Copy the functionality of the ImageType.PackageSets() methods into
ImageType.Manifest() for each distro.
The Manifest() method now collects all package sets and repositories
from the blueprint and image type and after generating the Manifest
instance, calls the GetPackageSetChains() method to attach the computed
package sets to the Manifest before returning it.
The package sets in the call are now renamed to staticPackageSets to
differentiate from the dynamic (computed) package sets that are affected
by the manifest generation.
Pass the entire Blueprint to Manifest() instead of just the
Customizations. The goal is to combine the functionality of the
ImageType.PackageSets() and ImageType.Manifest() methods into one call.
Add Content to the Manifest struct to represent unresolved packages,
container, and ostree commit specs that the caller should resolve before
serialising the manifest.
Return manifest.Manifest from the Manifest() function without
serializing. The caller then has to call the manifest.Serialize()
function using the depsolved packages.
This moves towards changing the order of actions required to generate a
manifest. With this change, the manifest creation and depsolving can be
done independently, but this still requires instantiating the manifest
object twice (InstantiateManifest() is called in PackageSets() and
Manifest()), which we don't want to have to do.
Move the FactsImageOptions from distro to the new rhsm/facts package.
At the same time define the values we use as an enum, including the
"test-manifest" value.
Though the values don't really matter, the test value is defined first
so it takes the 0 value, which feels nicer conceptually.
The field in the distro.ImageOptions is changed to be a pointer to allow
for nil values.
Add two new methods to the interface for returning container source
specifications and ostree commit source specifications respectively.
These are analogous to the package set chains; they are unresolved
source specifications that can be used with the appropriate resolver to
create a full specification for a manifest.
Only the Base pipeline implements the base empty functions for these for
now.
Same as with the container SourceSpec, the struct specifies the required
information to resolve an ostree commit from a source (URL, ref, and
optional parent).
Renaming for consistency.
Copy the Marshal and Unmarshal functions from distro.Manifest to
manifest.OSBuildManifest to keep the same behaviour.
The Version() function isn't used, so let's drop it.
Removing the dependence of the manifest package on the distro package to
import manifest into distro.
Wherever arch names are needed, we use the enums from the platform
package instead.
Move the subscription options from distro to its own package.
Now we can import the manifest package into the distro package (instead
of the other way around) so we can work with the manifest.Manifest type
in distro.
Make checkOptions() take the whole blueprint and options. There is no
need to pass in the resolved containers separately since we only care
whether there are any containers defined for image types that don't
support them.
Some uses of `cloudbuild` GCP API have been left in our internal cloud
API implementation for GCP. We do not use `cloudbuild` to import GCE
images into GCP any more.
Do not request the `cloudbuild` authentication scope when getting new
GCP client.
Update vendored packages accordingly.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
For backward compatibility, revert changes related to hybrid boot mode
for RHEL (RHUI) EC2 images before 9.3 release.
This change does not affect CentOS Stream 9 AMI images nor the RHEL AMI
build by the service or on-premise.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
For backward compatibility, revert changes related to hybrid boot mode
for RHEL (RHUI) EC2 images before 8.9 release.
This change does not affect CentOS Stream 8 AMI images nor the RHEL AMI
build by the service or on-premise.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
The post install script customises the selinux policy, but is gated on
`selinuxenabled`, which will fail inside the buildroot container.
As a result it's never executed.
One of the IOT use cases for custom files and directories is to be able
to enable a custom systemd unit. This was previously not possible to do
via BP Customizations.
In addition, the test case for custom files and directories in
ostree-based images (currently only build-time images) takes advantage
of enabling a custom systemd unit file, this this will enable using the
same test scenario also for deploy-time ostree image types.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
Set the user provided BP customizations related to custom files and
directories to the iot raw-image type, to ensure that these get
created while deploying a commit.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
Extend the `OSTreeRawImage` with a slice of custom directories and
files, that can be created in the image. Pass these down to the ostree
deployment pipeline, so that it can add necessary osbuld stages if any
directories or files were specified by user.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
Extend the `OSTreeDeployment` with a list of custom files and
directories, that can be created in the deployed ostree commit. This
functionality is equivalent to the one that was added for the OS
pipeline.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
When a blueprint containing package name globs is frozen it was failing
because it could not find the string in the dependency list. This fixes
it by replacing the package glob with all of the matching packages from
the dependency list.
This removes the setPkgEVRA function and adds a new expandBlueprintGlobs
function that handles the package name glob expansion, and replacement of
the version globs with the dependency EVRA.
Also includes testing for the new function.
GetEVRA will return the Epoch:Version-Release.Arch string, and
GetNEVRA will return Name-Epoch:Version-Release.Arch
with Epoch being left off if it is zero.
Also includes tests.
This is currently failing (fixed in the next commit). It tests to make
sure that a blueprint with package name globs can be frozen. The
resulting blueprint should replace the glob entries with the expanded
list of packages.
This tests to make sure that package name globs are working during
integration test runs. dnf supports this, and users have been using it,
so testing to make sure it keeps working is important.
On RHEL-8, the x86_64 AMI / EC2 images used a BIOS-only partition table
layout, because the base partition table unification happened in the
past only on RHEL-9 and Fedora (inherited from RHEL-9).
To make things consistent and uniform across RHEL-8 and RHEL-9, I copied
the base partition table used by RHEL-9 AMI / EC2 images to RHEL-8. This
has a side-effect for aarch64 AMI / EC2, where the `/boot` partition
size changed from 512 MiB to 500 MiB, together with the partition GUID
to "Extended Boot Loader Partition GUID".
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
The image already used base partition table with necessary layout to
support hybrid boot mode, so the change was just a matter of modifying
the associated platform.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
The image already used base partition table with necessary layout to
support hybrid boot mode, so the change was just a matter of modifying
the associated platform.
Signed-off-by: Tomáš Hozza <thozza@redhat.com>
