module build import docker import encoding.base64 import time import git import os const container_build_dir = '/build' const build_image_repo = 'vieter-build' fn create_build_image(base_image string) ?string { commands := [ // Update repos & install required packages 'pacman -Syu --needed --noconfirm base-devel git' // Add a non-root user to run makepkg 'groupadd -g 1000 builder', 'useradd -mg builder builder' // Make sure they can use sudo without a password "echo 'builder ALL=(ALL) NOPASSWD: ALL' >> /etc/sudoers" // Create the directory for the builds & make it writeable for the // build user 'mkdir /build', 'chown -R builder:builder /build', ] cmds_str := base64.encode_str(commands.join('\n')) c := docker.NewContainer{ image: base_image env: ['BUILD_SCRIPT=$cmds_str'] entrypoint: ['/bin/sh', '-c'] cmd: ['echo \$BUILD_SCRIPT | base64 -d | /bin/sh -e'] } // This check is needed so the user can pass "archlinux" without passing a // tag & make it still work image_parts := base_image.split_nth(':', 2) image_name := image_parts[0] image_tag := if image_parts.len > 1 { image_parts[1] } else { 'latest' } // We pull the provided image docker.pull_image(image_name, image_tag) ? id := docker.create_container(c) ? docker.start_container(id) ? // This loop waits until the container has stopped, so we can remove it after for { data := docker.inspect_container(id) ? if !data.state.running { break } // Wait for 5 seconds time.sleep(5000000000) } // Finally, we create the image from the container // As the tag, we use the epoch value tag := time.sys_mono_now().str() image := docker.create_image_from_container(id, 'vieter-build', tag) ? docker.remove_container(id) ? return image.id } fn build(conf Config) ? { build_arch := os.uname().machine // We get the repos map from the Vieter instance repos_map := git.get_repos(conf.address, conf.api_key) ? // We filter out any repos that aren't allowed to be built on this // architecture filtered_repos := repos_map.keys().map(repos_map[it]).filter(it.arch.contains(build_arch)) // No point in doing work if there's no repos present if filtered_repos.len == 0 { return } // First, we create a base image which has updated repos n stuff image_id := create_build_image(conf.base_image) ? for repo in filtered_repos { // TODO what to do with PKGBUILDs that build multiple packages? commands := [ 'git clone --single-branch --depth 1 --branch $repo.branch $repo.url repo', 'cd repo', 'makepkg --nobuild --nodeps', 'source PKGBUILD', // The build container checks whether the package is already // present on the server 'curl --head --fail $conf.address/$repo.repo/$build_arch/\$pkgname-\$pkgver-\$pkgrel && exit 0', 'MAKEFLAGS="-j\$(nproc)" makepkg -s --noconfirm --needed && for pkg in \$(ls -1 *.pkg*); do curl -XPOST -T "\$pkg" -H "X-API-KEY: \$API_KEY" $conf.address/$repo.repo/publish; done', ] // We convert the list of commands into a base64 string, which then gets // passed to the container as an env var cmds_str := base64.encode_str(commands.join('\n')) c := docker.NewContainer{ image: '$image_id' env: ['BUILD_SCRIPT=$cmds_str', 'API_KEY=$conf.api_key'] entrypoint: ['/bin/sh', '-c'] cmd: ['echo \$BUILD_SCRIPT | base64 -d | /bin/bash -e'] work_dir: '/build' user: 'builder:builder' } id := docker.create_container(c) ? docker.start_container(id) ? // This loop waits until the container has stopped, so we can remove it after for { data := docker.inspect_container(id) ? if !data.state.running { break } // Wait for 5 seconds time.sleep(5000000000) } docker.remove_container(id) ? } // Finally, we remove the builder image docker.remove_image(image_id) ? }