32880fa518
https://www.openssl.org/ Is a well known cryptography library and since freshly released version 3.2 it also supports variable digest size of blake2b, so we can now add it among the crypto providers. Configure with --with-crypto=openssl. Signed-off-by: David Sterba <dsterba@suse.com> |
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actions | ||
images | ||
README.md | ||
build-default | ||
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ci-build-centos8 | ||
ci-build-leap153 | ||
ci-build-leap154 | ||
ci-build-musl | ||
ci-build-musl-i386 | ||
ci-build-tumbleweed |
README.md
CI
Continuous integration, testing inside containers. Most of the btrfs-progs functionality is in user space and does not need a virtual machine. The features supported by the running kernel are detected and tests skipped eventually.
Quick start
- install docker, add
"storage-driver": "btrfs"
to /etc/docker/daemon.json, make sure your user is in group docker, start the service - pull all images by
ci/images/images-base-update
, this can take time - build all images for testing by
ci/images/images-build-all
, or individually in the ci/images/ci-* directories - build current branch and test it in the docker image by running
ci/ci-build-musl
from the top directory (this will create a fresh tar archive inside the docker sources and the image must be rebuilt) ci/ci-build-*
scripts to build on the target image
Hosted
Currently the CI is hosted on Github actions, running build and functional tests.
Status: https://github.com/kdave/btrfs-progs/actions
Tested branches:
- devel - regularly pushed during development, basic build and functionality test
- release-test - pushed before a release to verify more build targets (for backward compatibility)
- devel-ci - for testing and development of the CI itself
References:
- Documentation: https://docs.github.com/en/actions
- Details about image package versions, updates: https://github.com/actions/runner-images
Requirements for hosted infrastructure
In case migration to another hosted CI is needed:
- recent kernel, latest stable if possible, 5.15 is minimum
- ability to run commands as root
- ability to create loop devices (losetup)
- ability to mount and unmount filesystems
- integration with github/gitlab repository to watch for updates
- enough granted run time to finish the testsuite
- (optional) run docker images
- (nice to have) web GUI with results, email notifications
Gitlab
The integration with gitlab.org has been disabled but is possible to revive. We were experimenting with nested virtualization to run the tests on a current kernel not some old version provided by the hosted image. The tests took to long to fit in the free plan quota.
Local
The testsuite can be run directly from the git tree from the built sources, or from the separate exported testsuite. This depends on the installed system packages and running kernel.
Another option is to run the tests on a given distribution in a container. There are several docker container images for some distributions. Right now they're meant for testing development branch devel, but can be adapted for others as well.
Build tests
The simplest test is to verify that the project builds on a given distribution. The backward compatibility of btrfs-progs is supposed to cover also old and long-term support distributions, as well as systems with standard C library other than GNU glibc. Some features like run-time stack trace dump are not available but can be disabled at configure time.
Functional tests
By default only the build test is run in the container. There's a script to start the testsuite, although this can be also done manually by running the appropriate commands (check the script ci/images/run-tests)
Fine-tuned tests
The build supports additional features like sanitizers, enabled by environment variables. These can be passed to the container environment, see examples below.
The container environment
The tests need to run privileged (to create loop devices and mount/unmount filesystems) and need to see the block devices (created by device mapper). Starting the container as docker run might not be sufficient without parameters and additional mounts.
To minimize the image size and installation dependencies, the documentation is not built by default and lacks the tools to build it, so you need to pass --disable-documentation for the builder scripts or for the raw configure command.
Examples
Assuming top level directory in the btrfs-progs git repository, then moved to directory with a particular image sources.
Prepare image
cd ci/images/ci-openSUSE-tumbleweed-x86_64
./docker-build
Running plain docker build may not work as some magic is needed to allow building either the branch from web repository, or from a local git branch provided as a tarball. Docker does not allow conditional image contents so this is pushed to the test build scripts.
Build
Neither running the image is just docker run, so there's a script for convenience:
./docker-run
You can pass additional docker parameters or a non-default command:
./docker-run --env=VAR=text
or
./docker-run --env=V=1 -- ./test-build devel --disable-documentation
The -- is separator for docker and the actual command. The command above will effectively run the make command with V=1 ie. raw commands as they're executed. Other options work as well, see the top level Makefile. Notably, the sanitizers can be enabled like
./docker-run --env=D=asan -- ./test-build devel --disable-documentation
This will just build the sources.
Build and run tests
In order to run the whole testsuite one more script needs to be run:
./docker-run --env=D=asan -- bash -c "./test-build devel --disable-documentation && \
./run-tests /tmp/btrfs-progs-devel"
As docker does not allow to run multiple commands, you can either start the whole command wrapped in a shell or use the script ci/images/docker-run-tests.
What else
The current set of build targets covers commonly used systems, in terms of package versions. There are no significant differences between many distributions and adding support for each does not bring any benefits. If you think there's something that can improve build coverage and catch errors during development, please open an issue or send a pull request adding a new docker image template or enhancing current support scripts.
To do:
- 32bit coverage -- while this architecture is fading out, it may be useful to still have some coverage, however running 32bit docker in 64bit is considered experimental and does not work out of the box
- add some kind of templates, there's a lot of repeated stuff in the Dockerfiles and the scripts need to be inside the directories in order to allow copying them to the image
Administration
To pull all base images from docker hub or to update already downloaded ones run
ci/images/images-base-update
Before running the CI tests locally the images need to be build from the templates, for that there's
ci/images/images-build-all
Which is similar to running the docker-build
command inside the directories.