mirror of
https://github.com/ilyakooo0/nixpkgs.git
synced 2024-11-11 04:02:55 +03:00
8ba4db0f11
Thanks @matthewbauer! Co-Authored-By: Ericson2314 <git@JohnEricson.me>
679 lines
29 KiB
XML
679 lines
29 KiB
XML
<chapter xmlns="http://docbook.org/ns/docbook"
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xmlns:xlink="http://www.w3.org/1999/xlink"
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xml:id="chap-cross">
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<title>Cross-compilation</title>
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<section xml:id="sec-cross-intro">
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<title>Introduction</title>
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<para>
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"Cross-compilation" means compiling a program on one machine for another
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type of machine. For example, a typical use of cross-compilation is to
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compile programs for embedded devices. These devices often don't have the
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computing power and memory to compile their own programs. One might think
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that cross-compilation is a fairly niche concern. However, there are
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significant advantages to rigorously distinguishing between build-time and
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run-time environments! Significant, because the benefits apply even when one
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is developing and deploying on the same machine. Nixpkgs is increasingly
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adopting the opinion that packages should be written with cross-compilation
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in mind, and nixpkgs should evaluate in a similar way (by minimizing
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cross-compilation-specific special cases) whether or not one is
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cross-compiling.
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</para>
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<para>
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This chapter will be organized in three parts. First, it will describe the
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basics of how to package software in a way that supports cross-compilation.
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Second, it will describe how to use Nixpkgs when cross-compiling. Third, it
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will describe the internal infrastructure supporting cross-compilation.
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</para>
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</section>
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<!--============================================================-->
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<section xml:id="sec-cross-packaging">
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<title>Packaging in a cross-friendly manner</title>
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<section xml:id="ssec-cross-platform-parameters">
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<title>Platform parameters</title>
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<para>
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Nixpkgs follows the
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<link
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xlink:href="https://gcc.gnu.org/onlinedocs/gccint/Configure-Terms.html">conventions
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of GNU autoconf</link>. We distinguish between 3 types of platforms when
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building a derivation: <wordasword>build</wordasword>,
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<wordasword>host</wordasword>, and <wordasword>target</wordasword>. In
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summary, <wordasword>build</wordasword> is the platform on which a package
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is being built, <wordasword>host</wordasword> is the platform on which it
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will run. The third attribute, <wordasword>target</wordasword>, is relevant
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only for certain specific compilers and build tools.
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</para>
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<para>
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In Nixpkgs, these three platforms are defined as attribute sets under the
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names <literal>buildPlatform</literal>, <literal>hostPlatform</literal>,
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and <literal>targetPlatform</literal>. They are always defined as
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attributes in the standard environment. That means one can access them
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like:
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<programlisting>{ stdenv, fooDep, barDep, .. }: ...stdenv.buildPlatform...</programlisting>
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.
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</para>
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<variablelist>
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<varlistentry>
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<term>
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<varname>buildPlatform</varname>
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</term>
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<listitem>
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<para>
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The "build platform" is the platform on which a package is built. Once
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someone has a built package, or pre-built binary package, the build
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platform should not matter and can be ignored.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>hostPlatform</varname>
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</term>
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<listitem>
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<para>
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The "host platform" is the platform on which a package will be run. This
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is the simplest platform to understand, but also the one with the worst
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name.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>targetPlatform</varname>
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</term>
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<listitem>
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<para>
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The "target platform" attribute is, unlike the other two attributes, not
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actually fundamental to the process of building software. Instead, it is
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only relevant for compatibility with building certain specific compilers
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and build tools. It can be safely ignored for all other packages.
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</para>
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<para>
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The build process of certain compilers is written in such a way that the
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compiler resulting from a single build can itself only produce binaries
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for a single platform. The task of specifying this single "target
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platform" is thus pushed to build time of the compiler. The root cause
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of this is that the compiler (which will be run on the host) and the
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standard library/runtime (which will be run on the target) are built by
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a single build process.
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</para>
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<para>
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There is no fundamental need to think about a single target ahead of
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time like this. If the tool supports modular or pluggable backends, both
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the need to specify the target at build time and the constraint of
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having only a single target disappear. An example of such a tool is
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LLVM.
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</para>
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<para>
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Although the existence of a "target platfom" is arguably a historical
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mistake, it is a common one: examples of tools that suffer from it are
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GCC, Binutils, GHC and Autoconf. Nixpkgs tries to avoid sharing in the
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mistake where possible. Still, because the concept of a target platform
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is so ingrained, it is best to support it as is.
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</para>
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</listitem>
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</varlistentry>
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</variablelist>
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<para>
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The exact schema these fields follow is a bit ill-defined due to a long and
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convoluted evolution, but this is slowly being cleaned up. You can see
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examples of ones used in practice in
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<literal>lib.systems.examples</literal>; note how they are not all very
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consistent. For now, here are few fields can count on them containing:
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</para>
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<variablelist>
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<varlistentry>
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<term>
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<varname>system</varname>
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</term>
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<listitem>
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<para>
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This is a two-component shorthand for the platform. Examples of this
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would be "x86_64-darwin" and "i686-linux"; see
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<literal>lib.systems.doubles</literal> for more. The first component
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corresponds to the CPU architecture of the platform and the second to
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the operating system of the platform (<literal>[cpu]-[os]</literal>).
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This format has built-in support in Nix, such as the
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<varname>builtins.currentSystem</varname> impure string.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>config</varname>
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</term>
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<listitem>
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<para>
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This is a 3- or 4- component shorthand for the platform. Examples of
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this would be <literal>x86_64-unknown-linux-gnu</literal> and
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<literal>aarch64-apple-darwin14</literal>. This is a standard format
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called the "LLVM target triple", as they are pioneered by LLVM. In the
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4-part form, this corresponds to
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<literal>[cpu]-[vendor]-[os]-[abi]</literal>. This format is strictly
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more informative than the "Nix host double", as the previous format
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could analogously be termed. This needs a better name than
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<varname>config</varname>!
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>parsed</varname>
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</term>
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<listitem>
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<para>
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This is a Nix representation of a parsed LLVM target triple with
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white-listed components. This can be specified directly, or actually
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parsed from the <varname>config</varname>. See
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<literal>lib.systems.parse</literal> for the exact representation.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>libc</varname>
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</term>
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<listitem>
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<para>
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This is a string identifying the standard C library used. Valid
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identifiers include "glibc" for GNU libc, "libSystem" for Darwin's
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Libsystem, and "uclibc" for µClibc. It should probably be refactored to
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use the module system, like <varname>parse</varname>.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>is*</varname>
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</term>
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<listitem>
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<para>
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These predicates are defined in <literal>lib.systems.inspect</literal>,
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and slapped onto every platform. They are superior to the ones in
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<varname>stdenv</varname> as they force the user to be explicit about
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which platform they are inspecting. Please use these instead of those.
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</para>
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</listitem>
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</varlistentry>
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<varlistentry>
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<term>
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<varname>platform</varname>
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</term>
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<listitem>
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<para>
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This is, quite frankly, a dumping ground of ad-hoc settings (it's an
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attribute set). See <literal>lib.systems.platforms</literal> for
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examples—there's hopefully one in there that will work verbatim for
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each platform that is working. Please help us triage these flags and
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give them better homes!
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</para>
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</listitem>
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</varlistentry>
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</variablelist>
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</section>
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<section xml:id="ssec-cross-dependency-categorization">
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<title>Theory of dependency categorization</title>
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<note>
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<para>
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This is a rather philosophical description that isn't very
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Nixpkgs-specific. For an overview of all the relevant attributes given to
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<varname>mkDerivation</varname>, see
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<xref
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linkend="ssec-stdenv-dependencies"/>. For a description of how
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everything is implemented, see
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<xref linkend="ssec-cross-dependency-implementation" />.
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</para>
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</note>
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<para>
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In this section we explore the relationship between both runtime and
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build-time dependencies and the 3 Autoconf platforms.
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</para>
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<para>
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A run time dependency between two packages requires that their host
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platforms match. This is directly implied by the meaning of "host platform"
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and "runtime dependency": The package dependency exists while both packages
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are running on a single host platform.
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</para>
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<para>
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A build time dependency, however, has a shift in platforms between the
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depending package and the depended-on package. "build time dependency"
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means that to build the depending package we need to be able to run the
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depended-on's package. The depending package's build platform is therefore
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equal to the depended-on package's host platform.
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</para>
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<para>
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If both the dependency and depending packages aren't compilers or other
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machine-code-producing tools, we're done. And indeed
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<varname>buildInputs</varname> and <varname>nativeBuildInputs</varname>
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have covered these simpler build-time and run-time (respectively) changes
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for many years. But if the dependency does produce machine code, we might
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need to worry about its target platform too. In principle, that target
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platform might be any of the depending package's build, host, or target
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platforms, but we prohibit dependencies from a "later" platform to an
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earlier platform to limit confusion because we've never seen a legitimate
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use for them.
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</para>
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<para>
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Finally, if the depending package is a compiler or other
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machine-code-producing tool, it might need dependencies that run at "emit
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time". This is for compilers that (regrettably) insist on being built
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together with their source langauges' standard libraries. Assuming build !=
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host != target, a run-time dependency of the standard library cannot be run
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at the compiler's build time or run time, but only at the run time of code
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emitted by the compiler.
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</para>
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<para>
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Putting this all together, that means we have dependencies in the form
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"host → target", in at most the following six combinations:
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<table>
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<caption>Possible dependency types</caption>
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<thead>
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<tr>
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<th>Dependency's host platform</th>
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<th>Dependency's target platform</th>
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</tr>
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</thead>
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<tbody>
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<tr>
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<td>build</td>
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<td>build</td>
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</tr>
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<tr>
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<td>build</td>
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<td>host</td>
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</tr>
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<tr>
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<td>build</td>
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<td>target</td>
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</tr>
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<tr>
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<td>host</td>
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<td>host</td>
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</tr>
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<tr>
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<td>host</td>
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<td>target</td>
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</tr>
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<tr>
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<td>target</td>
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<td>target</td>
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</tr>
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</tbody>
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</table>
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</para>
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<para>
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Some examples will make this table clearer. Suppose there's some package
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that is being built with a <literal>(build, host, target)</literal>
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platform triple of <literal>(foo, bar, baz)</literal>. If it has a
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build-time library dependency, that would be a "host → build" dependency
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with a triple of <literal>(foo, foo, *)</literal> (the target platform is
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irrelevant). If it needs a compiler to be built, that would be a "build →
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host" dependency with a triple of <literal>(foo, foo, *)</literal> (the
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target platform is irrelevant). That compiler, would be built with another
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compiler, also "build → host" dependency, with a triple of <literal>(foo,
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foo, foo)</literal>.
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</para>
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</section>
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<section xml:id="ssec-cross-cookbook">
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<title>Cross packaging cookbook</title>
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<para>
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Some frequently encountered problems when packaging for cross-compilation
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should be answered here. Ideally, the information above is exhaustive, so
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this section cannot provide any new information, but it is ludicrous and
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cruel to expect everyone to spend effort working through the interaction of
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many features just to figure out the same answer to the same common
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problem. Feel free to add to this list!
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</para>
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<qandaset>
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<qandaentry xml:id="cross-qa-build-c-program-in-build-environment">
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<question>
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<para>
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What if my package's build system needs to build a C program to be run
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under the build environment?
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</para>
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</question>
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<answer>
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<para>
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<programlisting>depsBuildBuild = [ buildPackages.stdenv.cc ];</programlisting>
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Add it to your <function>mkDerivation</function> invocation.
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</para>
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</answer>
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</qandaentry>
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<qandaentry xml:id="cross-qa-fails-to-find-ar">
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<question>
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<para>
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My package fails to find <command>ar</command>.
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</para>
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</question>
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<answer>
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<para>
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Many packages assume that an unprefixed <command>ar</command> is
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available, but Nix doesn't provide one. It only provides a prefixed one,
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just as it only does for all the other binutils programs. It may be
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necessary to patch the package to fix the build system to use a prefixed
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`ar`.
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</para>
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</answer>
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</qandaentry>
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<qandaentry xml:id="cross-testsuite-runs-host-code">
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<question>
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<para>
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My package's testsuite needs to run host platform code.
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</para>
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</question>
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<answer>
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<para>
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<programlisting>doCheck = stdenv.hostPlatform != stdenv.buildPlatfrom;</programlisting>
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Add it to your <function>mkDerivation</function> invocation.
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</para>
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</answer>
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</qandaentry>
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</qandaset>
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</section>
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</section>
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<!--============================================================-->
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<section xml:id="sec-cross-usage">
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<title>Cross-building packages</title>
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<para>
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Nixpkgs can be instantiated with <varname>localSystem</varname> alone, in
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which case there is no cross-compiling and everything is built by and for
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that system, or also with <varname>crossSystem</varname>, in which case
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packages run on the latter, but all building happens on the former. Both
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parameters take the same schema as the 3 (build, host, and target) platforms
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defined in the previous section. As mentioned above,
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<literal>lib.systems.examples</literal> has some platforms which are used as
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arguments for these parameters in practice. You can use them
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programmatically, or on the command line:
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<programlisting>
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nix-build <nixpkgs> --arg crossSystem '(import <nixpkgs/lib>).systems.examples.fooBarBaz' -A whatever</programlisting>
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</para>
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<note>
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<para>
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Eventually we would like to make these platform examples an unnecessary
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convenience so that
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<programlisting>
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nix-build <nixpkgs> --arg crossSystem '{ config = "<arch>-<os>-<vendor>-<abi>"; }' -A whatever</programlisting>
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works in the vast majority of cases. The problem today is dependencies on
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other sorts of configuration which aren't given proper defaults. We rely on
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the examples to crudely to set those configuration parameters in some
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vaguely sane manner on the users behalf. Issue
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<link xlink:href="https://github.com/NixOS/nixpkgs/issues/34274">#34274</link>
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tracks this inconvenience along with its root cause in crufty configuration
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options.
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</para>
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</note>
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<para>
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While one is free to pass both parameters in full, there's a lot of logic to
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fill in missing fields. As discussed in the previous section, only one of
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<varname>system</varname>, <varname>config</varname>, and
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<varname>parsed</varname> is needed to infer the other two. Additionally,
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<varname>libc</varname> will be inferred from <varname>parse</varname>.
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Finally, <literal>localSystem.system</literal> is also
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<emphasis>impurely</emphasis> inferred based on the platform evaluation
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occurs. This means it is often not necessary to pass
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<varname>localSystem</varname> at all, as in the command-line example in the
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previous paragraph.
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</para>
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<note>
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<para>
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|
Many sources (manual, wiki, etc) probably mention passing
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<varname>system</varname>, <varname>platform</varname>, along with the
|
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optional <varname>crossSystem</varname> to nixpkgs: <literal>import
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<nixpkgs> { system = ..; platform = ..; crossSystem = ..;
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}</literal>. Passing those two instead of <varname>localSystem</varname> is
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still supported for compatibility, but is discouraged. Indeed, much of the
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inference we do for these parameters is motivated by compatibility as much
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as convenience.
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</para>
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</note>
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<para>
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One would think that <varname>localSystem</varname> and
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<varname>crossSystem</varname> overlap horribly with the three
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<varname>*Platforms</varname> (<varname>buildPlatform</varname>,
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<varname>hostPlatform,</varname> and <varname>targetPlatform</varname>; see
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<varname>stage.nix</varname> or the manual). Actually, those identifiers are
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purposefully not used here to draw a subtle but important distinction: While
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|
the granularity of having 3 platforms is necessary to properly *build*
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packages, it is overkill for specifying the user's *intent* when making a
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build plan or package set. A simple "build vs deploy" dichotomy is adequate:
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|
the sliding window principle described in the previous section shows how to
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|
interpolate between the these two "end points" to get the 3 platform triple
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for each bootstrapping stage. That means for any package a given package
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set, even those not bound on the top level but only reachable via
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dependencies or <varname>buildPackages</varname>, the three platforms will
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be defined as one of <varname>localSystem</varname> or
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|
<varname>crossSystem</varname>, with the former replacing the latter as one
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|
traverses build-time dependencies. A last simple difference is that
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<varname>crossSystem</varname> should be null when one doesn't want to
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|
cross-compile, while the <varname>*Platform</varname>s are always non-null.
|
|
<varname>localSystem</varname> is always non-null.
|
|
</para>
|
|
</section>
|
|
<!--============================================================-->
|
|
<section xml:id="sec-cross-infra">
|
|
<title>Cross-compilation infrastructure</title>
|
|
|
|
<section xml:id="ssec-cross-dependency-implementation">
|
|
<title>Implementation of dependencies</title>
|
|
|
|
<para>
|
|
The categorizes of dependencies developed in
|
|
<xref
|
|
linkend="ssec-cross-dependency-categorization"/> are specified as
|
|
lists of derivations given to <varname>mkDerivation</varname>, as
|
|
documented in <xref linkend="ssec-stdenv-dependencies"/>. In short,
|
|
each list of dependencies for "host → target" of "foo → bar" is called
|
|
<varname>depsFooBar</varname>, with exceptions for backwards
|
|
compatibility that <varname>depsBuildHost</varname> is instead called
|
|
<varname>nativeBuildInputs</varname> and <varname>depsHostTarget</varname>
|
|
is instead called <varname>buildInputs</varname>. Nixpkgs is now structured
|
|
so that each <varname>depsFooBar</varname> is automatically taken from
|
|
<varname>pkgsFooBar</varname>. (These <varname>pkgsFooBar</varname>s are
|
|
quite new, so there is no special case for
|
|
<varname>nativeBuildInputs</varname> and <varname>buildInputs</varname>.)
|
|
For example, <varname>pkgsBuildHost.gcc</varname> should be used at
|
|
build-time, while <varname>pkgsHostTarget.gcc</varname> should be used at
|
|
run-time.
|
|
</para>
|
|
|
|
<para>
|
|
Now, for most of Nixpkgs's history, there were no
|
|
<varname>pkgsFooBar</varname> attributes, and most packages have not been
|
|
refactored to use it explicitly. Prior to those, there were just
|
|
<varname>buildPackages</varname>, <varname>pkgs</varname>, and
|
|
<varname>targetPackages</varname>. Those are now redefined as aliases to
|
|
<varname>pkgsBuildHost</varname>, <varname>pkgsHostTarget</varname>, and
|
|
<varname>pkgsTargetTarget</varname>. It is acceptable, even
|
|
recommended, to use them for libraries to show that the host platform is
|
|
irrelevant.
|
|
</para>
|
|
|
|
<para>
|
|
But before that, there was just <varname>pkgs</varname>, even though both
|
|
<varname>buildInputs</varname> and <varname>nativeBuildInputs</varname>
|
|
existed. [Cross barely worked, and those were implemented with some hacks
|
|
on <varname>mkDerivation</varname> to override dependencies.] What this
|
|
means is the vast majority of packages do not use any explicit package set
|
|
to populate their dependencies, just using whatever
|
|
<varname>callPackage</varname> gives them even if they do correctly sort
|
|
their dependencies into the multiple lists described above. And indeed,
|
|
asking that users both sort their dependencies, <emphasis>and</emphasis>
|
|
take them from the right attribute set, is both too onerous and redundant,
|
|
so the recommended approach (for now) is to continue just categorizing by
|
|
list and not using an explicit package set.
|
|
</para>
|
|
|
|
<para>
|
|
To make this work, we "splice" together the six
|
|
<varname>pkgsFooBar</varname> package sets and have
|
|
<varname>callPackage</varname> actually take its arguments from that. This
|
|
is currently implemented in <filename>pkgs/top-level/splice.nix</filename>.
|
|
<varname>mkDerivation</varname> then, for each dependency attribute, pulls
|
|
the right derivation out from the splice. This splicing can be skipped when
|
|
not cross-compiling as the package sets are the same, but still is a bit
|
|
slow for cross-compiling. We'd like to do something better, but haven't
|
|
come up with anything yet.
|
|
</para>
|
|
</section>
|
|
|
|
<section xml:id="ssec-bootstrapping">
|
|
<title>Bootstrapping</title>
|
|
|
|
<para>
|
|
Each of the package sets described above come from a single bootstrapping
|
|
stage. While <filename>pkgs/top-level/default.nix</filename>, coordinates
|
|
the composition of stages at a high level,
|
|
<filename>pkgs/top-level/stage.nix</filename> "ties the knot" (creates the
|
|
fixed point) of each stage. The package sets are defined per-stage however,
|
|
so they can be thought of as edges between stages (the nodes) in a graph.
|
|
Compositions like <literal>pkgsBuildTarget.targetPackages</literal> can be
|
|
thought of as paths to this graph.
|
|
</para>
|
|
|
|
<para>
|
|
While there are many package sets, and thus many edges, the stages can also
|
|
be arranged in a linear chain. In other words, many of the edges are
|
|
redundant as far as connectivity is concerned. This hinges on the type of
|
|
bootstrapping we do. Currently for cross it is:
|
|
<orderedlist>
|
|
<listitem>
|
|
<para>
|
|
<literal>(native, native, native)</literal>
|
|
</para>
|
|
</listitem>
|
|
<listitem>
|
|
<para>
|
|
<literal>(native, native, foreign)</literal>
|
|
</para>
|
|
</listitem>
|
|
<listitem>
|
|
<para>
|
|
<literal>(native, foreign, foreign)</literal>
|
|
</para>
|
|
</listitem>
|
|
</orderedlist>
|
|
In each stage, <varname>pkgsBuildHost</varname> refers the the previous
|
|
stage, <varname>pkgsBuildBuild</varname> refers to the one before that, and
|
|
<varname>pkgsHostTarget</varname> refers to the current one, and
|
|
<varname>pkgsTargetTarget</varname> refers to the next one. When there is
|
|
no previous or next stage, they instead refer to the current stage. Note
|
|
how all the invariants regarding the mapping between dependency and depending
|
|
packages' build host and target platforms are preserved.
|
|
<varname>pkgsBuildTarget</varname> and <varname>pkgsHostHost</varname> are
|
|
more complex in that the stage fitting the requirements isn't always a
|
|
fixed chain of "prevs" and "nexts" away (modulo the "saturating"
|
|
self-references at the ends). We just special case each instead. All the primary
|
|
edges are implemented is in <filename>pkgs/stdenv/booter.nix</filename>,
|
|
and secondarily aliases in <filename>pkgs/top-level/stage.nix</filename>.
|
|
</para>
|
|
|
|
<note>
|
|
<para>
|
|
Note the native stages are bootstrapped in legacy ways that predate the
|
|
current cross implementation. This is why the the bootstrapping stages
|
|
leading up to the final stages are ignored inthe previous paragraph.
|
|
</para>
|
|
</note>
|
|
|
|
<para>
|
|
If one looks at the 3 platform triples, one can see that they overlap such
|
|
that one could put them together into a chain like:
|
|
<programlisting>
|
|
(native, native, native, foreign, foreign)
|
|
</programlisting>
|
|
If one imagines the saturating self references at the end being replaced
|
|
with infinite stages, and then overlays those platform triples, one ends up
|
|
with the infinite tuple:
|
|
<programlisting>
|
|
(native..., native, native, native, foreign, foreign, foreign...)
|
|
</programlisting>
|
|
On can then imagine any sequence of platforms such that there are bootstrap
|
|
stages with their 3 platforms determined by "sliding a window" that is the
|
|
3 tuple through the sequence. This was the original model for
|
|
bootstrapping. Without a target platform (assume a better world where all
|
|
compilers are multi-target and all standard libraries are built in their
|
|
own derivation), this is sufficient. Conversely if one wishes to cross
|
|
compile "faster", with a "Canadian Cross" bootstraping stage where
|
|
<literal>build != host != target</literal>, more bootstrapping stages are
|
|
needed since no sliding window providess the pesky
|
|
<varname>pkgsBuildTarget</varname> package set since it skips the Canadian
|
|
cross stage's "host".
|
|
</para>
|
|
|
|
<note>
|
|
<para>
|
|
It is much better to refer to <varname>buildPackages</varname> than
|
|
<varname>targetPackages</varname>, or more broadly package sets that do
|
|
not mention "target". There are three reasons for this.
|
|
</para>
|
|
<para>
|
|
First, it is because bootstrapping stages do not have a unique
|
|
<varname>targetPackages</varname>. For example a <literal>(x86-linux,
|
|
x86-linux, arm-linux)</literal> and <literal>(x86-linux, x86-linux,
|
|
x86-windows)</literal> package set both have a <literal>(x86-linux,
|
|
x86-linux, x86-linux)</literal> package set. Because there is no canonical
|
|
<varname>targetPackages</varname> for such a native (<literal>build ==
|
|
host == target</literal>) package set, we set their
|
|
<varname>targetPackages</varname>
|
|
</para>
|
|
<para>
|
|
Second, it is because this is a frequent source of hard-to-follow
|
|
"infinite recursions" / cycles. When only package sets that don't mention
|
|
target are used, the package set forms a directed acyclic graph. This
|
|
means that all cycles that exist are confined to one stage. This means
|
|
they are a lot smaller, and easier to follow in the code or a backtrace. It
|
|
also means they are present in native and cross builds alike, and so more
|
|
likely to be caught by CI and other users.
|
|
</para>
|
|
<para>
|
|
Thirdly, it is because everything target-mentioning only exists to
|
|
accommodate compilers with lousy build systems that insist on the compiler
|
|
itself and standard library being built together. Of course that is bad
|
|
because bigger derivations means longer rebuilds. It is also problematic because
|
|
it tends to make the standard libraries less like other libraries than
|
|
they could be, complicating code and build systems alike. Because of the
|
|
other problems, and because of these innate disadvantages, compilers ought
|
|
to be packaged another way where possible.
|
|
</para>
|
|
</note>
|
|
|
|
<note>
|
|
<para>
|
|
If one explores Nixpkgs, they will see derivations with names like
|
|
<literal>gccCross</literal>. Such <literal>*Cross</literal> derivations is
|
|
a holdover from before we properly distinguished between the host and
|
|
target platforms—the derivation with "Cross" in the name covered the
|
|
<literal>build = host != target</literal> case, while the other covered
|
|
the <literal>host = target</literal>, with build platform the same or not
|
|
based on whether one was using its <literal>.nativeDrv</literal> or
|
|
<literal>.crossDrv</literal>. This ugliness will disappear soon.
|
|
</para>
|
|
</note>
|
|
</section>
|
|
</section>
|
|
</chapter>
|