Victor Fuentes
d7762a5a78
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Work in progress cross compiler for x86_64. I've managed to get a full x86_64 gcc using the binaries built from foundation, and am working on implementing their builds into tidepool. ### Bootstrapping steps 0) Start with i686 tools (gcc, binutils, musl, etc) 1) Build binutils targeting x86_64-linux 2) Build a minimal gcc cross compiler using the cross binutils. This minimal cross compiler does not have support for libc, so is pretty much only useful for building musl or glibc. 3) Use the minimal cross compiler to build x86_64-linux glibc or musl 4) Now that we have a cross compiler and x86_64-linux libc, we can build gcc for the target architecture! 5) Profit! We can now build anything x86_64 using our gcc compiler! Co-authored-by: Jake Hamilton <jake.hamilton@hey.com> Reviewed-on: #8 Reviewed-by: Jake Hamilton <jake.hamilton@hey.com> Co-authored-by: Victor Fuentes <vmfuentes64@gmail.com> Co-committed-by: Victor Fuentes <vmfuentes64@gmail.com> |
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default.nix | ||
flake.lock | ||
flake.nix | ||
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README.md |
Aux Foundation
Aux Foundation provides a set of foundational packages which are required for bootstrapping a larger package set.
Usage
Packages can be imported both with and without Nix Flakes. To import them using Nix Flakes, add this repository as an input.
inputs.foundation.url = "https://git.auxolotl.org/auxolotl/labs/archive/main.tar.gz?dir=foundation";
To import this library without using Nix Flakes, you will need to use fetchTarball
and
import the library entrypoint.
let
labs = builtins.fetchTarball {
url = "https://git.auxolotl.org/auxolotl/labs/archive/main.tar.gz";
sha256 = "<sha256>";
};
foundation = import "${labs}/foundation" {
# Specifying a system is optional. By default it will use the current system.
system = "i686-linux";
};
in
# ...
Development
This foundational package set is created using modules. Each builder and package is separated accordingly and can be found in their respective directories. In addition, packages are grouped into the different stages of the bootstrapping process.
Inputs
Due to the fundamental nature of this project, the only accepted input is lib
which itself
has no dependencies. Everything else must be built from scratch in the package set.
Formatting
Note
To keep this flake light and keep its inputs empty we do not include a package set which would provide a formatter. Instead please run
nix run nixpkgs#nixfmt-rfc-style
until an improved solution is available.
All code in this project must be formatted using the provided formatter in the flake.nix
file. You can run this formatter using the command nix fmt
(not currently available).
Code Quality
In order to keep the project approachable and easy to maintain, certain patterns are not allowed.
In particular, the use of with
and rec
are not allowed. Additionally, you should prefer the
fully qualified name of a variable rather than creating intermediate ones using inherit
.
Builders
Builders are wrappers around builtins.derivation
and provide additional functionality via
abstraction. They can be found in ./src/builders
. Each builder specifies
its own build
function which can be called elsewhere in the package set to construct packages.
For example, here is a module that makes use of the kaem
builder:
{config}: let
builders = config.aux.foundation.builders;
stage0 = config.aux.foundation.stages.stage0;
package = builders.kaem.build {
name = "my-package";
deps.build.host = [
stage0.mescc-tools.package
stage0.mescc-tools-extra.package
];
script = ''
mkdir ''${out}/bin
cp ${./my-binary} ''${out}/bin/my-package
chmod 555 ''${out}/bin/my-package
'';
};
in
# ...
Stages
The bootstrapping process is broken up into different stages which focus on different goals.
Each stage can be found in ./src/stages
.
Stage 0
This stage is responsible for starting with a single binary seed and producing the tools necessary to compile (simple) C code. This stage will then compile the original tools it used from C sources.
Stage 1
This stage is responsible for building up to a recent version of gcc
. Along with the
compiler, this stage provides things like bash
, coreutils
, gnumake
, and several
other important tools.
Stage 2
This stage refines the existing packages by building static binaries as well as the most recent
versions of the tools. In addition, certain load-bearing packages such as patchelf
and glibc
are built.