Health checks

Health checks are a way to test and monitor the operation of your existing clusters. Health checks run on their own, periodically. You can also use bmctl to run health checks on demand. This document describes each check, in what circumstances it runs automatically, how and when to run it manually, and how to interpret results.

What's checked?

There are two categories of Google Distributed Cloud health checks:

  • Node machine checks

  • Cluster-wide checks

The following sections outline what gets checked for each category. These checks are used for both periodic and on-demand health checks.

Node machine checks

This section describes what's evaluated by health checks for node machines. These checks confirm that node machines are configured properly and that they have sufficient resources and connectivity for cluster creation, cluster upgrades, and cluster operation.

These checks correspond to the Bare Metal HealthCheck custom resources named bm-system-NODE_IP_ADDRESS-machine (for example, bm-system-192.0.2.54-machine) that run in the admin cluster in the cluster namespace. For more information about health check resources, see HealthCheck custom resources.

Common machine checks consist of the following:

  • Cluster machines are using a supported operating system (OS).

  • OS version is supported.

  • OS is using a supported kernel version.

  • Kernel has the BPF Just In Time (JIT) compiler option enabled (CONFIG_BPF_JIT=y).

  • For Ubuntu, Uncomplicated Firewall (UFW) is disabled.

  • Node machines meet the minimum CPU requirements.

  • Node machines have more than 20% of CPU resources available.

  • Node machines meet the minimum memory requirements.

  • Node machines meet the minimum disk storage requirements.

  • Time synchronization is configured on node machines.

  • Default route for routing packets to the default gateway is present in nodes.

  • Domain Name System (DNS) is functional (this check is skipped if the cluster is configured to run behind a proxy).

  • If the cluster is configured to use a registry mirror, the registry mirror is reachable.

Machine Google Cloud checks consist of the following:

  • Container Registry, gcr.io is reachable (this check is skipped if the cluster is configured to use a registry mirror).

  • Google APIs are reachable.

Machine health checks consist of the following:

  • kubelet is active and running on node machines.

  • containerd is active and running on node machines.

  • Container Network Interface (CNI) health endpoint status is healthy.

  • Pod CIDRs don't overlap with node machine IP addresses.

For more information about the node machine requirements, see Cluster node machine prerequisites.

Cluster-wide checks

This section describes what's evaluated by health checks for a cluster.

Network checks

The following client-side cluster node network checks run automatically as part of periodic health checks. Network checks can't be run on-demand. These checks correspond to the Bare Metal HealthCheck custom resources named bm-system-network that run in the admin cluster in the cluster namespace. For more information about health check resources, see HealthCheck custom resources.

  • If the cluster uses bundled load balancing, nodes in the load balancing node pool must have Layer 2 address resolution protocol (ARP) connectivity. ARP is required for VIP discovery.

  • Control plane nodes have ports 8443 and 8444 open for use by GKE Identity Service.

  • Control plane nodes have ports 2382 and 2383 open for use by the etcd-events instance.

For information about protocols and port usage for your clusters, see Network requirements.

The network checks for a preflight check differ from the network health checks. For a list of the network checks for a preflight check, see either Preflight checks for cluster creation or Preflight checks for cluster upgrades.

Kubernetes

Kubernetes checks, which run automatically as part of preflight and periodic health checks, can also be run on-demand. These health checks don't return an error if any of the listed control plane components are missing. The check only returns errors if the components exist and have errors at command-execution time.

These checks correspond to the Bare Metal HealthCheck custom resources named bm-system-kubernetesresources running in the admin cluster in the cluster namespace. For more information about health check resources, see HealthCheck custom resources.

  • API server is functioning.

  • The anetd operator is configured correctly.

  • All control plane nodes are operable.

  • The following control plane components are functioning properly:

    • anthos-cluster-operator

    • controller-manager

    • cluster-api-provider

    • ais

    • capi-kubeadm-bootstrap-system

    • cert-manager

    • kube-dns

Add-ons

Add-ons checks run automatically as part of preflight checks and periodic health checks and can be run on-demand. This health check doesn't return an error if any of the listed add-ons are missing. The check only returns errors if the add-ons exist and have errors at command-execution time.

These checks correspond to Bare Metal HealthCheck custom resources named bm-system-add-ons*resources running in the admin cluster in the cluster namespace. For more information about health check resources, see HealthCheck custom resources.

  • Cloud Logging Stackdriver components and Connect Agent are operable:

    • stackdriver-log-aggregator

    • stackdriver-log-forwarder

    • stackdriver-metadata-agent

    • stackdriver-prometheus-k8

    • gke-connect-agent

  • Google Distributed Cloud-managed resources show no manual changes (config drift):

    • Field values haven't been updated

    • Optional fields haven't been added or removed

    • Resources haven't been deleted

If the health check detects config drift, the bm-system-add-ons Bare Metal HealthCheck custom resource Status.Pass value is set to false. The Description field in the Failures section contains details about any resources that have changed, including the following information:

  • Version: the API version for the resource.
  • Kind: the object schema, such as Deployment, for the resource.
  • Namespace: the namespace that the resource is in.
  • Name: the name of the resource.
  • Diff: a string format comparison of differences between the resource manifest on record and the manifest for the changed resource.

HealthCheck custom resources

When a health check runs, Google Distributed Cloud creates a HealthCheck custom resource. HealthCheck custom resources are persistent and provide a structured record of the health check activities and outcomes. There are two categories of HeathCheck custom resources:

  • Bare Metal HealthCheck custom resources (API Version: baremetal.cluster.gke.io/v1): these resources provide details about periodic health checks. These resources are on the admin cluster in cluster namespaces. Bare Metal HealthCheck resources are responsible for creating health check cron jobs and jobs. These resources are consistently updated with the most recent results.

  • Anthos HealthCheck custom resources (API Version: anthos.gke.io/v1): these resources are used to report health check metrics. These resources are in the kube-system namespace of each cluster. Updates of these resources are best effort. If an update fails to an issue, such as a transient network error, the failure is ignored.

The following table lists the types of resources that are created for either HealthCheck category:

Bare Metal HealthChecks GKE Enterprise HealthChecks Severity

Type: machine

Name: bm-system-NODE_IP_ADDRESS-machine

Type: machine

Name: bm-system-NODE_IP_ADDRESS-machine

Critical

Type: network

Name: bm-system-network

Type: network

Name: bm-system-network

Critical

Type: kubernetes

Name: bm-system-kubernetes

Type: kubernetes

Name: bm-system-kubernetes

Critical

Type: add-ons

Name: bm-system-add-ons

Type: add-ons

Name: bm-system-add-ons-add-ons

Name: bm-system-add-ons-configdrift

Optional

To retrieve HealthCheck status:

  1. To read the results of periodic health checks, you can get the associated custom resources:

    kubectl get healthchecks.baremetal.cluster.gke.io --kubeconfig ADMIN_KUBECONFIG --all-namespaces
    

    Replace ADMIN_KUBECONFIG with the path of the admin cluster kubeconfig file.

    The following sample shows the health checks that run periodically and whether the checks passed when they last ran:

    NAMESPACE               NAME                               PASS    AGE
    cluster-test-admin001   bm-system-192.0.2.52-machine       true    11d
    cluster-test-admin001   bm-system-add-ons                  true    11d
    cluster-test-admin001   bm-system-kubernetes               true    11d
    cluster-test-admin001   bm-system-network                  true    11d
    cluster-test-user001    bm-system-192.0.2.53-machine       true    56d
    cluster-test-user001    bm-system-192.0.2.54-machine       true    56d
    cluster-test-user001    bm-system-add-ons                  true    56d
    cluster-test-user001    bm-system-kubernetes               true    56d
    cluster-test-user001    bm-system-network                  true    56d
    
  2. To read details for a specific health check, use kubectl describe:

    kubectl describe healthchecks.baremetal.cluster.gke.io HEALTHCHECK_NAME --kubeconfig ADMIN_KUBECONFIG --namespace CLUSTER_NAMESPACE
    

    Replace the following:

    • HEALTHCHECK_NAME: the name of the health check.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.
    • CLUSTER_NAMESPACE: the namespace of the cluster.

    When you review the resource, the Status: section contains the following important fields:

    • Pass: indicates whether or not the last health check job passed.
    • Checks: contains information about the most recent health check job.
    • Failures: contains information about the most recent failed job.
    • Periodic: contains information such as when was the last time a health check job was scheduled and instrumented.

    The following HealthCheck sample is for a successful machine check:

    Name:         bm-system-192.0.2.54-machine
    Namespace:    cluster-test-user001
    Labels:       baremetal.cluster.gke.io/periodic-health-check=true
                  machine=192.0.2.54
                  type=machine
    Annotations:  <none>
    API Version:  baremetal.cluster.gke.io/v1
    Kind:         HealthCheck
    Metadata:
      Creation Timestamp:  2023-09-22T18:03:27Z
      ...
    Spec:
      Anthos Bare Metal Version:  1.16.0
      Cluster Name:               nuc-user001
      Interval In Seconds:        3600
      Node Addresses:
        192.168.1.54
      Type:  machine
    Status:
      Check Image Version:  1.16.0-gke.26
      Checks:
        192.168.1.54:
          Job UID:  345b74a6-ce8c-4300-a2ab-30769ea7f855
          Message:
          Pass:     true
      ...
      Cluster Spec:
        Anthos Bare Metal Version:  1.16.0
        Bypass Preflight Check:     false
        Cluster Network:
          Bundled Ingress:  true
          Pods:
            Cidr Blocks:
              10.0.0.0/16
          Services:
            Cidr Blocks:
              10.96.0.0/20
      ...
      Conditions:
        Last Transition Time:  2023-11-22T17:53:18Z
        Observed Generation:   1
        Reason:                LastPeriodicHealthCheckFinished
        Status:                False
        Type:                  Reconciling
      Node Pool Specs:
        node-pool-1:
          Cluster Name:  nuc-user001
        ...
      Pass:                  true
      Periodic:
        Last Schedule Time:                    2023-11-22T17:53:18Z
        Last Successful Instrumentation Time:  2023-11-22T17:53:18Z
      Start Time:                              2023-09-22T18:03:28Z
    Events:
      Type    Reason                  Age                  From                    Message
      ----    ------                  ----                 ----                    -------
      Normal  HealthCheckJobFinished  6m4s (x2 over 6m4s)  healthcheck-controller  health check job bm-system-192.0.2.54-machine-28344593 finished
    

    The following HealthCheck sample is for a failed machine check:

    Name:         bm-system-192.0.2.57-machine
    Namespace:    cluster-user-cluster1
    ...
    API Version:  baremetal.cluster.gke.io/v1
    Kind:         HealthCheck
    ...
    Status:
      Checks:
        192.0.2.57:
          Job UID:  492af995-3bd5-4441-a950-f4272cb84c83
          Message:  following checks failed, ['check_kubelet_pass']
          Pass:     false
      Failures:
        Category:     AnsibleJobFailed
        Description:  Job: machine-health-check.
        Details:       Target: 1192.0.2.57. View logs with: [kubectl logs -n cluster-user-test bm-system-192.0.2.57-machine-28303170-qgmhn].
        Reason:       following checks failed, ['check_kubelet_pass']
      Pass:                  false
      Periodic:
        Last Schedule Time:                    2023-10-24T23:04:21Z
        Last Successful Instrumentation Time:  2023-10-24T23:31:30Z
      ...
    
  3. To get a list of health checks for metrics, use the following command:

    kubectl get healthchecks.anthos.gke.io --kubeconfig CLUSTER_KUBECONFIG --namespace kube-system
    

    Replace CLUSTER_KUBECONFIG with the path of the target cluster kubeconfig file.

    The following sample shows the response format:

    NAMESPACE     NAME                                            COMPONENT   NAMESPACE   STATUS    LAST_COMPLETED
    kube-system   bm-system-10.200.0.3-machine                                            Healthy   56m
    kube-system   bm-system-add-ons-add-ons                                               Healthy   48m
    kube-system   bm-system-add-ons-configdrift                                           Healthy   48m
    kube-system   bm-system-kubernetes                                                    Healthy   57m
    kube-system   bm-system-kubernetes-1.16.1-non-periodic                                Healthy   25d
    kube-system   bm-system-network                                                       Healthy   32m
    kube-system   check-kubernetes-20231114-190445-non-periodic                           Healthy   3h6m
    kube-system   component-status-controller-manager                                     Healthy   5s
    kube-system   component-status-etcd-0                                                 Healthy   5s
    kube-system   component-status-etcd-1                                                 Healthy   5s
    kube-system   component-status-scheduler                                              Healthy   5s
    

Health check cron jobs

For periodic health checks, each bare metal HealthCheck custom resource has a corresponding CronJob with the same name. This CronJob is responsible for scheduling the corresponding health check to run at set intervals. The CronJob also includes an ansible-runner container that executes the health check by establishing a secure shell (SSH) connection to the nodes.

To retrieve information about cron jobs:

  1. Get a list of cron jobs that have run for a given cluster:

    kubectl get cronjobs --kubeconfig ADMIN_KUBECONFIG --namespace CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.
    • CLUSTER_NAMESPACE: the namespace of the cluster.

    The following sample shows a typical response:

    NAMESPACE           NAME                           SCHEDULE       SUSPEND   ACTIVE   LAST SCHEDULE   AGE
    cluster-test-admin   bm-system-10.200.0.3-machine   17 */1 * * *   False     0        11m             25d
    cluster-test-admin   bm-system-add-ons              25 */1 * * *   False     0        3m16s           25d
    cluster-test-admin   bm-system-kubernetes           16 */1 * * *   False     0        12m             25d
    cluster-test-admin   bm-system-network              41 */1 * * *   False     0        47m             25d
    

    The values in the SCHEDULE column indicate the schedule for each health check job run in schedule syntax. For example, the bm-system-kubernetes job runs at 17 minutes past the hour (17) every hour (*/1) of every day (* * *). The time intervals for periodic health checks aren't editable, but it's useful for troubleshooting to know when they're supposed to run.

  2. Retrieve details for a specific CronJob custom resource:

    kubectl describe cronjob CRONJOB_NAME --kubeconfig ADMIN_KUBECONFIG --namespace CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.
    • CLUSTER_NAMESPACE: the namespace of the cluster.

    The following sample shows a successful CronJob:

    Name:                          bm-system-network
    Namespace:                     cluster-test-admin
    Labels:                        AnthosBareMetalVersion=1.16.1
                                   baremetal.cluster.gke.io/check-name=bm-system-network
                                   baremetal.cluster.gke.io/periodic-health-check=true
                                   controller-uid=2247b728-f3f5-49c2-86df-9e5ae9505613
                                   type=network
    Annotations:                   target: node-network
    Schedule:                      41 */1 * * *
    Concurrency Policy:            Forbid
    Suspend:                       False
    Successful Job History Limit:  1
    Failed Job History Limit:      1
    Starting Deadline Seconds:     <unset>
    Selector:                      <unset>
    Parallelism:                   <unset>
    Completions:                   1
    Active Deadline Seconds:       3600s
    Pod Template:
      Labels:           baremetal.cluster.gke.io/check-name=bm-system-network
      Annotations:      target: node-network
      Service Account:  ansible-runner
      Containers:
      ansible-runner:
        Image:      gcr.io/anthos-baremetal-release/ansible-runner:1.16.1-gke.5
        Port:       <none>
        Host Port:  <none>
        Command:
          cluster
        Args:
          -execute-command=network-health-check
          -login-user=root
          -controlPlaneLBPort=443
        Environment:  <none>
        Mounts:
          /data/configs from inventory-config-volume (ro)
          /etc/ssh-key from ssh-key-volume (ro)
      Volumes:
      inventory-config-volume:
        Type:      ConfigMap (a volume populated by a ConfigMap)
        Name:      bm-system-network-inventory-bm-system-ne724a7cc3584de0635099
        Optional:  false
      ssh-key-volume:
        Type:            Secret (a volume populated by a Secret)
        SecretName:      ssh-key
        Optional:        false
    Last Schedule Time:  Tue, 14 Nov 2023 18:41:00 +0000
    Active Jobs:         <none>
    Events:
      Type    Reason            Age   From                Message
      ----    ------            ----  ----                -------
      Normal  SuccessfulCreate  48m   cronjob-controller  Created job bm-system-network-28333121
      Normal  SawCompletedJob   47m   cronjob-controller  Saw completed job: bm-system-network-28333121, status: Complete
      Normal  SuccessfulDelete  47m   cronjob-controller  Deleted job bm-system-network-28333061
    

Health check logs

When health checks run, they generate logs. Whether you run health checks with bmctl or they run automatically as part of periodic health checks, logs are sent to Cloud Logging. When run health checks on demand, log files are created in a time-stamped folder in the log/ directory of your cluster folder on your admin workstation. For example, if you run the bmctl check kubernetes command for a cluster named test-cluster, you find logs in a directory like bmctl-workspace/test-cluster/log/check-kubernetes-20231103-165923.

View logs locally

You can use kubectl to view logs for periodic health checks:

  1. Get pods and find the specific health check pod you're interested in:

    kubectl get pods --kubeconfig ADMIN_KUBECONFIG --namespace CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.
    • CLUSTER_NAMESPACE: the namespace of the cluster.

    The following sample response shows some health check pods:

    NAME                                                              READY   STATUS      RESTARTS   AGE
    bm-system-10.200.0.4-machine-28353626-lzx46                       0/1     Completed   0          12m
    bm-system-10.200.0.5-machine-28353611-8vjw2                       0/1     Completed   0          27m
    bm-system-add-ons-28353614-gxt8f                                  0/1     Completed   0          24m
    bm-system-check-kernel-gce-user001-02fd2ac273bc18f008192e177x2c   0/1     Completed   0          75m
    bm-system-cplb-init-10.200.0.4-822aa080-7a2cdd71a351c780bf8chxk   0/1     Completed   0          74m
    bm-system-cplb-update-10.200.0.4-822aa082147dbd5220b0326905lbtj   0/1     Completed   0          67m
    bm-system-gcp-check-create-cluster-202311025828f3c13d12f65k2xfj   0/1     Completed   0          77m
    bm-system-kubernetes-28353604-4tc54                               0/1     Completed   0          34m
    bm-system-kubernetes-check-bm-system-kub140f257ddccb73e32c2mjzn   0/1     Completed   0          63m
    bm-system-machine-gcp-check-10.200.0.4-6629a970165889accb45mq9z   0/1     Completed   0          77m
    ...
    bm-system-network-28353597-cbwk7                                  0/1     Completed   0          41m
    bm-system-network-health-check-gce-user05e0d78097af3003dc8xzlbd   0/1     Completed   0          76m
    bm-system-network-preflight-check-create275a0fdda700cb2b44b264c   0/1     Completed   0          77m
    
  2. Retrieve pod logs:

    kubectl logs POD_NAME  --kubeconfig ADMIN_KUBECONFIG --namespace CLUSTER_NAMESPACE
    

    Replace the following:

    • POD_NAME: the name of the health check pod.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.
    • CLUSTER_NAMESPACE: the namespace of the cluster.

    The following sample shows part of a pod log for a successful node machine health check:

    ...
    TASK [Summarize health check] **************************************************
    Wednesday 29 November 2023  00:26:22 +0000 (0:00:00.419)       0:00:19.780 ****
    ok: [10.200.0.4] => {
        "results": {
            "check_cgroup_pass": "passed",
            "check_cni_pass": "passed",
            "check_containerd_pass": "passed",
            "check_cpu_pass": "passed",
            "check_default_route": "passed",
            "check_disks_pass": "passed",
            "check_dns_pass": "passed",
            "check_docker_pass": "passed",
            "check_gcr_pass": "passed",
            "check_googleapis_pass": "passed",
            "check_kernel_version_pass": "passed",
            "check_kubelet_pass": "passed",
            "check_memory_pass": "passed",
            "check_pod_cidr_intersect_pass": "passed",
            "check_registry_mirror_reachability_pass": "passed",
            "check_time_sync_pass": "passed",
            "check_ubuntu_1804_kernel_version": "passed",
            "check_ufw_pass": "passed",
            "check_vcpu_pass": "passed"
        }
    }
    ...
    

    The following sample shows part of a failed node machine health check pod log. The sample shows that the kubelet check (check_kubelet_pass) failed, indicating that the kubelet isn't running on this node.

    ...
    TASK [Reach a final verdict] ***************************************************
    Thursday 02 November 2023  17:30:19 +0000 (0:00:00.172)       0:00:17.218 *****
    fatal: [10.200.0.17]: FAILED! => {"changed": false, "msg": "following checks failed, ['check_kubelet_pass']"}
    ...
    

View logs in Cloud Logging

Health check logs are streamed to Cloud Logging and can be viewed in Logs Explorer. Periodic health checks are classed as Pods in the console logs.

  1. In the Google Cloud console, go to the Logs Explorer page in the Logging menu.

    Go to Logs Explorer

  2. In the Query field, enter the following basic query:

    resource.type="k8s_container"
    resource.labels.pod_name=~"bm-system.*-machine.*"
    
  3. The Query results window shows the logs for node machine health checks.

Here's a list of queries for periodic health checks:

  • Node machine

    resource.type="k8s_container"
    resource.labels.pod_name=~"bm-system.*-machine.*"
    
  • Network

    resource.type="k8s_container"
    resource.labels.pod_name=~"bm-system-network.*"
    
  • Kubernetes

    resource.type="k8s_container"
    resource.labels.pod_name=~"bm-system-kubernetes.*"
    
  • Add-ons

    resource.type="k8s_container"
    resource.labels.pod_name=~"bm-system-add-ons.*"
    

Periodic health checks

By default, the periodic health checks run hourly and check the following cluster components:

You can check the cluster health by looking at the Bare Metal HealthCheck (healthchecks.baremetal.cluster.gke.io) custom resources on the admin cluster. The Network, Kubernetes, and Add-ons checks are cluster-level checks, so there is a single resource for each check. A Machine check is run for each node in the target cluster, so there is a resource for each node.

  • To list Bare Metal HealthCheck resources for a given cluster, run the following command:

    kubectl get healthchecks.baremetal.cluster.gke.io --kubeconfig=ADMIN_KUBECONFIG \
        --namespace=CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

    • CLUSTER_NAMESPACE: the namespace of the target cluster of the health check.

    The following sample response shows the format:

    NAMESPACE               NAME                               PASS    AGE
    cluster-test-user001    bm-system-192.0.2.53-machine       true    56d
    cluster-test-user001    bm-system-192.0.2.54-machine       true    56d
    cluster-test-user001    bm-system-add-ons                  true    56d
    cluster-test-user001    bm-system-kubernetes               true    56d
    cluster-test-user001    bm-system-network                  true    56d
    

    The Pass field for healthchecks.baremetal.cluster.gke.io indicates whether the last health check passed (true) or failed (false).

For more information about checking the status for periodic health checks, see HealthCheck custom resources and Health check logs.

Disable periodic health checks

Periodic health checks are enabled by default on all clusters. You can disable periodic health checks for a cluster by setting the periodicHealthCheck.enable field to false in the Cluster resource.

To disable periodic health checks:

  1. Edit the cluster configuration file and add the periodicHealthCheck.enable field to the Cluster spec and set its value to false:

    apiVersion: v1
    kind: Namespace
    metadata:
      name: cluster-user-basic
    ---
    apiVersion: baremetal.cluster.gke.io/v1
    kind: Cluster
    metadata:
      name: user-basic
      namespace: cluster-user-basic
    spec:
      type: user
      profile: default
      ...
      periodicHealthCheck:
        enable: false
      ...
    
  2. Update the cluster by running the bmctl update command:

    bmctl update cluster -c CLUSTER_NAME --kubeconfig=ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster you want to update.

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

  3. To verify that periodic health checks have been disabled, run the following command to confirm that the corresponding healthchecks.baremetal.cluster.gke.io resources have been deleted:

    kubectl get healthchecks.baremetal.cluster.gke.io --kubeconfig=ADMIN_KUBECONFIG \
        --namespace=CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

    • CLUSTER_NAMESPACE: the namespace of the target cluster of the health check.

Re-enable periodic health checks

Periodic health checks are enabled by default on all clusters. If you've disabled periodic health checks, you can re-enable them by setting the periodicHealthCheck.enable field to true in Cluster resource.

To re-enable periodic health checks:

  1. Edit the cluster configuration file and add the periodicHealthCheck.enable field to the Cluster spec and set its value to true:

    apiVersion: v1
    kind: Namespace
    metadata:
      name: cluster-user-basic
    ---
    apiVersion: baremetal.cluster.gke.io/v1
    kind: Cluster
    metadata:
      name: user-basic
      namespace: cluster-user-basic
    spec:
      type: user
      profile: default
      ...
      periodicHealthCheck:
        enable: true
      ...
    
  2. Update the cluster by running the bmctl update command:

    bmctl update cluster -c CLUSTER_NAME --kubeconfig=ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster you want to update.

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

  3. To verify that periodic health checks are enabled, run the following command to confirm that the corresponding healthchecks.baremetal.cluster.gke.io resources are present:

    kubectl get healthchecks.baremetal.cluster.gke.io --kubeconfig=ADMIN_KUBECONFIG \
        --namespace=CLUSTER_NAMESPACE
    

    Replace the following:

    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

    • CLUSTER_NAMESPACE: the namespace of the target cluster of the health check.

    It may take a couple of minutes for the resources to appear.

On-demand health checks

The following sections describe the health checks that you can run on demand with bmctl check. When you use bmctl check to run health checks, the following rules apply:

  • When you check a user cluster with a bmctl check command, specify the path of the kubeconfig file for the admin cluster with the --kubeconfig flag.

  • Logs are generated in a time-stamped directory in the cluster log folder on your admin workstation (by default, bmctl-workspace/CLUSTER_NAME/log).

  • Health check logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

For more information about other options for bmctl commands, see the bmctl command reference.

Add-ons

Check that the specified Kubernetes add-ons for the specified cluster are operable.

  • To check add-ons for a cluster:

    bmctl check add-ons --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that you're checking.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

For a list of what's checked, see Add-ons in the What's checked section of this document.

This check generates log files in a check-addons-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Cluster

Check all cluster nodes, node networking, Kubernetes, and add-ons for the specified cluster. You provide the cluster name, and bmctl looks for the cluster configuration file at bmctl-workspace/CLUSTER_NAME/CLUSTER_NAME.yaml, by default.

  • To check the health of a cluster:

    bmctl check cluster --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that you're checking.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

For a list of what's checked, see the following sections in the What's checked section of this document:

This check generates log files in a check-cluster-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Config

Check the cluster configuration file. This check expects that you have generated the configuration file and edited it to specify the cluster configuration details for your cluster. The purpose of this command is to determine whether any configuration setting is wrong, missing, or has any syntax errors. You provide the cluster name, and bmctl looks for the cluster configuration file at bmctl-workspace/CLUSTER_NAME/CLUSTER_NAME.yaml, by default.

  • To check a cluster configuration file:

    bmctl check config --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that you're checking.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

This command checks the YAML syntax of the cluster configuration file, Google Cloud access, and permissions for the service account specified in the cluster configuration file.

This check generates log files in a check-config-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Connectivity to Google Cloud

Check that all cluster node machines can access Container Registry (gcr.io) and the Google APIs endpoint (googleapis.com).

  • To check the cluster access to required Google Cloud resources:

    bmctl check gcp --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that you're checking.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

This check generates log files in a check-gcp-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Kubernetes

Check the health of critical Kubernetes operators running in the control plane. This check verifies that critical operators are working properly and that their pods aren't crashing. This health check doesn't return an error if any of the control plane components are missing: it only returns errors if the components exist and have errors at command-execution time.

  • To check the health of Kubernetes components in your cluster:

    bmctl check kubernetes --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that contains the nodes you're checking.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

For a list of what's checked, see Kubernetes in the What's checked section of this document.

This check generates log files in a check-kubernetes-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Nodes

Check cluster node machines to confirm that they're configured properly and that they have sufficient resources and connectivity for cluster upgrades and cluster operation.

  • To check the health of node machines in your cluster:

    bmctl check nodes --cluster CLUSTER_NAME --addresses NODE_IP_ADDRESSES --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster that contains the nodes you're checking.
    • NODE_IP_ADDRESSES: a comma-separated list of IP addresses for node machines.
    • ADMIN_KUBECONFIG: the path of the admin cluster kubeconfig file.

For a list of what's checked, see Node machine checks in the What's checked section of this document.

This check generates log files for each cluster node machine in a check-nodes-TIMESTAMP directory in the cluster log folder on your admin workstation. Logs are also sent to Cloud Logging. For more information about the logs, see Health check logs.

Preflight

For information about using bmctl to run preflight checks, see Run on-demand preflight checks for cluster creation and Run on-demand preflight checks for cluster upgrades.

VM Runtime preflight check

The VM Runtime on GDC preflight check validates a set of node machine prerequisites before using VM Runtime on GDC and VMs. If VM Runtime on GDC preflight check fails, VM creation is blocked. When spec.enabled is set to true in the VMRuntime custom resource, the VM Runtime on GDC preflight check runs automatically.

apiVersion: vm.cluster.gke.io/v1
kind: VMRuntime
metadata:
  name: vmruntime
spec:
  enabled: true
...

For more information, see VM Runtime on GDC preflight check.

Run the latest health checks

Health checks (and preflight checks) are updated as known issues are identified. To direct bmctl to run the checks from the latest patch image of your installed minor version, use the --check-image-version latest option flag:

bmctl check cluster --cluster CLUSTER_NAME --check-image-version latest

Replace CLUSTER_NAME with the name of the cluster that you're checking.

This can help you catch any recently identified known issues without first upgrading your cluster.

You can also perform the latest preflight checks before you install or upgrade a cluster. For more information, see Run the latest preflight checks.

Config drift detection

When the add-ons health check runs, among other things, it checks for unexpected changes to resources managed by Google Distributed Cloud. Specifically, the check assesses the manifests for these resources to determine whether changes have been made by external entities. These checks can help forewarn of inadvertent changes that might be detrimental to cluster health. They also provide valuable troubleshooting information.

What manifests are checked

With a few exceptions, the add-ons health check reviews all Google Distributed Cloud-managed resources for your clusters. These are resources that are installed and administered by Google Distributed Cloud software. There are hundreds of these resources and most of their manifests are checked for config drift. The manifests are for all kinds of resources, including, but not limited, to the following:

  • ClusterRoles
  • ClusterRoleBindings
  • CustomResourceDefinitions
  • DaemonSets
  • Deployments
  • HorizontalPodAutoscalers
  • Issuers
  • MetricsServers
  • MutatingWebhookConfigurations
  • Namespaces
  • Networks
  • NetworkLoggings
  • PodDisruptionBudgets
  • Providers
  • Roles
  • RoleBindings
  • Services
  • StorageClasses
  • ValidatingWebhookConfigurations

What manifests aren't checked

By design, we exclude some manifests from review. We ignore specific kinds of resources, such as Certificates, Secrets, and ServiceAccounts, for privacy and security reasons. The add-ons check also ignores some resources and resource fields, because we expect them to be changed and we don't want the changes to trigger config drift errors. For example, the check ignores replicas fields in Deployments, because the Autoscaler might modify this value.

How to exclude additional manifiests or portions of manifests from review

In general, we recommend that you don't make changes to Google Distributed Cloud-managed resources or ignore changes being made to them. However, we know that resources sometimes require modifications to address unique case requirements or to fix problems. For this reason, we provide an ignore-config-drift ConfigMap for each cluster in your fleet. You use these ConfigMaps to specify resources and specific resource fields to exclude from assessment.

Google Distributed Cloud creates an ignore-config-drift ConfigMap for each cluster. These ConfigMaps are located in the managing (admin or hybrid) cluster under the corresponding cluster namespace. For example, If you have an admin cluster (admin-one) that manages two user clusters (user-one and user-two), you can find the ignore-config-drift ConfigMap for the user-one cluster in the admin-one cluster in the cluster-user-one namespace.

To exclude a resource or resource fields from review:

  1. Add a data.ignore-resources field to the ignore-config-drift ConfigMap.

    This field takes an array of JSON strings, with each string specifying a resource and, optionally, specific fields in the resource.

  2. Specify the resource and, optionally, the specific fields to ignore as a JSON object in the string array:

    The JSON object for a resource and fields has the following structure:

    {
      "Version": "RESOURCE_VERSION",
      "Kind": "RESOURCE_KIND",
      "Namespace": "RESOURCE_NAMESPACE",
      "Name": "RESOURCE_NAME",
      "Fields": [
        "FIELD_1_NAME",
        "FIELD_2_NAME",
        ...
        "FIELD_N_NAME"
      ]
    }
    

    Replace the following:

    • RESOURCE_VERSION: (optional) the apiVersion value for the resource.

    • RESOURCE_KIND: (optional) the kind value for the resource.

    • RESOURCE_NAMESPACE: (optional) the metadata.namespace value for the resource.

    • RESOURCE_NAME: (optional) the metadata.name value for the resource.

    • FIELD_NAME: (optional) specify an array of resource fields to ignore. If you don't specify any fields, the add-ons check ignores all changes to the resource.

    Each of the fields in the JSON object is optional, so a variety of permutations are allowed. You can exclude whole categories of resources, or you can be very precise and exclude specific fields from a specific resource.

    For example, if you want the add-ons check to ignore any changes to just the command section of the ais Deployment on your admin cluster, the JSON might look like the following:

    {
      "Version": "apps/v1",
      "Kind": "Deployment",
      "Namespace": "anthos-identity-service",
      "Name": "ais",
      "Fields": [
        "command"
      ]
    }
    

    You would add this JSON object to ignore-resources in the config-drift-ignore ConfigMap as a string value in an array as shown in the following example:

    apiVersion: v1
    kind: ConfigMap
    metadata:
      creationTimestamp: "2024-09-24T00:39:45Z"
      name: config-drift-ignore
      namespace: cluster-example-admin
      ownerReferences:
      - apiVersion: baremetal.cluster.gke.io/v1
        kind: Cluster
        name: example-admin
      ...
    data:
      ignore-resources: '[{"Version":"apps/v1","Kind":"Deployment","Namespace":"anthos-identity-service","Name":"ais","Fields":["command"]}]'
      ...
    

    This example ConfigMap setting lets you add, remove, or edit command fields in the ais Deployment without triggering any config drift errors. Edits to fields outside of the command section in the Deployment, however, are still detected by the add-ons check and reported as config drift.

    If you want to exclude all Deployments, the ignore-resources value might look like the following:

    ...
    data:
      ignore-resources: '[{"Kind":"Deployment"}]'
    ...
    

    Since ignore-resources accepts an array of JSON strings, you can specify multiple exclusion patterns. If you are troubleshooting issues or experimenting with your clusters and you don't want to trigger config drift errors, this flexibility to exclude both very targeted resources and resource fields or broader categories of resources from drift detection can be useful.

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