``` ______ __ __ / ____/__ ____ ____ ____/ /__ ____ / / ____ ______ / / __/ _ \/ __ \/ __ \/ __ / _ \/ __ \/ / / __ `/ ___/ / /_/ / __/ / / / /_/ / /_/ / __/ /_/ / , \ /_/ (__ ) \____/\___/_/ /_/\____/\__,_/\___/ .___/_/ \_\_, /____/ /_/ /____/ ``` [Genodepkgs](https://git.sr.ht/~ehmry/genodepkgs) is nexus of [Nix](https://nixos.org/nix/) expressions related to the [Genode OS framework](https://genode.org). # System description format The high-level interface to system building are boot descriptions. These Dhall documents describe the configuration of an [Init](https://genode.org/documentation/genode-foundations/19.05/system_configuration/The_init_component.html) instance and a store of ROM (Read-Only Memory) modules. These description can be used to build firmware-like binary images or merged and nested within other descriptions. In theory these descriptions can arrange file-systems, but those functions are missing. The description schema is documented as code: https://git.sr.ht/~ehmry/dhall-genode/tree/master/Boot/package.dhall # Package manifests Software packages are described my manifest documents, which can be used to build the ROM map in boot descriptions. This manifests can be automatically generated and made available within Nix builds and dev-shells via environmental variables. This may seem awkward, but consider that this is to support building firmware systems without a $PATH or even a file-system. An example manifest: ```dhall { bin = { init = { mapKey = "init", mapValue = "/nix/store/.../bin/init" } , vfs = { mapKey = "vfs", mapValue = "/nix/store/.../bin/vfs" } } , lib = { vfs = { mapKey = "vfs.lib.so", mapValue = "/nix/store/.../lib/vfs.lib.so" } } } ``` Referenced in a boot configuration: ```dhall let m = env:MANIFEST -- take the manifest from the shell environment let rom = Genode.Boot.toRomPaths [ m.bin.init, m.bin.vfs, m.lib.vfs ] in { config = Genode.Init.default, rom = rom } : Genode.Boot.Type ``` # Contributing At the moment every user needs to also act as distro developer, designing how packaging works needs to be done before packages can be submitted at will. Patches can be submitted and issues reported via the [mailing list](https://lists.sr.ht/~ehmry/genodepkgs). The mailing list is the minimum viable mechanism for community development, and may be replaced later. The worksites at the moment are: - Generation of documentation on internal types and functions. By generating a comprehensive single document early, we should be able to refactor and prune the internals faster. - Testing framework for simple and multi-machine tests. - Patching standard Nixpkgs packages via an overlay. Workflow and tooling needs to be explored for building emulated UNIX environments. - LLVM testing and upstreaming patches. - Formalizing Dhall configuration types. - Configuration validation via a service routing prover. # Nix Flakes This repository is structured as a Nix flake, which is an experimental extension of Nix tooling. The flakes capable Nix frontend is available from Nixpkgs as `nixFlakes`. ## Switching to flakes All users regardless of distro must add the following to *~/.config/nix/nix.conf* to enable flakes: ``` experimental-features = nix-command flakes ca-references ``` NixOS users may switch to flakes using the following configuration: ```nix { pkgs, ... }: { nix.package = pkgs.nixFlakes; # The following enables the use of a binary cache nix.binaryCaches = [ "https://cache.server7.hq.c3d2.de" ]; nix.binaryCachePublicKeys = [ "cache.server7.hq.c3d2.de:x8JLRG26zRZ8ysYZLEkPxuAYuK1VSJi/aMAEIs2Lv+U=" ]; } ``` Non-NixOS users may install flakes using the following shell commands: ```sh $ curl https://nixos.org/nix/install | sh $ nix-env -iA nixpkgs.nixFlakes ``` Add will want to add this to their */etc/nix/nix.conf* file: ``` substituters = https://cache.nixos.org/ https://cache.server7.hq.c3d2.de/ trusted-public-keys = cache.nixos.org-1:6NCHdD59X431o0gWypbMrAURkbJ16ZPMQFGspcDShjY= cache.server7.hq.c3d2.de:x8JLRG26zRZ8ysYZLEkPxuAYuK1VSJi/aMAEIs2Lv+U= ``` ## Building from flakes ### As a user ```sh $ nix flake add genodepkgs git+https://git.sr.ht/~ehmry/genodepkgs $ nix build genodepkgs#checks.x86_64-linux-x86_64-genode.nova-pci # View the log if the result is already cached: $ nix log genodepkgs#checks.x86_64-linux-x86_64-genode.nova-pci ``` ### As a hacker ```sh $ git clone https://git.sr.ht/~ehmry/genodepkgs $ cd genodepkgs $ nix build .#checks.x86_64-linux-x86_64-genode.nova-pci # View the log if the result is already cached: $ nix log .#checks.x86_64-linux-x86_64-genode.nova-pci ``` # 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. # Building Bootstrapping the build tooling can take several hours on a laptop, therefore it is recommended enable the binary caches and to farm massive rebuilds to large multicore machines. The Nix flake is prepared for continous builds with a [Hydra](https://nixos.org/hydra/), but only the experimental flakes capable Hydra. ## C3D2 Hydra A publicly available Hydra is provided by [CCC Dresden](https://c3d2.de) at https://server7.hq.c3d2.de/. The machine is only reachable over IPv6 and therefore inaccessible to SculptOS. # 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 a `localSystem` 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 as `localSystem`. For software that runs baremetal the CPU is signficant but ABI is irrelevant. - `buildPlatform` - equilavent to `localSystem`. - `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 evaulation of flakes may only form directed graphs. Repositories packaged here may themselves contain a `flake.nix` file that refers to this repository, but these repositories cannot be inputs to the Genodepkgs flake. - *Package* - *undefined* # Legal This repository is for trivial packaging aljebra and metadata that exists only for the sake of richer and more meaningful code in external repositories. All works committed to this repository, unless otherwise noted, shall be implicitly licensed under a [CC0 1.0](https://creativecommons.org/publicdomain/zero/1.0/deed) public domain dedication. ![CC0 PUBLIC DOMAIN](.CC0-1.0.png)