Troubleshooting Cloud Native Runtimes

This topic tells you how to troubleshoot Cloud Native Runtimes, commonly known as CNRs, installation, or configuration.

Installation fails to reconcile app/cloud-native-runtimes

Symptom

When installing Cloud Native Runtimes, you see one of the following errors:

11:41:16AM: ongoing: reconcile app/cloud-native-runtimes (kappctrl.k14s.io/v1alpha1) namespace: cloud-native-runtime
11:41:16AM:  ^ Waiting for generation 1 to be observed
kapp: Error: Timed out waiting after 15m0s

Or,

3:15:34PM:  ^ Reconciling
3:16:09PM: fail: reconcile app/cloud-native-runtimes (kappctrl.k14s.io/v1alpha1) namespace: cloud-native-runtimes
3:16:09PM:  ^ Reconcile failed:  (message: Deploying: Error (see .status.usefulErrorMessage for details))

kapp: Error: waiting on reconcile app/cloud-native-runtimes (kappctrl.k14s.io/v1alpha1) namespace: cloud-native-runtimes:
  Finished unsuccessfully (Reconcile failed:  (message: Deploying: Error (see .status.usefulErrorMessage for details)))

Explanation

The cloud-native-runtimes deployment app installs the subcomponents of Cloud Native Runtimes. Error messages about reconciling indicate that one or more subcomponents have failed to install.

Solution

Use the following procedure to examine logs:

  1. Get the logs from the cloud-native-runtimes app by running:

    kubectl get app/cloud-native-runtimes -n cloud-native-runtimes -o jsonpath="{.status.deploy.stdout}"
    
    Note

    If the command does not return log entries, kapp-controller is not installed or is not running correctly.

  2. Review the output for sub component deployments that have failed or are still ongoing. See the following examples for suggestions on resolving common problems.

Example 1: The Cloud Provider does not support the creation of Service type LoadBalancer

Follow these steps to identify and resolve the problem of the cloud provider not supporting services of type LoadBalancer:

  1. Search the log output for Load balancer, for example, by running:

    kubectl -n cloud-native-runtimes get app cloud-native-runtimes -ojsonpath="{.status.deploy.stdout}" | grep "Load balancer" -C 1
    
  2. If the output looks similar to the following, ensure that your cloud provider supports services of type LoadBalancer. For more information, see Access Tanzu Developer Portal.

    6:30:22PM: ongoing: reconcile service/envoy (v1) namespace: CONTOUR-NS
    6:30:22PM:  ^ Load balancer ingress is empty
    6:30:29PM: ---- waiting on 1 changes [322/323 done] ----
    

    Where CONTOUR-NS is the namespace where Contour is installed on your cluster. If Cloud Native Runtimes was installed as part of a Tanzu Application Profile, this value is likely tanzu-system-ingress.

Example 2: The webhook deployment failed

Follow these steps to identify and resolve the problem of the webhook deployment failing in the knative-serving namespace:

  1. Review the logs for output similar to the following:

    10:51:58PM: ok: reconcile customresourcedefinition/httpproxies.projectcontour.io (apiextensions.k8s.io/v1) cluster
    10:51:58PM: fail: reconcile deployment/webhook (apps/v1) namespace: knative-serving
    10:51:58PM:  ^ Deployment is not progressing: ProgressDeadlineExceeded (message: ReplicaSet "webhook-6f5d979b7d" has timed out progressing.)
    
  2. Run kubectl get pods to find the name of the pod:

    kubectl get pods --show-labels -n NAMESPACE
    

    Where NAMESPACE is the namespace associated with the reconcile error, for example, knative-serving.

    For example,

    $ kubectl get pods --show-labels -n knative-serving
    NAME                       READY   STATUS    RESTARTS   AGE   LABELS
    webhook-6f5d979b7d-cxr9k   0/1     Pending   0          44h   app=webhook,kapp.k14s.io/app=1626302357703846007,kapp.k14s.io/association=v1.9621e0a793b4e925077dd557acedbcfe,pod-template-hash=6f5d979b7d,role=webhook
    
  3. Run kubectl logs and kubectl describe:

    kubectl logs PODNAME -n NAMESPACE
    kubectl describe pod PODNAME -n NAMESPACE
    

    Where:

    • PODNAME is found in the output of step 3. For example, webhook-6f5d979b7d-cxr9k.
    • NAMESPACE is the namespace associated with the reconcile error, for example, knative-serving.

    For example:

    $ kubectl logs webhook-6f5d979b7d-cxr9k -n knative-serving
    
    $ kubectl describe pod webhook-6f5d979b7d-cxr9k  -n knative-serving
    Events:
    Type     Reason            Age                 From               Message
    ----     ------            ----                ----               -------
    Warning  FailedScheduling  80s (x14 over 14m)  default-scheduler  0/1 nodes are available: 1 Insufficient cpu.
    
  4. Review the output from the kubectl logs and kubectl describe commands and take further action.

    For this example of the webhook deployment, the output indicates that the scheduler does not have enough CPU to run the pod. In this case, the solution is to add nodes or CPU cores to the cluster. If you are using Tanzu Mission Control (TMC), increase the number of workers in the node pool to three or more through the TMC UI. See Edit a Node Pool, in the TMC documentation.

Knative Service Fails to Come up Due to Invalid HTTPPRoxy

Symptom

When creating a Knative Service, it does not reach ready status. The corresponding Route resource has the status Ready=Unknown with Reason=EndpointsNotReady. When you inspect the logs for the net-contour-controller, you see an error like this:

{"severity":"ERROR","timestamp":"2022-12-08T16:27:08.320604183Z","logger":"net-contour-controller","caller":"ingress/reconciler.go:313","message":"Returned an error","commit":"041f9e3","knative.dev/controller":"knative.dev.net-contour.pkg.reconciler.contour.Reconciler","knative.dev/kind":"networking.internal.knative.dev.Ingress","knative.dev/traceid":"9d615387-f552-449c-a8cd-04c69dd1849e","knative.dev/key":"cody/foo-java","targetMethod":"ReconcileKind","error":"HTTPProxy.projectcontour.io \"foo-java-contour-5f549ae3e6f584a5f33d069a0650c0d8foo-java.cody.\" is invalid: metadata.name: Invalid value: \"foo-java-contour-5f549ae3e6f584a5f33d069a0650c0d8foo-java.cody.\": a lowercase RFC 1123 subdomain must consist of lower case alphanumeric characters, '-' or '.', and must start and end with an alphanumeric character (e.g. 'example.com', regex used for validation is '[a-z0-9]([-a-z0-9]*[a-z0-9])?(\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*')","stacktrace":"knative.dev/networking/pkg/client/injection/reconciler/networking/v1alpha1/ingress.(*reconcilerImpl).Reconcile\n\tknative.dev/[email protected]/pkg/client/injection/reconciler/networking/v1alpha1/ingress/reconciler.go:313\nknative.dev/pkg/controller.(*Impl).processNextWorkItem\n\tknative.dev/[email protected]/controller/controller.go:542\nknative.dev/pkg/controller.(*Impl).RunContext.func3\n\tknative.dev/[email protected]/controller/controller.go:491"}

Solution

Because the ChildName function produces invalid resource names, certain combinations of Name, Namespace, and Domain yield invalid names for HTTPProxy resources because of the way the name is hashed and trimmed to fit the size requirement. It can have non-alphanumeric characters at the end of the name.

Resolving this is unique to each Knative service. It is likely to involve renaming your app to be shorter so that after the hash and trim procedure, the name is cut to end on an alphanumeric character.

For example, foo-java.cody.iterate.tanzu-azure-lab.winterfell.fun is hashed and trimmed into foo-java-contour-5f549ae3e6f584a5f33d069a0650c0d8foo-java.cody., leaving an invalid . at the end.

However, changing the app name to foo-jav causes foo-jav-contour-SOME-DIFFERENT-HASH-foo-jav.cody.it, which is a valid name.

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