This is needed to avoid this https://github.com/mesonbuild/meson/issues/13774 when we go back to making our subproject directory `src`.
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Building Nix
This section provides some notes on how to start hacking on Nix. To get the latest version of Nix from GitHub:
$ git clone https://github.com/NixOS/nix.git
$ cd nix
Note
The following instructions assume you already have some version of Nix installed locally, so that you can use it to set up the development environment. If you don't have it installed, follow the installation instructions.
To build all dependencies and start a shell in which all environment variables are set up so that those dependencies can be found:
$ nix-shell
To get a shell with one of the other supported compilation environments:
$ nix-shell --attr devShells.x86_64-linux.native-clangStdenvPackages
Note
You can use
native-ccacheStdenvPackages
to drastically improve rebuild time. By default, ccache keeps artifacts in~/.cache/ccache/
.
To build Nix itself in this shell:
[nix-shell]$ mesonFlags+=" --prefix=$(pwd)/outputs/out"
[nix-shell]$ dontAddPrefix=1 mesonConfigurePhase
[nix-shell]$ ninjaBuildPhase
To test it:
[nix-shell]$ mesonCheckPhase
To install it in $(pwd)/outputs
:
[nix-shell]$ ninjaInstallPhase
[nix-shell]$ ./outputs/out/bin/nix --version
nix (Nix) 2.12
To build a release version of Nix for the current operating system and CPU architecture:
$ nix-build
You can also build Nix for one of the supported platforms.
Building Nix with flakes
This section assumes you are using Nix with the flakes
and nix-command
experimental features enabled.
To build all dependencies and start a shell in which all environment variables are set up so that those dependencies can be found:
$ nix develop
This shell also adds ./outputs/bin/nix
to your $PATH
so you can run nix
immediately after building it.
To get a shell with one of the other supported compilation environments:
$ nix develop .#native-clangStdenvPackages
Note
Use
ccacheStdenv
to drastically improve rebuild time. By default, ccache keeps artifacts in~/.cache/ccache/
.
To build Nix itself in this shell:
[nix-shell]$ mesonConfigurePhase
[nix-shell]$ ninjaBuildPhase
To test it:
[nix-shell]$ mesonCheckPhase
To install it in $(pwd)/outputs
:
[nix-shell]$ ninjaInstallPhase
[nix-shell]$ nix --version
nix (Nix) 2.12
For more information on running and filtering tests, see
testing.md
.
To build a release version of Nix for the current operating system and CPU architecture:
$ nix build
You can also build Nix for one of the supported platforms.
Platforms
Nix can be built for various platforms, as specified in flake.nix
:
x86_64-linux
x86_64-darwin
i686-linux
aarch64-linux
aarch64-darwin
armv6l-linux
armv7l-linux
riscv64-linux
In order to build Nix for a different platform than the one you're currently on, you need a way for your current Nix installation to build code for that platform. Common solutions include [remote build machines] and binary format emulation (only supported on NixOS).
Given such a setup, executing the build only requires selecting the respective attribute.
For example, to compile for aarch64-linux
:
$ nix-build --attr packages.aarch64-linux.default
or for Nix with the flakes
and nix-command
experimental features enabled:
$ nix build .#packages.aarch64-linux.default
Cross-compiled builds are available for:
armv6l-linux
armv7l-linux
riscv64-linux
Add more system types tocrossSystems
inflake.nix
to bootstrap Nix on unsupported platforms.
Building for multiple platforms at once
It is useful to perform multiple cross and native builds on the same source tree, for example to ensure that better support for one platform doesn't break the build for another. Meson thankfully makes this very easy by confining all build products to the build directory --- one simple shares the source directory between multiple build directories, each of which contains the build for Nix to a different platform.
Nixpkgs's mesonConfigurePhase
always chooses build
in the current directory as the name and location of the build.
This makes having multiple build directories slightly more inconvenient.
The good news is that Meson/Ninja seem to cope well with relocating the build directory after it is created.
Here's how to do that
-
Configure as usual
mesonConfigurePhase
-
Rename the build directory
cd .. # since `mesonConfigurePhase` cd'd inside mv build build-linux # or whatever name we want cd build-linux
-
Build as usual
ninjaBuildPhase
N.B.
nixpkgs#335818
tracks givingmesonConfigurePhase
proper support for custom build directories. When it is fixed, we can simplify these instructions and then remove this notice.
System type
Nix uses a string with the following format to identify the system type or platform it runs on:
<cpu>-<os>[-<abi>]
It is set when Nix is compiled for the given system, and based on the output of config.guess
(upstream):
<cpu>-<vendor>-<os>[<version>][-<abi>]
When Nix is built such that ./configure
is passed any of the --host
, --build
, --target
options, the value is based on the output of config.sub
(upstream):
<cpu>-<vendor>[-<kernel>]-<os>
For historic reasons and backward-compatibility, some CPU and OS identifiers are translated from the GNU Autotools naming convention in configure.ac
as follows:
config.guess |
Nix |
---|---|
amd64 |
x86_64 |
i*86 |
i686 |
arm6 |
arm6l |
arm7 |
arm7l |
linux-gnu* |
linux |
linux-musl* |
linux |
Compilation environments
Nix can be compiled using multiple environments:
stdenv
: default;gccStdenv
: force the use ofgcc
compiler;clangStdenv
: force the use ofclang
compiler;ccacheStdenv
: enable [ccache], a compiler cache to speed up compilation.
To build with one of those environments, you can use
$ nix build .#nix-ccacheStdenv
for flake-enabled Nix, or
$ nix-build --attr nix-ccacheStdenv
for classic Nix.
You can use any of the other supported environments in place of nix-ccacheStdenv
.
Editor integration
The clangd
LSP server is installed by default on the clang
-based devShell
s.
See supported compilation environments and instructions how to set up a shell with flakes or in classic Nix.
To use the LSP with your editor, you will want a compile_commands.json
file telling clangd
how we are compiling the code.
Meson's configure always produces this inside the build directory.
Configure your editor to use the clangd
from the .#native-clangStdenvPackages
shell. You can do that either by running it inside the development shell, or by using nix-direnv and the appropriate editor plugin.
Note
For some editors (e.g. Visual Studio Code), you may need to install a special extension for the editor to interact with
clangd
. Some other editors (e.g. Emacs, Vim) need a plugin to support LSP servers in general (e.g. lsp-mode for Emacs and vim-lsp for vim). Editor-specific setup is typically opinionated, so we will not cover it here in more detail.
Formatting and pre-commit hooks
You may run the formatters as a one-off using:
./maintainers/format.sh
If you'd like to run the formatters before every commit, install the hooks:
pre-commit-hooks-install
This installs pre-commit using cachix/git-hooks.nix.
When making a commit, pay attention to the console output.
If it fails, run git add --patch
to approve the suggestions and commit again.
To refresh pre-commit hook's config file, do the following:
- Exit the development shell and start it again by running
nix develop
. - If you also use the pre-commit hook, also run
pre-commit-hooks-install
again.