README.tpl.md

Naersk

Build Rust projects with ease!

• Introduction
• Setup
• Usage
• Examples
• Tips & Tricks

Status: project's working!

Introduction

Naersk is a Nix library for building Rust projects - basically, you write:

naersk.buildPackage {
  src = ./.; # Wherever your Cargo.lock and the rest of your source code are
}

... and that turns your code into a Nix derivation which you can, for instance, include in your system:

environment.systemPackages = [
  (naersk.buildPackage {
    src = ./my-cool-app;
  })
];

# (see below for more complete examples)

Under the hood, buildPackage parses Cargo.lock, downloads all dependencies, and compiles your application, fully utilizing Nix's sandboxing and caching abilities; so, with a pinch of salt, Naersk is cargo build, but inside Nix!

If you're using Hydra, you can rely on Naersk as well because it doesn't use IFD - all the parsing happens directly inside Nix code.

Setup

Using Flakes

$ nix flake init -t github:nix-community/naersk
$ nix flake lock

Alternatively, store this as flake.nix in your repository:

{
  inputs = {
    flake-utils.url = "github:numtide/flake-utils";
    naersk.url = "github:nix-community/naersk";
    nixpkgs.url = "github:NixOS/nixpkgs/nixpkgs-unstable";
  };

  outputs = { self, flake-utils, naersk, nixpkgs }:
    flake-utils.lib.eachDefaultSystem (system:
      let
        pkgs = (import nixpkgs) {
          inherit system;
        };

        naersk' = pkgs.callPackage naersk {};

      in rec {
        # For `nix build` & `nix run`:
        defaultPackage = naersk'.buildPackage {
          src = ./.;
        };

        # For `nix develop` (optional, can be skipped):
        devShell = pkgs.mkShell {
          nativeBuildInputs = with pkgs; [ rustc cargo ];
        };
      }
    );
}

This assumes flake.nix is created next to Cargo.toml & Cargo.lock - if that's not the case for you, adjust ./. in naersk'.buildPackage.

Note that Naersk by default ignores the rust-toolchain file, using whatever Rust compiler version is present in nixpkgs.

If you have a custom rust-toolchain file, you can make Naersk use it this way:

{
  inputs = {
    flake-utils.url = "github:numtide/flake-utils";
    naersk.url = "github:nix-community/naersk";

    nixpkgs-mozilla = {
      url = "github:mozilla/nixpkgs-mozilla";
      flake = false;
    };
  };

  outputs = { self, flake-utils, naersk, nixpkgs, nixpkgs-mozilla }:
    flake-utils.lib.eachDefaultSystem (system:
      let
        pkgs = (import nixpkgs) {
          inherit system;

          overlays = [
            (import nixpkgs-mozilla)
          ];
        };

        toolchain = (pkgs.rustChannelOf {
          rustToolchain = ./rust-toolchain;
          sha256 = "";
          #        ^ After you run `nix build`, replace this with the actual
          #          hash from the error message
        }).rust;

        naersk' = pkgs.callPackage naersk {
          cargo = toolchain;
          rustc = toolchain;
        };

      in rec {
        # For `nix build` & `nix run`:
        defaultPackage = naersk'.buildPackage {
          src = ./.;
        };

        # For `nix develop` (optional, can be skipped):
        devShell = pkgs.mkShell {
          nativeBuildInputs = [ toolchain ];
        };
      }
    );
}

Using Niv

$ niv init
$ niv add nix-community/naersk

... and then create default.nix with:

let
  pkgs = import <nixpkgs> {};
  sources = import ./nix/sources.nix;
  naersk = pkgs.callPackage sources.naersk {};

in
  naersk.buildPackage ./.

This assumes default.nix is created next to Cargo.toml & Cargo.lock - if that's not the case for you, adjust ./. in naersk.buildPackage.

Note that Naersk by default ignores the rust-toolchain file, using whatever Rust compiler version is present in nixpkgs.

If you have a custom rust-toolchain file, you can make Naersk use it this way:

$ niv add mozilla/nixpkgs-mozilla

... and then:

let
  sources = import ./nix/sources.nix;
  nixpkgs-mozilla = import sources.nixpkgs-mozilla;

  pkgs = import sources.nixpkgs {
    overlays = [
      nixpkgs-mozilla
    ];
  };

  toolchain = (pkgs.rustChannelOf {
    rustToolchain = ./rust-toolchain;
    sha256 = "";
    #        ^ After you run `nix-build`, replace this with the actual
    #          hash from the error message
  }).rust;

  naersk = pkgs.callPackage sources.naersk {
    cargo = toolchain;
    rustc = toolchain;
  };

in
  naersk.buildPackage ./.

Usage

Naersk provides a function called buildPackage that takes an attribute set describing your application's directory, its dependencies etc. - in general, the usage is:

naersk.buildPackage {
  # Assuming there's `Cargo.toml` right in this directory:
  src = ./.;

  someOption = "yass";
  someOtherOption = false;
  CARGO_ENVIRONMENTAL_VARIABLE = "test";
}

Some of the options (described below) are used by Naersk to affect the building process, rest is passed-through into mkDerivation.

Note that you shouldn't call overrideAttrs on a derivation built by Naersk (see the note on overrideAttrs below).

buildPackage's parameters

{{ params }}

Note on overrideAttrs

When you call buildPackage, Naersk internally builds two derivations: one that compiles all of your application's dependencies and then another one that compiles just your application.

It's done this way to improve compilation speed when you build your program for the second time etc., because then if only your application's code has changed (and Cargo.toml & Cargo.lock stayed the same), Naersk doesn't have to rebuild your dependencies.

This mechanism has a shortcoming, though - in particular, you shouldn't use overrideAttrs to inject something into the build environment:

{ pkgs, naersk, ... }:

let
  app = naersk.buildPackage {
    src = ./.;
  };

in
app.overrideAttrs (p: {
  buildInputs = p.buildInputs + [ pkgs.cmake ];
  SOME_ENV_VAR = "yes";
})

... because that will inject it only into the app-derivation, leaving it inaccessible for your dependencies to use.

Instead, you should pass the parameters directly into the buildPackage invocation:

{ pkgs, naersk, ... }:

naersk.buildPackage {
  src = ./.;
  buildInputs = [ pkgs.cmake ];
  SOME_ENV_VAR = "yes";
}

... or use override, if the names conflict with something already reserved by Naersk:

{ pkgs, naersk, ... }:

naersk.buildPackage {
  src = ./.;

  override = p: {
    # ...
  };
}

... or, if you really have to call overrideAttrs on the final derivation, you should disable the incremental-compilation mechanism:

{ pkgs, naersk, ... }:

let
  app = naersk.buildPackage {
    src = ./.;
    singleStep = true; # here
  };

in
app.overrideAttrs (p: {
  buildInputs = p.buildInputs + [ pkgs.cmake ];
})

(it's just an optimization so there's no harm in disabling it, Naersk should produce the same binary anyway.)

Examples

See: ./examples.

Tips & Tricks

Building a particular example

If you want to build only a particular example, use:

naersk.buildPackage {
  pname = "your-example-name";
  src = ./.;

  overrideMain = old: {
    preConfigure = ''
      cargo_build_options="$cargo_build_options --example your-example-name"
    '';
  };
}

Using CMake

If your application uses CMake, the build process might fail, saying:

CMake Error: The current CMakeCache.txt directory ... is different than the directory ... where CMakeCache.txt was created.

You can fix this problem by removing stale CMakeCache.txt files before the build:

naersk.buildPackage {
  # ...

  preBuild = ''
    find \
        -name CMakeCache.txt \
        -exec rm {} \;
  '';
}

(context)