path: root/doc
diff options
Diffstat (limited to 'doc')
1 files changed, 61 insertions, 27 deletions
diff --git a/doc/handbook/chapters/installation.texi b/doc/handbook/chapters/installation.texi
index 9caf3cded..72fe19b24 100644
--- a/doc/handbook/chapters/installation.texi
+++ b/doc/handbook/chapters/installation.texi
@@ -6,6 +6,16 @@ source. For instructions on how to install GNUnet as a binary package
please refer to the official documentation of your operating system or
package manager.
+For understanding this guide properly it is important to know that
+there are two different ways of running GNUnet:
+* Running the @emph{user services only}
+* Running both @emph{user and system services}
+The latter variant has a better security model and requires extra preparation
+before running @code{make install} and a different configuration. Beginners who want to
+quickly try out GNUnet can use the @emph{user services only} variant.
* Installing dependencies::
* Getting the Source Code::
@@ -125,22 +135,37 @@ In the next chapter we will assume that the source code is available
in the home directory at @code{~/gnunet}.
@c -----------------------------------------------------------------------
-@node Create @code{gnunet} user and group
-@section Create @code{gnunet} user and group
-The GNUnet services should be run as a dedicated user called
-@code{gnunet}. For using them a user should be in the same group as
-this system user.
+@node Create user and groups for the GNUnet services
+@section Create user and groups for the GNUnet services
-Create user @code{gnunet} who is member of the group @code{gnunet} and
-specify a home directory where the GNUnet services will store
-persistant data such as information about peers.
+@cartouche{If only user services shall be used this section can be skipped}.
+For using both user and system services, a dedicated user called @code{gnunet}
+is needed. The system services will run as that user and the user services
+will communicate with them over unix domain sockets. That's why the user
+running GNUnet applications will need to be in the @code{gnunet} group.
+In addition the group @code{gnunetdns} may be needed (see below).
+Create user @code{gnunet} who is member of the group @code{gnunet}
+(automatically created) and specify a home directory where the GNUnet
+services will store persistant data such as information about peers.
-$ sudo useradd --system --groups gnunet --home-dir /var/lib/gnunet
+$ sudo useradd --system --home-dir /var/lib/gnunet --create-home gnunet
@end example
Now add your own user to the @code{gnunet} group.
-$ sudo adduser alice gnunet
+$ sudo usermod -aG gnunet alice
+@end example
+Create a group @code{gnunetdns}. This allows using @code{setgid} in a way
+that only the DNS service can run the @code{gnunet-helper-dns} binary. This
+is only needed if @emph{system-wide DNS interception} will be used. For more
+information see @xref{Configuring system-wide DNS interception}.
+$ sudo groupadd gnunetdns
@end example
@c -----------------------------------------------------------------------
@@ -190,13 +215,19 @@ $ make -j5
@section Installation
The compiled binaries can be installed using @code{make install}. It
needs to be run as root (or with sudo) because some binaries need the
-@code{suid} bit set. Without that some GNUnet subsystems (such as VPN)
-will not work.
+@code{suid} bit set. Without that some features (e.g. the VPN service,
+system-wide DNS interception, NAT traversal using ICMP) will not work.
$ sudo make install
@end example
+@node Extra Installation step: NSS plugin
+@cartouche{The installation of the NSS plugin can be skipped if GNS
+ resolution shall be used with legacy applications (that only
+ support DNS).}
One important library is the GNS plugin for NSS (the name services
switch) which allows using GNS (the GNU name system) in the normal DNS
resolution process. Unfortunately NSS expects it in a specific
@@ -234,29 +265,32 @@ The exact details may differ a bit, which is fine. Add the text
hosts: files gns [NOTFOUND=return] mdns4_minimal [NOTFOUND=return] dns mdns4
@end example
-Optionally, if GNS shall be used with a browser, execute the GNS
-CA-setup script. It will isetup the GNS Certificate Authority with the
-user's browser.
+@node Extra installation step: installing the GNS Certificate Authority
+@subsection Extra installation step: installing the GNS Certificate Authority
+@cartouche{Installing the GNS certificate authority is only necessary if GNS shall
+ be used in a browser.}
+The GNS Certificate authority can provide TLS certificates for GNS names while
+downloading webpages from legacy webservers. This allows browsers to use HTTPS
+in combinations with GNS name resolution.
+To install it execute the GNS CA-setup script. So far Firefox and Chromium are
$ gnunet-gns-proxy-setup-ca
@end example
-Finally install a configuration file in
-@code{~/.config/gnunet.conf}. Below you find an example config which
-allows you to start GNUnet.
+A local proxy server, that takes care of the name resolution and provides
+certificates on-the-fly needs to be started:
-PLUGINS = tcp
+$ /usr/lib/gnunet/libexec/gnunet-gns-proxy
@end example
+Now GNS should work in browsers that are configured to use a SOCKS proxy on
@node Checking the Installation