nix-super/doc/flakes/design.md
2019-07-11 13:54:53 +02:00

16 KiB

Nix Flake MVP

Goals

  • Standard and easy way for Nix repos to reference other Nix repos as dependencies

  • Discoverability: Be able to query and update these references to Nix repos automatically

  • To provide a replacement for nix-channel, NIX_PATH and Hydra jobset definitions

  • Reproducibility: Evaluate packages and NixOS configurations hermetic by default

Upcoming but not yet implemented:

  • Sophisticated flake versioning, such as the ability to specify version ranges on dependencies.

  • A way to specify the types of values provided by a flake. For the most part, flakes can provide arbitrary Nix values, but there will be some standard attribute names (e.g. packages must be a set of installable derivations).

Overview

  • A flake is (usually) a Git repository that contains a file named flake.nix at top-level

  • A flake provides an attribute set of values, such as packages, Nixpkgs overlays, NixOS modules, library functions, Hydra jobs, nix-shell definitions, etc.

  • Flakes can depend on other flakes or other repositories which aren't flakes

  • Flakes are referred to using a flake reference, which is either a URL specifying its repository's location or an identifier looked up in a lock file or flake registry.

  • A flake registry is a mapping from flake identifiers to flake locations (e.g. nixpkgs -> github:NixOS/nixpkgs/release-18.09). There is a centrally maintained flake registry on nixos.org.

  • A flake can contain a lock file (flake.lock) used when resolving the dependencies in flake.nix. It maps mutable flake references (e.g. github:NixOS/nixpkgs/release-18.09) to references containing revisions (e.g. nixpkgs -> github:NixOS/nixpkgs/98a2a5b5370c1e2092d09cb38b9dcff6d98a109f).

  • The nix command uses the flake registry as its default installation source. For example, nix build nixpkgs.hello builds the hello package provided by the nixpkgs flake listed in the registry. nix will automatically download/upload the registry and flakes as needed.

  • nix build without arguments will build the flake in the current directory (or some parent).

  • nix flake update generates flake.lock from flake.nix, ignoring the old lockfile.

  • nixos-rebuild will build a configuration from a (locked) flake. Evaluation is done in pure mode to ensure there are no unaccounted inputs. Thus the NixOS configuration can be reproduced unambiguously from the top-level flake.

  • Nix code can query flake metadata such as commitHash (the Git revision) or edition (the date of the last commit). This is useful for NixOS to compute the NixOS version string (which will be the revision of the top-level configuration flake, uniquely identifying the configuration).

  • Hydra jobset configurations will consist of a single flake reference. Thus we can get rid of jobset inputs; any other needed repositories can be fetched by the top-level flake. The top-level flake can be locked or unlocked; if some dependencies are unlocked, then Nix will fetch the latest revision for each.

Example flake

Let us look at an example of a flake.nix file, here for dwarffs, a small repository that provides a single package and a single NixOS module.

{
  # The flake identifier.
  name = "dwarffs";

  # The edition may be used in the future to determine how Nix
  # expressions inside this flake are to be parsed.
  edition = 201906;

  # Some other metadata.
  description = "A filesystem that fetches DWARF debug info from the Internet on demand";

  # The flake dependencies. Nix will resolve and fetch these flakes and pass
  # them as a function argument to `outputs` below.
  #
  # "nixpkgs" denotes a flake named `nixpkgs` which is looked up
  # in the flake registry, or in `flake.lock` inside this flake, if it
  # exists.
  inputs = [ flake:nixpkgs ];

  # An attribute set listing dependencies which aren't flakes, also to be passed as
  # a function argument to `provides`.
  nonFlakeRequires = {};

  # The stuff provided by this flake. Flakes can provide whatever they
  # want (convention over configuration), but some attributes have
  # special meaning to tools / other flakes. For example, `packages`
  # is used by the `nix` CLI to search for packages, and
  # `nixosModules` is used by NixOS to automatically pull in the
  # modules provided by a flake.
  #
  # `outputs` takes a single argument (`deps`) that contains
  # the resolved set of flakes. (See below.)
  outputs = deps: {

    # This is searched by `nix`, so something like `nix install
    # dwarffs.dwarffs` resolves to this `packages.dwarffs`.
    packages.dwarffs =
      with deps.nixpkgs.packages;
      with deps.nixpkgs.builders;
      with deps.nixpkgs.lib;

      stdenv.mkDerivation {
        name = "dwarffs-0.1";

        buildInputs = [ fuse nix nlohmann_json boost ];

        NIX_CFLAGS_COMPILE = "-I ${nix.dev}/include/nix -include ${nix.dev}/include/nix/config.h -D_FILE_OFFSET_BITS=64";

        src = cleanSource ./.;

        installPhase =
          ''
            mkdir -p $out/bin $out/lib/systemd/system

            cp dwarffs $out/bin/
            ln -s dwarffs $out/bin/mount.fuse.dwarffs

            cp ${./run-dwarffs.mount} $out/lib/systemd/system/run-dwarffs.mount
            cp ${./run-dwarffs.automount} $out/lib/systemd/system/run-dwarffs.automount
          '';
      };

    # NixOS modules.
    nixosModules.dwarffs = import ./module.nix deps;

    # Provide a single Hydra job (`hydraJobs.dwarffs`).
    hydraJobs.build.x86_64-linux = packages.dwarffs;

    # A bunch of things which can be checked (through `nix flake check`) to
    # make sure the flake is well-defined.
    checks.build = packages.dwarffs;
  };
}

Similarly, a minimal flake.nix for Nixpkgs:

{
  name = "nixpkgs";

  edition = 201906;

  description = "A collection of packages for the Nix package manager";

  outputs = deps:
    let pkgs = import ./. {}; in
    let pkgs = import ./. { system = "x86_64-linux"; }; in
    {
      lib = (import ./lib) // {
        nixosSystem = import ./nixos/lib/eval-config.nix;
      };

      builders = {
        inherit (pkgs) stdenv fetchurl;
      };

      packages = {
        inherit (pkgs) hello nix fuse nlohmann_json boost;
      };

      legacyPkgs = pkgs;
    };
}

Note that packages is an unpolluted set of packages: non-package values like lib or fetchurl are not part of it.

Flake registries

Note: If a flake registry contains an entry nixpkgs -> github:NixOS/nixpkgs, then nixpkgs/release-18.09 will match to become github:NixOS/nixpkgs/release-18.09. This is referred to as "fuzzymatching".

Flake references

Flake references are a URI-like syntax to specify the physical location of a flake (e.g. a Git repository) or to denote a lookup in the flake registry or lock file. There are four options for the syntax:

  • Flake aliases A flake alias is a name which requires a lookup in a flake registry or lock file.

    Example: "nixpkgs"

  • GitHub repositories A repository which is stored on GitHub can easily be fetched using this type. Note:

    • Only the code in this particular commit is downloaded, not the entire repo
    • By default, the commit to download is the last commit on the master branch. See later for how to change this.

    Example: github:NixOS/nixpkgs

  • ssh/https/git/file These are generic FlakeRefs for downloadding git repositories or tarballs.

    Examples:

  • Local, dirty paths This FlakeRef is the equivalent of file://<path> used for dirty paths.

    Example: /path/to/my/repo

Notes:

  • Each FlakeRef (except for the Path option) allows for a Git revision (i.e. commit hash) and/or referenceo(i.e. git branch name) to be added. For tarbals, an SRI hash needs to be added. Examples:
    • "nixpkgs/release-18.09"
    • github:NixOS/nixpkgs/1e9e709953e315ab004951248b186ac8e2306451
    • git://github.com/edolstra/dwarffs.git?ref=flake&rev=2efca4bc9da70fb001b26c3dc858c6397d3c4817
    • file:///.tar.xz(?hash=)
  • In full pure mode, no mutable FlakeRefs can be used
    • No aliases, because they need to be looked up
    • github requires a specified rev
    • ssh/https/git/file require a specified ref and rev
    • path is always mutable
  • Flakes don't need to be top-level, but can also reside in a subdirectory. This is shown by adding dir=<subdir> to the FlakeRef. Example: ./foo?dir=bar

Flake lock files

A lockfile is a JSON file named flake.lock which contains a forrest of entries mapping FlakeRefs to the immutable FlakeRef they were resolved to.

Example:

{
  "nixpkgs": {
    "uri": "github:NixOS/nixpkgs/41c0c1bf292ea3ac3858ff393b49ca1123dbd553",
    "content-hash": "sha256-vy2UmXQM66aS/Kn2tCtjt9RwxfBvV+nQVb5tJQFwi8E="
  },
  "foo": {
    "uri": "https://example.org/foo.tar.xz?hash=sha256-56bbc099995ea8581ead78f22832fee7dbcb0a0b6319293d8c2d0aef5379397c",
    "content-hash": "sha256-vy2UmXQM66aS/Kn2tCtjt9RwxfBvV+nQVb5tJQFwi8E="
  }
}

Lockfiles are used to help resolve the dependencies of a flake.

  • nix build github:<..> uses the remote lockfile and update it
  • nix build /home/user/dwarffs uses the local lockfile, updates it and writes the result to file
  • nix flake update <flakeref> recreates the lockfile from scratch and writes it to file
  • --no-registries makes the command pure, also when fetching dependencies
  • --no-save-lock-file: Several commands will update the lockfile (e.g. nix build). This flag prevents the updated lockfile to be written to file.
  • --recreate-lock-file makes prevents the current lockfile from being used

outputs

The function argument deps is an attrset containing all dependencies listed in requires and nonFlakeRequires as well as path (for the flake's source code) and an attribute meta with:

  • description
  • commitHash (not for tarball flakes): The Git commit hash.
  • date: The timestamp of the most recent commit (for Git repos), or of the most recently modified file (for tarballs)
  • revCount (for Git flakes, but not GitHub flakes): The number of ancestors of the revision. Useful for generating version strings.

The flake attribute outputs is a function that takes an argument named deps and returns an attribute set. Some of the members of this set have protected names:

  • packages: A set of installable derivations used by the nix command. That is, commands such as nix install ignore all other flake attributes. It cannot be a nested set.

  • hydraJobs: Used by Hydra.

  • nixosModules: An attrset of NixOS modules.

  • nixosSystems: An attrset of calls to evalModules, i.e. things that nixos-rebuild can switch to. (Maybe this is superfluous, but we need to avoid a situation where nixos-rebuild needs to fetch its own nixpkgs just to do evalModules.)

  • devShell: A derivation to create a development environment

  • self: The result of the flake's output which is passed to itself Example: self.outputs.foo works.

Flake registry

A flake registry is a JSON file mapping flake references to flake references. The default/global registry is kept at https://github.com/NixOS/flake-registry/blob/master/flake-registry.json and looks like this:

{
    "flakes": {
        "dwarffs": {
            "uri": "github:edolstra/dwarffs/flake"
        },
        "nix": {
            "uri": "github:NixOS/nix/flakes"
        },
        "nixpkgs": {
            "uri": "github:edolstra/nixpkgs/release-19.03"
        },
        "hydra": {
            "uri": "github:NixOS/hydra/flake"
        },
        "patchelf": {
            "uri": "github:NixOS/patchelf"
        }
    },
    "version": 1
}

Nix automatically (re)downloads this file whenever you have network access. The downloaded file is a GC root so the registry remains available if nixos.org is unreachable.

In addition to a global registry, there is also a user registry stored in ~/.config/nix/registry.json.

Nix UI

There is a list of new commands added to the nix CLI:

  • nix flake list: Show all flakes in the registry

  • nix flake add <alias FlakeRef> <resolved FlakeRef>: Add or override a flake to/in the user flake registry.

  • nix flake remove <alias FlakeRef>: Remove a FlakeRef from the user flake registry.

  • nix flake pin <alias FlakeRef>: Look up to which immutable FlakeRef the alias FlakeRef maps to currently, and store that map in the user registry. Example: nix flake pin github:NixOS/nixpkgs will create an entry github:NixOS/nixpkgs -> github:NixOS/nixpkgs/444f22ca892a873f76acd88d5d55bdc24ed08757.

  • nix flake init: Create a flake.nix in the current directory

  • nix flake update: Recreate the lock file from scratch, from the flake.nix.

  • nix flake check: Do some checks on the flake, e.g. check that all packages are really packages.

  • nix flake clone: git clone the flake repo

Flags / configuration options:

  • --flakes (<alias FlakeRef>=<resolved FlakeRef>)*: add/override some FlakeRef

  • --flake <flake-ref>: set the specified flake as the installation source E.g. nix build --flake ./my-nixpkgs hello.

The default installation source in nix is the packages from all flakes in the registry, that is:

builtins.mapAttrs (flakeName: flakeInfo:
  (getFlake flakeInfo.uri).${flakeName}.outputs.packages or {})
  builtins.flakeRegistry

where builtins.flakeRegistry is the global registry with user overrides applied, and builtins.getFlake downloads a flake and resolves its dependencies.

Pure evaluation and caching

Flake evaluation is done in pure mode. Thus:

  • Flakes cannot use NIX_PATH via the <...> syntax.

  • Flakes cannot read random stuff from non-flake directories, such as ~/.nix/config.nix or overlays.

This enables aggressive caching or precomputation of Nixpkgs package sets. For example, for a particular Nixpkgs flake closure (as identified by, say, a hash of the fully-qualified flake references after dependency resolution) and system type, an attribute like packages.hello should always evaluate to the same derivation. So we can:

  • Keep a local evaluation cache (say ~/.cache/nix/eval-cache-v1.sqlite) mapping (<flake-closure-hash, <attribute>) -> (<drv-name>, <drv-output-paths>, <whatever other info we want to cache>).

  • Download a precomputed cache, e.g. https://releases.nixos.org/eval/<flake-closure-hash>.sqlite. So a command like nix search could avoid evaluating Nixpkgs entirely.

Of course, this doesn't allow overlays. With pure evaluation, the only way to have these is to define a top-level flake that depends on the Nixpkgs flake and somehow passes in a set of overlays.

Hydra jobset dependencies

Hydra can use the flake dependency resolution mechanism to fetch dependencies. This allows us to get rid of jobset configuration in the web interface: a jobset only requires a flake reference. That is, a jobset is a flake. Hydra then just builds the hydraJobs attrset

NixOS system configuration

NixOS currently contains a lot of modules that really should be moved into their own repositories. For example, it contains a Hydra module that duplicates the one in the Hydra repository. Also, we want reproducible evaluation for NixOS system configurations. So NixOS system configurations should be stored as flakes in (local) Git repositories.

my-system/flake.nix:

{
  name = "my-system";

  edition = 201906;

  inputs =
    [ "nixpkgs/nixos-18.09"
      "dwarffs"
      "hydra"
      ... lots of other module flakes ...
    ];

  outputs = flakes: {
    nixosSystems.default =
      flakes.nixpkgs.lib.evalModules {
        modules =
          [ { networking.firewall.enable = true;
              hydra.useSubstitutes = true;
            }
            # The latter could be extracted automatically from `flakes`.
            flakes.dwarffs.nixosModules.dwarffs
            flakes.hydra.nixosModules.hydra
          ];
      };
  };
}

We can then build the system:

nixos-rebuild switch --flake ~/my-system

This performs dependency resolution starting at ~/my-system/flake.nix and builds the system attribute in nixosSystems.default.