bldr is a tool to build and package software distributions.
Build processruns in buildkit(or docker buildx), build result
can be exported as container image.
- Tests
- Link using rpath or static binaries
- Dependency resolution
- Leverage labels for things like:
- Switching the base dir install command (we default to alpine apk install for now).
We could add a label on the bldr container
bldr.io.base.distro=[alpine,ubuntu,centos,etc.] - Automatically detecting
toin a dependency. We can label the container on a build with what thefinalize.towas set to, and then automaticallyCOPYfrom that location.
- Switching the base dir install command (we default to alpine apk install for now).
We could add a label on the bldr container
- Subpackages
- Allow for packaging
includeandlibinto dedicated packages
- Allow for packaging
Given directory structure with Pkgfile and pkg.yaml
(see tools repository as an example),build can be triggered using following commands:
-
via
docker buildx:docker buildx build -f ./Pkgfile --target tools . -
via
buildkit:buildctl --frontend=dockerfile.v0 --local context=. --local dockerfile=. --opt filename=Pkgfile --opt target=tools
Each bldr invocation specifies a target package to build, it is set as --target flag for docker buildx and --opt target= option for buildctl. bldr frontend is launched, it loads Pkgfile and scans subdirectories for pkg.yaml files, resolves dependencies and produces LLB input which is executed in buildkit backend.
Result of execution is the target argument of the invocation.
Build output can be exported from buildkit using any of the methods supported by buildkit or docker buildx. By default, if output is not specified output is saved in buildkit cache only. This is still useful to test the build before pushing.
Most common output type is pushing to the registry:
-
via
docker buildx:docker buildx build -f ./Pkgfile --target tools --tag org/repo:version --push . -
via
buildctl:buildctl --frontend=dockerfile.v0 --local context=. --local dockerfile=. --opt filename=Pkgfile --opt target=tools --output type=image,name=docker.io/org/repo:version,push=true
Graph of dependencies could be generated via bldr CLI:
bldr graphThis command also accepts --target flag to graph only part of the tree
leading to the target:
bldr graph --target tools
bldr outputs graph in graphviz format which can be rendered to any image format via dot:
bldr graph | dot -Tpng > graph.png
This renders graph like:
Boxes with yellow background are external images as dependencies, white nodes are internal stages. Arrows present dependencies: regular arrows for build dependencies and green bold arrows for runtime dependencies.
bldr always validates pkg.yaml files while loading them and fails the build on errors.
Validation step could also be executed separately as the first step before running actual build:
bldr validatebldr expect following directory structure:
├── Pkgfile
├── vars.yaml
├── protobuf
│ ├── patches
│ │ └── musl-fix.patch
│ └── pkg.yaml
├── protoc-gen-go
│ ├── vars.yaml
│ └── pkg.yaml
├── python2
│ └── pkg.yaml
At the directory root there should be Pkgfile which triggers dockerfile frontend build and contains global options.
Each package resides in subdirectory with pkg.yaml file and any additional files used for the build processes (patches, additional files, sources, etc.)
Subdirectory structure could is flexible, bldr just looks for any subdirectory which has pkg.yaml file in it.
Subdirectory names are ignored.
Additional variables
# syntax = ghcr.io/siderolabs/bldr:v0.2.0-alpha.3-frontend
format: v1alpha2
vars:
TOOLCHAIN_IMAGE: ghcr.io/siderolabs/tools:v0.3.0-8-ge86a8f3
labels:
org.opencontainers.image.source: https://github.com/siderolabs/bldrFirst line of the file should always be magic comment which is picked up by dockerfile frontend of buildkit and redirects build to the bldr frontend.
Version tag should match version of the bldr you want to use.
Rest of the Pkgfile is regular YAML file with the following fields:
format(string, required): format of thepkg.yamlfiles, the only allowed value today isv1alpha2.vars(map[str]str, optional): set of variables which are used to processpkg.yamlas a template.labels(map[str]str, optional): labels to apply to the output images (only in frontend mode).
bldr parses Pkgfile as the first thing during the build, it should always
reside at the root of the build tree.
Any build arguments are added to the list of variables available with the prefix BUILD_ARG_.
For example, if the --build-arg=TAG=v1.0.0 is set, the variable BUILD_ARG_TAG: v1.0.0 will be set at the
global level.
Package is a subdirectory with pkg.yaml file in it.
├── protobuf
│ ├── patches
│ │ └── musl-fix.patch
│ ├── pkg.yaml
│ └── vars.yaml
Any additional files in the directory are copied into the build and are available under /pkg subdirectory.
For example, during the build the patch file above will be copied as /pkg/patches/musl-fix.patch.
vars.yaml contains set of variables which can be used as in the pkg.yaml template.
The file vars.yaml is templated using variables from the Pkgfile, build arguments and any vars.yaml on the upper
levels of the tree.
So variables can be deeply nested and use values from any level above.
When pkg.yaml is templated, all variables available in the directory level matching pkg.yaml are available.
pkg.yaml describes build for a single package:
name: bison
variant: alpine
install:
- m4
shell: /bin/sh
dependencies:
- images: "{{ .TOOLCHAIN_IMAGE }}"
- stage: perl
steps:
- sources:
- url: https://ftp.gnu.org/gnu/bison/bison-3.0.5.tar.xz
destination: bison.tar.xz
sha256: 075cef2e814642e30e10e8155e93022e4a91ca38a65aa1d5467d4e969f97f338
sha512: 00b448db8abe91b07e32ff5273c6617bc1350d806f92073a9472f4c2f0de5d22c152795674171b74f2eb9eff8d36f8173b82dacb215601bb071ae39404d4a8a2
cachePaths:
- /.cache/go-build
- /go/pkg
prepare:
- tar -xJf bison.tar.xz --strip-components=1
- mkdir build
- cd build
- |
../configure \
--prefix=${TOOLCHAIN} \
FORCE_UNSAFE_CONFIGURE=1
build:
- cd build
- make -j $(nproc)
install:
- cd build
- make DESTDIR=/rootfs install
finalize:
- from: /rootfs
to: /Before loading pkg.yaml, bldr runs file contents through Go template engine providing merged list of built-in variables (see below) and variables provided in Pkgfile.
Most common syntax is to render variable value with {{ .<variable_name> }}.
Due to the YAML syntax limitations, such constructs should be quoted if they start YAML value: "{{ .VARIABLE }}".
Additionally, hermetic text functions from Sprig collection are available.
On the root level, following properties are available:
name(str, required): name of the package, also used to reference this package from other packages as dependency.variant(str, optional): variant of the base image of the build. Two variants are available:alpine: Alpine Linux 3.16 image withbashpackage pre-installedscratch: scratch (empty) image Default variant isalpine.
install: (list, optional): list of Alpine packages to be installed as part of the build. These packages are usually build dependencies.shell: (str, optional): path to the shell to execute build step instructions, defaults to/bin/sh.
Section dependencies lists build artifacts this package depends on.
There are two kinds of dependencies: external and internal.
External dependencies are container images which are copied into the build.
Internal dependencies are references to other packages (by their name:) of the same build tree.
Internal dependencies are resolved by bldr and buildkit and cached if there're no changes.
Internal dependencies might be intermediate (never exported from the build) or they might be self-contained and exported from the build.
Internal dependency:
- stage: gcc
runtime: false
from: /
to: /External dependency:
- image: ghcr.io/siderolabs/tools:v0.3.0-8-ge86a8f3
runtime: false
to: /Properties:
stage(str, internal dependency): name of other package this package depends on. Circular dependencies are not allowed. Contents of the stage are poured into the build at the location specified withto:parameter.image(str, external dependency): reference to the registry container image this package depends on. Contents of the image are poured into the build at the location specified withto:parameter.platform(str, optional): platform to override for theimageorstage. If not set, defaults to the platform of the build.runtime(bool, optional): if set, marks dependency as runtime. This means that when this package is pulled in into the build, all the runtime dependencies are pulled in automatically as well. This also applies to transitive runtime dependencies.from(str, optional, default/): base path to copy from the dependency.to(str, optional, default/): location to copy dependency contents to.
Build process consists of the sequence of steps. Each step is composed out of phases: download sources, set environment variables, prepare, build, install and test. Each step runs in its own temporary directory. This temporary directory is set as working directory for the duration of the step.
- sources:
- url: https://dl.google.com/go/go1.13.1.src.tar.gz
destination: go.src.tar.gz
sha256: 81f154e69544b9fa92b1475ff5f11e64270260d46e7e36c34aafc8bc96209358
sha512: 696fc735271bd76ae59c5015c8efa52121243257f4ffcc1460fd79cf9a5e167db0b30d04137ec71a8789742673c2288bd62d55b546c2d2b2a05e8b3669af8616
env:
GOROOT_BOOTSTRAP: '{{ .TOOLCHAIN }}/go_bootstrap'
GOROOT_FINAL: '{{ .TOOLCHAIN }}/go'
CGO_ENABLED: '0'
prepare:
- tar -xzf go.src.tar.gz --strip-components=1
build:
- cd src && sh make.bash
install:
- rm -rf pkg/obj
- rm -rf pkg/bootstrap
- rm -f pkg/tool/*/api
- |
find src \( -type f -a -name "*_test.go" \) \
-exec rm -rf \{\} \+
- |
find src \( -type d -a -name "testdata" \) \
-exec rm -rf \{\} \+
- |
find src -type f -a \( -name "*.bash" -o -name "*.rc" -o -name "*.bat" \) \
-exec rm -rf \{\} \+
- mkdir -p "/rootfs${GOROOT_FINAL}"
- mv * "/rootfs${GOROOT_FINAL}"Top-level keys describing phases are (all phases are optional):
sources(download)env(environment variables)cachePaths(a list of cache mount paths to be used across builds)prepare(shell script)build(shell script)install(shell script)test(shell script)
Download phase is described in sources section:
url(str, required): HTTP(S) URL of the object to download.destination(str, required): destination file name under the build step temporary directory.sha256,sha512(str, required): checksums for the downloaded object.
Section env adds additional environment variables to the build.
These environment variables persist to the steps following this one.
Sections prepare, build, install and test list set of shell instructions to perform the build.
They consist of a list of shell instruction.
Each instruction is executed as LLB stage, so in terms of caching it's better to split into multiple instructions, but instructions don't share shell state (so cd in one instruction won't affect another).
Each instruction is executed as a shell script, so any complex shell constructs can be used.
Scripts are executed with options set -eou pipefail.
Step finalize performs final copying of the build artifacts into scratch image which will be output of the build.
There might be multiple finalize instructions in the package, they are executed sequentially.
- from: /rootfs
to: /from(str, optional): copy source, defaults to/to(str, optional): copy destination, defaults to/
Finalize instruction {"from": "/", "to": "/"} copies full build contents as output image, but usually it doesn't make sense to include build temporary files and build dependencies into the package output.
Usual trick to install build result under designated initially empty prefix (e.g. /rootfs) and set only contents of that prefix as build output.
If SOURCE_DATE_EPOCH build argument is set, bldr will update timestamps of all files copied in the finalize step to the value of SOURCE_DATE_EPOCH.
Variables are made available to the templating engine when processing pkg.yaml contents and also pushed into the build as environment variables.
Default variables:
CFLAGS="-g0 -Os"
CXXFLAGS="-g0 -Os"
LDFLAGS="-s"
VENDOR="talos"
SYSROOT="/talos"
TOOLCHAIN="/toolchain"
PATH="/toolchain/bin:/bin:/usr/bin:/sbin:/usr/sbin"Platform variables depend on build/host platform, for linux/amd64 they will be:
BUILD=x86_64-linux-musl
HOST=x86_64-linux-musl
ARCH=x86_64
TARGET=x86_64-talos-linux-muslWhen translated to LLB, build flow is the following:
- Base image (depends on
variant:): either scratch image or Apline Linux withbashpre-installed (/bin/shis a symlink to/bin/bash). - Default environment variables are set.
- Alpine packages are installed (
install:section), this makes sense only forvariant: alpine. - Local context (contents of package subdirectory except for
pkg.yaml) are copied into/pkgdirectory in the build. - Dependencies are copied into the build, including transitive runtime dependencies (if any).
- For each step:
- Temporary directory is created (as working directory).
- All the
sources:are downloaded, checksums are verified. - Step-specific environment is set (leaks to the following steps).
- Step instructions are executed for each phase:
prepare,build,install,test.
- Finalize steps are performed.
When internal stage as referenced as dependency, LLB for that step is also emitted and linked into the flow.
Due to the way LLB is executed, some steps might be executed out of order if they don't have all the dependent steps already completed. For example, downloads happen first concurrently. Dependencies of a stage might be also executed concurrently.
When developing bldr, going via dockerfile frontend mode is not always the best way as it requires pushing frontend image each time any change is done.
To help with development flow, bldr CLI supports llb command which emits LLB directly which can be piped into buildctl:
bldr llb --root . --target tools | buildctl build --local context=.LLB generated in this mode is equivalent to the LLB generated via dockerfile frontend.