Introduce a DistroRegister object. For now this does not introduce
any functional changes, as the object is always instantited to be
the same. However, in follow-up patches it will get options.
Signed-off-by: Tom Gundersen <teg@jklm.no>
Right now, there is no way to get at the name from a Distro instance.
We will need this to include the distro's name in the job we pass to the
worker, for instance.
Allow bootloader specific packages to be defined per architecture,
and allow repositories to depend on the architecture.
This does not altert he pipelines we produce, part from the ami
image now contains the grub2-pc package, rather than the grub2
package. This should make no difference.
Signed-off-by: Tom Gundersen <teg@jklm.no>
The pipeline generation now takes the architecture as an argument.
Currently only x86_64 is supported. The architecture is detected
at start-up, and passed down to each pipeline translation.
For osbuild-pipeline we now requrie the architecture to be passed
in.
Signed-off-by: Tom Gundersen <teg@jklm.no>
Instead of having a static repository checksum, set it dynamically from
the metadata that osbuild-composer last saw. This is implemented in
dnf-json, which returns the checksums for each repository on every call.
This enables the use of repositories that change over time, such as
fedora-updates. Note that the osbuild pipeline will break when such a
repository changes. This is intentional: pipelines have to be
reproducible.
Make osbuild-composer use FromHost() directly. Everywhere else needs to
specify the distro explicitly.
Also don't panic when a distro doesn't exist. Instead, return nil. Make
sure all callers check for that.
Automatically registering on `init()` is clever, but a bit too magical
and easy to get wrong, because every binary must include all distros
somewhere.
Flip this inside out: distros now have a `New()`, which returns
something that implements the `Distro` interface. The distro package
explicitly creates all of them.
This means that distros cannot import distro itself anymore, because go
forbids import cycles. This only affected `InvalidOutputFormatError`.
Return a generic error for now.
Make distros export repository information and use those in the weldr
API. This means that repos are only specified once and that the API
returns the right packages when we allow different distros.
lorax-composer uses the host's repositories for building images. This is
prone to accidental configuration errors and duplicates functionality
(adding custom repositories via the source API is much more explicit).
However, blueprints don't specify the distribution they're based on.
This is something they should do in the future to enable cross-distro
image builds. Until then, read `/etc/os-release` to detect the host OS
and use that as the base distro for a blueprint.
Detection works by concatenating the ID field with a `-` and the
VERSION_ID field. This mandates how additional distributions should
register themselves to the `distro` package.
If composer cannot build the detected distro, fall back to fedora-30.
Use this detection everywhere that fedora-30 was hard-coded before.
Introduce the `distro` package, which contains an interface for OS
implementations. Its main purpose is to convert a blueprint to a
distro-specific pipeline.
Also introduce the `distro/fedora30` package. It is the first
implementation of the distro interface. Most of its code has been copied
with minimal modifications from the blueprint package.
The `blueprint` package is now back to serving a single purpose:
representing a weldr blueprint. It does not depend on the `pipeline`
package anymore.
Change osbuild-composer and osbuild-pipeline to use the new API,
hard-coding "fedora-30". This looks a bit weird now, but is the same
behavior as before.
All test cases now also take an "distro" key in the "compose" object.
