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    Go
  • License
    Apache License 2.0
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Repository Details

An archive-less dockerTools.buildImage implementation

nix2container

nix2container provides an efficient container development workflow with images built by Nix: it doesn't write tarballs to the Nix store and allows to skip already pushed layers (without having to rebuild them).

This is based on ideas developped in this blog post.

Getting started

{
  inputs.nix2container.url = "github:nlewo/nix2container";

  outputs = { self, nixpkgs, nix2container }: let
    pkgs = import nixpkgs { system = "x86_64-linux"; };
    nix2containerPkgs = nix2container.packages.x86_64-linux;
  in {
    packages.x86_64-linux.hello = nix2containerPkgs.nix2container.buildImage {
      name = "hello";
      config = {
        entrypoint = ["${pkgs.hello}/bin/hello"];
      };
    };
  };
}

This image can then be loaded into Docker with

$ nix run .#hello.copyToDockerDaemon
$ docker run hello:latest
Hello, world!

More Examples

To load and run the bash example image into Podman:

$ nix run github:nlewo/nix2container#examples.bash.copyToPodman
$ podman run -it bash

Functions documentation

nix2container.buildImage

Function arguments are:

  • name (required): the name of the image.

  • tag (defaults to the image output hash): the tag of the image.

  • config (defaults to {}): an attribute set describing an image configuration as defined in the OCI image specification.

  • copyToRoot (defaults to null): a derivation (or list of derivations) copied in the image root directory (store path prefixes /nix/store/hash-path are removed, in order to relocate them at the image /).

    pkgs.buildEnv can be used to build a derivation which has to be copied to the image root. For instance, to get bash and coreutils in the image /bin:

    copyToRoot = pkgs.buildEnv {
      name = "root";
      paths = [ pkgs.bashInteractive pkgs.coreutils ];
      pathsToLink = [ "/bin" ];
    };
    
  • fromImage (defaults to null): an image that is used as base image of this image; use pullImage or pullImageFromManifest to supply this.

  • maxLayers (defaults to 1): the maximum number of layers to create. This is based on the store path "popularity" as described in this blog post. Note this is applied on the image layers and not on layers added with the buildImage.layers attribute.

  • perms (defaults to []): a list of file permisssions which are set when the tar layer is created: these permissions are not written to the Nix store.

    Each element of this permission list is a dict such as

    { path = "a store path";
      regex = ".*";
      mode = "0664";
    }
    

    The mode is applied on a specific path. In this path subtree, the mode is then applied on all files matching the regex.

  • initializeNixDatabase (defaults to false): to initialize the Nix database with all store paths added into the image. Note this is only useful to run nix commands from the image, for instance to build an image used by a CI to run Nix builds.

  • layers (defaults to []): a list of layers built with the buildLayer function: if a store path in deps or contents belongs to one of these layers, this store path is skipped. This is pretty useful to isolate store paths that are often updated from more stable store paths, to speed up build and push time.

nix2container.pullImage

Pull an image from a container registry by name and tag/digest, storing the entirety of the image (manifest and layer tarballs) in a single store path. The supplied sha256 is the narhash of that store path.

Function arguments are:

  • imageName (required): the name of the image to pull.

  • imageDigest (required): the digest of the image to pull.

  • sha256 (required): the sha256 of the resulting fixed output derivation.

  • os (defaults to linux)

  • arch (defaults to x86_64)

  • tlsVerify (defaults to true)

nix2container.pullImageFromManifest

Pull a base image from a container registry using a supplied manifest file, and the hashes contained within it. The advantages of this over the basic pullImage:

  • Each layer archive is in its own store path, which means each will download just once and naturally deduplicate for multiple base images that share layers.
  • There is no Nix-specific hash, so it's possible update the base image by simply re-fetching the manifest.json from the registry; no need to actually pull the whole image just to compute a new narhash for it.

With this function the manifest.json acts as a lockfile meant to be stored in source control alongside the Nix container definitions. As a convenience, the manifest can be fetched/updated using the supplied passthru script, eg:

nix run .#examples.fromImageManifest.fromImage.getManifest > examples/alpine-manifest.json

Function arguments are:

  • imageName (required): the name of the image to pull.

  • imageManifest (required): the manifest file of the image to pull.

  • imageTag (defaults to latest)

  • os (defaults to linux)

  • arch (defaults to x86_64)

  • tlsVerify (defaults to true)

  • registryUrl (defaults to registry.hub.docker.com)

Note that imageTag, os, and arch do not affect the pulled image; that is governed entirely by the supplied manifest.json file. These arguments are used for the manifest-selection logic in the included getManifest script.

Authentication

If the Nix daemon is used for building, here is how to set up registry authentication.

  1. docker login URL to whatever it is
  2. Copy ~/.docker/config.json to /etc/nix/skopeo/auth.json
  3. Make the directory and all the files readable to the nixbld group:
    sudo chmod -R g+rx /etc/nix/skopeo
    sudo chgrp -R nixbld /etc/nix/skopeo
    
  4. Bind mount the file into the Nix build sandbox
    extra-sandbox-paths = /etc/skopeo/auth.json=/etc/nix/skopeo/auth.json
    

Every time a new registry authentication has to be added, update /etc/nix/skopeo/auth.json file.

nix2container.buildLayer

For most use cases, this function is not required. However, it could be useful to explicitly isolate some parts of the image in dedicated layers, for caching (see the "Isolate dependencies in dedicated layers" section) or non reproducibility (see the reproducible argument) purposes.

Function arguments are:

  • deps (defaults to []): a list of store paths to include in the layer.

  • copyToRoot (defaults to null): a derivation (or list of derivations) copied in the image root directory (store path prefixes /nix/store/hash-path are removed, in order to relocate them at the image /).

    pkgs.buildEnv can be used to build a derivation which has to be copied to the image root. For instance, to get bash and coreutils in the image /bin:

    copyToRoot = pkgs.buildEnv {
      name = "root";
      paths = [ pkgs.bashInteractive pkgs.coreutils ];
      pathsToLink = [ "/bin" ];
    };
    
  • reproducible (defaults to true): If false, the layer tarball is stored in the store path. This is useful when the layer dependencies are not bit reproducible: it allows to have the layer tarball and its hash in the same store path.

  • maxLayers (defaults to 1): the maximum number of layers to create. This is based on the store path "popularity" as described in this blog post. Note this is applied on the image layers and not on layers added with the buildLayer.layers attribute.

  • perms (defaults to []): a list of file permisssions which are set when the tar layer is created: these permissions are not written to the Nix store.

    Each element of this permission list is a dict such as

    { path = "a store path";
      regex = ".*";
      mode = "0664";
    }
    

    The mode is applied on a specific path. In this path subtree, the mode is then applied on all files matching the regex.

  • layers (defaults to []): a list of layers built with the buildLayer function: if a store path in deps or contents belongs to one of these layers, this store path is skipped. This is pretty useful to isolate store paths that are often updated from more stable store paths, to speed up build and push time.

  • ignore (defaults to null): a store path to ignore when building the layer. This is mainly useful to ignore the configuration file from the container layer.

Isolate dependencies in dedicated layers

It is possible to isolate application dependencies in a dedicated layer. This layer is built by its own derivation: if storepaths composing this layer don't change, the layer is not rebuilt. Moreover, Skopeo can avoid to push this layer if it has already been pushed.

Let's consider an application printing a conversation. This script depends on bash and the hello binary. Because most of the changes concern the script itself, it would be nice to isolate scripts dependencies in a dedicated layer: when we modify the script, we only need to rebuild and push the layer containing the script. The layer containing dependencies won't be rebuilt and pushed.

As shown below, the buildImage.layers attribute allows to explicitly specify a set of dependencies to isolate.

{ pkgs }:
let
  application = pkgs.writeScript "conversation" ''
    ${pkgs.hello}/bin/hello
    echo "Haaa aa... I'm dying!!!"
  '';
in
pkgs.nix2container.buildImage {
  name = "hello";
  config = {
    entrypoint = ["${pkgs.bash}/bin/bash" application];
  };
  layers = [
    (pkgs.nix2container.buildLayer { deps = [pkgs.bash pkgs.hello]; })
  ];
}

This image contains 2 layers: a layer with bash and hello closures and a second layer containing the script only.

In real life, the isolated layer can contains a Python environment or Node modules.

Quick and dirty benchmarks

The main goal of nix2container is to provide fast rebuild/push container cycles. In the following, we provide an order of magnitude of rebuild and repush time, for the uwsgi image.

warning: this is quick and dirty benchmarks which only provide an order of magnitude

We build the container and push the container. We then made a small change in the hello.py file to trigger a rebuild and a push.

Method Rebuild/repush time Executed command
nix2container.buildImage ~1.8s nix run .#example.uwsgi.copyToRegistry
dockerTools.streamLayeredImage ~7.5s nix build .#example.uwsgi | docker load
dockerTools.buildImage ~10s nix build .#example.uwsgi; skopeo copy docker-archive://./result docker://localhost:5000/uwsgi:latest

Note we could not compare the same distribution mechanisms because

  • Skopeo is not able to skip already loaded layers by the Docker daemon and
  • Skopeo failed to push to the registry an image streamed to stdin.

Run the tests

nix run .#tests.all

This builds several example images with Nix, loads them with Skopeo, runs them with Podman, and test output logs.

Not that, unfortunately, these tests are not executed in the Nix sandbox because it is currently not possible to run a container in the Nix sandbox.

It is also possible to run a specific test:

nix run .#tests.basic

The nix2container Go library

This library is currently used by the Skopeo nix transport available in this branch.

For more information, refer to the Go documentation.