7.2 KiB
`` ______ __ __
` / ____/__ ____ ____ ____/ /__ ____ / / ____ ______
/ / __/ _ \/ __ \/ __ \/ __ / _ \/ __ \/ / / __ `/ ___/
/ /_/ / __/ / / / /_/ / /_/ / __/ /_/ / , \ /_/ (__ )
` \____/\___/_/ /_/\____/\__,_/\___/ .___/_/ \_\_, /____/
`` /_/ /____/
Genodepkgs is nexus of Nix expressions related to the Genode OS framework.
Repository layout
-
Native packages are at packages
-
Existing Nixpkgs packages are patched at overlay
-
Tests are at tests
-
NixOS modules at nixos-modules
Contributing
Patches can be submitted and issues reported via the mailing list. The mailing list is the minimum viable mechanism for community development, and may be replaced later.
Issues may also be reported at the ticket tracker.
Nix Flakes
This repository is structured as a Nix flake, which is an experimental extension of Nix tooling. See https://www.tweag.io/posts/2020-05-25-flakes.html for an introduction and tutorial.
Build Caching
A binary cache is graciously provided by Cachix, the following link provides instructions for enabling: https://app.cachix.org/cache/genodepkgs
Building from flakes
$ git clone https://git.sr.ht/~ehmry/genodepkgs
$ cd genodepkgs
$ nix build .#checks.x86_64-linux.nova-x86
# View the log if the result is already cached:
$ nix log .#checks.x86_64-linux.nova-x86
Packaging
Packaging is done using standard Nixpkgs methods, a stdenv
is available for
cross-compilation. See Solo5 as an example.
Cross-compiling Nixpkgs
Some existing packages from Nixpkgs can be built with little or no modification.
Nixpkgs is available at the path .#legacyPackages.x86_64-linux-x86_64-genode
(or …-aarch64-genode
) and modifications to packages are made at an
overlay. Some packages need patched, others require
additional features added to the Genode libc.
Packages that run on Linux as well as Genode should not be packaged here, those should be added to Nixpkgs.
Toolchain
The Genode Labs toolchain is available here only for Linux and in binary form. However, an experimental LLVM cross-compiler is provided here. Bootstrapping GCC has not been practical due to its recursive autotools build system.
The enter a shell with the toolchain:
nix shell .#legacyPackages.x86_64-linux-x86_64-genode.stdenv.cc
x86_64-unknown-genode-clang++ -v
Tips and tricks
How to build a Genode make target?
let flake = builtins.getFlake "genodepkgs";
in flake.packages.x86_64-linux-x86_64-genode.genodeSources.make "app/ping"
How to build a Genode depot package?
let flake = builtins.getFlake "genodepkgs";
in flake.packages.x86_64-linux-x86_64-genode.genodeSources.depot "wifi_drv"
How to add missing ports to a depot package?
The missing ports as indicated by a depot build failure must be added to targets.nix. To continue from the previous example, this would be sufficient:
{
wifi_drv = { portInputs = [ dde_linux libc openssl ]; };
}
How to add undefined ports?
Should a required port not be defined, it must be added to ports.nix. Initially it should be sufficient to define the port as an empty attribute set, run the build again, and then add the hash found in the successive build error.
To continue from the previous example:
{
dde_linux = { };
}
And after the reattempting the build a fixed-output hash should be produced, this must now be added to the port definitions.
{
dde_linux = {
hash = "sha256-3G5Mprv9ZBNhDJRuVF6Nrkp3KbFaN10IKFq0OdyAY9M="; };
}
Should the port preparation fail do to missing utilities, these must be added to
the port definition using a nativeBuildInputs
attribute.
Note that the hash checked into ports.nix
is an output hash. The port hash
within the Genode source tree is an explicit input hash and the output of
the port preparation is non-deterministic.
Enter an environment compatible with the Genode Labs build scripts
nix dev-shell genodepkgs
cd $GENODE_DIR
make -C build/x86_64 run/bomb
Glossary
Some of terms that follow are necessary for understanding packaging methodology, Others are simply introduced as an aid to the reader:
-
Upstream - repositories packaged by expressions in this repository
-
Downstream - repositories depending on this repository
-
OS ABI - The binary interface to an operating system. In the case of Genode this does not include kernel interfaces, as system calls are abstracted via dynamically linked procedures.
-
localSystem
- the CPU and OS ABI pair used to evaluate and compile packages. Genode cannot natively instantiate Nix derivations, therefore it cannot be alocalSystem
ABI. -
crossSystem
- the target CPU and OS ABI pair for packages. In the common case the ABI will be Genode. In the case of tooling it may be the same aslocalSystem
. For software that runs bare-metal the CPU is significant but ABI is irrelevant. -
buildPlatform
- equivalent tolocalSystem
. -
hostPlatform
- the platform on which a package will execute. -
targetPlatform
- the platform for which a package will produce artifacts. This is only significant for software such as compilers. The respective build, host, and target platform of a compiler that was built on a Solaris, executes on Genode, and produces only Haiku binaries would be Solaris, Genode, and Haiku. -
Flake - a code repository containing a
flake.nix
file describing dependency repositories. The evaluation of flakes may only form ascyclic graphs. Repositories packaged here may themselves contain aflake.nix
file that refers to this repository, but these repositories cannot be inputs to the Genodepkgs flake. -
Genode core - Genode component of highest privilege. The core is located conceptually at the bottom and root of the component tree. Core might be directly above the kernel, or acting as the kernel. The role of core is a subset of the role of the kernel in a monolithic system.
-
Lower - lowering a subsystem is moving it closer to the Genode core and increasing privilege.
-
Raise - raising a subsystem is moving it further away from the Genode core and decreasing privilege.
-
Package - undefined
Legal
This repository is published under MIT licensing consistent with Nixpkgs.
Note: MIT license does not apply to the packages built by Nixpkgs, merely to the files in this repository (the Nix expressions, build scripts, NixOS modules, etc.). It also might not apply to patches included in Nixpkgs, which may be derivative works of the packages to which they apply. The aforementioned artifacts are all covered by the licenses of the respective packages.