forked from vieter-v/vieter
149 lines
4.5 KiB
V
149 lines
4.5 KiB
V
module build
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import docker
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import encoding.base64
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import time
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import git
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import os
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const container_build_dir = '/build'
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const build_image_repo = 'vieter-build'
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// create_build_image creates a builder image given some base image which can
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// then be used to build & package Arch images. It mostly just updates the
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// system, install some necessary packages & creates a non-root user to run
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// makepkg with. The base image should be some Linux distribution that uses
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// Pacman as its package manager.
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pub fn create_build_image(base_image string) ?string {
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commands := [
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// Update repos & install required packages
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'pacman -Syu --needed --noconfirm base-devel git'
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// Add a non-root user to run makepkg
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'groupadd -g 1000 builder',
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'useradd -mg builder builder'
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// Make sure they can use sudo without a password
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"echo 'builder ALL=(ALL) NOPASSWD: ALL' >> /etc/sudoers"
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// Create the directory for the builds & make it writeable for the
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// build user
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'mkdir /build',
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'chown -R builder:builder /build',
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]
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cmds_str := base64.encode_str(commands.join('\n'))
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c := docker.NewContainer{
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image: base_image
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env: ['BUILD_SCRIPT=$cmds_str']
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entrypoint: ['/bin/sh', '-c']
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cmd: ['echo \$BUILD_SCRIPT | base64 -d | /bin/sh -e']
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}
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// This check is needed so the user can pass "archlinux" without passing a
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// tag & make it still work
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image_parts := base_image.split_nth(':', 2)
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image_name := image_parts[0]
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image_tag := if image_parts.len > 1 { image_parts[1] } else { 'latest' }
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// We pull the provided image
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docker.pull_image(image_name, image_tag) ?
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id := docker.create_container(c) ?
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docker.start_container(id) ?
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// This loop waits until the container has stopped, so we can remove it after
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for {
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data := docker.inspect_container(id) ?
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if !data.state.running {
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break
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}
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time.sleep(1 * time.second)
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}
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// Finally, we create the image from the container
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// As the tag, we use the epoch value
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// TODO also add the base image's name into the image name to prevent
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// conflicts.
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tag := time.sys_mono_now().str()
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image := docker.create_image_from_container(id, 'vieter-build', tag) ?
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docker.remove_container(id) ?
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return image.id
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}
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// build_repo builds, packages & publishes a given Arch package based on the
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// provided GitRepo. The base image ID should be of an image previously created
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// by create_build_image.
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pub fn build_repo(address string, api_key string, base_image_id string, repo &git.GitRepo) ? {
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build_arch := os.uname().machine
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// TODO what to do with PKGBUILDs that build multiple packages?
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commands := [
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'git clone --single-branch --depth 1 --branch $repo.branch $repo.url repo',
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'cd repo',
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'makepkg --nobuild --nodeps',
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'source PKGBUILD',
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// The build container checks whether the package is already
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// present on the server
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'curl --head --fail $address/$repo.repo/$build_arch/\$pkgname-\$pkgver-\$pkgrel && exit 0',
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'MAKEFLAGS="-j\$(nproc)" makepkg -s --noconfirm --needed && for pkg in \$(ls -1 *.pkg*); do curl -XPOST -T "\$pkg" -H "X-API-KEY: \$API_KEY" $address/$repo.repo/publish; done',
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]
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// We convert the list of commands into a base64 string, which then gets
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// passed to the container as an env var
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cmds_str := base64.encode_str(commands.join('\n'))
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c := docker.NewContainer{
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image: '$base_image_id'
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env: ['BUILD_SCRIPT=$cmds_str', 'API_KEY=$api_key']
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entrypoint: ['/bin/sh', '-c']
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cmd: ['echo \$BUILD_SCRIPT | base64 -d | /bin/bash -e']
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work_dir: '/build'
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user: 'builder:builder'
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}
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id := docker.create_container(c) ?
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docker.start_container(id) ?
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// This loop waits until the container has stopped, so we can remove it after
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for {
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data := docker.inspect_container(id) ?
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if !data.state.running {
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break
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}
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time.sleep(1 * time.second)
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}
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docker.remove_container(id) ?
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}
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// build builds every Git repo in the server's list.
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fn build(conf Config) ? {
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build_arch := os.uname().machine
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// We get the repos map from the Vieter instance
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repos_map := git.get_repos(conf.address, conf.api_key) ?
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// We filter out any repos that aren't allowed to be built on this
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// architecture
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filtered_repos := repos_map.keys().map(repos_map[it]).filter(it.arch.contains(build_arch))
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// No point in doing work if there's no repos present
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if filtered_repos.len == 0 {
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return
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}
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// First, we create a base image which has updated repos n stuff
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image_id := create_build_image(conf.base_image) ?
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for repo in filtered_repos {
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build_repo(conf.address, conf.api_key, image_id, repo) ?
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}
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// Finally, we remove the builder image
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docker.remove_image(image_id) ?
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}
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