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Break up the build into two stages, performing basic tests with poky and isar on the two kas container types before uploading them. The tests consist of building zlib-native with poky and cowsay for x86 bullseye with Isar. Note that the ordering "build kas", "test kas", "push kas", "build kas-isar" is important because "build kas-isar" will not use the locally built and imported kas:next image and rather pull the previous one from the registry. Signed-off-by: Jan Kiszka <jan.kiszka@siemens.com>
Setup tool for bitbake based projects ===================================== +--------------------+ | Build Status | +====================+ | |workflow-master|_ | +--------------------+ | |workflow-next|_ | +--------------------+ .. |workflow-master| image:: https://github.com/siemens/kas/workflows/master/badge.svg .. _workflow-master: https://github.com/siemens/kas/actions?query=workflow%3Amaster .. |workflow-next| image:: https://github.com/siemens/kas/workflows/next/badge.svg .. _workflow-next: https://github.com/siemens/kas/actions?query=workflow%3Anext This tool provides an easy mechanism to setup bitbake based projects. The OpenEmbedded tooling support starts at step 2 with bitbake. The downloading of sources and then configuration has to be done by hand. Usually, this is explained in a README. Instead kas is using a project configuration file and does the download and configuration phase. Key features provided by the build tool: - clone and checkout bitbake layers - create default bitbake settings (machine, arch, ...) - launch minimal build environment, reducing risk of host contamination - initiate bitbake build process See the `kas documentation <https://kas.readthedocs.io>`_ for further details.