My solution:

let

  nixFilesInDirectory = directory:
    (
      map (file: "${directory}/${file}")
      (
        builtins.filter
          (
            nodeName:
              (builtins.isList (builtins.match ".+\.nix$" nodeName)) &&
              # checking that it is NOT a directory by seeing
              # if the node name forcefully used as a directory is an invalid path
              (!builtins.pathExists "${directory}/${nodeName}/.")
          )
          (builtins.attrNames (builtins.readDir directory))
      )
    );

  nixFilesInDirectories = directoryList:
    (
      builtins.concatMap
        (directory: nixFilesInDirectory directory)
        (directoryList)
    );
  # ...
in {
  imports = nixFilesInDirectories ([
      "${./programs}"
      "${./programs/terminal-niceties}"
  ]);
  # ...
}

snippet from the full source code: quazar-omega/home-manager-config (L5-L26)

credits:


I’m trying out Nix Home Manager and learning its features little by little.
I’ve been trying to split my app configurations into their own files now and saw that many do the following:

  1. Make a directory containing all the app specific configurations:
programs/
└── helix.nix
  1. Make a catch-all file default.nix that selectively imports the files inside:
programs/
├── default.nix
└── helix.nix

Content:

{
  imports = [
    ./helix.nix
  ];
}
  1. Import the directory (picking up the default.nix) within the home-manager configuration:
{
  # some stuff...
  imports = [
    ./programs
  ];
 # some other stuff...
}

I’d like to avoid having to write each and every file I’ll create into the imports of default.nix, that kinda defeats the point of separating it if I’ll have to specify everything anyway, so is there a way to do so? I haven’t found different ways to do this in various Nix discussions.


Example I’m looking at: https://github.com/fufexan/dotfiles/blob/main/home/terminal/default.nix

My own repository: https://codeberg.org/quazar-omega/home-manager-config

  • QuazarOmega@lemy.lolOP
    link
    fedilink
    English
    arrow-up
    2
    ·
    edit-2
    6 months ago

    Thanks for the input! I figured there would be a reason why nobody seems to be doing it, but I still struggle to understand, at least for my current use case.
    What I’m trying to achieve for now is a solid configuration for my own user on any machine, I’m not trying to (and can’t) manage my own system currently as I’m using Fedora Kinoite as the host with only the Nix package manager installed. For now I haven’t had the chance to make machine specific configurations but I’m wondering, if on top of how it works now, we could write something like imports = [ ./programs/* ] and have all Nix files in that directory be imported, wouldn’t that be a good feature to have? Maybe you do have multiple machines, but maybe you also have several directories from where you will want to import everything regardless of the machine, sure you could make just one file for those if you’re not going to make distinctions, but I don’t want to put everything in one file because it would just get huge, whereas several files that do one thing are just easier to reason about to me.

    common collection of modules which must be imported everywhere

    That sounds interesting, do you have any examples I can refer to to know how to do that?

    Because NixOS/HM modules are monoidal, they often factor nicely.

    What does that mean exactly? I’m not really knowledgeable about functional programming, though that plus the rest of paragraph makes me think of how definitions are “composable” (maybe not the right word) in the sense that you can append and override options that are defined in other imported files without nullifying what was defined in them, is that it?

    • Corbin
      link
      fedilink
      English
      arrow-up
      3
      ·
      6 months ago

      Oh, right, monoids! Yes, you understand correctly.

      A monoid is a collection of objects that has some sort of addition and zero. (Depending on your maths background, it might equivalently have some sort of multiplication and unit.) Addition must be associative, and addition with zero must not have any effect. Monoids let us think of a system as built from a sequence of operations; each operation adds to the system, preparing its state incrementally.

      Sometimes monoids are commutative, which means that the order of additions is irrelevant to the result. Commutative monoids let us think of a system as built from a collection of operations without worrying about the order in which those operations are applied.

      NixOS modules (and HM modules, etc.) are commutative monoids. The zero is {}. The module system lets options declare their own monoids which ride along, like my example of allowedTCPPorts. Because we can combine sets of port numbers (with set union) and get more sets, we can factor a set of ports into many smaller subsets and put each one in their own file. Here’s my shortest module, for an internal Docker registry, docker-registry.nix:

      {
        networking.firewall.allowedTCPPorts = [ 5000 ];
        services.dockerRegistry = {
          enable = true;
          enableGarbageCollect = true;
        };
      }
      
      • QuazarOmega@lemy.lolOP
        link
        fedilink
        English
        arrow-up
        2
        ·
        6 months ago

        I don’t have much of a math background, but that makes a lot of sense when talking about the application here! I like the explanation

    • Corbin
      link
      fedilink
      English
      arrow-up
      2
      ·
      6 months ago

      I’m adding some code snippets from my homelab’s flake. Minor details are changed. Note how I have a core.nix and also separate files for adding Avahi (zeroconf) and SSH, and for fixing bufferbloat. I could have them as one file, but it’s easier to come back to them after several years this way. (bufferbloat.nix was last changed in December 2021, for example.)

      I know that some of this code style probably seems weird. Think of it as heavily inspired by Puppet, Chef, Ansible, HCL, etc.; when we are configuring a system, it is very very nice to be able to comment out a single line at a time.

      Click to see code!

      Some common modules, bundled into a NixOS module:

          commonModules = {
            imports = [
              nixpkgs.nixosModules.notDetected
              ./avahi.nix
              ./bufferbloat.nix
              ./core.nix
              ./ssh.nix
            ];
            nix.registry.nixpkgs.flake = self.inputs.nixpkgs;
            nixpkgs.config.packageOverrides = pkgs: {
              mumble = pkgs.mumble.override {
                pulseSupport = true;
              };
            };
            users.users.corbin = {
              isNormalUser = true;
              extraGroups = [ "wheel" ]; # Enable ‘sudo’ for the user.
            };
          };
      

      A NixOS machine definition:

            joker = nixpkgs.lib.nixosSystem {
              inherit system;
              modules = [
                commonModules
                ./joker/configuration.nix
                ./gl.nix
                ./sound.nix
                ./wifi.nix
                ./xserver.nix
              ];
            };
      
      • QuazarOmega@lemy.lolOP
        link
        fedilink
        English
        arrow-up
        2
        ·
        6 months ago

        I see, that’s really neat!
        So joker is the name for one of the machines right? If so, how do you select that particular section in the actual machine’s config?

        Also, the code style seems normal to me? I’m not very familiar with Nix though, so maybe that’s why I don’t spot the weirdnesses

        • Corbin
          link
          fedilink
          English
          arrow-up
          2
          ·
          6 months ago

          The flake exports look like outputs.nixosConfigurations.joker, each one matching a hostname. There’s a poorly-documented feature of nixos-rebuild where you can point it at a flake with --flake and it will try to use the configuration matching the current hostname. So, I make the flake available on each machine and customize it using the hostname. One flake, a dozen machines. Works well enough for a homelab but would not work for a large cloud deployment.