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Added cross-references to NixOS manual

This commit is contained in:
Reuben D'Netto 2018-04-05 18:43:56 +10:00
parent a683d2cd00
commit 42a84598fb
39 changed files with 340 additions and 338 deletions

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@ -29,8 +29,8 @@ this unit automatically at certain points in time, for instance, every
night at 03:15:
<programlisting>
nix.gc.automatic = true;
nix.gc.dates = "03:15";
<xref linkend="opt-nix.gc.automatic"/> = true;
<xref linkend="opt-nix.gc.dates"/> = "03:15";
</programlisting>
</para>

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@ -39,9 +39,9 @@ IP address. This can be accomplished using the following configuration
on the host:
<programlisting>
networking.nat.enable = true;
networking.nat.internalInterfaces = ["ve-+"];
networking.nat.externalInterface = "eth0";
<xref linkend="opt-networking.nat.enable"/> = true;
<xref linkend="opt-networking.nat.internalInterfaces"/> = ["ve-+"];
<xref linkend="opt-networking.nat.externalInterface"/> = "eth0";
</programlisting>
where <literal>eth0</literal> should be replaced with the desired
external interface. Note that <literal>ve-+</literal> is a wildcard

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@ -47,7 +47,7 @@ would get 1/1001 of the cgroups CPU time.) You can limit a services
CPU share in <filename>configuration.nix</filename>:
<programlisting>
systemd.services.httpd.serviceConfig.CPUShares = 512;
<link linkend="opt-systemd.services._name_.serviceConfig">systemd.services.httpd.serviceConfig</link>.CPUShares = 512;
</programlisting>
By default, every cgroup has 1024 CPU shares, so this will halve the
@ -61,7 +61,7 @@ available memory. Per-cgroup memory limits can be specified in
<literal>httpd.service</literal> to 512 MiB of RAM (excluding swap):
<programlisting>
systemd.services.httpd.serviceConfig.MemoryLimit = "512M";
<link linkend="opt-systemd.services._name_.serviceConfig">systemd.services.httpd.serviceConfig</link>.MemoryLimit = "512M";
</programlisting>
</para>

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@ -15,8 +15,8 @@ following specifies that there shall be a container named
containers.database =
{ config =
{ config, pkgs, ... }:
{ services.postgresql.enable = true;
services.postgresql.package = pkgs.postgresql96;
{ <xref linkend="opt-services.postgresql.enable"/> = true;
<xref linkend="opt-services.postgresql.package"/> = pkgs.postgresql96;
};
};
</programlisting>
@ -33,11 +33,11 @@ ports. However, they cannot change the network configuration. You can
give a container its own network as follows:
<programlisting>
containers.database =
{ privateNetwork = true;
hostAddress = "192.168.100.10";
localAddress = "192.168.100.11";
};
containers.database = {
<link linkend="opt-containers._name_.privateNetwork">privateNetwork</link> = true;
<link linkend="opt-containers._name_.hostAddress">hostAddress</link> = "192.168.100.10";
<link linkend="opt-containers._name_.localAddress">localAddress</link> = "192.168.100.11";
};
</programlisting>
This gives the container a private virtual Ethernet interface with IP

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@ -30,8 +30,8 @@ line. For instance, to create a container that has
<screen>
# nixos-container create foo --config '
services.openssh.enable = true;
users.extraUsers.root.openssh.authorizedKeys.keys = ["ssh-dss AAAAB3N…"];
<xref linkend="opt-services.openssh.enable"/> = true;
<link linkend="opt-users.users._name__.openssh.authorizedKeys.keys">users.extraUsers.root.openssh.authorizedKeys.keys</link> = ["ssh-dss AAAAB3N…"];
'
</screen>
@ -100,9 +100,9 @@ specify a new configuration on the command line:
<screen>
# nixos-container update foo --config '
services.httpd.enable = true;
services.httpd.adminAddr = "foo@example.org";
networking.firewall.allowedTCPPorts = [ 80 ];
<xref linkend="opt-services.httpd.enable"/> = true;
<xref linkend="opt-services.httpd.adminAddr"/> = "foo@example.org";
<xref linkend="opt-networking.firewall.allowedTCPPorts"/> = [ 80 ];
'
# curl http://$(nixos-container show-ip foo)/

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@ -11,7 +11,7 @@ to abstract. Take, for instance, this Apache HTTP Server configuration:
<programlisting>
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
[ { hostName = "example.org";
documentRoot = "/webroot";
adminAddr = "alice@example.org";
@ -43,7 +43,7 @@ let
};
in
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
[ exampleOrgCommon
(exampleOrgCommon // {
enableSSL = true;
@ -66,7 +66,7 @@ allowed. Thus, you also could have written:
<programlisting>
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
let exampleOrgCommon = <replaceable>...</replaceable>; in
[ exampleOrgCommon
(exampleOrgCommon // { <replaceable>...</replaceable> })
@ -86,7 +86,7 @@ the host name. This can be done as follows:
<programlisting>
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
let
makeVirtualHost = name:
{ hostName = name;
@ -113,7 +113,7 @@ element in a list:
<programlisting>
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
let
makeVirtualHost = <replaceable>...</replaceable>;
in map makeVirtualHost
@ -132,7 +132,7 @@ function that takes a <emphasis>set</emphasis> as its argument, like this:
<programlisting>
{
services.httpd.virtualHosts =
<xref linkend="opt-services.httpd.virtualHosts"/> =
let
makeVirtualHost = { name, root }:
{ hostName = name;

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@ -6,14 +6,14 @@
<title>Ad-Hoc Configuration</title>
<para>You can use <option>networking.localCommands</option> to specify
<para>You can use <xref linkend="opt-networking.localCommands"/> 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 =
<xref linkend="opt-networking.localCommands"/> =
''
ip -6 addr add 2001:610:685:1::1/64 dev eth0
'';

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@ -24,7 +24,7 @@ manual. Finally, you add it to
<literal>environment.systemPackages</literal>, e.g.
<programlisting>
environment.systemPackages = [ pkgs.my-package ];
<xref linkend="opt-environment.systemPackages"/> = [ pkgs.my-package ];
</programlisting>
and you run <command>nixos-rebuild</command>, specifying your own
@ -41,7 +41,7 @@ Nixpkgs tree. For instance, here is how you specify a build of the
package directly in <filename>configuration.nix</filename>:
<programlisting>
environment.systemPackages =
<xref linkend="opt-environment.systemPackages"/> =
let
my-hello = with pkgs; stdenv.mkDerivation rec {
name = "hello-2.8";
@ -57,7 +57,7 @@ environment.systemPackages =
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) ];
<xref linkend="opt-environment.systemPackages"/> = [ (import ./my-hello.nix) ];
</programlisting>
where <filename>my-hello.nix</filename> contains:
<programlisting>

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@ -28,9 +28,9 @@ form <literal><replaceable>name</replaceable> =
<programlisting>
{ config, pkgs, ... }:
{ services.httpd.enable = true;
services.httpd.adminAddr = "alice@example.org";
services.httpd.documentRoot = "/webroot";
{ <xref linkend="opt-services.httpd.enable"/> = true;
<xref linkend="opt-services.httpd.adminAddr"/> = "alice@example.org";
<xref linkend="opt-services.httpd.documentRoot"/> = "/webroot";
}
</programlisting>
@ -40,7 +40,7 @@ the document root.</para>
<para>Sets can be nested, and in fact dots in option names are
shorthand for defining a set containing another set. For instance,
<option>services.httpd.enable</option> defines a set named
<xref linkend="opt-services.httpd.enable"/> defines a set named
<varname>services</varname> that contains a set named
<varname>httpd</varname>, which in turn contains an option definition
named <varname>enable</varname> with value <literal>true</literal>.
@ -89,7 +89,7 @@ The option value `services.httpd.enable' in `/etc/nixos/configuration.nix' is no
<para>Strings are enclosed in double quotes, e.g.
<programlisting>
networking.hostName = "dexter";
<xref linkend="opt-networking.hostName"/> = "dexter";
</programlisting>
Special characters can be escaped by prefixing them with a
@ -99,7 +99,7 @@ networking.hostName = "dexter";
single quotes</emphasis>, e.g.
<programlisting>
networking.extraHosts =
<xref linkend="opt-networking.extraHosts"/> =
''
127.0.0.2 other-localhost
10.0.0.1 server
@ -125,8 +125,8 @@ networking.extraHosts =
<literal>false</literal>, e.g.
<programlisting>
networking.firewall.enable = true;
networking.firewall.allowPing = false;
<xref linkend="opt-networking.firewall.enable"/> = true;
<xref linkend="opt-networking.firewall.allowPing"/> = false;
</programlisting>
</para>
</listitem>
@ -138,7 +138,7 @@ networking.firewall.allowPing = false;
<para>For example,
<programlisting>
boot.kernel.sysctl."net.ipv4.tcp_keepalive_time" = 60;
<xref linkend="opt-boot.kernel.sysctl"/>."net.ipv4.tcp_keepalive_time" = 60;
</programlisting>
(Note that here the attribute name
@ -158,7 +158,7 @@ boot.kernel.sysctl."net.ipv4.tcp_keepalive_time" = 60;
enclosed in braces, as in the option definition
<programlisting>
fileSystems."/boot" =
<xref linkend="opt-fileSystems"/>."/boot" =
{ device = "/dev/sda1";
fsType = "ext4";
options = [ "rw" "data=ordered" "relatime" ];
@ -175,7 +175,7 @@ fileSystems."/boot" =
elements are separated by whitespace, like this:
<programlisting>
boot.kernelModules = [ "fuse" "kvm-intel" "coretemp" ];
<xref linkend="opt-boot.kernelModules"/> = [ "fuse" "kvm-intel" "coretemp" ];
</programlisting>
List elements can be any other type, e.g. sets:
@ -195,12 +195,12 @@ swapDevices = [ { device = "/dev/disk/by-label/swap"; } ];
the function argument <varname>pkgs</varname>. Typical uses:
<programlisting>
environment.systemPackages =
<xref linkend="opt-environment.systemPackages"/> =
[ pkgs.thunderbird
pkgs.emacs
];
postgresql.package = pkgs.postgresql90;
<xref linkend="opt-services.postgresql.package"/> = pkgs.postgresql90;
</programlisting>
The latter option definition changes the default PostgreSQL

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@ -28,7 +28,7 @@ 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; }) ];
<xref linkend="opt-environment.systemPackages"/> = [ (pkgs.emacs.override { gtk = pkgs.gtk3; }) ];
</programlisting>
The function <varname>override</varname> performs the call to the Nix
@ -38,7 +38,7 @@ the set of arguments specified by you. So here the function argument
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
<xref linkend="opt-environment.systemPackages"/> would be a list with two
elements.)</para>
<para>Even greater customisation is possible using the function
@ -51,7 +51,7 @@ For instance, if you want to override the source code of Emacs, you
can say:
<programlisting>
environment.systemPackages = [
<xref linkend="opt-environment.systemPackages"/> = [
(pkgs.emacs.overrideAttrs (oldAttrs: {
name = "emacs-25.0-pre";
src = /path/to/my/emacs/tree;

View file

@ -8,12 +8,12 @@
<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
<xref linkend="opt-environment.systemPackages"/>. For instance, adding the
following line to <filename>configuration.nix</filename> enables the
Mozilla Thunderbird email application:
<programlisting>
environment.systemPackages = [ pkgs.thunderbird ];
<xref linkend="opt-environment.systemPackages"/> = [ pkgs.thunderbird ];
</programlisting>
The effect of this specification is that the Thunderbird package from
@ -34,7 +34,7 @@ name</emphasis>, such as
different channels that you might have.)</para>
<para>To “uninstall” a package, simply remove it from
<option>environment.systemPackages</option> and run
<xref linkend="opt-environment.systemPackages"/> and run
<command>nixos-rebuild switch</command>.</para>
<xi:include href="customizing-packages.xml" />

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@ -13,21 +13,21 @@ device <filename>/dev/disk/by-label/data</filename> onto the mount
point <filename>/data</filename>:
<programlisting>
fileSystems."/data" =
<xref linkend="opt-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
For <option><link linkend="opt-fileSystems._name__.device">device</link></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
(<option><link linkend="opt-fileSystems._name__.fsType">fsType</link></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>
@ -38,7 +38,7 @@ available.</para>
<note><para>System startup will fail if any of the filesystems fails to mount,
dropping you to the emergency shell.
You can make a mount asynchronous and non-critical by adding
<literal>options = [ "nofail" ];</literal>.
<literal><link linkend="opt-fileSystems._name__.options">options</link> = [ "nofail" ];</literal>.
</para></note>
<xi:include href="luks-file-systems.xml" />

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@ -12,37 +12,37 @@ both IPv4 and IPv6 traffic. It is enabled by default. It can be
disabled as follows:
<programlisting>
networking.firewall.enable = false;
<xref linkend="opt-networking.firewall.enable"/> = false;
</programlisting>
If the firewall is enabled, you can open specific TCP ports to the
outside world:
<programlisting>
networking.firewall.allowedTCPPorts = [ 80 443 ];
<xref linkend="opt-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
is enabled (<option><xref linkend="opt-services.openssh.enable"/> = true</option>). UDP
ports can be opened through
<option>networking.firewall.allowedUDPPorts</option>.</para>
<xref linkend="opt-networking.firewall.allowedUDPPorts"/>.</para>
<para>To open ranges of TCP ports:
<programlisting>
networking.firewall.allowedTCPPortRanges = [
<xref linkend="opt-networking.firewall.allowedTCPPortRanges"/> = [
{ from = 4000; to = 4007; }
{ from = 8000; to = 8010; }
];
</programlisting>
Similarly, UDP port ranges can be opened through
<option>networking.firewall.allowedUDPPortRanges</option>.</para>
<xref linkend="opt-networking.firewall.allowedUDPPortRanges"/>.</para>
<para>Also of interest is
<programlisting>
networking.firewall.allowPing = true;
<xref linkend="opt-networking.firewall.allowPing"/> = true;
</programlisting>
to allow the machine to respond to ping requests. (ICMPv6 pings are

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@ -12,15 +12,15 @@ interfaces. However, you can configure an interface manually as
follows:
<programlisting>
networking.interfaces.eth0.ipv4.addresses = [ { address = "192.168.1.2"; prefixLength = 24; } ];
<link linkend="opt-networking.interfaces._name__.ipv4.addresses">networking.interfaces.eth0.ipv4.addresses</link> = [ { address = "192.168.1.2"; prefixLength = 24; } ];
</programlisting>
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" ];
<xref linkend="opt-networking.defaultGateway"/> = "192.168.1.1";
<xref linkend="opt-networking.nameservers"/> = [ "8.8.8.8" ];
</programlisting>
</para>
@ -31,10 +31,10 @@ service
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>:
<para>The host name is set using <xref linkend="opt-networking.hostName"/>:
<programlisting>
networking.hostName = "cartman";
<xref linkend="opt-networking.hostName"/> = "cartman";
</programlisting>
The default host name is <literal>nixos</literal>. Set it to the

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@ -11,14 +11,14 @@ is used to automatically assign IPv6 addresses to all interfaces. You
can disable IPv6 support globally by setting:
<programlisting>
networking.enableIPv6 = false;
<xref linkend="opt-networking.enableIPv6"/> = false;
</programlisting></para>
<para>You can disable IPv6 on a single interface using a normal sysctl (in this
example, we use interface <varname>eth0</varname>):
<programlisting>
boot.kernel.sysctl."net.ipv6.conf.eth0.disable_ipv6" = true;
<xref linkend="opt-boot.kernel.sysctl"/>."net.ipv6.conf.eth0.disable_ipv6" = true;
</programlisting>
</para>
@ -26,14 +26,14 @@ boot.kernel.sysctl."net.ipv6.conf.eth0.disable_ipv6" = true;
DHCPv6. You can configure an interface manually:
<programlisting>
networking.interfaces.eth0.ipv6.addresses = [ { address = "fe00:aa:bb:cc::2"; prefixLength = 64; } ];
<link linkend="opt-networking.interfaces._name__.ipv6.addresses">networking.interfaces.eth0.ipv6.addresses</link> = [ { address = "fe00:aa:bb:cc::2"; prefixLength = 64; } ];
</programlisting>
</para>
<para>For configuring a gateway, optionally with explicitly specified interface:
<programlisting>
networking.defaultGateway6 = {
<xref linkend="opt-networking.defaultGateway6"/> = {
address = "fe00::1";
interface = "enp0s3";
}

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@ -10,7 +10,7 @@
the option <option>boot.kernelPackages</option>. For instance, this
selects the Linux 3.10 kernel:
<programlisting>
boot.kernelPackages = pkgs.linuxPackages_3_10;
<xref linkend="opt-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.
@ -45,23 +45,23 @@ is typically <literal>y</literal>, <literal>n</literal> or
<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.
be loaded via <xref linkend="opt-boot.kernelModules"/>, e.g.
<programlisting>
boot.kernelModules = [ "fuse" "kvm-intel" "coretemp" ];
<xref linkend="opt-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>:
<xref linkend="opt-boot.initrd.extraKernelModules"/>:
<programlisting>
boot.initrd.extraKernelModules = [ "cifs" ];
<xref linkend="opt-boot.initrd.extraKernelModules"/> = [ "cifs" ];
</programlisting>
This causes the specified modules and their dependencies to be added
to the initial ramdisk.</para>
<para>Kernel runtime parameters can be set through
<option>boot.kernel.sysctl</option>, e.g.
<xref linkend="opt-boot.kernel.sysctl"/>, e.g.
<programlisting>
boot.kernel.sysctl."net.ipv4.tcp_keepalive_time" = 120;
<xref linkend="opt-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>

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@ -33,13 +33,13 @@ as <filename>/</filename>, add the following to
<filename>configuration.nix</filename>:
<programlisting>
boot.initrd.luks.devices.crypted.device = "/dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d";
fileSystems."/".device = "/dev/mapper/crypted";
<link linkend="opt-boot.initrd.luks.devices._name__.device">boot.initrd.luks.devices.crypted.device</link> = "/dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d";
<xref linkend="opt-fileSystems"/>."/".device = "/dev/mapper/crypted";
</programlisting>
Should grub be used as bootloader, and <filename>/boot</filename> is located
on an encrypted partition, it is necessary to add the following grub option:
<programlisting>boot.loader.grub.enableCryptodisk = true;</programlisting>
<programlisting><xref linkend="opt-boot.loader.grub.enableCryptodisk"/> = true;</programlisting>
</para>

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@ -22,8 +22,8 @@ use other modules by including them from
{ config, pkgs, ... }:
{ imports = [ ./vpn.nix ./kde.nix ];
services.httpd.enable = true;
environment.systemPackages = [ pkgs.emacs ];
<xref linkend="opt-services.httpd.enable"/> = true;
<xref linkend="opt-environment.systemPackages"/> = [ pkgs.emacs ];
<replaceable>...</replaceable>
}
</programlisting>
@ -35,25 +35,25 @@ latter might look like this:
<programlisting>
{ config, pkgs, ... }:
{ services.xserver.enable = true;
services.xserver.displayManager.sddm.enable = true;
services.xserver.desktopManager.plasma5.enable = true;
{ <xref linkend="opt-services.xserver.enable"/> = true;
<xref linkend="opt-services.xserver.displayManager.sddm.enable"/> = true;
<xref linkend="opt-services.xserver.desktopManager.plasma5.enable"/> = true;
}
</programlisting>
Note that both <filename>configuration.nix</filename> and
<filename>kde.nix</filename> define the option
<option>environment.systemPackages</option>. When multiple modules
<xref linkend="opt-environment.systemPackages"/>. When multiple modules
define an option, NixOS will try to <emphasis>merge</emphasis> the
definitions. In the case of
<option>environment.systemPackages</option>, thats easy: the lists of
<xref linkend="opt-environment.systemPackages"/>, thats easy: the lists of
packages can simply be concatenated. The value in
<filename>configuration.nix</filename> is merged last, so for
list-type options, it will appear at the end of the merged list. If
you want it to appear first, you can use <varname>mkBefore</varname>:
<programlisting>
boot.kernelModules = mkBefore [ "kvm-intel" ];
<xref linkend="opt-boot.kernelModules"/> = mkBefore [ "kvm-intel" ];
</programlisting>
This causes the <literal>kvm-intel</literal> kernel module to be
@ -61,7 +61,7 @@ loaded before any other kernel modules.</para>
<para>For other types of options, a merge may not be possible. For
instance, if two modules define
<option>services.httpd.adminAddr</option>,
<xref linkend="opt-services.httpd.adminAddr"/>,
<command>nixos-rebuild</command> will give an error:
<screen>
@ -72,7 +72,7 @@ When that happens, its possible to force one definition take
precedence over the others:
<programlisting>
services.httpd.adminAddr = pkgs.lib.mkForce "bob@example.org";
<xref linkend="opt-services.httpd.adminAddr"/> = pkgs.lib.mkForce "bob@example.org";
</programlisting>
</para>
@ -89,15 +89,15 @@ wondering how its possible that the (indirect)
is a “lazy” language — it only computes values when they are needed.
This works as long as no individual configuration value depends on
itself.</para></footnote>. For example, here is a module that adds
some packages to <option>environment.systemPackages</option> only if
<option>services.xserver.enable</option> is set to
some packages to <xref linkend="opt-environment.systemPackages"/> only if
<xref linkend="opt-services.xserver.enable"/> is set to
<literal>true</literal> somewhere else:
<programlisting>
{ config, pkgs, ... }:
{ environment.systemPackages =
if config.services.xserver.enable then
{ <xref linkend="opt-environment.systemPackages"/> =
if config.<xref linkend="opt-services.xserver.enable"/> then
[ pkgs.firefox
pkgs.thunderbird
]
@ -113,10 +113,10 @@ value of a configuration option is. The command
<option>nixos-option</option> allows you to find out:
<screen>
$ nixos-option services.xserver.enable
$ nixos-option <xref linkend="opt-services.xserver.enable"/>
true
$ nixos-option boot.kernelModules
$ nixos-option <xref linkend="opt-boot.kernelModules"/>
[ "tun" "ipv6" "loop" <replaceable>...</replaceable> ]
</screen>
@ -130,10 +130,10 @@ typical use:
<screen>
$ nix-repl '&lt;nixpkgs/nixos>'
nix-repl> config.networking.hostName
nix-repl> config.<xref linkend="opt-networking.hostName"/>
"mandark"
nix-repl> map (x: x.hostName) config.services.httpd.virtualHosts
nix-repl> map (x: x.hostName) config.<xref linkend="opt-services.httpd.virtualHosts"/>
[ "example.org" "example.gov" ]
</screen>

View file

@ -10,7 +10,7 @@
use NetworkManager. You can enable NetworkManager by setting:
<programlisting>
networking.networkmanager.enable = true;
<xref linkend="opt-networking.networkmanager.enable"/> = true;
</programlisting>
some desktop managers (e.g., GNOME) enable NetworkManager
@ -20,7 +20,7 @@ automatically for you.</para>
belong to the <code>networkmanager</code> group:
<programlisting>
users.extraUsers.youruser.extraGroups = [ "networkmanager" ];
<link linkend="opt-users.users._name__.extraGroups">users.extraUsers.youruser.extraGroups</link> = [ "networkmanager" ];
</programlisting>
</para>

View file

@ -10,12 +10,12 @@
setting:
<programlisting>
services.openssh.enable = true;
<xref linkend="opt-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
<xref linkend="opt-services.openssh.permitRootLogin"/> to
<literal>"no"</literal>.</para>
<para>You can declaratively specify authorised RSA/DSA public keys for
@ -23,7 +23,7 @@ a user as follows:
<!-- FIXME: this might not work if the user is unmanaged. -->
<programlisting>
users.extraUsers.alice.openssh.authorizedKeys.keys =
<link linkend="opt-users.users._name__.openssh.authorizedKeys.keys">users.extraUsers.alice.openssh.authorizedKeys.keys</link> =
[ "ssh-dss AAAAB3NzaC1kc3MAAACBAPIkGWVEt4..." ];
</programlisting>

View file

@ -12,12 +12,12 @@ management. In the declarative style, users are specified in
states that a user account named <literal>alice</literal> shall exist:
<programlisting>
users.users.alice =
{ isNormalUser = true;
home = "/home/alice";
description = "Alice Foobar";
extraGroups = [ "wheel" "networkmanager" ];
openssh.authorizedKeys.keys = [ "ssh-dss AAAAB3Nza... alice@foobar" ];
<xref linkend="opt-users.users"/>.alice =
{ <link linkend="opt-users.users._name__.isNormalUser">isNormalUser</link> = true;
<link linkend="opt-users.users._name__.home">home</link> = "/home/alice";
<link linkend="opt-users.users._name__.description">description</link> = "Alice Foobar";
<link linkend="opt-users.users._name__.extraGroups">extraGroups</link> = [ "wheel" "networkmanager" ];
<link linkend="opt-users.users._name__.openssh.authorizedKeys.keys">openssh.authorizedKeys.keys</link> = [ "ssh-dss AAAAB3Nza... alice@foobar" ];
};
</programlisting>
@ -32,13 +32,13 @@ 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>If you set users.mutableUsers to false, then the contents of /etc/passwd
and /etc/group will be congruent to your NixOS configuration. For instance,
if you remove a user from users.users and run nixos-rebuild, the user
account will cease to exist. Also, imperative commands for managing users
<para>If you set <xref linkend="opt-users.mutableUsers"/> to false, then the contents of
<literal>/etc/passwd</literal> and <literal>/etc/group</literal> will be congruent to
your NixOS configuration. For instance, if you remove a user from <xref linkend="opt-users.users"/>
and run nixos-rebuild, the user account will cease to exist. Also, imperative commands for managing users
and groups, such as useradd, are no longer available. Passwords may still be
assigned by setting the user's <literal>hashedPassword</literal> option. A
hashed password can be generated using <command>mkpasswd -m sha-512</command>
assigned by setting the user's <link linkend="opt-users.users._name__.hashedPassword">hashedPassword</link>
option. A hashed password can be generated using <command>mkpasswd -m sha-512</command>
after installing the <literal>mkpasswd</literal> package.</para>
<para>A user ID (uid) is assigned automatically. You can also specify
@ -54,7 +54,7 @@ to the user specification.</para>
group named <literal>students</literal> shall exist:
<programlisting>
users.groups.students.gid = 1000;
<xref linkend="opt-users.groups"/>.students.gid = 1000;
</programlisting>
As with users, the group ID (gid) is optional and will be assigned

View file

@ -15,12 +15,12 @@ section on wireless networks.</para>
NixOS will start wpa_supplicant for you if you enable this setting:
<programlisting>
networking.wireless.enable = true;
<xref linkend="opt-networking.wireless.enable"/> = true;
</programlisting>
NixOS lets you specify networks for wpa_supplicant declaratively:
<programlisting>
networking.wireless.networks = {
<xref linkend="opt-networking.wireless.networks"/> = {
echelon = {
psk = "abcdefgh";
};

View file

@ -9,14 +9,14 @@
<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;
<xref linkend="opt-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" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "r128" ];
</programlisting>
to enable X.orgs <literal>xf86-video-r128</literal> driver.</para>
@ -25,13 +25,13 @@ 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.plasma5.enable = true;
services.xserver.desktopManager.xfce.enable = true;
services.xserver.desktopManager.gnome3.enable = true;
services.xserver.windowManager.xmonad.enable = true;
services.xserver.windowManager.twm.enable = true;
services.xserver.windowManager.icewm.enable = true;
services.xserver.windowManager.i3.enable = true;
<xref linkend="opt-services.xserver.desktopManager.plasma5.enable"/> = true;
<xref linkend="opt-services.xserver.desktopManager.xfce.enable"/> = true;
<xref linkend="opt-services.xserver.desktopManager.gnome3.enable"/> = true;
<xref linkend="opt-services.xserver.windowManager.xmonad.enable"/> = true;
<xref linkend="opt-services.xserver.windowManager.twm.enable"/> = true;
<xref linkend="opt-services.xserver.windowManager.icewm.enable"/> = true;
<xref linkend="opt-services.xserver.windowManager.i3.enable"/> = true;
</programlisting>
</para>
@ -40,22 +40,22 @@ program that provides a graphical login prompt and manages the X
server) is SLiM. You can select an alternative one by picking one
of the following lines:
<programlisting>
services.xserver.displayManager.sddm.enable = true;
services.xserver.displayManager.lightdm.enable = true;
<xref linkend="opt-services.xserver.displayManager.sddm.enable"/> = true;
<xref linkend="opt-services.xserver.displayManager.lightdm.enable"/> = true;
</programlisting>
</para>
<para>You can set the keyboard layout (and optionally the layout variant):
<programlisting>
services.xserver.layout = "de";
services.xserver.xkbVariant = "neo";
<xref linkend="opt-services.xserver.layout"/> = "de";
<xref linkend="opt-services.xserver.xkbVariant"/> = "neo";
</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;
<xref linkend="opt-services.xserver.autorun"/> = false;
</programlisting>
The X server can then be started manually:
<screen>
@ -70,13 +70,13 @@ The X server can then be started manually:
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" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "nvidia" ];
</programlisting>
Or if you have an older card, you may have to use one of the legacy drivers:
<programlisting>
services.xserver.videoDrivers = [ "nvidiaLegacy340" ];
services.xserver.videoDrivers = [ "nvidiaLegacy304" ];
services.xserver.videoDrivers = [ "nvidiaLegacy173" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "nvidiaLegacy340" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "nvidiaLegacy304" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "nvidiaLegacy173" ];
</programlisting>
You may need to reboot after enabling this driver to prevent a clash
with other kernel modules.</para>
@ -84,7 +84,7 @@ 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>
hardware.opengl.driSupport32Bit = true;
<xref linkend="opt-hardware.opengl.driSupport32Bit"/> = true;
</programlisting>
</para>
@ -96,7 +96,7 @@ hardware.opengl.driSupport32Bit = true;
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 = [ "ati_unfree" ];
<xref linkend="opt-services.xserver.videoDrivers"/> = [ "ati_unfree" ];
</programlisting>
You will need to reboot after enabling this driver to prevent a clash
with other kernel modules.</para>
@ -104,7 +104,7 @@ 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>
hardware.opengl.driSupport32Bit = true;
<xref linkend="opt-hardware.opengl.driSupport32Bit"/> = true;
</programlisting>
</para>
@ -115,12 +115,12 @@ hardware.opengl.driSupport32Bit = true;
<para>Support for Synaptics touchpads (found in many laptops such as
the Dell Latitude series) can be enabled as follows:
<programlisting>
services.xserver.libinput.enable = true;
<xref linkend="opt-services.xserver.libinput.enable"/> = true;
</programlisting>
The driver has many options (see <xref linkend="ch-options"/>). For
instance, the following disables tap-to-click behavior:
<programlisting>
services.xserver.libinput.tapping = false;
<xref linkend="opt-services.xserver.libinput.tapping"/> = false;
</programlisting>
Note: the use of <literal>services.xserver.synaptics</literal> is deprecated since NixOS 17.09.
</para>

View file

@ -9,9 +9,9 @@
<para>
To enable the Xfce Desktop Environment, set
<programlisting>
services.xserver.desktopManager = {
xfce.enable = true;
default = "xfce";
<link linkend="opt-services.xserver.desktopManager.default">services.xserver.desktopManager</link> = {
<link linkend="opt-services.xserver.desktopManager.xfce.enable">xfce.enable</link> = true;
<link linkend="opt-services.xserver.desktopManager.default">default</link> = "xfce";
};
</programlisting>
</para>
@ -20,12 +20,12 @@ services.xserver.desktopManager = {
Optionally, <emphasis>compton</emphasis>
can be enabled for nice graphical effects, some example settings:
<programlisting>
services.compton = {
enable = true;
fade = true;
inactiveOpacity = "0.9";
shadow = true;
fadeDelta = 4;
<link linkend="opt-services.compton.enable">services.compton</link> = {
<link linkend="opt-services.compton.enable">enable</link> = true;
<link linkend="opt-services.compton.fade">fade</link> = true;
<link linkend="opt-services.compton.inactiveOpacity">inactiveOpacity</link> = "0.9";
<link linkend="opt-services.compton.shadow">shadow</link> = true;
<link linkend="opt-services.compton.fadeDelta">fadeDelta</link> = 4;
};
</programlisting>
</para>
@ -33,9 +33,9 @@ services.compton = {
<para>
Some Xfce programs are not installed automatically.
To install them manually (system wide), put them into your
<literal>environment.systemPackages</literal>.
<xref linkend="opt-environment.systemPackages"/>.
</para>
<simplesect>
<title>Thunar Volume Support</title>
@ -44,7 +44,7 @@ services.compton = {
<emphasis>Thunar</emphasis>
volume support, put
<programlisting>
services.xserver.desktopManager.xfce.enable = true;
<xref linkend="opt-services.xserver.desktopManager.xfce.enable"/> = true;
</programlisting>
into your <emphasis>configuration.nix</emphasis>.
</para>

View file

@ -75,7 +75,7 @@ have set <literal>mutableUsers = false</literal>. Another way is to
temporarily add the following to your configuration:
<screen>
users.extraUsers.your-user.initialPassword = "test"
<link linkend="opt-users.users._name__.initialHashedPassword">users.extraUsers.your-user.initialHashedPassword</link> = "test";
</screen>
<emphasis>Important:</emphasis> delete the $hostname.qcow2 file if you

View file

@ -111,7 +111,7 @@ $ nix-channel --add https://nixos.org/channels/nixos-<replaceable>version</repla
<literal>configuration.nix</literal>:</para>
<programlisting>
boot.loader.grub.extraEntries = ''
<xref linkend="opt-boot.loader.grub.extraEntries"/> = ''
menuentry "Ubuntu" {
search --set=ubuntu --fs-uuid 3cc3e652-0c1f-4800-8451-033754f68e6e
configfile "($ubuntu)/boot/grub/grub.cfg"
@ -183,7 +183,7 @@ $ sudo groupdel nixbld</screen>
account with <literal>sudo passwd -l root</literal> if you use
<literal>sudo</literal>)</para>
<programlisting>users.extraUsers.root.initialHashedPassword = "";</programlisting>
<programlisting><link linkend="opt-users.users._name__.initialHashedPassword">users.extraUsers.root.initialHashedPassword</link> = "";</programlisting>
</listitem>
<listitem>

View file

@ -42,7 +42,7 @@
</para>
<programlisting>
boot.loader.grub.device = "/dev/sda";
<xref linkend="opt-boot.loader.grub.device"/> = "/dev/sda";
</programlisting>
<para>
@ -51,7 +51,7 @@ boot.loader.grub.device = "/dev/sda";
</para>
<programlisting>
boot.initrd.checkJournalingFS = false;
<xref linkend="opt-boot.initrd.checkJournalingFS"/> = false;
</programlisting>
<para>

View file

@ -208,26 +208,29 @@ for a UEFI installation is by and large the same as a BIOS installation. The dif
<variablelist>
<varlistentry><term>BIOS systems</term>
<listitem><para>You <emphasis>must</emphasis> set the option
<option>boot.loader.grub.device</option> to specify on which disk
the GRUB boot loader is to be installed. Without it, NixOS cannot
boot.</para></listitem></varlistentry>
<listitem><para>You <emphasis>must</emphasis> set the option
<xref linkend="opt-boot.loader.grub.device"/> to specify on which disk
the GRUB boot loader is to be installed. Without it, NixOS cannot
boot.</para></listitem></varlistentry>
<varlistentry><term>UEFI systems</term>
<listitem><para>You <emphasis>must</emphasis> set the option
<option>boot.loader.systemd-boot.enable</option> to <literal>true</literal>.
<command>nixos-generate-config</command> should do this automatically for new
configurations when booted in
UEFI mode.</para>
<para>You may want to look at the options starting with
<option>boot.loader.efi</option> and <option>boot.loader.systemd-boot</option>
as well.</para></listitem></varlistentry>
<listitem><para>You <emphasis>must</emphasis> set the option
<xref linkend="opt-boot.loader.systemd-boot.enable"/> to <literal>true</literal>.
<command>nixos-generate-config</command> should do this automatically for new
configurations when booted in
UEFI mode.</para>
<para>You may want to look at the options starting with
<option><link linkend="opt-boot.loader.efi.canTouchEfiVariables">boot.loader.efi</link></option> and
<option><link linkend="opt-boot.loader.systemd-boot.enable">boot.loader.systemd</link></option> as well.
</para>
</listitem>
</varlistentry>
</variablelist>
<para>If there are other operating systems running on the machine before
installing NixOS, the
<option>boot.loader.grub.useOSProber</option> option can be set to
<xref linkend="opt-boot.loader.grub.useOSProber"/> option can be set to
<literal>true</literal> to automatically add them to the grub menu.</para>
<para>Another critical option is <option>fileSystems</option>,
@ -269,15 +272,15 @@ for a UEFI installation is by and large the same as a BIOS installation. The dif
<para>As the last step, <command>nixos-install</command> will ask
you to set the password for the <literal>root</literal> user, e.g.
<screen>
setting root password...
Enter new UNIX password: ***
Retype new UNIX password: ***
</screen>
<screen>
setting root password...
Enter new UNIX password: ***
Retype new UNIX password: ***
</screen>
<note>
<para>
To prevent the password prompt, set <code>users.mutableUsers = false;</code> in
To prevent the password prompt, set <code><xref linkend="opt-users.mutableUsers"/> = false;</code> in
<filename>configuration.nix</filename>, which allows unattended installation
necessary in automation.
</para>
@ -290,20 +293,20 @@ Retype new UNIX password: ***
<listitem>
<para>If everything went well:
<screen>
# reboot</screen>
<screen>
# reboot</screen>
</para></listitem>
<listitem>
<para>You should now be able to boot into the installed NixOS. The
GRUB boot menu shows a list of <emphasis>available
configurations</emphasis> (initially just one). Every time you
change the NixOS configuration (see <link
linkend="sec-changing-config">Changing Configuration</link> ), a
new item is added to the menu. This allows you to easily roll back
to a previous configuration if something goes wrong.</para>
GRUB boot menu shows a list of <emphasis>available
configurations</emphasis> (initially just one). Every time you
change the NixOS configuration (see <link
linkend="sec-changing-config">Changing Configuration</link> ), a
new item is added to the menu. This allows you to easily roll back
to a previous configuration if something goes wrong.</para>
<para>You should log in and change the <literal>root</literal>
password with <command>passwd</command>.</para>
@ -376,26 +379,26 @@ drive (here <filename>/dev/sda</filename>). <xref linkend="ex-config"
</example>
<example xml:id='ex-config'><title>NixOS Configuration</title>
<screen>
{ config, pkgs, ... }:
<screen>
{ config, pkgs, ... }:
{
imports =
{
imports =
[ # Include the results of the hardware scan.
./hardware-configuration.nix
./hardware-configuration.nix
];
boot.loader.grub.device = "/dev/sda"; # <lineannotation>(for BIOS systems only)</lineannotation>
boot.loader.systemd-boot.enable = true; # <lineannotation>(for UEFI systems only)</lineannotation>
<xref linkend="opt-boot.loader.grub.device"/> = "/dev/sda"; # <lineannotation>(for BIOS systems only)</lineannotation>
<xref linkend="opt-boot.loader.systemd-boot.enable"/> = true; # <lineannotation>(for UEFI systems only)</lineannotation>
# Note: setting fileSystems is generally not
# necessary, since nixos-generate-config figures them out
# automatically in hardware-configuration.nix.
#fileSystems."/".device = "/dev/disk/by-label/nixos";
# Note: setting fileSystems is generally not
# necessary, since nixos-generate-config figures them out
# automatically in hardware-configuration.nix.
#<link linkend="opt-fileSystems._name__.device">fileSystems."/".device</link> = "/dev/disk/by-label/nixos";
# Enable the OpenSSH server.
services.sshd.enable = true;
}</screen>
# Enable the OpenSSH server.
services.sshd.enable = true;
}</screen>
</example>
<xi:include href="installing-usb.xml" />

View file

@ -119,7 +119,7 @@ able to go back to your original channel.</para></warning>
the following to <filename>configuration.nix</filename>:
<programlisting>
system.autoUpgrade.enable = true;
<xref linkend="opt-system.autoUpgrade.enable"/> = true;
</programlisting>
This enables a periodically executed systemd service named
@ -130,7 +130,7 @@ runs, see <command>systemctl list-timers</command>.) You can also
specify a channel explicitly, e.g.
<programlisting>
system.autoUpgrade.channel = https://nixos.org/channels/nixos-17.03;
<xref linkend="opt-system.autoUpgrade.channel"/> = https://nixos.org/channels/nixos-17.03;
</programlisting>
</para>

View file

@ -6,56 +6,56 @@
<title>Input Methods</title>
<para>Input methods are an operating system component that allows any data, such
as keyboard strokes or mouse movements, to be received as input. In this way
users can enter characters and symbols not found on their input devices. Using
an input method is obligatory for any language that has more graphemes than
<para>Input methods are an operating system component that allows any data, such
as keyboard strokes or mouse movements, to be received as input. In this way
users can enter characters and symbols not found on their input devices. Using
an input method is obligatory for any language that has more graphemes than
there are keys on the keyboard.</para>
<para>The following input methods are available in NixOS:</para>
<itemizedlist>
<listitem><para>IBus: The intelligent input bus.</para></listitem>
<listitem><para>Fcitx: A customizable lightweight input
<listitem><para>Fcitx: A customizable lightweight input
method.</para></listitem>
<listitem><para>Nabi: A Korean input method based on XIM.</para></listitem>
<listitem><para>Uim: The universal input method, is a library with a XIM
<listitem><para>Uim: The universal input method, is a library with a XIM
bridge.</para></listitem>
</itemizedlist>
<section><title>IBus</title>
<para>IBus is an Intelligent Input Bus. It provides full featured and user
<para>IBus is an Intelligent Input Bus. It provides full featured and user
friendly input method user interface.</para>
<para>The following snippet can be used to configure IBus:</para>
<programlisting>
i18n.inputMethod = {
enabled = "ibus";
ibus.engines = with pkgs.ibus-engines; [ anthy hangul mozc ];
<link linkend="opt-i18n.inputMethod.enabled">enabled</link> = "ibus";
<link linkend="opt-i18n.inputMethod.ibus.engines">ibus.engines</link> = with pkgs.ibus-engines; [ anthy hangul mozc ];
};
</programlisting>
<para><literal>i18n.inputMethod.ibus.engines</literal> is optional and can be
<para><literal>i18n.inputMethod.ibus.engines</literal> is optional and can be
used to add extra IBus engines.</para>
<para>Available extra IBus engines are:</para>
<itemizedlist>
<listitem><para>Anthy (<literal>ibus-engines.anthy</literal>): Anthy is a
system for Japanese input method. It converts Hiragana text to Kana Kanji
<listitem><para>Anthy (<literal>ibus-engines.anthy</literal>): Anthy is a
system for Japanese input method. It converts Hiragana text to Kana Kanji
mixed text.</para></listitem>
<listitem><para>Hangul (<literal>ibus-engines.hangul</literal>): Korean input
<listitem><para>Hangul (<literal>ibus-engines.hangul</literal>): Korean input
method.</para></listitem>
<listitem><para>m17n (<literal>ibus-engines.m17n</literal>): m17n is an input
method that uses input methods and corresponding icons in the m17n
<listitem><para>m17n (<literal>ibus-engines.m17n</literal>): m17n is an input
method that uses input methods and corresponding icons in the m17n
database.</para></listitem>
<listitem><para>mozc (<literal>ibus-engines.mozc</literal>): A Japanese input
<listitem><para>mozc (<literal>ibus-engines.mozc</literal>): A Japanese input
method from Google.</para></listitem>
<listitem><para>Table (<literal>ibus-engines.table</literal>): An input method
<listitem><para>Table (<literal>ibus-engines.table</literal>): An input method
that load tables of input methods.</para></listitem>
<listitem><para>table-others (<literal>ibus-engines.table-others</literal>):
<listitem><para>table-others (<literal>ibus-engines.table-others</literal>):
Various table-based input methods. To use this, and any other table-based
input methods, it must appear in the list of engines along with
<literal>table</literal>. For example:
@ -72,71 +72,71 @@ ibus.engines = with pkgs.ibus-engines; [ table table-others ];
<section><title>Fcitx</title>
<para>Fcitx is an input method framework with extension support. It has three
built-in Input Method Engine, Pinyin, QuWei and Table-based input
<para>Fcitx is an input method framework with extension support. It has three
built-in Input Method Engine, Pinyin, QuWei and Table-based input
methods.</para>
<para>The following snippet can be used to configure Fcitx:</para>
<programlisting>
i18n.inputMethod = {
enabled = "fcitx";
fcitx.engines = with pkgs.fcitx-engines; [ mozc hangul m17n ];
<link linkend="opt-i18n.inputMethod.enabled">enabled</link> = "fcitx";
<link linkend="opt-i18n.inputMethod.fcitx.engines">fcitx.engines</link> = with pkgs.fcitx-engines; [ mozc hangul m17n ];
};
</programlisting>
<para><literal>i18n.inputMethod.fcitx.engines</literal> is optional and can be
<para><literal>i18n.inputMethod.fcitx.engines</literal> is optional and can be
used to add extra Fcitx engines.</para>
<para>Available extra Fcitx engines are:</para>
<itemizedlist>
<listitem><para>Anthy (<literal>fcitx-engines.anthy</literal>): Anthy is a
system for Japanese input method. It converts Hiragana text to Kana Kanji
<listitem><para>Anthy (<literal>fcitx-engines.anthy</literal>): Anthy is a
system for Japanese input method. It converts Hiragana text to Kana Kanji
mixed text.</para></listitem>
<listitem><para>Chewing (<literal>fcitx-engines.chewing</literal>): Chewing is
an intelligent Zhuyin input method. It is one of the most popular input
<listitem><para>Chewing (<literal>fcitx-engines.chewing</literal>): Chewing is
an intelligent Zhuyin input method. It is one of the most popular input
methods among Traditional Chinese Unix users.</para></listitem>
<listitem><para>Hangul (<literal>fcitx-engines.hangul</literal>): Korean input
<listitem><para>Hangul (<literal>fcitx-engines.hangul</literal>): Korean input
method.</para></listitem>
<listitem><para>Unikey (<literal>fcitx-engines.unikey</literal>): Vietnamese input
<listitem><para>Unikey (<literal>fcitx-engines.unikey</literal>): Vietnamese input
method.</para></listitem>
<listitem><para>m17n (<literal>fcitx-engines.m17n</literal>): m17n is an input
method that uses input methods and corresponding icons in the m17n
<listitem><para>m17n (<literal>fcitx-engines.m17n</literal>): m17n is an input
method that uses input methods and corresponding icons in the m17n
database.</para></listitem>
<listitem><para>mozc (<literal>fcitx-engines.mozc</literal>): A Japanese input
<listitem><para>mozc (<literal>fcitx-engines.mozc</literal>): A Japanese input
method from Google.</para></listitem>
<listitem><para>table-others (<literal>fcitx-engines.table-others</literal>):
<listitem><para>table-others (<literal>fcitx-engines.table-others</literal>):
Various table-based input methods.</para></listitem>
</itemizedlist>
</section>
<section><title>Nabi</title>
<para>Nabi is an easy to use Korean X input method. It allows you to enter
phonetic Korean characters (hangul) and pictographic Korean characters
<para>Nabi is an easy to use Korean X input method. It allows you to enter
phonetic Korean characters (hangul) and pictographic Korean characters
(hanja).</para>
<para>The following snippet can be used to configure Nabi:</para>
<programlisting>
i18n.inputMethod = {
enabled = "nabi";
<link linkend="opt-i18n.inputMethod.enabled">enabled</link> = "nabi";
};
</programlisting>
</section>
<section><title>Uim</title>
<para>Uim (short for "universal input method") is a multilingual input method
<para>Uim (short for "universal input method") is a multilingual input method
framework. Applications can use it through so-called bridges.</para>
<para>The following snippet can be used to configure uim:</para>
<programlisting>
i18n.inputMethod = {
enabled = "uim";
<link linkend="opt-i18n.inputMethod.enabled">enabled</link> = "uim";
};
</programlisting>
<para>Note: The <literal>i18n.inputMethod.uim.toolbar</literal> option can be
<para>Note: The <xref linkend="opt-i18n.inputMethod.uim.toolbar"/> option can be
used to choose uim toolbar.</para>
</section>

View file

@ -15,9 +15,9 @@
installed by setting <literal>programs.digitalbitbox</literal>
to <literal>true</literal> in a manner similar to
<programlisting>
programs.digitalbitbox.enable = true;
</programlisting>
<programlisting>
<xref linkend="opt-programs.digitalbitbox.enable"/> = true;
</programlisting>
and bundles the <literal>digitalbitbox</literal> package (see <xref
linkend="sec-digitalbitbox-package" />), which contains the
@ -46,11 +46,11 @@
<literal>digitalbitbox</literal> package which could be installed
as follows:
<programlisting>
environment.systemPackages = [
pkgs.digitalbitbox
];
</programlisting>
<programlisting>
<xref linkend="opt-environment.systemPackages"/> = [
pkgs.digitalbitbox
];
</programlisting>
</para>
</section>
@ -62,9 +62,9 @@
The digitalbitbox hardware package enables the udev rules for
Digital Bitbox devices and may be installed as follows:
<programlisting>
hardware.digitalbitbox.enable = true;
</programlisting>
<programlisting>
<xref linkend="opt-hardware.digitalbitbox.enable"/> = true;
</programlisting>
</para>
<para>
@ -72,14 +72,14 @@
the <literal>udevRule51</literal> and <literal>udevRule52</literal>
attributes by means of overriding as follows:
<programlisting>
programs.digitalbitbox = {
enable = true;
package = pkgs.digitalbitbox.override {
udevRule51 = "something else";
};
};
</programlisting>
<programlisting>
programs.digitalbitbox = {
<link linkend="opt-programs.digitalbitbox.enable">enable</link> = true;
<link linkend="opt-programs.digitalbitbox.package">package</link> = pkgs.digitalbitbox.override {
udevRule51 = "something else";
};
};
</programlisting>
</para>
</section>
</chapter>

View file

@ -17,7 +17,7 @@
<para>To enable Plotinus, add the following to your <filename>configuration.nix</filename>:
<programlisting>
programs.plotinus.enable = true;
<xref linkend="opt-programs.plotinus.enable"/> = true;
</programlisting>
</para>

View file

@ -48,9 +48,9 @@ http {
<filename>configuration.nix</filename>:
<programlisting>
security.acme.certs."foo.example.com" = {
webroot = "/var/www/challenges";
email = "foo@example.com";
<xref linkend="opt-security.acme.certs"/>."foo.example.com" = {
<link linkend="opt-security.acme.certs._name_.webroot">webroot</link> = "/var/www/challenges";
<link linkend="opt-security.acme.certs._name_.email">email</link> = "foo@example.com";
};
</programlisting>
</para>
@ -58,17 +58,17 @@ security.acme.certs."foo.example.com" = {
<para>The private key <filename>key.pem</filename> and certificate
<filename>fullchain.pem</filename> will be put into
<filename>/var/lib/acme/foo.example.com</filename>. The target directory can
be configured with the option <literal>security.acme.directory</literal>.
be configured with the option <xref linkend="opt-security.acme.directory"/>.
</para>
<para>Refer to <xref linkend="ch-options" /> for all available configuration
options for the <literal>security.acme</literal> module.</para>
options for the <link linkend="opt-security.acme.certs">security.acme</link> module.</para>
</section>
<section><title>Using ACME certificates in Nginx</title>
<para>NixOS supports fetching ACME certificates for you by setting
<literal>enableACME = true;</literal> in a virtualHost config. We
<literal><link linkend="opt-services.nginx.virtualHosts._name_.enableACME">enableACME</link> = true;</literal> in a virtualHost config. We
first create self-signed placeholder certificates in place of the
real ACME certs. The placeholder certs are overwritten when the ACME
certs arrive. For <literal>foo.example.com</literal> the config would
@ -77,13 +77,13 @@ look like.
<programlisting>
services.nginx = {
enable = true;
virtualHosts = {
<link linkend="opt-services.nginx.enable">enable = true;</link>
<link linkend="opt-services.nginx.virtualHosts">virtualHosts</link> = {
"foo.example.com" = {
forceSSL = true;
enableACME = true;
<link linkend="opt-services.nginx.virtualHosts._name_.forceSSL">forceSSL</link> = true;
<link linkend="opt-services.nginx.virtualHosts._name_.enableACME">enableACME</link> = true;
locations."/" = {
root = "/var/www";
<link linkend="opt-services.nginx.virtualHosts._name_.locations._name_.root">root</link> = "/var/www";
};
};
};

View file

@ -8,9 +8,9 @@
<para>
Setting
<programlisting>
security.hideProcessInformation = true;
</programlisting>
<programlisting>
<xref linkend="opt-security.hideProcessInformation"/> = true;
</programlisting>
ensures that access to process information is restricted to the
owning user. This implies, among other things, that command-line
arguments remain private. Unless your deployment relies on unprivileged
@ -25,9 +25,9 @@
<para>
To allow a service <replaceable>foo</replaceable> to run without process information hiding, set
<programlisting>
systemd.services.<replaceable>foo</replaceable>.serviceConfig.SupplementaryGroups = [ "proc" ];
</programlisting>
<programlisting>
<link linkend="opt-systemd.services._name_.serviceConfig">systemd.services.<replaceable>foo</replaceable>.serviceConfig</link>.SupplementaryGroups = [ "proc" ];
</programlisting>
</para>
</chapter>

View file

@ -23,15 +23,15 @@
<filename>configuration.nix</filename>:
<programlisting>
services.postgresql.enable = true;
services.postgresql.package = pkgs.postgresql94;
<xref linkend="opt-services.postgresql.enable"/> = true;
<xref linkend="opt-services.postgresql.package"/> = pkgs.postgresql94;
</programlisting>
Note that you are required to specify the desired version of
PostgreSQL (e.g. <literal>pkgs.postgresql94</literal>). Since
upgrading your PostgreSQL version requires a database dump and reload
(see below), NixOS cannot provide a default value for
<option>services.postgresql.package</option> such as the most recent
<xref linkend="opt-services.postgresql.package"/> such as the most recent
release of PostgreSQL.</para>
<!--
@ -49,10 +49,10 @@ alice=>
<para>By default, PostgreSQL stores its databases in
<filename>/var/db/postgresql</filename>. You can override this using
<option>services.postgresql.dataDir</option>, e.g.
<xref linkend="opt-services.postgresql.dataDir"/>, e.g.
<programlisting>
services.postgresql.dataDir = "/data/postgresql";
<xref linkend="opt-services.postgresql.dataDir"/> = "/data/postgresql";
</programlisting>
</para>
@ -69,7 +69,7 @@ services.postgresql.dataDir = "/data/postgresql";
<section><title>Options</title>
<para>FIXME: auto-generated list of module options.</para>
<para>A complete list of options for the PostgreSQL module may be found <link linkend="opt-services.postgresql.enable">here</link>.</para>
</section>

View file

@ -404,10 +404,10 @@ in [...]
user service for Emacs daemon, add the following to your
<filename>configuration.nix</filename>:
<programlisting><![CDATA[
services.emacs.enable = true;
services.emacs.package = import /home/cassou/.emacs.d { pkgs = pkgs; };
]]></programlisting>
<programlisting>
<xref linkend="opt-services.emacs.enable"/> = true;
<xref linkend="opt-services.emacs.package"/> = import /home/cassou/.emacs.d { pkgs = pkgs; };
</programlisting>
</para>
<para>
@ -462,7 +462,7 @@ emacsclient --create-frame --tty # opens a new frame on the current terminal
<!--<title><command>emacsclient</command> as the Default Editor</title>-->
<para>
If <varname>services.emacs.defaultEditor</varname> is
If <xref linkend="opt-services.emacs.defaultEditor"/> is
<literal>true</literal>, the <varname>EDITOR</varname> variable
will be set to a wrapper script which launches
<command>emacsclient</command>.
@ -497,10 +497,10 @@ emacsclient --create-frame --tty # opens a new frame on the current terminal
Emacs daemon is not wanted for all users, it is possible to
install the service but not globally enable it:
<programlisting><![CDATA[
services.emacs.enable = false;
services.emacs.install = true;
]]></programlisting>
<programlisting>
<xref linkend="opt-services.emacs.enable"/> = false;
<xref linkend="opt-services.emacs.install"/> = true;
</programlisting>
</para>
<para>
@ -582,7 +582,7 @@ services.emacs.install = true;
<para>
To install the DocBook 5.0 schemas, either add
<varname>pkgs.docbook5</varname> to
<varname>environment.systemPackages</varname> (<link
<xref linkend="opt-environment.systemPackages"/> (<link
linkend="sec-declarative-package-mgmt">NixOS</link>), or run
<literal>nix-env -i pkgs.docbook5</literal>
(<link linkend="sec-ad-hoc-packages">Nix</link>).

View file

@ -18,19 +18,18 @@ webserver to proxy HTTP requests to the socket.</para>
frontend proxy:
<programlisting>
services.nginx = {
enable = true;
recommendedGzipSettings = true;
recommendedOptimisation = true;
recommendedProxySettings = true;
recommendedTlsSettings = true;
virtualHosts."git.example.com" = {
enableACME = true;
forceSSL = true;
locations."/".proxyPass = "http://unix:/run/gitlab/gitlab-workhorse.socket";
};
};
'';
<link linkend="opt-services.nginx.enable">services.nginx</link> = {
<link linkend="opt-services.nginx.enable">enable</link> = true;
<link linkend="opt-services.nginx.recommendedGzipSettings">recommendedGzipSettings</link> = true;
<link linkend="opt-services.nginx.recommendedOptimisation">recommendedOptimisation</link> = true;
<link linkend="opt-services.nginx.recommendedProxySettings">recommendedProxySettings</link> = true;
<link linkend="opt-services.nginx.recommendedTlsSettings">recommendedTlsSettings</link> = true;
<link linkend="opt-services.nginx.virtualHosts">virtualHosts</link>."git.example.com" = {
<link linkend="opt-services.nginx.virtualHosts._name_.enableACME">enableACME</link> = true;
<link linkend="opt-services.nginx.virtualHosts._name_.forceSSL">forceSSL</link> = true;
<link linkend="opt-services.nginx.virtualHosts._name_.locations._name_.proxyPass">locations."/".proxyPass</link> = "http://unix:/run/gitlab/gitlab-workhorse.socket";
};
};
</programlisting>
</para>
@ -49,24 +48,24 @@ all data like the repositories and uploads will be stored.</para>
<programlisting>
services.gitlab = {
enable = true;
databasePassword = "eXaMpl3";
initialRootPassword = "UseNixOS!";
https = true;
host = "git.example.com";
port = 443;
user = "git";
group = "git";
<link linkend="opt-services.gitlab.enable">enable</link> = true;
<link linkend="opt-services.gitlab.databasePassword">databasePassword</link> = "eXaMpl3";
<link linkend="opt-services.gitlab.initialRootPassword">initialRootPassword</link> = "UseNixOS!";
<link linkend="opt-services.gitlab.https">https</link> = true;
<link linkend="opt-services.gitlab.host">host</link> = "git.example.com";
<link linkend="opt-services.gitlab.port">port</link> = 443;
<link linkend="opt-services.gitlab.user">user</link> = "git";
<link linkend="opt-services.gitlab.group">group</link> = "git";
smtp = {
enable = true;
address = "localhost";
port = 25;
<link linkend="opt-services.gitlab.smtp.enable">enable</link> = true;
<link linkend="opt-services.gitlab.smtp.address">address</link> = "localhost";
<link linkend="opt-services.gitlab.smtp.port">port</link> = 25;
};
secrets = {
db = "uPgq1gtwwHiatiuE0YHqbGa5lEIXH7fMsvuTNgdzJi8P0Dg12gibTzBQbq5LT7PNzcc3BP9P1snHVnduqtGF43PgrQtU7XL93ts6gqe9CBNhjtaqUwutQUDkygP5NrV6";
secret = "devzJ0Tz0POiDBlrpWmcsjjrLaltyiAdS8TtgT9YNBOoUcDsfppiY3IXZjMVtKgXrFImIennFGOpPN8IkP8ATXpRgDD5rxVnKuTTwYQaci2NtaV1XxOQGjdIE50VGsR3";
otp = "e1GATJVuS2sUh7jxiPzZPre4qtzGGaS22FR50Xs1TerRVdgI3CBVUi5XYtQ38W4xFeS4mDqi5cQjExE838iViSzCdcG19XSL6qNsfokQP9JugwiftmhmCadtsnHErBMI";
jws = ''
<link linkend="opt-services.gitlab.secrets.db">db</link> = "uPgq1gtwwHiatiuE0YHqbGa5lEIXH7fMsvuTNgdzJi8P0Dg12gibTzBQbq5LT7PNzcc3BP9P1snHVnduqtGF43PgrQtU7XL93ts6gqe9CBNhjtaqUwutQUDkygP5NrV6";
<link linkend="opt-services.gitlab.secrets.secret">secret</link> = "devzJ0Tz0POiDBlrpWmcsjjrLaltyiAdS8TtgT9YNBOoUcDsfppiY3IXZjMVtKgXrFImIennFGOpPN8IkP8ATXpRgDD5rxVnKuTTwYQaci2NtaV1XxOQGjdIE50VGsR3";
<link linkend="opt-services.gitlab.secrets.otp">otp</link> = "e1GATJVuS2sUh7jxiPzZPre4qtzGGaS22FR50Xs1TerRVdgI3CBVUi5XYtQ38W4xFeS4mDqi5cQjExE838iViSzCdcG19XSL6qNsfokQP9JugwiftmhmCadtsnHErBMI";
<link linkend="opt-services.gitlab.secrets.jws">jws</link> = ''
-----BEGIN RSA PRIVATE KEY-----
MIIEpAIBAAKCAQEArrtx4oHKwXoqUbMNqnHgAklnnuDon3XG5LJB35yPsXKv/8GK
ke92wkI+s1Xkvsp8tg9BIY/7c6YK4SR07EWL+dB5qwctsWR2Q8z+/BKmTx9D99pm
@ -96,7 +95,7 @@ services.gitlab = {
-----END RSA PRIVATE KEY-----
'';
};
extraConfig = {
<link linkend="opt-services.gitlab.extraConfig">extraConfig</link> = {
gitlab = {
email_from = "gitlab-no-reply@example.com";
email_display_name = "Example GitLab";
@ -116,7 +115,7 @@ secret from <literal>config/secrets.yml</literal> located in your Gitlab state
folder.</para>
<para>Refer to <xref linkend="ch-options" /> for all available configuration
options for the <literal>services.gitlab</literal> module.</para>
options for the <link linkend="opt-services.gitlab.enable">services.gitlab</link> module.</para>
</section>

View file

@ -55,7 +55,7 @@
Because Taskserver by default only provides scripts to setup users
imperatively, the <command>nixos-taskserver</command> tool is used for
addition and deletion of organisations along with users and groups defined
by <option>services.taskserver.organisations</option> and as well for
by <xref linkend="opt-services.taskserver.organisations"/> and as well for
imperative set up.
</para>
@ -99,10 +99,10 @@
For example, let's say you have the following configuration:
<screen>
{
services.taskserver.enable = true;
services.taskserver.fqdn = "server";
services.taskserver.listenHost = "::";
services.taskserver.organisations.my-company.users = [ "alice" ];
<xref linkend="opt-services.taskserver.enable"/> = true;
<xref linkend="opt-services.taskserver.fqdn"/> = "server";
<xref linkend="opt-services.taskserver.listenHost"/> = "::";
<link linkend="opt-services.taskserver.organisations._name_.users">services.taskserver.organisations.my-company.users</link> = [ "alice" ];
}
</screen>
This creates an organisation called <literal>my-company</literal> with the
@ -136,7 +136,7 @@ $ ssh server nixos-taskserver user export my-company alice | sh
<para>
If you set any options within
<option>service.taskserver.pki.manual.*</option>,
<link linkend="opt-services.taskserver.pki.manual.ca.cert">service.taskserver.pki.manual</link>.*,
<command>nixos-taskserver</command> won't issue certificates, but you can
still use it for adding or removing user accounts.
</para>

View file

@ -19,7 +19,7 @@
<para>
To enable the client proxy, set
<programlisting>
services.dnscrypt-proxy.enable = true;
<xref linkend="opt-services.dnscrypt-proxy.enable"/> = true;
</programlisting>
</para>
@ -38,17 +38,17 @@
DNS client, change the default proxy listening port to a
non-standard value and point the other client to it:
<programlisting>
services.dnscrypt-proxy.localPort = 43;
<xref linkend="opt-services.dnscrypt-proxy.localPort"/> = 43;
</programlisting>
</para>
<sect2><title>dnsmasq</title>
<para>
<programlisting>
{
services.dnsmasq.enable = true;
services.dnsmasq.servers = [ "127.0.0.1#43" ];
}
{
<xref linkend="opt-services.dnsmasq.enable"/> = true;
<xref linkend="opt-services.dnsmasq.servers"/> = [ "127.0.0.1#43" ];
}
</programlisting>
</para>
</sect2>
@ -56,10 +56,10 @@
<sect2><title>unbound</title>
<para>
<programlisting>
{
services.unbound.enable = true;
services.unbound.forwardAddresses = [ "127.0.0.1@43" ];
}
{
<xref linkend="opt-services.unbound.enable"/> = true;
<xref linkend="opt-services.unbound.forwardAddresses"/> = [ "127.0.0.1@43" ];
}
</programlisting>
</para>
</sect2>