GenericResolver.extract_modulemd is not removed, but deprecated. Call of it
will result in a deprecation message printed. Any new code should call
load_mmd.
Signed-off-by: Chenxiong Qi <cqi@redhat.com>
A base module's stream (the platform for RHEL) could have Z-stream suffix, e.g.
el8.0.0.z, this patch handles this Z-stream suffix and other potential streams
by returning the stream version as a float with configured suffix value. For
example, el8.1.0.z would be parsed as 080100.1. Note that, the 0.1 is totally
configured in config and it actually could be any value according to concrete
cases in practice.
Config STREAM_SUFFIXES is enabled in TestConfiguration so that tests depending
on the return value from ModuleBuild.get_stream_version are covered.
Part fixture of test TestMMDResolver.test_solve_virtual_streams is updated by
adding Z-stream suffix to platform:el8.2.0 in order to ensure this patch does
not break the MMD resolver.
Addresses FACTORY-4307
Signed-off-by: Chenxiong Qi <cqi@redhat.com>
Before this commit, the compatible base modules for Module Stream Expansion
have been found without any limitation, just based on the stream version.
It was therefore possible that `platform:lp29.0.0` was found as compatible
module for `platform:f29.1.0` although those platform streams are not
compatible at all.
In this commit, the module can be treated as compatible only if it has
the same virtual stream as the input module. The idea behind this
is that both `platform:f29.0.0` and `platform:f29.1.0` should include
the `virtual_streams: [f29]` in their XMD section which tells MBS
that they are actually compatible. The `lp29` stream will not
have the same virtual stream (most likely it won't have any virtual
stream at all).
The `virtual_streams` is already used for this use-case in `MMDResolver`,
but it was not used to limit the inputs to `MMDResolver` which is what
this commit is doing.
This commit also fixes the issue in `get_last_builds_in_stream_version_lte`
which was simply broken if multiple stream_versions of single base module
existed and their builds had different version. In this case, only
builds with single (randomly chosen) version were returned.
This will help us determine why a modulemd couldn't be parsed
other than formatting issues. An example of this is if the database
session becomes stale, the exception is not due to the modulemd being
invalid.
- Keep scratch module builds in the 'done' state.
- Make koji tagging for scratch modules unique so the same
commit can be resubmitted.
- Use alternate prefix for scratch module build components so they can
be identified later.
- Prevent scratch build components from being reused.
- Assorted code and comment cleanup.
Signed-off-by: Merlin Mathesius <mmathesi@redhat.com>
This resolve the stream collision by adding specific RPMs to
module-build-macros SRPM as Conflicts.
For more information about module stream collision, please refer to
docstring in utils/ursine.py
Signed-off-by: Chenxiong Qi <cqi@redhat.com>
ModuleBuild.json now includes xmd/mbs/buildrequires in the output JSON
data. As a result, these APIs will show buildrequires by default.
* /module-builds/
* /module-builds/?verbose=True
* /module-builds/$build_id
Buildrequires is accessible like this:
br_module_names = response_json['buildrequires'].keys()
br_module_dict = response_json['buildrequires'][module name]
Fixes: FACTORY-2201
Signed-off-by: Chenxiong Qi <cqi@redhat.com>
Imagine we have "platform:f29.0.0" and "platform:f29.1.0" base modules.
We also have "DBI" module we want to build agaisnt "platform:f29.1.0".
This "DBI" module depends on "perl" module which is only build against
"platform:f29.0.0".
Currently, DBI build would fail to resolve the dependencies, because
it wouldn't find "perl" module, because it is built against different
platform stream.
This PR changes the MSE code to include buildrequired module builds built
against all the compatible platform streams.
It does so by introducing following changes:
- MSE code uses new get_base_module_mmds() method to find out all the
compatible platform modules. This needed new methods in DBResolver
and MBSResolver.
- For each buildrequired module defined by name:stream, the MSE code then
finds particular NSVC built against each compatible platform module.
Side effect of these code changes is that every module now must buildrequire
some base module.
Future use cases will require the ability to find compatible module builds
to buildrequire based on the base module the module used to build. This
commit adds an association table that will contain module build IDs
and the base module they buildrequire.
Addresses FACTORY-3353
This addresses an issue when a module contains builds that have different
names in their NVR than the component name in MBS. This happens with
SCLs for instance. MBS wouldn't be able to find the component to mark
as tagged in the database since it was searching by the wrong name, so the
build would just stall. This uses the NVR now to find the correct build
in the database.
1. Changed ModuleBuild's context property to db column, it's
non-nullable and default value is '00000000' to keep it consistent
with previous behaviour.
2. Changed ModuleBuild.contexts_from_mmd to return a tuple of
(ref_build_context, build_context, runtime_context, context).
3. Updated tests affected by this change.
