTP request he receives with a certain URL to another webserver,
here a GNUnet peer.
So if you have a running Apache or nginx webserver you can configure it to be a
GNUnet reverse proxy. Especially if you have a well-known webiste this improves
censorship resistance since it looks as normal surfing behaviour.
To do so, you have to do two things:
@itemize @bullet
@item
Configure your webserver to forward the GNUnet HTTP traffic
@item
Configure your GNUnet peer to announce the respective address
@end itemize
As an example we want to use GNUnet peer running:
@itemize @bullet
@item
HTTP server plugin on @code{gnunet.foo.org:1080}
@item
HTTPS server plugin on @code{gnunet.foo.org:4433}
@item
A apache or nginx webserver on @uref{http://www.foo.org/, http://www.foo.org:80/}
@item
A apache or nginx webserver on https://www.foo.org:443/
@end itemize
And we want the webserver to accept GNUnet traffic under
@code{http://www.foo.org/bar/}. The required steps are described here:
@strong{Configure your Apache2 HTTP webserver}
First of all you need mod_proxy installed.
Edit your webserver configuration. Edit @code{/etc/apache2/apache2.conf} or
the site-specific configuration file.
In the respective @code{server config},@code{virtual host} or
@code{directory} section add the following lines:@
@code{@
ProxyTimeout 300@
ProxyRequests Off@
@
ProxyPass http://gnunet.foo.org:1080/@
ProxyPassReverse http://gnunet.foo.org:1080/@
@
}
@strong{Configure your Apache2 HTTPS webserver}
We assume that you already have an HTTPS server running, if not please check
how to configure a HTTPS host. An easy to use example is the
@file{apache2/sites-available/default-ssl} example configuration file.
In the respective HTTPS @code{server config},@code{virtual host} or
@code{directory} section add the following lines:@
@code{@
SSLProxyEngine On@
ProxyTimeout 300@
ProxyRequests Off@
@
ProxyPass https://gnunet.foo.org:4433/@
ProxyPassReverse https://gnunet.foo.org:4433/@
@
}
More information about the apache mod_proxy configuration can be found unter:@
@uref{http://httpd.apache.org/docs/2.2/mod/mod_proxy.html#proxypass, http://httpd.apache.org/docs/2.2/mod/mod_proxy.html#proxypass}
@strong{Configure your nginx HTTPS webserver}
Since nginx does not support chunked encoding, you first of all have to
install @code{chunkin}:@
@uref{http://wiki.nginx.org/HttpChunkinModule, http://wiki.nginx.org/HttpChunkinModule}
To enable chunkin add:@
@code{@
chunkin on;@
error_page 411 = @@my_411_error;@
location @@my_411_error @{@
chunkin_resume;@
@}@
}
Edit your webserver configuration. Edit @code{/etc/nginx/nginx.conf} or the
site-specific configuration file.
In the @code{server} section add:@
@code{@
location /bar/@
@{@
proxy_pass http://gnunet.foo.org:1080/;@
proxy_buffering off;@
proxy_connect_timeout 5; # more than http_server@
proxy_read_timeout 350; # 60 default, 300s is GNUnet's idle timeout@
proxy_http_version 1.1; # 1.0 default@
proxy_next_upstream error timeout invalid_header http_500 http_503 http_502 http_504;@
@}@
@code{}}
@strong{Configure your nginx HTTPS webserver}
Edit your webserver configuration. Edit @code{/etc/nginx/nginx.conf} or the
site-specific configuration file.
In the @code{server} section add:@
@code{@
ssl_session_timeout 6m;@
location /bar/@
@{@
proxy_pass https://gnunet.foo.org:4433/;@
proxy_buffering off;@
proxy_connect_timeout 5; # more than http_server@
proxy_read_timeout 350; # 60 default, 300s is GNUnet's idle timeout@
proxy_http_version 1.1; # 1.0 default@
proxy_next_upstream error timeout invalid_header http_500 http_503 http_502 http_504;@
@}@
@code{}}
@strong{Configure your GNUnet peer}
To have your GNUnet peer announce the address, you have to specify the
@code{EXTERNAL_HOSTNAME} option in the @code{[transport-http_server]} section:@
@code{@
[transport-http_server]@
EXTERNAL_HOSTNAME = http://www.foo.org/bar/@
}@
and/or@
@code{[transport-https_server]} section:@
@code{@
[transport-https_server]@
EXTERNAL_HOSTNAME = https://www.foo.org/bar/@
}
Now restart your webserver and your peer...
@node Blacklisting peers
@subsection Blacklisting peers
Transport service supports to deny connecting to a specific peer of to a
specific peer with a specific transport plugin using te blacklisting component
of transport service. With@ blacklisting it is possible to deny connections to
specific peers of@ to use a specific plugin to a specific peer. Peers can be
blacklisted using@ the configuration or a blacklist client can be asked.
To blacklist peers using the configuration you have to add a section to your@
configuration containing the peer id of the peer to blacklist and the plugin@
if required.
Example:@
To blacklist connections to P565... on peer AG2P... using tcp add:@
@code{@
[transport-blacklist AG2PHES1BARB9IJCPAMJTFPVJ5V3A72S3F2A8SBUB8DAQ2V0O3V8G6G2JU56FHGFOHMQVKBSQFV98TCGTC3RJ1NINP82G0RC00N1520]@
P565723JO1C2HSN6J29TAQ22MN6CI8HTMUU55T0FUQG4CMDGGEQ8UCNBKUMB94GC8R9G4FB2SF9LDOBAJ6AMINBP4JHHDD6L7VD801G = tcp@
}@
To blacklist connections to P565... on peer AG2P... using all plugins add:@
@code{@
[transport-blacklist-AG2PHES1BARB9IJCPAMJTFPVJ5V3A72S3F2A8SBUB8DAQ2V0O3V8G6G2JU56FHGFOHMQVKBSQFV98TCGTC3RJ1NINP82G0RC00N1520]@
P565723JO1C2HSN6J29TAQ22MN6CI8HTMUU55T0FUQG4CMDGGEQ8UCNBKUMB94GC8R9G4FB2SF9LDOBAJ6AMINBP4JHHDD6L7VD801G =@
}
You can also add a blacklist client usign the blacklist api. On a blacklist@
check, blacklisting first checks internally if the peer is blacklisted and@
if not, it asks the blacklisting clients. Clients are asked if it is OK to@
connect to a peer ID, the plugin is omitted.
On blacklist check for (peer, plugin)
@itemize @bullet
@item Do we have a local blacklist entry for this peer and this plugin?@
@item YES: disallow connection@
@item Do we have a local blacklist entry for this peer and all plugins?@
@item YES: disallow connection@
@item Does one of the clients disallow?@
@item YES: disallow connection
@end itemize
@node Configuration of the HTTP and HTTPS transport plugins
@subsection Configuration of the HTTP and HTTPS transport plugins
The client part of the http and https transport plugins can be configured to
use a proxy to connect to the hostlist server. This functionality can be
configured in the configuration file directly or using the gnunet-setup tool.
The both the HTTP and HTTPS clients support the following proxy types at the
moment:
@itemize @bullet
@item HTTP 1.1 proxy
@item SOCKS 4/4a/5/5 with hostname
@end itemize
In addition authentication at the proxy with username and password can be
configured.
To configure proxy support for the clients in the gnunet-setup tool, select the
"transport" tab and activate the respective plugin. Now you can select the
appropriate proxy type. The hostname or IP address (including port if required)
has to be entered in the "Proxy hostname" textbox. If required, enter username
and password in the "Proxy username" and "Proxy password" boxes. Be aware that
these information will be stored in the configuration in plain text.
To configure these options directly in the configuration, you can configure the
following settings in the [transport-http_client] and [transport-https_client]
section of the configuration:
@example
# Type of proxy server,@
# Valid values: HTTP, SOCKS4, SOCKS5, SOCKS4A, SOCKS5_HOSTNAME@
# Default: HTTP@
# PROXY_TYPE = HTTP
# Hostname or IP of proxy server@
# PROXY =@
# User name for proxy server@
# PROXY_USERNAME =@
# User password for proxy server@
# PROXY_PASSWORD =
@end example
@node Configuring the GNU Name System
@subsection Configuring the GNU Name System
@menu
* Configuring system-wide DNS interception::
* Configuring the GNS nsswitch plugin::
* Configuring GNS on W32::
* GNS Proxy Setup::
* Setup of the GNS CA::
* Testing the GNS setup::
* Automatic Shortening in the GNU Name System::
@end menu
@node Configuring system-wide DNS interception
@subsubsection Configuring system-wide DNS interception
Before you install GNUnet, make sure you have a user and group 'gnunet' as well
as an empty group 'gnunetdns'.
When using GNUnet with system-wide DNS interception, it is absolutely necessary
for all GNUnet service processes to be started by @code{gnunet-service-arm} as
user and group 'gnunet'. You also need to be sure to run @code{make install} as
root (or use the @code{sudo} option to configure) to grant GNUnet sufficient
privileges.
With this setup, all that is required for enabling system-wide DNS interception
is for some GNUnet component (VPN or GNS) to request it. The
@code{gnunet-service-dns} will then start helper programs that will make the
necessary changes to your firewall (@code{iptables}) rules.
Note that this will NOT work if your system sends out DNS traffic to a
link-local IPv6 address, as in this case GNUnet can intercept the traffic, but
not inject the responses from the link-local IPv6 address. Hence you cannot use
system-wide DNS interception in conjunction with link-local IPv6-based DNS
servers. If such a DNS server is used, it will bypass GNUnet's DNS traffic
interception.
Using the GNU Name System (GNS) requires two different configuration steps.
First of all, GNS needs to be integrated with the operating system. Most of
this section is about the operating system level integration.
Additionally, each individual user who wants to use the system must also
initialize his GNS zones. This can be done by running (after starting GNUnet)@
@code{@
$ gnunet-gns-import.sh@
}@
after the local GNUnet peer has been started. Note that the namestore (in
particular the namestore database backend) should not be reconfigured
afterwards (as records are not automatically migrated between backends).
The remainder of this chapter will detail the various methods for configuring
the use of GNS with your operating system.
At this point in time you have different options depending on your OS:
@table @asis
@item Use the gnunet-gns-proxy This approach works for all operating systems
and is likely the easiest. However, it enables GNS only for browsers, not for
other applications that might be using DNS, such as SSH. Still, using the proxy
is required for using HTTP with GNS and is thus recommended for all users. To
do this, you simply have to run the @code{gnunet-gns-proxy-setup-ca} script as
the user who will run the browser (this will create a GNS certificate authority
(CA) on your system and import its key into your browser), then start
@code{gnunet-gns-proxy} and inform your browser to use the Socks5 proxy which
@code{gnunet-gns-proxy} makes available by default on port 7777.
@item Use a
nsswitch plugin (recommended on GNU systems) This approach has the advantage of
offering fully personalized resolution even on multi-user systems. A potential
disadvantage is that some applications might be able to bypass GNS.
@item Use
a W32 resolver plugin (recommended on W32) This is currently the only option on
W32 systems.
@item Use system-wide DNS packet interception This approach is
recommended for the GNUnet VPN. It can be used to handle GNS at the same time;
however, if you only use this method, you will only get one root zone per
machine (not so great for multi-user systems).
@end table
You can combine system-wide DNS packet interception with the nsswitch plugin.@
The setup of the system-wide DNS interception is described here. All of the
other GNS-specific configuration steps are described in the following sections.
@node Configuring the GNS nsswitch plugin
@subsubsection Configuring the GNS nsswitch plugin
The Name Service Switch (NSS) is a facility in Unix-like operating systems that
provides a variety of sources for common configuration databases and name
resolution mechanisms. A system administrator usually configures the operating
system's name services using the file /etc/nsswitch.conf.
GNS provides a NSS plugin to integrate GNS name resolution with the operating
system's name resolution process. To use the GNS NSS plugin you have to either
@itemize @bullet
@item
install GNUnet as root or
@item
compile GNUnet with the @code{--with-sudo=yes} switch.
@end itemize
Name resolution is controlled by the @emph{hosts} section in the NSS
configuration. By default this section first performs a lookup in the
/etc/hosts file and then in DNS. The nsswitch file should contain a line
similar to:@
@code{@
hosts: files dns [NOTFOUND=return] mdns4_minimal mdns4@
}
Here the GNS NSS plugin can be added to perform a GNS lookup before performing
a DNS lookup. The GNS NSS plugin has to be added to the "hosts" section in
/etc/nsswitch.conf file before DNS related plugins:@
@code{@
...@
hosts: files gns [NOTFOUND=return] dns mdns4_minimal mdns4@
...@
}
The @code{NOTFOUND=return} will ensure that if a @code{.gnu} name is not found
in GNS it will not be queried in DNS.
@node Configuring GNS on W32
@subsubsection Configuring GNS on W32
This document is a guide to configuring GNU Name System on W32-compatible
platforms.
After GNUnet is installed, run the w32nsp-install tool:
@example
w32nsp-install.exe libw32nsp-0.dll
@end example
('0' is the library version of W32 NSP; it might increase in the future,
change the invocation accordingly).
This will install GNS namespace provider into the system and allow other
applications to resolve names that end in '@strong{gnu}' and '@strong{zkey}'.
Note that namespace provider requires gnunet-gns-helper-service-w32 to be
running, as well as gns service itself (and its usual dependencies).
Namespace provider is hardcoded to connect to @strong{127.0.0.1:5353}, and this
is where gnunet-gns-helper-service-w32 should be listening to (and is
configured to listen to by default).
To uninstall the provider, run:
@example
w32nsp-uninstall.exe
@end example
(uses provider GUID to uninstall it, does not need a dll name).
Note that while MSDN claims that other applications will only be able to use
the new namespace provider after re-starting, in reality they might stat to use
it without that. Conversely, they might stop using the provider after it's been
uninstalled, even if they were not re-started. W32 will not permit namespace
provider library to be deleted or overwritten while the provider is installed,
and while there is at least one process still using it (even after it was
uninstalled).
@node GNS Proxy Setup
@subsubsection GNS Proxy Setup
When using the GNU Name System (GNS) to browse the WWW, there are several
issues that can be solved by adding the GNS Proxy to your setup:
@itemize @bullet
@item If the target website does not support GNS, it might assume that it is
operating under some name in the legacy DNS system (such as example.com). It
may then attempt to set cookies for that domain, and the web server might
expect a @code{Host: example.com} header in the request from your browser.
However, your browser might be using @code{example.gnu} for the @code{Host}
header and might only accept (and send) cookies for @code{example.gnu}. The GNS
Proxy will perform the necessary translations of the hostnames for cookies and
HTTP headers (using the LEHO record for the target domain as the desired
substitute).
@item If using HTTPS, the target site might include an SSL certificate which is
either only valid for the LEHO domain or might match a TLSA record in GNS.
However, your browser would expect a valid certificate for @code{example.gnu},
not for some legacy domain name. The proxy will validate the certificate
(either against LEHO or TLSA) and then on-the-fly produce a valid certificate
for the exchange, signed by your own CA. Assuming you installed the CA of your
proxy in your browser's certificate authority list, your browser will then
trust the HTTPS/SSL/TLS connection, as the hostname mismatch is hidden by the
proxy.
@item Finally, the proxy will in the future indicate to the server that it
speaks GNS, which will enable server operators to deliver GNS-enabled web sites
to your browser (and continue to deliver legacy links to legacy browsers)
@end itemize
@node Setup of the GNS CA
@subsubsection Setup of the GNS CA
First you need to create a CA certificate that the proxy can use. To do so use
the provided script gnunet-gns-proxy-ca:@
@code{@
$ gnunet-gns-proxy-setup-ca@
}
This will create a personal certification authority for you and add this
authority to the firefox and chrome database. The proxy will use the this CA
certificate to generate @code{*.gnu} client certificates on the fly.
Note that the proxy uses libcurl. Make sure your version of libcurl uses GnuTLS
and NOT OpenSSL. The proxy will not work with libcurl compiled against
OpenSSL.
@node Testing the GNS setup
@subsubsection Testing the GNS setup
Now for testing purposes we can create some records in our zone to test the SSL
functionality of the proxy:@
@code{@
$ gnunet-namestore -a -e "1 d" -n "homepage" -t A -V 131.159.74.67@
$ gnunet-namestore -a -e "1 d" -n "homepage" -t LEHO -V "gnunet.org"@
}
At this point we can start the proxy. Simply execute@
@code{@
$ gnunet-gns-proxy@
}
Configure your browser to use this SOCKSv5 proxy on port 7777 and visit this
link.@ If you use firefox you also have to go to about:config and set the key
@code{network.proxy.socks_remote_dns} to @code{true}.
When you visit @code{https://homepage.gnu/}, you should get to the
@code{https://gnunet.org/} frontpage and the browser (with the correctly
configured proxy) should give you a valid SSL certificate for
@code{homepage.gnu} and no warnings. It should look like this@
@table @asis
@item Attachment
Size
@item gnunethpgns.png
64.19 KB
@end table
@node Automatic Shortening in the GNU Name System
@subsubsection Automatic Shortening in the GNU Name System
This page describes a possible option for 'automatic name shortening', which
you can choose to enable with the GNU Name System.
When GNS encounters a name for the first time, it can use the 'NICK' record of
the originating zone to automatically generate a name for the zone. If
automatic shortening is enabled, those auto-generated names will be placed (as
private records) into your personal 'shorten' zone (to prevent confusion with
manually selected names). Then, in the future, if the same name is encountered
again, GNS will display the shortened name instead (the first time, the long
name will still be used as shortening typically happens asynchronously as
looking up the 'NICK' record takes some time). Using this feature can be a
convenient way to avoid very long @code{.gnu} names; however, note that names
from the shorten-zone are assigned on a first-come-first-serve basis and should
not be trusted. Furthermore, if you enable this feature, you will no longer see
the full delegation chain for zones once shortening has been applied.
@node Configuring the GNUnet VPN
@subsection Configuring the GNUnet VPN
@menu
* IPv4 address for interface::
* IPv6 address for interface::
* Configuring the GNUnet VPN DNS::
* Configuring the GNUnet VPN Exit Service::
* IP Address of external DNS resolver::
* IPv4 address for Exit interface::
* IPv6 address for Exit interface::
@end menu
Before configuring the GNUnet VPN, please make sure that system-wide DNS
interception is configured properly as described in the section on the GNUnet
DNS setup.
The default-options for the GNUnet VPN are usually sufficient to use GNUnet as
a Layer 2 for your Internet connection. However, what you always have to
specify is which IP protocol you want to tunnel: IPv4, IPv6 or both.
Furthermore, if you tunnel both, you most likely should also tunnel all of your
DNS requests. You theoretically can tunnel "only" your DNS traffic, but that
usually makes little sense.
The other options as shown on the gnunet-setup tool are:
@node IPv4 address for interface
@subsubsection IPv4 address for interface
This is the IPv4 address the VPN interface will get. You should pick an
'private' IPv4 network that is not yet in use for you system. For example, if
you use 10.0.0.1/255.255.0.0 already, you might use 10.1.0.1/255.255.0.0. If
you use 10.0.0.1/255.0.0.0 already, then you might use 192.168.0.1/255.255.0.0.
If your system is not in a private IP-network, using any of the above will work
fine.@ You should try to make the mask of the address big enough (255.255.0.0
or, even better, 255.0.0.0) to allow more mappings of remote IP Addresses into
this range. However, even a 255.255.255.0-mask will suffice for most users.
@node IPv6 address for interface
@subsubsection IPv6 address for interface
The IPv6 address the VPN interface will get. Here you can specify any
non-link-local address (the address should not begin with "fe80:"). A subnet
Unique Local Unicast (fd00::/8-prefix) that you are currently not using would
be a good choice.
@node Configuring the GNUnet VPN DNS
@subsubsection Configuring the GNUnet VPN DNS
To resolve names for remote nodes, activate the DNS exit option.
@node Configuring the GNUnet VPN Exit Service
@subsubsection Configuring the GNUnet VPN Exit Service
If you want to allow other users to share your Internet connection (yes, this
may be dangerous, just as running a Tor exit node) or want to provide access to
services on your host (this should be less dangerous, as long as those services
are secure), you have to enable the GNUnet exit daemon.
You then get to specify which exit functions you want to provide. By enabling
the exit daemon, you will always automatically provide exit functions for
manually configured local services (this component of the system is under
development and not documented further at this time). As for those services you
explicitly specify the target IP address and port, there is no significant
security risk in doing so.
Furthermore, you can serve as a DNS, IPv4 or IPv6 exit to the Internet. Being a
DNS exit is usually pretty harmless. However, enabling IPv4 or IPv6-exit
without further precautions may enable adversaries to access your local
network, send spam, attack other systems from your Internet connection and to
other mischief that will appear to come from your machine. This may or may not
get you into legal trouble. If you want to allow IPv4 or IPv6-exit
functionality, you should strongly consider adding additional firewall rules
manually to protect your local network and to restrict outgoing TCP traffic
(i.e. by not allowing access to port 25). While we plan to improve
exit-filtering in the future, you're currently on your own here. Essentially,
be prepared for any kind of IP-traffic to exit the respective TUN interface
(and GNUnet will enable IP-forwarding and NAT for the interface automatically).
Additional configuration options of the exit as shown by the gnunet-setup tool
are:
@node IP Address of external DNS resolver
@subsubsection IP Address of external DNS resolver
If DNS traffic is to exit your machine, it will be send to this DNS resolver.
You can specify an IPv4 or IPv6 address.
@node IPv4 address for Exit interface
@subsubsection IPv4 address for Exit interface
This is the IPv4 address the Interface will get. Make the mask of the address
big enough (255.255.0.0 or, even better, 255.0.0.0) to allow more mappings of
IP addresses into this range. As for the VPN interface, any unused, private
IPv4 address range will do.
@node IPv6 address for Exit interface
@subsubsection IPv6 address for Exit interface
The public IPv6 address the interface will get. If your kernel is not a very
recent kernel and you are willing to manually enable IPv6-NAT, the IPv6 address
you specify here must be a globally routed IPv6 address of your host.
Suppose your host has the address @code{2001:4ca0::1234/64}, then using@
@code{2001:4ca0::1:0/112} would be fine (keep the first 64 bits, then change at
least one bit in the range before the bitmask, in the example above we changed
bit 111 from 0 to 1).
You may also have to configure your router to route traffic for the entire
subnet (@code{2001:4ca0::1:0/112} for example) through your computer (this
should be automatic with IPv6, but obviously anything can be
disabled).
@node Bandwidth Configuration
@subsection Bandwidth Configuration
You can specify how many bandwidth GNUnet is allowed to use to receive and send
data. This is important for users with limited bandwidth or traffic volume.
@node Configuring NAT
@subsection Configuring NAT
Most hosts today do not have a normal global IP address but instead are behind
a router performing Network Address Translation (NAT) which assigns each host
in the local network a private IP address. As a result, these machines cannot
trivially receive inbound connections from the Internet. GNUnet supports NAT
traversal to enable these machines to receive incoming connections from other
peers despite their limitations.
In an ideal world, you can press the "Attempt automatic configuration" button
in gnunet-setup to automatically configure your peer correctly. Alternatively,
your distribution might have already triggered this automatic configuration
during the installation process. However, automatic configuration can fail to
determine the optimal settings, resulting in your peer either not receiving as
many connections as possible, or in the worst case it not connecting to the
network at all.
To manually configure the peer, you need to know a few things about your
network setup. First, determine if you are behind a NAT in the first place.
This is always the case if your IP address starts with "10.*" or "192.168.*".
Next, if you have control over your NAT router, you may choose to manually
configure it to allow GNUnet traffic to your host. If you have configured your
NAT to forward traffic on ports 2086 (and possibly 1080) to your host, you can
check the "NAT ports have been opened manually" option, which corresponds to
the "PUNCHED_NAT" option in the configuration file. If you did not punch your
NAT box, it may still be configured to support UPnP, which allows GNUnet to
automatically configure it. In that case, you need to install the "upnpc"
command, enable UPnP (or PMP) on your NAT box and set the "Enable NAT traversal
via UPnP or PMP" option (corresponding to "ENABLE_UPNP" in the configuration
file).
Some NAT boxes can be traversed using the autonomous NAT traversal method. This
requires certain GNUnet components to be installed with "SUID" prividledges on
your system (so if you're installing on a system you do not have administrative
rights to, this will not work). If you installed as 'root', you can enable
autonomous NAT traversal by checking the "Enable NAT traversal using ICMP
method". The ICMP method requires a way to determine your NAT's external
(global) IP address. This can be done using either UPnP, DynDNS, or by manual
configuration. If you have a DynDNS name or know your external IP address, you
should enter that name under "External (public) IPv4 address" (which
corresponds to the "EXTERNAL_ADDRESS" option in the configuration file). If you
leave the option empty, GNUnet will try to determine your external IP address
automatically (which may fail, in which case autonomous NAT traversal will then
not work).
Finally, if you yourself are not behind NAT but want to be able to connect to
NATed peers using autonomous NAT traversal, you need to check the "Enable
connecting to NATed peers using ICMP method" box.
@node Peer configuration for distributions
@subsection Peer configuration for distributions
The "GNUNET_DATA_HOME" in "[path]" in @file{/etc/gnunet.conf} should be manually set
to "/var/lib/gnunet/data/" as the default "~/.local/share/gnunet/" is probably
not that appropriate in this case. Similarly, distributions may consider
pointing "GNUNET_RUNTIME_DIR" to "/var/run/gnunet/" and "GNUNET_HOME" to
"/var/lib/gnunet/". Also, should a distribution decide to override system
defaults, all of these changes should be done in a custom @file{/etc/gnunet.conf}
and not in the files in the @file{config.d/} directory.
Given the proposed access permissions, the "gnunet-setup" tool must be run as
use "gnunet" (and with option "-c /etc/gnunet.conf" so that it modifies the
system configuration). As always, gnunet-setup should be run after the GNUnet
peer was stopped using "gnunet-arm -e". Distributions might want to include a
wrapper for gnunet-setup that allows the desktop-user to "sudo" (i.e. using
gtksudo) to the "gnunet" user account and then runs "gnunet-arm -e",
"gnunet-setup" and "gnunet-arm -s" in sequence.
@node How to start and stop a GNUnet peer
@section How to start and stop a GNUnet peer
This section describes how to start a GNUnet peer. It assumes that you have
already compiled and installed GNUnet and its' dependencies. Before you start a
GNUnet peer, you may want to create a configuration file using gnunet-setup
(but you do not have to). Sane defaults should exist in your
@file{$GNUNET_PREFIX/share/gnunet/config.d/} directory, so in practice you could
simply start without any configuration. If you want to configure your peer
later, you need to stop it before invoking the @code{gnunet-setup} tool to
customize further and to test your configuration (@code{gnunet-setup} has
build-in test functions).
The most important option you might have to still set by hand is in [PATHS].
Here, you use the option "GNUNET_HOME" to specify the path where GNUnet should
store its data. It defaults to @code{$HOME/}, which again should work for most
users. Make sure that the directory specified as GNUNET_HOME is writable to
the user that you will use to run GNUnet (note that you can run frontends
using other users, GNUNET_HOME must only be accessible to the user used to run
the background processes).
You will also need to make one central decision: should all of GNUnet be run
under your normal UID, or do you want distinguish between system-wide
(user-independent) GNUnet services and personal GNUnet services. The multi-user
setup is slightly more complicated, but also more secure and generally
recommended.
@menu
* The Single-User Setup::
* The Multi-User Setup::
* Killing GNUnet services::
* Access Control for GNUnet::
@end menu
@node The Single-User Setup
@subsection The Single-User Setup
For the single-user setup, you do not need to do anything special and can just
start the GNUnet background processes using @code{gnunet-arm}. By default,
GNUnet looks in @file{~/.config/gnunet.conf} for a configuration (or
@code{$XDG_CONFIG_HOME/gnunet.conf} if@ @code{$XDG_CONFIG_HOME} is defined). If your
configuration lives elsewhere, you need to pass the @code{-c FILENAME} option
to all GNUnet commands.
Assuming the configuration file is called @file{~/.config/gnunet.conf}, you
start your peer using the @code{gnunet-arm} command (say as user
@code{gnunet}) using:
@example
gnunet-arm -c ~/.config/gnunet.conf -s
@end example
The "-s" option here is for "start". The command should return almost
instantly. If you want to stop GNUnet, you can use:
@example
gnunet-arm -c ~/.config/gnunet.conf -e
@end example
The "-e" option here is for "end".
Note that this will only start the basic peer, no actual applications will be
available. If you want to start the file-sharing service, use (after starting
GNUnet):
@example
gnunet-arm -c ~/.config/gnunet.conf -i fs
@end example
The "-i fs" option here is for "initialize" the "fs" (file-sharing)
application. You can also selectively kill only file-sharing support using
@example
gnunet-arm -c ~/.config/gnunet.conf -k fs
@end example
Assuming that you want certain services (like file-sharing) to be always
automatically started whenever you start GNUnet, you can activate them by
setting "FORCESTART=YES" in the respective section of the configuration file
(for example, "[fs]"). Then GNUnet with file-sharing support would be started
whenever you@ enter:
@example
gnunet-arm -c ~/.config/gnunet.conf -s
@end example
Alternatively, you can combine the two options:
@example
gnunet-arm -c ~/.config/gnunet.conf -s -i fs
@end example
Using @code{gnunet-arm} is also the preferred method for initializing GNUnet
from @code{init}.
Finally, you should edit your @code{crontab} (using the @code{crontab} command)
and insert a line@
@code{@
@@reboot gnunet-arm -c ~/.config/gnunet.conf -s@
}@
to automatically start your peer whenever your system boots.
@node The Multi-User Setup
@subsection The Multi-User Setup
This requires you to create a user @code{gnunet} and an additional group
@code{gnunetdns}, prior to running @code{make install} during installation.
Then, you create a configuration file @file{/etc/gnunet.conf} which should
contain the lines:@
@code{@
[arm]@
SYSTEM_ONLY = YES@
USER_ONLY = NO@
}@
Then, perform the same steps to run GNUnet as in the per-user configuration,
except as user @code{gnunet} (including the @code{crontab} installation). You
may also want to run @code{gnunet-setup} to configure your peer (databases,
etc.). Make sure to pass @code{-c /etc/gnunet.conf} to all commands. If you
run @code{gnunet-setup} as user @code{gnunet}, you might need to change
permissions on @file{/etc/gnunet.conf} so that the @code{gnunet} user can
write to the file (during setup).
Afterwards, you need to perform another setup step for each normal user account
from which you want to access GNUnet. First, grant the normal user
(@code{$USER}) permission to the group gnunet:@
@code{@
# adduser $USER gnunet@
}@
Then, create a configuration file in @file{~/.config/gnunet.conf} for the $USER
with the lines:@
@code{@
[arm]@
SYSTEM_ONLY = NO@
USER_ONLY = YES@
}@
This will ensure that @code{gnunet-arm} when started by the normal user will
only run services that are per-user, and otherwise rely on the system-wide
services. Note that the normal user may run gnunet-setup, but the
configuration would be ineffective as the system-wide services will use
@code{/etc/gnunet.conf} and ignore options set by individual users.
Again, each user should then start the peer using @code{gnunet-arm -s} --- and
strongly consider adding logic to start the peer automatically to their
crontab.
Afterwards, you should see two (or more, if you have more than one USER)
@code{gnunet-service-arm} processes running in your system.
@node Killing GNUnet services
@subsection Killing GNUnet services
It is not necessary to stop GNUnet services explicitly when shutting down your
computer.
It should be noted that manually killing "most" of the @code{gnunet-service}
processes is generally not a successful method for stopping a peer (since
@code{gnunet-service-arm} will instantly restart them). The best way to
explicitly stop a peer is using @code{gnunet-arm -e}; note that the per-user
services may need to be terminated before the system-wide services will
terminate normally.
@node Access Control for GNUnet
@subsection Access Control for GNUnet
This chapter documents how we plan to make access control work within the
GNUnet system for a typical peer. It should be read as a best-practice
installation guide for advanced users and builders of binary distributions. The
recommendations in this guide apply to POSIX-systems with full support for UNIX
domain sockets only.
Note that this is an advanced topic. The discussion presumes a very good
understanding of users, groups and file permissions. Normal users on hosts with
just a single user can just install GNUnet under their own account (and
possibly allow the installer to use SUDO to grant additional permissions for
special GNUnet tools that need additional rights). The discussion below largely
applies to installations where multiple users share a system and to
installations where the best possible security is paramount.
A typical GNUnet system consists of components that fall into four categories:
@table @asis
@item User interfaces
User interfaces are not security sensitive and are supposed to be run and used
by normal system users. The GTK GUIs and most command-line programs fall into
this category. Some command-line tools (like gnunet-transport) should be
excluded as they offer low-level access that normal users should not need.
@item System services and support tools
System services should always run and offer services that can then be accessed
by the normal users. System services do not require special permissions, but as
they are not specific to a particular user, they probably should not run as a
particular user. Also, there should typically only be one GNUnet peer per host.
System services include the gnunet-service and gnunet-daemon programs; support
tools include command-line programs such as gnunet-arm.
@item Priviledged helpers
Some GNUnet components require root rights to open raw sockets or perform other
special operations. These gnunet-helper binaries are typically installed SUID
and run from services or daemons.
@item Critical services
Some GNUnet services (such as the DNS service) can manipulate the service in
deep and possibly highly security sensitive ways. For example, the DNS service
can be used to intercept and alter any DNS query originating from the local
machine. Access to the APIs of these critical services and their priviledged
helpers must be tightly controlled.
@end table
@menu
* Recommendation - Disable access to services via TCP::
* Recommendation - Run most services as system user "gnunet"::
* Recommendation - Control access to services using group "gnunet"::
* Recommendation - Limit access to certain SUID binaries by group "gnunet"::
* Recommendation - Limit access to critical gnunet-helper-dns to group "gnunetdns"::
* Differences between "make install" and these recommendations::
@end menu
@node Recommendation - Disable access to services via TCP
@subsubsection Recommendation - Disable access to services via TCP
GNUnet services allow two types of access: via TCP socket or via UNIX domain
socket. If the service is available via TCP, access control can only be
implemented by restricting connections to a particular range of IP addresses.
This is acceptable for non-critical services that are supposed to be available
to all users on the local system or local network. However, as TCP is generally
less efficient and it is rarely the case that a single GNUnet peer is supposed
to serve an entire local network, the default configuration should disable TCP
access to all GNUnet services on systems with support for UNIX domain sockets.
As of GNUnet 0.9.2, configuration files with TCP access disabled should be
generated by default. Users can re-enable TCP access to particular services
simply by specifying a non-zero port number in the section of the respective
service.
@node Recommendation - Run most services as system user "gnunet"
@subsubsection Recommendation - Run most services as system user "gnunet"
GNUnet's main services should be run as a separate user "gnunet" in a special
group "gnunet". The user "gnunet" should start the peer using "gnunet-arm -s"
during system startup. The home directory for this user should be
@file{/var/lib/gnunet} and the configuration file should be @file{/etc/gnunet.conf}.
Only the @code{gnunet} user should have the right to access @file{/var/lib/gnunet}
(@emph{mode: 700}).
@node Recommendation - Control access to services using group "gnunet"
@subsubsection Recommendation - Control access to services using group "gnunet"
Users that should be allowed to use the GNUnet peer should be added to the
group "gnunet". Using GNUnet's access control mechanism for UNIX domain
sockets, those services that are considered useful to ordinary users should be
made available by setting "UNIX_MATCH_GID=YES" for those services. Again, as
shipped, GNUnet provides reasonable defaults. Permissions to access the
transport and core subsystems might additionally be granted without necessarily
causing security concerns. Some services, such as DNS, must NOT be made
accessible to the "gnunet" group (and should thus only be accessible to the
"gnunet" user and services running with this UID).
@node Recommendation - Limit access to certain SUID binaries by group "gnunet"
@subsubsection Recommendation - Limit access to certain SUID binaries by group "gnunet"
Most of GNUnet's SUID binaries should be safe even if executed by normal users.
However, it is possible to reduce the risk a little bit more by making these
binaries owned by the group "gnunet" and restricting their execution to user of
the group "gnunet" as well (4750).
@node Recommendation - Limit access to critical gnunet-helper-dns to group "gnunetdns"
@subsubsection Recommendation - Limit access to critical gnunet-helper-dns to group "gnunetdns"
A special group "gnunetdns" should be created for controlling access to the
"gnunet-helper-dns". The binary should then be owned by root and be in group
"gnunetdns" and be installed SUID and only be group-executable (2750). Note
that the group "gnunetdns" should have no users in it at all, ever. The
"gnunet-service-dns" program should be executed by user "gnunet" (via
gnunet-service-arm) with the binary owned by the user "root" and the group
"gnunetdns" and be SGID (2700). This way, @strong{only} "gnunet-service-dns"
can change its group to "gnunetdns" and execute the helper, and the helper can
then run as root (as per SUID). Access to the API offered by
"gnunet-service-dns" is in turn restricted to the user "gnunet" (not the
group!), which means that only "benign" services can manipulate DNS queries
using "gnunet-service-dns".
@node Differences between "make install" and these recommendations
@subsubsection Differences between "make install" and these recommendations
The current build system does not set all permissions automatically based on
the recommendations above. In particular, it does not use the group "gnunet" at
all (so setting gnunet-helpers other than the gnunet-helper-dns to be owned by
group "gnunet" must be done manually). Furthermore, 'make install' will
silently fail to set the DNS binaries to be owned by group "gnunetdns" unless
that group already exists (!). An alternative name for the "gnunetdns" group
can be specified using the "--with-gnunetdns=GRPNAME" configure
option.