* Remove using measurements from the initial control-plane node for the cluster's initial measurements
* Add using measurements from the user's config for the cluster's initial measurements to align behavior with upgrade command
---------
Signed-off-by: Daniel Weiße <dw@edgeless.systems>
The test is implemented as a go test.
It can be executed as a bazel target.
The general workflow is to setup a cluster,
point the test to the workspace in which to
find the kubeconfig and the constellation config
and specify a target image, k8s and
service version. The test will succeed
if it detects all target versions in the cluster
within the configured timeout.
The CI automates the above steps.
A separate workflow is introduced as there
are multiple input fields to the test.
Adding all of these to the manual e2e test
seemed confusing.
Co-authored-by: Fabian Kammel <fk@edgeless.systems>
* Convert enforceIDKeyDigest setting to enum
* Use MAA fallback in Azure SNP attestation
* Only create MAA provider if MAA fallback is enabled
---------
Signed-off-by: Daniel Weiße <dw@edgeless.systems>
Co-authored-by: Thomas Tendyck <tt@edgeless.systems>
Temporarily add the attestationVariant key to the service
values during upgrade. Normally this should not be
modified during upgrade. However, since the field is introduced
in v2.7, we need to add the field manually.
Previously backups were created even if no service upgrades were
executed. To allow this some things are restructured:
* new chartInfo type that holds release name, path and chart name
* upgrade execution and version validity are checked separately
* Add attestation type to config (optional for now)
* Get attestation variant from config in CLI
* Set attestation variant for Constellation services in helm deployments
* Remove AzureCVM variable from helm deployments
---------
Signed-off-by: Daniel Weiße <dw@edgeless.systems>
* build: correct toolchain order
* build: gazelle-update-repos
* build: use pregenerated proto for dependencies
* update bazeldnf
* deps: tpm simulator
* Update Google trillian module
* cli: add stamping as alternative build info source
* bazel: add go_test wrappers, mark special tests and select testing deps
* deps: add libvirt deps
* deps: go-libvirt patches
* deps: cloudflare circl patches
* bazel: add go_test wrappers, mark special tests and select testing deps
* bazel: keep gazelle overrides
* bazel: cleanup bazelrc
* bazel: switch CMakeLists.txt to use bazel
* bazel: fix injection of version information via stamping
* bazel: commit all build files
* dev-docs: document bazel usage
* deps: upgrade zig-cc for go 1.20
* bazel: update Perl for macOS arm64 & Linux arm64 support
* bazel: use static perl toolchain for OpenSSL
* bazel: use static protobuf (protoc) toolchain
* deps: add git and go to nix deps
Co-authored-by: Paul Meyer <49727155+katexochen@users.noreply.github.com>
Applies the updated NodeVersion object with one request
instead of two. This makes sure that the first request does
not accidentially put the cluster into a "updgrade in progress"
status. Which would lead users to having to run apply twice.
The variable VersionInfo is supposed to be set by `go build -X ...` during link time but should not be modified at runtime.
This change ensures the underlying var is private and can only be accessed by a public getter.
* As charts receive information like the container image from
the cli it makes sense to also version the charts based on the cli
version.
* The pseudoversion is recalculated when running cmake.
* When merging changes from release branch to main,
a new commit is introduced to set the PROJECT_VERSION back
to 0.0.0, so that builds include a pseudoversion.
Previously the chart's values were not set, relying on the
values that are already present in the cluster and reusing
those. This does not work as e.g. the image values
are only set while loading the charts. Also, the templates
are not rendered correctly without all values set.
Because values in the charts might change in the future and
some values (like the image) are part of a valid upgrade we
need to load all values for an upgrade.
However, during upgrades we don't want to reapply user
input like the masterSecret. Therefore this patch splits the
application of user input and the static loading of chart values.
Upgrade check is used to find updates for the current cluster.
Optionally the found upgrades can be persisted to the config
for consumption by the upgrade-execute cmd.
The old `upgrade execute` in this commit does not work with
the new `upgrade plan`.
The current versions are read from the cluster.
Supported versions are read from the cli and the versionsapi.
Adds a new config field MicroserviceVersion that will be used
by `upgrade execute` to update the service versions.
The field is optional until 2.7
A deprecation warning for the upgrade key is printed during
config validation.
Kubernetes versions now specify the patch version to make it
explicit for users if an upgrade changes the k8s version.
In the light of extending our eKMS support it will be helpful
to have a tighter use of the word "KMS".
KMS should refer to the actual component that manages keys.
The keyservice, also called KMS in the constellation code,
does not manage keys itself. It talks to a KMS backend,
which in turn does the actual key management.
These backups could be used in case an upgrade
misbehaves after helm declared it as successful.
The manual backups are required as helm-rollback
won't touch custom resources and changes to CRDs
delete resources of the old version.
Run with: constellation upgrade execute --helm.
This will only upgrade the helm charts. No config is needed.
Upgrades are implemented via helm's upgrade action, i.e. they
automatically roll back if something goes wrong. Releases could
still be managed via helm, even after an upgrade with constellation
has been done.
Currently not user facing as CRD/CR backups are still in progress.
These backups should be automatically created and saved to the
user's disk as updates may delete CRs. This happens implicitly
through CRD upgrades, which are part of microservice upgrades.
Until now the loader tests did not detect if a file in testdata existed,
but was missing from the actual results. This patch fixes the problem.
It also removes various files that are not needed.
The testdata folder now represents which files end up in a cluster 1:1.
The constellationUID is sometimes interpreted as integer if it contains
0e, as the yaml parsing interprets that as scientific notation.
Since it is a best practices to quote string fields anyways this patch
also quotes other fields where an actual string is required.
* Merge enforced and expected measurements
* Update measurement generation to new format
* Write expected measurements hex encoded by default
* Allow hex or base64 encoded expected measurements
* Allow hex or base64 encoded clusterID
* Allow security upgrades to warnOnly flag
* Upload signed measurements in JSON format
* Fetch measurements either from JSON or YAML
* Use yaml.v3 instead of yaml.v2
* Error on invalid enforced selection
* Add placeholder measurements to config
* Update e2e test to new measurement format
Signed-off-by: Daniel Weiße <dw@edgeless.systems>
* Include EXC0014 and fix issues.
* Include EXC0012 and fix issues.
Signed-off-by: Fabian Kammel <fk@edgeless.systems>
Co-authored-by: Otto Bittner <cobittner@posteo.net>
* Wrap KMS deployment in one main chart that
deploys all other services. Other services will follow.
* Use .tgz via helm-package as serialization format
* Change Release type to carry chart as byte slice
* Remove KMSConfig
* Use json-schema to validate values
* Extend release.md to mention updating helm charts
* Mini Constellation commands to quickly deploy a local Constellation cluster
* Download libvirt container image if not present locally
* Fix libvirt KVM permission issues by creating kvm group using host GID inside container
* Remove QEMU specific values from state file
Signed-off-by: Daniel Weiße <dw@edgeless.systems>
Co-authored-by: Nils Hanke <nils.hanke@outlook.com>