BlueBuild's command line program that builds Containerfiles and custom images based on your recipe.yml.
The bluebuild
tool takes advantage of newer build features. Specifically bind, cache, and tmpfs mounts on the RUN
instructions. We support using the following tools and their versions:
- Docker - v23 and above
- Podman - v4 and above
- Buildah - v1.24 and above
Every image created with bluebuild
comes with the CLI installed. If you have not built and booted a bluebuild
created image, you can follow these instructions to install it.
This is the best way to install as it gives you the opportunity to build for your specific environment.
cargo install --locked blue-build
This will install the binary on your system in /usr/local/bin
.
podman run --pull always --rm ghcr.io/blue-build/cli:latest-installer | bash
docker run --pull always --rm ghcr.io/blue-build/cli:latest-installer | bash
bash <(curl -s https://raw.githubusercontent.com/blue-build/cli/main/install.sh)
We package an alpine
image with all the tools needed to run bluebuild
. You can use distrobox
to run the application without needing to install it on your machine. You can clone this repo locally and run:
distrobox assemble create
This will export bluebuild
to your local machine and allow you to build images and test out your recipes. For security reasons, we keep this as a rootless image which means you will not be able to use this method to locally rebase to an image. If you want that capability, you should install the CLI tool directly.
Refer to the distrobox documentation for more information.
You can install this CLI through the Nix flake on Flakehub
You can install BlueBuild to your global package environment on non-nixos systems by running
# you can replace "*" with a specific tag
nix profile install https://flakehub.com/f/bluebuild/cli/*.tar.gz#bluebuild
If you are using a dedicated flake to manage your dependencies, you can add BlueBuild as a flake input throught the fh cli (that can be installed through nixpkgs) and add bluebuild
to it.
{pkgs,inputs,...}: {
...
environment.SystemPackages = [
inputs.bluebuild.packages.${pkgs.system}.bluebuild # change bluebuild with the fh added input name
];
...
}
If you are not using a dedicated nix flake, you can add the BlueBuild flake as a variable inside your /etc/nixos/*.nix
configuration, though this requires you to run nixos-rebuild
with the --impure
variable, it is not advisable to do so.
{pkgs,...}:
let
bluebuild = builtins.fetchTarball "https://flakehub.com/f/bluebuild/cli/*.tar.gz";
in {
...
environment.SystemPackages = [
bluebuild.packages.${pkgs.system}.bluebuild
];
...
}
You can also use nix develop .#
in this repos directory to run a nix shell with development dependencies and some helful utilities for building BlueBuild!
Once you have the CLI tool installed, you can run the following to pull in your recipe file to generate a Containerfile
.
bluebuild generate -o <CONTAINERFILE> <RECIPE_FILE>
You can then use this with podman
or buildah
to build and publish your image. Further options can be viewed by running bluebuild template --help
If you don't care about the details of the template, you can run the build
command.
bluebuild build ./recipes/recipe.yaml
This will template out the file and build with buildah
or podman
.
The bluebuild completions
command generates shell completions, printed to stdout. These completions can be stored for integration in your shell environment. For example, on a system with bash-completion installed:
# user completions
$ bluebuild completions bash > ~/.local/share/bash-completion/completions/bluebuild
# system-wide completions
$ bluebuild completions bash | sudo tee /usr/share/bash-completion/completions/bluebuild
Subsequent invocations of bluebuild
will respond to <Tab>
autocompletions:
$ bluebuild # press <Tab>
-v -V --help template bug-report
-q --verbose --version upgrade completions
-h --quiet build rebase help
Currently, bluebuild completions are available for bash
, zsh
, fish
, powershell
, and elvish
shell environments. Please follow your shell's documentation for completion scripts.
If you want to test your changes, you can do so by using the rebase
command. This will create an image as a .tar.gz
file, store it in /etc/bluebuild
, an run rpm-ostree rebase
on that newly built file.
sudo bluebuild rebase recipes/recipe.yml
You can initiate an immediate restart by adding the --reboot/-r
option.
When you've rebased onto a local image archive, you can update your image for your recipe by running:
sudo bluebuild upgrade recipes/recipe.yml
The --reboot
argument can be used with this command as well.
NOTE: This is an unstable feature and can only be used when installing from the
main
image or with theswitch
feature flag when compiling.
With the switch command, you can build and boot an image locally using an oci-archive
tarball. The switch
command can be run as a normal user and will only ask for sudo
permissions when moving the archive into /etc/bluebuild
.
bluebuild switch recipes/recipe.yml
You can initiate an immediate restart by adding the --reboot/-r
option.
You can use our GitHub Action by using the following .github/workflows/build.yaml
:
name: bluebuild
on:
schedule:
- cron: "00 17 * * *" # build at 17:00 UTC every day
# (20 minutes after last ublue images start building)
push:
paths-ignore: # don't rebuild if only documentation has changed
- "**.md"
pull_request:
workflow_dispatch: # allow manually triggering builds
jobs:
bluebuild:
name: Build Custom Image
runs-on: ubuntu-latest
permissions:
contents: read
packages: write
id-token: write
strategy:
fail-fast: false # stop GH from cancelling all matrix builds if one fails
matrix:
recipe:
# !! Add your recipes here
- recipe.yml
steps:
# the build is fully handled by the reusable github action
- name: Build Custom Image
uses: blue-build/github-action@v1.0.0
with:
recipe: ${{ matrix.recipe }}
cosign_private_key: ${{ secrets.SIGNING_SECRET }}
registry_token: ${{ github.token }}
pr_event_number: ${{ github.event.number }}
We also support GitLab CI! Fun fact, this project started out as a way to build these images in GitLab. You will want to make use of GitLab's Secure Files feature for using your cosign private key for signing. Here's an example of a .gitlab-ci.yml
:
workflow:
rules:
- if: $CI_COMMIT_BRANCH && $CI_OPEN_MERGE_REQUESTS && $CI_PIPELINE_SOURCE == "push"
when: never
- if: "$CI_COMMIT_TAG"
- if: $CI_PIPELINE_SOURCE == "merge_request_event"
- if: "$CI_COMMIT_BRANCH && $CI_OPEN_MERGE_REQUESTS"
when: never
- if: "$CI_COMMIT_BRANCH"
stages:
- build
build-image:
stage: build
image:
name: ghcr.io/blue-build/cli:main
entrypoint: [""]
services:
- docker:dind
parallel:
matrix:
- RECIPE:
# Add your recipe files here
- recipe.yml
variables:
# Setup a secure connection with docker-in-docker service
# https://docs.gitlab.com/ee/ci/docker/using_docker_build.html
DOCKER_HOST: tcp://docker:2376
DOCKER_TLS_CERTDIR: /certs
DOCKER_TLS_VERIFY: 1
DOCKER_CERT_PATH: $DOCKER_TLS_CERTDIR/client
before_script:
# Pulls secure files into the build
- curl --silent "https://gitlab.com/gitlab-org/incubation-engineering/mobile-devops/download-secure-files/-/raw/main/installer" | bash
- export COSIGN_PRIVATE_KEY=$(cat .secure_files/cosign.key)
script:
- sleep 5 # Wait a bit for the docker-in-docker service to start
- bluebuild build --push ./recipes/$RECIPE