Fix some oddities in the DBResolver implementation of
get_compatible_base_module_modulemds() and make the MBSResolver version -
which was previously just buggy - match that. (Tests for the MBSResolver
version are added in a subsequent commit.)
* If an empty virtual_streams argument was passed in, *all* streams
were considered compatible. Throw an exception in this case - it
should be considered an error.
* If stream_version_lte=True, but the stream from the base module
wasn't in the form FOOx.y.z, then throw an exception. This was
previously treated like stream_version_lte=False, which is just
a recipe for confusion and mistakes.
test_get_reusable_module_use_latest_build() is rewritten to
comprehensively test all possibilities, including the case that changed
above.
test_add_default_modules_compatible_platforms() is changed to run
under allow_only_compatible_base_modules=False, since it expected
Fedora-style virtual streams (versions not in FOOx.y.z form, all
share the same stream), which doesn't make sense with
allow_only_compatible_base_modules=True.
The default LocalBuildConfiguration builds against Fedora - which has
ALLOW_ONLY_COMPATIBLE_BASE_MODULES = False on the server side. Match that
to avoid warnings that f33 isn't in <stream>x.y.z form.
config.allow_compatible_base_modules=False does different things for
build-requires selection and for module reuse. Clarify this in the config
key documentation.
(This config key is really: True: "do what RHEL expects"
False: "do what Fedora expects")
Event handlers decorated with @celery_app_task don't raise an exception -
they just log the exception, leaving the Moksha hub running. This meant
that any failures in test_build would result in the test suite hanging
rather than failing usefully.
We solve this by adding a new class EventTrap which acts as a context
manager. Any exceptions that occur in event handlers are set on the
current EventTrap, and the test_build tests re-raise the exception.
SQLAlchemy objects can't be used from multiple threads - so when starting
threads for builds, pass the ComponentBuild id rather than the object.
(Note that despite the comment that the threads were sharing a session,
they weren't - what was passed to the thread was a scoped_session that
acts as a separate thread-local session per-thread.)
BUILD_COMPONENT_DB_SESSION_LOCK - a threading.Lock() object that was used
in a few places - but not nearly enough places to effectively lock usage
of a shared session - is removed.
Because each event handler wrapper would call scheduler.run() at the end before
returning, with a queue of 100 events to process we'd end up
with:
Event handler 1 wrapper
scheduler.run()
Event handler 2 wrapper
scheduler.run()
.....
.... Event handler 100 wrapper
Which would eventually exhaust the Python stack limit. Fix this by making scheduler.run()
no-op if the scheduler is already processing the queue in the current thread.
Using a memory database causes tests/test_build to intermittently
fail, because using the same pysqlite3 connection object from multiple
threads - as was done so that the threads shared the same memory database
- is not, in the end, thread safe. One thread will stomp on the transaction
state of other threads, resulting in errors from starting a new transaction
when another is already in progress, or trying to commit a transaction
that is not in progress.
To avoid a significant speed penalty, the session-scope fixture sets up
a database in the pytest temporary directory, which will typically be on
tmpfs. Time to complete all tests:
memory backend: 38 seconds
file on tmpfs: 40 seconds
file on nvme ssd with btrfs: 137 seconds
MBSSQLAlchemy, which attempted to make the memory backend work, is removed.
Session hooks are installed on the Session class rather than on the
scoped_session instance - this works better when we're changing from
one database to another at test setup time.
We don't need messages at all for local builds, so use a separate "drop"
backend and reserve the "in_memory" backend for tests, where we sometimes
want to inspect the messages. This avoids a warning for each published
message.
The base module conflict generation was skipped for local builds
in 6b2e5be93a because libdnf wasn't ported to libmodulemd yet -
that was done in libdnf-0.45, so only warn and skip for versions of
dnf too old to require libdnf-0.45.
(Don't just unconditionally skip check/warning in case someone is
doing local module builds on RHEL 8.)
Ever since local builds were changed to call handlers directly
instead of going through the scheduler, the current module ID wasn't
set, causing no logs to be written to the module build log file.
No implementations of MBS are using Greenwave, and there are no current plans
to do so. Koji Resolver will be sufficient for any usecase dependent on gating.
There is a need to rebuild the module builds done in CentOS 9 Stream
internally in MBS to include them in RHEL. This is currenly a hard task,
because the RPM components included in a module are usually
taken from HEAD of the branch defined by their `ref` value.
For the rebuild task, it means we would have to ensure that the HEAD
of all RPM components points to right commit hash right before we start
rebuilding CentOS 9 Stream module in internal MBS. This is very hard
and fragile thing to do, especially if there are two different modules
using the RPM component from the same branch. This is prone to race
condition and makes the rebuilds quite complex and in some cases
not possible to do without force pushes to RPM component repositories
which is not acceptable by internal dist-git policy.
This commit fixes it by allowing overriding the commit hash while
submitting the module build. This helps in the mentioned situation,
because we can keep internal RPM components branches in 1:1 sync with
CentOS 9 Stream branches and HEAD can always point to the same commit
in both internal and CentOS 9 Stream repositories.
When the module rebuild is submitted in internal MBS,
we can use this new feature to override the `ref` for each RPM component
so it points to particular commit and the requirement for HEAD to point
to this commit is no longer there.
The `ref` is overriden only internally in MBS (but it is recorded in logs
and in XMD section), so the input modulemd file is not altered. This is
the same logic as used for other overrides (`buildrequire_overrides` or
`side_tag`).
This does not bring any security problem, because it is already possible
to use commit hash in `ref`, so the package maintainer can already change
the commit hash to any particular commit by using this `ref` value.
Signed-off-by: Jan Kaluza <jkaluza@redhat.com>
This works around a case where tagging messages are missed for a build
with high reuse. In such a case, we can start out in the final batch,
but have incorrect tag state for reused components from previous
batches.