nixpkgs-suyu/doc/manual/configuration.xml
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<chapter xmlns="http://docbook.org/ns/docbook"
xmlns:xlink="http://www.w3.org/1999/xlink"
xml:id="ch-configuration">
<title>Configuring NixOS</title>
<para>This chapter describes how to configure various aspects of a
NixOS machine through the configuration file
<filename>/etc/nixos/configuration.nix</filename>. As described in
<xref linkend="sec-changing-config" />, changes to that file only take
effect after you run <command>nixos-rebuild</command>.</para>
<!--===============================================================-->
<section><title>Package management</title>
<para>This section describes how to add additional packages to your
system. NixOS has two distinct styles of package management:
<itemizedlist>
<listitem><para><emphasis>Declarative</emphasis>, where you declare
what packages you want in your
<filename>configuration.nix</filename>. Every time you run
<command>nixos-rebuild</command>, NixOS will ensure that you get a
consistent set of binaries corresponding to your
specification.</para></listitem>
<listitem><para><emphasis>Ad hoc</emphasis>, where you install,
upgrade and uninstall packages via the <command>nix-env</command>
command. This style allows mixing packages from different Nixpkgs
versions. Its the only choice for non-root
users.</para></listitem>
</itemizedlist>
</para>
<para>The next two sections describe these two styles.</para>
<section><title>Declarative package management</title>
<para>With declarative package management, you specify which packages
you want on your system by setting the option
<option>environment.systemPackages</option>. For instance, adding the
following line to <filename>configuration.nix</filename> enables the
Mozilla Thunderbird email application:
<programlisting>
environment.systemPackages = [ pkgs.thunderbird ];
</programlisting>
The effect of this specification is that the Thunderbird package from
Nixpkgs will be built or downloaded as part of the system when you run
<command>nixos-rebuild switch</command>.</para>
<para>You can get a list of the available packages as follows:
<screen>
$ nix-env -qaP '*' --description
nixos.pkgs.firefox firefox-23.0 Mozilla Firefox - the browser, reloaded
<replaceable>...</replaceable>
</screen>
The first column in the output is the <emphasis>attribute
name</emphasis>, such as
<literal>nixos.pkgs.thunderbird</literal>. (The
<literal>nixos</literal> prefix allows distinguishing between
different channels that you might have.)</para>
<para>To “uninstall” a package, simply remove it from
<option>environment.systemPackages</option> and run
<command>nixos-rebuild switch</command>.</para>
<section xml:id="sec-customising-packages"><title>Customising packages</title>
<para>Some packages in Nixpkgs have options to enable or disable
optional functionality or change other aspects of the package. For
instance, the Firefox wrapper package (which provides Firefox with a
set of plugins such as the Adobe Flash player) has an option to enable
the Google Talk plugin. It can be set in
<filename>configuration.nix</filename> as follows:
<filename>
nixpkgs.config.firefox.enableGoogleTalkPlugin = true;
</filename>
</para>
<warning><para>Unfortunately, Nixpkgs currently lacks a way to query
available configuration options.</para></warning>
<para>Apart from high-level options, its possible to tweak a package
in almost arbitrary ways, such as changing or disabling dependencies
of a package. For instance, the Emacs package in Nixpkgs by default
has a dependency on GTK+ 2. If you want to build it against GTK+ 3,
you can specify that as follows:
<programlisting>
environment.systemPackages = [ (pkgs.emacs.override { gtk = pkgs.gtk3; }) ];
</programlisting>
The function <varname>override</varname> performs the call to the Nix
function that produces Emacs, with the original arguments amended by
the set of arguments specified by you. So here the function argument
<varname>gtk</varname> gets the value <literal>pkgs.gtk3</literal>,
causing Emacs to depend on GTK+ 3. (The parentheses are necessary
because in Nix, function application binds more weakly than list
construction, so without them,
<literal>environment.systemPackages</literal> would be a list with two
elements.)</para>
<para>Even greater customisation is possible using the function
<varname>overrideDerivation</varname>. While the
<varname>override</varname> mechanism above overrides the arguments of
a package function, <varname>overrideDerivation</varname> allows
changing the <emphasis>result</emphasis> of the function. This
permits changing any aspect of the package, such as the source code.
For instance, if you want to override the source code of Emacs, you
can say:
<programlisting>
environment.systemPackages =
[ (pkgs.lib.overrideDerivation pkgs.emacs (attrs: {
name = "emacs-25.0-pre";
src = /path/to/my/emacs/tree;
}))
];
</programlisting>
Here, <varname>overrideDerivation</varname> takes the Nix derivation
specified by <varname>pkgs.emacs</varname> and produces a new
derivation in which the originals <literal>name</literal> and
<literal>src</literal> attribute have been replaced by the given
values. The original attributes are accessible via
<varname>attrs</varname>.</para>
<para>The overrides shown above are not global. They do not affect
the original package; other packages in Nixpkgs continue to depend on
the original rather than the customised package. This means that if
another package in your system depends on the original package, you
end up with two instances of the package. If you want to have
everything depend on your customised instance, you can apply a
<emphasis>global</emphasis> override as follows:
<screen>
nixpkgs.config.packageOverrides = pkgs:
{ emacs = pkgs.emacs.override { gtk = pkgs.gtk3; };
};
</screen>
The effect of this definition is essentially equivalent to modifying
the <literal>emacs</literal> attribute in the Nixpkgs source tree.
Any package in Nixpkgs that depends on <literal>emacs</literal> will
be passed your customised instance. (However, the value
<literal>pkgs.emacs</literal> in
<varname>nixpkgs.config.packageOverrides</varname> refers to the
original rather than overriden instance, to prevent an infinite
recursion.)</para>
</section>
<section><title>Adding custom packages</title>
<para>Its possible that a package you need is not available in NixOS.
In that case, you can do two things. First, you can clone the Nixpkgs
repository, add the package to your clone, and (optionally) submit a
patch or pull request to have it accepted into the main Nixpkgs
repository. This is described in detail in the <link
xlink:href="http://nixos.org/nixpkgs/manual">Nixpkgs manual</link>.
In short, you clone Nixpkgs:
<screen>
$ git clone git://github.com/NixOS/nixpkgs.git
$ cd nixpkgs
</screen>
Then you write and test the package as described in the Nixpkgs
manual. Finally, you add it to
<literal>environment.systemPackages</literal>, e.g.
<programlisting>
environment.systemPackages = [ pkgs.my-package ];
</programlisting>
and you run <command>nixos-rebuild</command>, specifying your own
Nixpkgs tree:
<screen>
$ nixos-rebuild switch -I nixpkgs=/path/to/my/nixpkgs</screen>
</para>
<para>The second possibility is to add the package outside of the
Nixpkgs tree. For instance, here is how you specify a build of the
<link xlink:href="http://www.gnu.org/software/hello/">GNU Hello</link>
package directly in <filename>configuration.nix</filename>:
<programlisting>
environment.systemPackages =
let
my-hello = with pkgs; stdenv.mkDerivation rec {
name = "hello-2.8";
src = fetchurl {
url = "mirror://gnu/hello/${name}.tar.gz";
sha256 = "0wqd8sjmxfskrflaxywc7gqw7sfawrfvdxd9skxawzfgyy0pzdz6";
};
};
in
[ my-hello ];
</programlisting>
Of course, you can also move the definition of
<literal>my-hello</literal> into a separate Nix expression, e.g.
<programlisting>
environment.systemPackages = [ (import ./my-hello.nix) ];
</programlisting>
where <filename>my-hello.nix</filename> contains:
<programlisting>
with &lt;nixpkgs> {}; # bring all of Nixpkgs into scope
stdenv.mkDerivation rec {
name = "hello-2.8";
src = fetchurl {
url = "mirror://gnu/hello/${name}.tar.gz";
sha256 = "0wqd8sjmxfskrflaxywc7gqw7sfawrfvdxd9skxawzfgyy0pzdz6";
};
}
</programlisting>
This allows testing the package easily:
<screen>
$ nix-build my-hello.nix
$ ./result/bin/hello
Hello, world!
</screen>
</para>
</section>
</section>
<section><title>Ad hoc package management</title>
<para>With the command <command>nix-env</command>, you can install and
uninstall packages from the command line. For instance, to install
Mozilla Thunderbird:
<screen>
$ nix-env -iA nixos.pkgs.thunderbird</screen>
If you invoke this as root, the package is installed in the Nix
profile <filename>/nix/var/nix/profiles/default</filename> and visible
to all users of the system; otherwise, the package ends up in
<filename>/nix/var/nix/profiles/per-user/<replaceable>username</replaceable>/profile</filename>
and is not visible to other users. The <option>-A</option> flag
specifies the package by its attribute name; without it, the package
is installed by matching against its package name
(e.g. <literal>thunderbird</literal>). The latter is slower because
it requires matching against all available Nix packages, and is
ambiguous if there are multiple matching packages.</para>
<para>Packages come from the NixOS channel. You typically upgrade a
package by updating to the latest version of the NixOS channel:
<screen>
$ nix-channel --update nixos
</screen>
and then running <literal>nix-env -i</literal> again. Other packages
in the profile are <emphasis>not</emphasis> affected; this is the
crucial difference with the declarative style of package management,
where running <command>nixos-rebuild switch</command> causes all
packages to be updated to their current versions in the NixOS channel.
You can however upgrade all packages for which there is a newer
version by doing:
<screen>
$ nix-env -u '*'
</screen>
</para>
<para>A package can be unstalled using the <option>-e</option>
flag:
<screen>
$ nix-env -e thunderbird
</screen>
</para>
<para>Finally, you can roll back an undesirable
<command>nix-env</command> action:
<screen>
$ nix-env --rollback
</screen>
</para>
<para><command>nix-env</command> has many more flags. For details,
see the
<citerefentry><refentrytitle>nix-env</refentrytitle><manvolnum>1</manvolnum></citerefentry>
manpage or the Nix manual.</para>
</section>
</section>
<!--===============================================================-->
<section><title>User management</title>
<para>NixOS supports both declarative and imperative styles of user
management. In the declarative style, users are specified in
<filename>configuration.nix</filename>. For instance, the following
states that a user account named <literal>alice</literal> shall exist:
<programlisting>
users.extraUsers.alice =
{ createHome = true;
home = "/home/alice";
description = "Alice Foobar";
extraGroups = [ "wheel" ];
isSystemUser = false;
useDefaultShell = true;
openssh.authorizedKeys.keys = [ "ssh-dss AAAAB3Nza... alice@foobar" ];
};
</programlisting>
Note that <literal>alice</literal> is a member of the
<literal>wheel</literal> group, which allows her to use
<command>sudo</command> to execute commands as
<literal>root</literal>. Also note the SSH public key that allows
remote logins with the corresponding private key. Users created in
this way do not have a password by default, so they cannot log in via
mechanisms that require a password. However, you can use the
<command>passwd</command> program to set a password, which is retained
across invocations of <command>nixos-rebuild</command>.</para>
<para>A user ID (uid) is assigned automatically. You can also specify
a uid manually by adding
<programlisting>
uid = 1000;
</programlisting>
to the user specification.</para>
<para>Groups can be specified similarly. The following states that a
group named <literal>students</literal> shall exist:
<programlisting>
users.extraGroups.students.gid = 1000;
</programlisting>
As with users, the group ID (gid) is optional and will be assigned
automatically if its missing.</para>
<warning><para>Currently declarative user management is not perfect:
<command>nixos-rebuild</command> does not know how to realise certain
configuration changes. This includes removing a user or group, and
removing group membership from a user.</para></warning>
<para>In the imperative style, users and groups are managed by
commands such as <command>useradd</command>,
<command>groupmod</command> and so on. For instance, to create a user
account named <literal>alice</literal>:
<screen>
$ useradd -m alice</screen>
The flag <option>-m</option> causes the creation of a home directory
for the new user, which is generally what you want. The user does not
have an initial password and therefore cannot log in. A password can
be set using the <command>passwd</command> utility:
<screen>
$ passwd alice
Enter new UNIX password: ***
Retype new UNIX password: ***
</screen>
A user can be deleted using <command>userdel</command>:
<screen>
$ userdel -r alice</screen>
The flag <option>-r</option> deletes the users home directory.
Accounts can be modified using <command>usermod</command>. Unix
groups can be managed using <command>groupadd</command>,
<command>groupmod</command> and <command>groupdel</command>.</para>
</section>
<!--===============================================================-->
<section><title>File systems</title>
<para>You can define file systems using the
<option>fileSystems</option> configuration option. For instance, the
following definition causes NixOS to mount the Ext4 file system on
device <filename>/dev/disk/by-label/data</filename> onto the mount
point <filename>/data</filename>:
<programlisting>
fileSystems."/data" =
{ device = "/dev/disk/by-label/data";
fsType = "ext4";
};
</programlisting>
Mount points are created automatically if they dont already exist.
For <option>device</option>, its best to use the topology-independent
device aliases in <filename>/dev/disk/by-label</filename> and
<filename>/dev/disk/by-uuid</filename>, as these dont change if the
topology changes (e.g. if a disk is moved to another IDE
controller).</para>
<para>You can usually omit the file system type
(<option>fsType</option>), since <command>mount</command> can usually
detect the type and load the necessary kernel module automatically.
However, if the file system is needed at early boot (in the initial
ramdisk) and is not <literal>ext2</literal>, <literal>ext3</literal>
or <literal>ext4</literal>, then its best to specify
<option>fsType</option> to ensure that the kernel module is
available.</para>
<section><title>LUKS-encrypted file systems</title>
<para>NixOS supports file systems that are encrypted using
<emphasis>LUKS</emphasis> (Linux Unified Key Setup). For example,
here is how you create an encrypted Ext4 file system on the device
<filename>/dev/sda2</filename>:
<screen>
$ cryptsetup luksFormat /dev/sda2
WARNING!
========
This will overwrite data on /dev/sda2 irrevocably.
Are you sure? (Type uppercase yes): YES
Enter LUKS passphrase: ***
Verify passphrase: ***
$ cryptsetup luksOpen /dev/sda2 crypted
Enter passphrase for /dev/sda2: ***
$ mkfs.ext4 /dev/mapper/crypted
</screen>
To ensure that this file system is automatically mounted at boot time
as <filename>/</filename>, add the following to
<filename>configuration.nix</filename>:
<programlisting>
boot.initrd.luks.devices = [ { device = "/dev/sda2"; name = "crypted"; } ];
fileSystems."/".device = "/dev/mapper/crypted";
</programlisting>
</para>
</section>
</section>
<!--===============================================================-->
<section><title>X Window System</title>
<para>The X Window System (X11) provides the basis of NixOS graphical
user interface. It can be enabled as follows:
<programlisting>
services.xserver.enable = true;
</programlisting>
The X server will automatically detect and use the appropriate video
driver from a set of X.org drivers (such as <literal>vesa</literal>
and <literal>intel</literal>). You can also specify a driver
manually, e.g.
<programlisting>
services.xserver.videoDrivers = [ "r128" ];
</programlisting>
to enable X.orgs <literal>xf86-video-r128</literal> driver.</para>
<para>You also need to enable at least one desktop or window manager.
Otherwise, you can only log into a plain undecorated
<command>xterm</command> window. Thus you should pick one or more of
the following lines:
<programlisting>
services.xserver.desktopManager.kde4.enable = true;
services.xserver.desktopManager.xfce.enable = true;
services.xserver.windowManager.xmonad.enable = true;
services.xserver.windowManager.twm.enable = true;
services.xserver.windowManager.icewm.enable = true;
</programlisting>
</para>
<para>NixOSs default <emphasis>display manager</emphasis> (the
program that provides a graphical login prompt and manages the X
server) is SLiM. You can select KDEs <command>kdm</command> instead:
<programlisting>
services.xserver.displayManager.kdm.enable = true;
</programlisting>
</para>
<para>The X server is started automatically at boot time. If you
dont want this to happen, you can set:
<programlisting>
services.xserver.autorun = false;
</programlisting>
The X server can then be started manually:
<screen>
$ systemctl start display-manager.service
</screen>
</para>
<section><title>NVIDIA graphics cards</title>
<para>NVIDIA provides a proprietary driver for its graphics cards that
has better 3D performance than the X.org drivers. It is not enabled
by default because its not free software. You can enable it as follows:
<programlisting>
services.xserver.videoDrivers = [ "nvidia" ];
</programlisting>
You may need to reboot after enabling this driver to prevent a clash
with other kernel modules.</para>
<para>On 64-bit systems, if you want full acceleration for 32-bit
programs such as Wine, you should also set the following:
<programlisting>
service.xserver.driSupport32Bit = true;
</programlisting>
</para>
</section>
<section><title>Touchpads</title>
<para>Support for Synaptics touchpads (found in many laptops such as
the Dell Latitude series) can be enabled as follows:
<programlisting>
services.xserver.synaptics.enable = true;
</programlisting>
The driver has many options (see <xref linkend="ch-options"/>). For
instance, the following enables two-finger scrolling:
<programlisting>
services.xserver.synaptics.twoFingerScroll = true;
</programlisting>
</para>
</section>
</section>
<!--===============================================================-->
<section><title>Networking</title>
<section><title>Secure shell access</title>
<para>Secure shell (SSH) access to your machine can be enabled by
setting:
<programlisting>
services.openssh.enable = true;
</programlisting>
By default, root logins using a password are disallowed. They can be
disabled entirely by setting
<literal>services.openssh.permitRootLogin</literal> to
<literal>"no"</literal>.</para>
<para>You can declaratively specify authorised RSA/DSA public keys for
a user as follows:
<!-- FIXME: this might not work if the user is unmanaged. -->
<programlisting>
users.extraUsers.alice.openssh.authorizedKeys.keys =
[ "ssh-dss AAAAB3NzaC1kc3MAAACBAPIkGWVEt4..." ];
</programlisting>
</para>
</section>
<section><title>IPv4 configuration</title>
<para>By default, NixOS uses DHCP (specifically,
(<command>dhcpcd</command>)) to automatically configure network
interfaces. However, you can configure an interface manually as
follows:
<programlisting>
networking.interfaces.eth0 = { ipAddress = "192.168.1.2"; prefixLength = 24; };
</programlisting>
(The network prefix can also be specified using the option
<literal>subnetMask</literal>,
e.g. <literal>"255.255.255.0"</literal>, but this is deprecated.)
Typically youll also want to set a default gateway and set of name
servers:
<programlisting>
networking.defaultGateway = "192.168.1.1";
networking.nameservers = [ "8.8.8.8" ];
</programlisting>
</para>
<note><para>Statically configured interfaces are set up by the systemd
service
<replaceable>interface-name</replaceable><literal>-cfg.service</literal>.
The default gateway and name server configuration is performed by
<literal>network-setup.service</literal>.</para></note>
<para>The host name is set using <option>networking.hostName</option>:
<programlisting>
networking.hostName = "cartman";
</programlisting>
The default host name is <literal>nixos</literal>. Set it to the
empty string (<literal>""</literal>) to allow the DHCP server to
provide the host name.</para>
</section>
<section><title>IPv6 configuration</title>
<para>IPv6 is enabled by default. Stateless address autoconfiguration
is used to automatically assign IPv6 addresses to all interfaces. You
can disable IPv6 support globally by setting:
<programlisting>
networking.enableIPv6 = false;
</programlisting>
</para>
</section>
<section><title>Firewall</title>
<para>NixOS has a simple stateful firewall that blocks incoming
connections and other unexpected packets. The firewall applies to
both IPv4 and IPv6 traffic. It can be enabled as follows:
<programlisting>
networking.firewall.enable = true;
</programlisting>
You can open specific TCP ports to the outside world:
<programlisting>
networking.firewall.allowedTCPPorts = [ 80 443 ];
</programlisting>
Note that TCP port 22 (ssh) is opened automatically if the SSH daemon
is enabled (<option>services.openssh.enable = true</option>). UDP
ports can be opened through
<option>networking.firewall.allowedUDPPorts</option>. Also of
interest is
<programlisting>
networking.firewall.allowPing = true;
</programlisting>
to allow the machine to respond to ping requests. (ICMPv6 pings are
always allowed.)</para>
</section>
<section><title>Wireless networks</title>
<para>
NixOS will start wpa_supplicant for you if you enable this setting:
<programlisting>
networking.wireless.enable = true;
</programlisting>
NixOS currently does not generate wpa_supplicant's
configuration file, <literal>/etc/wpa_supplicant.conf</literal>. You should edit this file
yourself to define wireless networks, WPA keys and so on (see
wpa_supplicant.conf(5)).
</para>
<para>
If you are using WPA2 the <command>wpa_passphrase</command> tool might be useful
to generate the <literal>wpa_supplicant.conf</literal>.
<screen>
$ wpa_passphrase ESSID PSK > /etc/wpa_supplicant.conf</screen>
After you have edited the <literal>wpa_supplicant.conf</literal>,
you need to restart the wpa_supplicant service.
<screen>
$ systemctl restart wpa_supplicant.service</screen>
</para>
</section>
<section><title>Ad-hoc configuration</title>
<para>You can use <option>networking.localCommands</option> to specify
shell commands to be run at the end of
<literal>network-setup.service</literal>. This is useful for doing
network configuration not covered by the existing NixOS modules. For
instance, to statically configure an IPv6 address:
<programlisting>
networking.localCommands =
''
ip -6 addr add 2001:610:685:1::1/64 dev eth0
'';
</programlisting>
</para>
</section>
<!-- TODO: OpenVPN, NAT -->
</section>
<!--===============================================================-->
<section><title>Linux kernel</title>
<para>You can override the Linux kernel and associated packages using
the option <option>boot.kernelPackages</option>. For instance, this
selects the Linux 3.10 kernel:
<programlisting>
boot.kernelPackages = pkgs.linuxPackages_3_10;
</programlisting>
Note that this not only replaces the kernel, but also packages that
are specific to the kernel version, such as the NVIDIA video drivers.
This ensures that driver packages are consistent with the
kernel.</para>
<para>The default Linux kernel configuration should be fine for most
users. You can see the configuration of your current kernel in
<filename>/run/booted-system/kernel-modules/config</filename>. If you
want to change the kernel configuration, you can use the
<option>packageOverrides</option> feature (see <xref
linkend="sec-customising-packages" />). For instance, to enable
support for the kernel debugger KGDB:
<programlisting>
nixpkgs.config.packageOverrides = pkgs:
{ linux_3_4 = pkgs.linux_3_4.override {
extraConfig =
''
KGDB y
'';
};
};
</programlisting>
<varname>extraConfig</varname> takes a list of Linux kernel
configuration options, one per line. The name of the option should
not include the prefix <literal>CONFIG_</literal>. The option value
is typically <literal>y</literal>, <literal>n</literal> or
<literal>m</literal> (to build something as a kernel module).</para>
<para>Kernel modules for hardware devices are generally loaded
automatically by <command>udev</command>. You can force a module to
be loaded via <option>boot.kernelModules</option>, e.g.
<programlisting>
boot.kernelModules = [ "fuse" "kvm-intel" "coretemp" ];
</programlisting>
If the module is required early during the boot (e.g. to mount the
root file system), you can use
<option>boot.initrd.extraKernelModules</option>:
<programlisting>
boot.initrd.extraKernelModules = [ "cifs" ];
</programlisting>
This causes the specified modules and their dependencies to be added
to the initial ramdark.</para>
<para>Kernel runtime parameters can be set through
<option>boot.kernel.sysctl</option>, e.g.
<programlisting>
boot.kernel.sysctl."net.ipv4.tcp_keepalive_time" = 120;
</programlisting>
sets the kernels TCP keepalive time to 120 seconds. To see the
available parameters, run <command>sysctl -a</command>.</para>
</section>
<!-- Apache; libvirtd virtualisation -->
</chapter>