nixpkgs/doc/functions.xml

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<chapter xmlns="http://docbook.org/ns/docbook"
xmlns:xlink="http://www.w3.org/1999/xlink"
xml:id="chap-functions">
<title>Functions reference</title>
<para>
The nixpkgs repository has several utility functions to manipulate Nix expressions.
</para>
<section xml:id="sec-pkgs-overridePackages">
<title>pkgs.overridePackages</title>
<para>
This function inside the nixpkgs expression (<varname>pkgs</varname>)
can be used to override the set of packages itself.
</para>
<para>
Warning: this function is expensive and must not be used from within
the nixpkgs repository.
</para>
<para>
Example usage:
<programlisting>let
pkgs = import &lt;nixpkgs&gt; {};
newpkgs = pkgs.overridePackages (self: super: {
foo = super.foo.override { ... };
};
in ...</programlisting>
</para>
<para>
The resulting <varname>newpkgs</varname> will have the new <varname>foo</varname>
expression, and all other expressions depending on <varname>foo</varname> will also
use the new <varname>foo</varname> expression.
</para>
<para>
The behavior of this function is similar to <link
linkend="sec-modify-via-packageOverrides">config.packageOverrides</link>.
</para>
<para>
The <varname>self</varname> parameter refers to the final package set with the
applied overrides. Using this parameter may lead to infinite recursion if not
used consciously.
</para>
<para>
The <varname>super</varname> parameter refers to the old package set.
It's equivalent to <varname>pkgs</varname> in the above example.
</para>
</section>
2015-06-30 11:26:14 +02:00
<section xml:id="sec-pkg-override">
<title>&lt;pkg&gt;.override</title>
<para>
The function <varname>override</varname> is usually available for all the
derivations in the nixpkgs expression (<varname>pkgs</varname>).
</para>
<para>
It is used to override the arguments passed to a function.
</para>
<para>
Example usages:
<programlisting>pkgs.foo.override { arg1 = val1; arg2 = val2; ... }</programlisting>
<programlisting>pkgs.overridePackages (self: super: {
foo = super.foo.override { barSupport = true ; };
})</programlisting>
<programlisting>mypkg = pkgs.callPackage ./mypkg.nix {
mydep = pkgs.mydep.override { ... };
})</programlisting>
</para>
<para>
In the first example, <varname>pkgs.foo</varname> is the result of a function call
with some default arguments, usually a derivation.
Using <varname>pkgs.foo.override</varname> will call the same function with
the given new arguments.
</para>
</section>
2015-07-30 17:56:16 +02:00
<section xml:id="sec-pkg-overrideDerivation">
<title>&lt;pkg&gt;.overrideDerivation</title>
<para>
The function <varname>overrideDerivation</varname> is usually available for all the
derivations in the nixpkgs expression (<varname>pkgs</varname>).
</para>
<para>
It is used to create a new derivation by overriding the attributes of
the original derivation according to the given function.
</para>
<para>
Example usage:
<programlisting>mySed = pkgs.gnused.overrideDerivation (oldAttrs: {
name = "sed-4.2.2-pre";
src = fetchurl {
url = ftp://alpha.gnu.org/gnu/sed/sed-4.2.2-pre.tar.bz2;
sha256 = "11nq06d131y4wmf3drm0yk502d2xc6n5qy82cg88rb9nqd2lj41k";
};
patches = [];
});</programlisting>
</para>
<para>
In the above example, the name, src and patches of the derivation
will be overridden, while all other attributes will be retained from the
original derivation.
</para>
<para>
The argument <varname>oldAttrs</varname> is used to refer to the attribute set of
the original derivation.
</para>
</section>
2015-06-30 12:19:49 +02:00
<section xml:id="sec-lib-makeOverridable">
<title>lib.makeOverridable</title>
<para>
The function <varname>lib.makeOverridable</varname> is used make the result
of a function easily customizable. This utility only makes sense for functions
that accept an argument set and return an attribute set.
</para>
<para>
Example usage:
<programlisting>f = { a, b }: { result = a+b; }
c = lib.makeOverridable f { a = 1; b = 2; }</programlisting>
</para>
<para>
The variable <varname>c</varname> is the value of the <varname>f</varname> function
applied with some default arguments. Hence the value of <varname>c.result</varname>
is <literal>3</literal>, in this example.
</para>
<para>
The variable <varname>c</varname> however also has some additional functions, like
<link linkend="sec-pkg-override">c.override</link> which can be used to
override the default arguments. In this example the value of
<varname>(c.override { a = 4; }).result</varname> is 6.
</para>
</section>
2015-08-26 18:48:42 +02:00
<section xml:id="sec-fhs-environments">
<title>buildFHSChrootEnv/buildFHSUserEnv</title>
<para>
<function>buildFHSChrootEnv</function> and
<function>buildFHSUserEnv</function> provide a way to build and run
FHS-compatible lightweight sandboxes. They get their own isolated root with
binded <filename>/nix/store</filename>, so their footprint in terms of disk
space needed is quite small. This allows one to run software which is hard or
unfeasible to patch for NixOS -- 3rd-party source trees with FHS assumptions,
games distributed as tarballs, software with integrity checking and/or external
self-updated binaries.
</para>
<para>
<function>buildFHSChrootEnv</function> allows to create persistent
environments, which can be constructed, deconstructed and entered by
multiple users at once. A downside is that it requires
<literal>root</literal> access for both those who create and destroy and
those who enter it. It can be useful to create environments for daemons that
one can enter and observe.
</para>
<para>
<function>buildFHSUserEnv</function> uses Linux namespaces feature to create
temporary lightweight environments which are destroyed after all child
processes exit. It does not require root access, and can be useful to create
sandboxes and wrap applications.
</para>
<para>
Those functions both rely on <function>buildFHSEnv</function>, which creates
an actual directory structure given a list of necessary packages and extra
build commands.
<function>buildFHSChrootEnv</function> and <function>buildFHSUserEnv</function>
both accept those arguments which are passed to
<function>buildFHSEnv</function>:
</para>
<variablelist>
<varlistentry>
<term><literal>name</literal></term>
<listitem><para>Environment name.</para></listitem>
</varlistentry>
<varlistentry>
<term><literal>targetPkgs</literal></term>
<listitem><para>Packages to be installed for the main host's architecture
(i.e. x86_64 on x86_64 installations).</para></listitem>
</varlistentry>
<varlistentry>
<term><literal>multiPkgs</literal></term>
<listitem><para>Packages to be installed for all architectures supported by
a host (i.e. i686 and x86_64 on x86_64 installations).</para></listitem>
</varlistentry>
<varlistentry>
<term><literal>extraBuildCommands</literal></term>
<listitem><para>Additional commands to be executed for finalizing the
directory structure.</para></listitem>
</varlistentry>
<varlistentry>
<term><literal>extraBuildCommandsMulti</literal></term>
<listitem><para>Like <literal>extraBuildCommandsMulti</literal>, but
executed only on multilib architectures.</para></listitem>
</varlistentry>
</variablelist>
<para>
Additionally, <function>buildFHSUserEnv</function> accepts
<literal>runScript</literal> parameter, which is a command that would be
executed inside the sandbox and passed all the command line arguments. It
default to <literal>bash</literal>.
One can create a simple environment using a <literal>shell.nix</literal>
like that:
</para>
<programlisting><![CDATA[
{ pkgs ? import <nixpkgs> {} }:
(pkgs.buildFHSUserEnv {
name = "simple-x11-env";
targetPkgs = pkgs: (with pkgs;
[ udev
alsaLib
]) ++ (with pkgs.xlibs;
[ libX11
libXcursor
libXrandr
]);
multiPkgs = pkgs: (with pkgs;
[ udev
alsaLib
]) ++ (with [];
runScript = "bash";
}).env
]]></programlisting>
<para>
Running <literal>nix-shell</literal> would then drop you into a shell with
these libraries and binaries available. You can use this to run
closed-source applications which expect FHS structure without hassles:
simply change <literal>runScript</literal> to the application path,
e.g. <filename>./bin/start.sh</filename> -- relative paths are supported.
</para>
</section>
</chapter>