5324c6441f
This is used for mapping basearch to binary arch. One use for this is when running depsolving to tell yum/dnf what arch to work with. With this change it will get i686 instead of athlon when working on i386 basearch. The other use case is finding arches compatible with given basearch. The change will remove athlon from the list for i386. Signed-off-by: Lubomír Sedlář <lsedlar@redhat.com> |
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| bin | ||
| contrib/yum-dnf-compare | ||
| doc | ||
| pungi | ||
| pungi_utils | ||
| share | ||
| tests | ||
| .gitignore | ||
| AUTHORS | ||
| COPYING | ||
| GPL | ||
| MANIFEST.in | ||
| Makefile | ||
| README.md | ||
| RELEASE-NOTES | ||
| TODO | ||
| git-changelog | ||
| pungi.spec | ||
| setup.py | ||
| tox.ini | ||
README.md
Pungi
Pungi is a distribution compose tool.
Composes are release snapshots that contain release deliverables such as:
- installation trees
- RPMs
- repodata
- comps
- (bootable) ISOs
- kickstart trees
- anaconda images
- images for PXE boot
Tool overview
Pungi consists of multiple separate executables backed by a common library.
The main entry-point is the pungi-koji script. It loads the compose
configuration and kicks off the process. Composing itself is done in phases.
Each phase is responsible for generating some artifacts on disk and updating
the compose object that is threaded through all the phases.
Pungi itself does not actually do that much. Most of the actual work is delegated to separate executables. Pungi just makes sure that all the commands are invoked in the appropriate order and with correct arguments. It also moves the artifacts to correct locations.
Links
- Upstream GIT: https://pagure.io/pungi/
- Issue tracker: https://pagure.io/pungi/issues
- Questions can be asked on #fedora-releng IRC channel on FreeNode