A Kubernetes Operator to automate deployment of Cryostat.
-
cryostat-core for the core library providing a convenience wrapper and headless stubs for use of JFR using JDK Mission Control internals.
-
cryostat for the main API backend to detect JVMs and manage JFR.
-
cryostat-web for the React graphical frontend included as a submodule in Cryostat and built into Cryostat's OCI images.
-
jfr-datasource for the JFR datasource for Grafana.
-
cryostat-grafana-dashboard for the Grafana dashboard.
kubernetes
v1.25+ withOperator Lifecycle Manager
cert-manager
v1.11.5+ (Recommended)
Once deployed, the cryostat
instance can be accessed via web browser
at the URL provided by:
kubectl get cryostat -o jsonpath='{$.items[0].status.applicationUrl}'
To use Cryostat to monitor or profile Cryostat itself - since it is also an available JVM target -
you may use the Cryostat web UI to define a Custom Target with the connection URL localhost:0
.
This is a special value which tells Cryostat's JVM that it should connect to itself directly, without
the need to expose a JMX port over the network.
go
v1.21+operator-sdk
v1.31.0podman
ordocker
jq
v1.6+yq
v4.35+ginkgo
(Optional)
make generate manifests manager
will trigger code/YAML generation and compile
the operator controller manager, along with running some code quality checks.
make oci-build
will build an OCI image from the generated YAML and compiled
binary to the local registry, tagged as
quay.io/crystatio/cryostat-operator
. This tag can be overridden by
setting the environment variables IMAGE_NAMESPACE
and OPERATOR_NAME
.
IMAGE_VERSION
can also be set to override the tagged version.
make bundle
will create an OLM bundle. This will generate a CSV, CRDs and
other manifests, and other required configurations for an OLM bundle versioned
with version $IMAGE_VERSION
in the bundle/
directory. make bundle-build
will create an OCI image of this bundle, which can then be pushed to an image
repository such as quay.io
.
make catalog-build
will build an OCI image of the operator catalog (i.e. index)
with version $IMAGE_VERSION
that includes the bundle image of the same version.
The operator can be deployed using OLM using make deploy_bundle
. This will
deploy quay.io/cryostat/cryostat-operator-bundle:$IMAGE_VERSION
to
your configured cluster using oc
or kubectl
(kubeconfig
). You can set the
variables IMAGE_NAMESPACE
or IMAGE_VERSION
to deploy different builds of
the bundle. Once this is complete, the Cryostat Operator will be deployed
and running in your cluster.
make install
will create CustomResourceDefinitions and do other setup
required to prepare the cluster for deploying the operator, using oc
or
kubectl
on whichever OpenShift/Kubernetes cluster is configured with the local client.
make uninstall
destroys the CRDs and undoes the setup.
make run
can be used to run the operator controller manager as a process on
your local development machine and observing/interacting with your cluster.
This may be useful in some development scenarios, however in this case the
operator process will not have access to certain in-cluster resources such as
environment variables or service account token files.
make deploy
will deploy the operator using static manifests to an arbitrary namespace (default to cryostat-operator-system
).
make DEPLOY_NAMESPACE=foo-namespace deploy
can be used to deploy to a namespace namedfoo-namespace
. For a convenient shorthand, usemake DEPLOY_NAMESPACE=$(kubectl config view --minify -o 'jsonpath={.contexts[0].context.namespace}') deploy
to deploy to the currently active OpenShift/Kubernetes namespace.make undeploy
will likewise remove the operator, and also uses theDEPLOY_NAMESPACE
variable. This also respects theIMAGE_TAG
environment variable, so that different versions of the operator can be easily deployed.- To obtain such static manifests remotely without further customizations, use:
# Replace ref with any version tag or branch kubectl kustomize "https://github.com/cryostatio/cryostat-operator.git/config/default?ref=v2.4.0"
Once deployed, the operator deployment will be active in the cluster, but no Cryostat instance will be created. To trigger its creation, add a Cryostat CR using the UI for operator "provided APIs". Full details on the configuration options in the Cryostat CRD can be found in Configuring Cryostat. When running on Kubernetes, see Network Options for additional mandatory configuration in order to access Cryostat outside of the cluster.
For convenience, a full deployment can be created using
kubectl create -f config/samples/operator_v1beta2_cryostat.yaml
, or more
simply, make create_cryostat_cr
.
The container images used by the operator for the core application,
jfr-datasource, and the Grafana dashboard can be overridden by setting the
RELATED_IMAGE_CORE
, RELATED_IMAGE_DATASOURCE
, and RELATED_IMAGE_GRAFANA
environment variables, respectively, in the operator deployment.
By default, the operator expects cert-manager to be available in the cluster.
This allows the operator to deploy Cryostat with all communication
between its internal services done over HTTPS. If you wish to disable this
feature and not use cert-manager, you can set the environment variable
DISABLE_SERVICE_TLS=true
when you deploy the operator. We provide
make cert_manager
and make remove_cert_manager
targets to easily
install/remove cert-manager from your cluster.
Users can use oc whoami --show-token
to retrieve their OpenShift OAuth token
for the currently logged in user account. This token can be used when directly
interacting with the deployed Cryostat instance(s).
When using the web-client, users can login with their username and password associated with their OpenShift account. User credentials will be remembered for the duration of the session.
If the current user account does not have sufficient permissions to list routes, list endpoints, or perform other actions that Cryostat requires, then the user may also try to authenticate using the Operator's service account. This, of course, assumes that the user has permission to view this service account's secrets.
oc get secrets | grep cryostat-operator-service-account-token
will provide at least one
such operator service account token secret name which can be used - for
example, cryostat-operator-service-account-token-7tt7l
. The token can then be retrieved
for use in authenticating as the operator service account:
$ oc describe secret cryostat-operator-service-account-token-7tt7l
Name: cryostat-operator-service-account-token-7tt7l
Namespace: default
Labels: <none>
Annotations: kubernetes.io/created-by: openshift.io/create-dockercfg-secrets
kubernetes.io/service-account.name: cryostat-operator-service-account
kubernetes.io/service-account.uid: 692aa8c7-081e-4a51-9355-be3eaa8f9fa6
Type: kubernetes.io/service-account-token
Data
====
ca.crt: 7209 bytes
namespace: 7 bytes
service-ca.crt: 8422 bytes
token: eyJhbGciOiJSUzI1NiIsImtpZCI6IkhYZC13eDdGVGwyQzdGNVpZVndScEZ2VmRxWTlzbnBUUG9HRkJpejJkV3cifQ.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.M7C1V0bN3aILBflO7TTOTikw7wLGRJ79-OkCDQIZbu71QLdX05jyCxxtlH32lr8jz6HwxfXXweh3ifG_2lbe7_TbM8jxmBoMdLuc4Q_akpmA-GQuDPrRxfHGJApYGQ6CVug3KHSrQwj2M4QrSUz7FoeQGaOH9BnWj1TrHGmOZUPJ6u7JSu2OwoLBda6rF-M4Bl72DmkyMAzikreRgPEk4D7gTCY0yNvsQDuUAwpFwmEukRC2WyTAVTpKPgThZUk-UJ-dXufbhAcqIRt6jeCQ19_Bo0zXc_ELgQydxuTack1ndT3HwRmwwNuZDFv-G3Y0YdjfRh00DqEvSn9ynZzwueDCJUxlHdznytfUWk9PA712JENpFC7b-zSHnjymIcFeUd8s_Zq_-JKrDIPnH0oZDRO_MUpKEC7Jz_8SeFJHLLGfBZt_aP4VwQHEUThiFQPwrfbd8tppUG2TKcekPScKcauy-BCI52odBzapP6meilMQVrmRtu7i30L05vgQiST_OsmSP8CuKW13a-leCCtN_aNQGqlWvLhP81H95ui-PvMzwMIDlfDZ03ycuYg4R4eUG3nUq7-42wrSdFLo8gm9wsl7y1ZRMQwHR1DCVBbHYS0iFOcmwto2Ejlrgvn3Cs0pDS7pDVoFkH2FsTopEw3jXtnkMs15mSmBnHz-UjF-l08
or more briefly:
$ oc get -o jsonpath='{.data.token}' secret cryostat-operator-service-account-token-7tt7l | base64 -d
eyJhbGciOiJSUzI1NiIsImtpZCI6IkhYZC13eDdGVGwyQzdGNVpZVndScEZ2VmRxWTlzbnBUUG9HRkJpejJkV3cifQ.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.M7C1V0bN3aILBflO7TTOTikw7wLGRJ79-OkCDQIZbu71QLdX05jyCxxtlH32lr8jz6HwxfXXweh3ifG_2lbe7_TbM8jxmBoMdLuc4Q_akpmA-GQuDPrRxfHGJApYGQ6CVug3KHSrQwj2M4QrSUz7FoeQGaOH9BnWj1TrHGmOZUPJ6u7JSu2OwoLBda6rF-M4Bl72DmkyMAzikreRgPEk4D7gTCY0yNvsQDuUAwpFwmEukRC2WyTAVTpKPgThZUk-UJ-dXufbhAcqIRt6jeCQ19_Bo0zXc_ELgQydxuTack1ndT3HwRmwwNuZDFv-G3Y0YdjfRh00DqEvSn9ynZzwueDCJUxlHdznytfUWk9PA712JENpFC7b-zSHnjymIcFeUd8s_Zq_-JKrDIPnH0oZDRO_MUpKEC7Jz_8SeFJHLLGfBZt_aP4VwQHEUThiFQPwrfbd8tppUG2TKcekPScKcauy-BCI52odBzapP6meilMQVrmRtu7i30L05vgQiST_OsmSP8CuKW13a-leCCtN_aNQGqlWvLhP81H95ui-PvMzwMIDlfDZ03ycuYg4R4eUG3nUq7-42wrSdFLo8gm9wsl7y1ZRMQwHR1DCVBbHYS0iFOcmwto2Ejlrgvn3Cs0pDS7pDVoFkH2FsTopEw3jXtnkMs15mSmBnHz-UjF-l08
An invocation like
export IMAGE_NAMESPACE=quay.io/some-user
export IMAGE_VERSION=test-version
make generate manifests manager oci-build bundle bundle-build
podman image prune -f && podman push $IMAGE_NAMESPACE/cryostat-operator:$IMAGE_VERSION && podman push $IMAGE_NAMESPACE/cryostat-operator-bundle:$IMAGE_VERSION
make deploy_bundle
is handy for local development testing using ex. CodeReady Containers. This
exercises a similar build and deployment path as what end users using OLM and
OperatorHub will eventually receive.
make test-envtest
will run controller tests using ginkgo if installed, or go test if
not, requiring no cluster connection.
make test-scorecard
will run the Operator SDK's scorecard test suite. This requires a
Kubernetes or OpenShift cluster to be available and logged in with your kubectl
or oc
client. The recommended setup for development testing is CodeReady Containers (crc
).
Before the scorecard tests are run, all cryostat and cryostat-operator resources will be deleted to ensure a clean slate.
make test
will run all tests.