Preflight checks

Preflight checks are a preventive measure to help identify problems before you start a major cluster operation, such as creating or upgrading clusters. When these checks run automatically ahead of an operation, no changes are made to your clusters unless the preflight checks all pass. You can also run preflight 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.

In Google Distributed Cloud you can run preflight checks for different situations:

  • Google Distributed Cloud runs preflight checks when you create or upgrade clusters and node pool resources with bmctl. If the checks fail, no changes are made. You can also bypass these checks, or run them explicitly.

  • Google Distributed Cloud also runs internal preflight checks when an admin or hybrid cluster creates or updates Kubernetes resources on user clusters. The checks are run before changes are applied to affected user clusters. If the checks fail, no changes are made.

PreflightCheck custom resources

When a preflight check runs, Google Distributed Cloud creates a PreflightCheck custom resource. PreflightCheck custom resources are persistent and provide a record of the preflight check activities and outcomes.

To retrieve PreflightCheck custom resources:

  1. Get a list of preflight checks that have run for a given cluster:

    kubectl get preflightchecks --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 response lists the resources by namespace. You can run kubectl get preflightchecks across all namespaces for a comprehensive list. For each resource, the response shows the age of the resource and whether or not the preflight checks passed. The following sample response shows PreflightCheck resources for the cluster-test-admin001 namespace.

    NAMESPACE              NAME                                PASS    AGE
    cluster-test-admin001   test-admin001                      true    52d
    cluster-test-admin001   test-admin001jkm4q                 true    52d
    cluster-test-admin001   test-admin001k79t7                 true    6d20h
    cluster-test-admin001   upgrade-cluster-20231106-222746    true    6d20h
    
  2. Retrieve the details for a specific PreflightCheck custom resource:

    kubectl describe preflightchecks --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 command response shows a PreflightCheck resource for a successful preflight check that ran as part of cluster creation:

    Name:         create-cluster-20230922-175006
    Namespace:    cluster-test-user001
    Labels:       <none>
    Annotations:  <none>
    API Version:  baremetal.cluster.gke.io/v1
    Kind:         PreflightCheck
    Metadata:
      Creation Timestamp:  2023-09-22T17:50:11Z
      Generation:          1
      Resource Version:    6502800
      UID:                 917daf64-963d-44b4-a1f9-c54972a39191
    Spec:
      Check Image Version:  latest
      Config YAML:          ---
    apiVersion: v1
    kind: Namespace
    metadata:
      name: cluster-test-user
    ---
    apiVersion: baremetal.cluster.gke.io/v1
    kind: Cluster
    metadata:
      name: test-user001
      namespace: cluster-test-user001
    spec:
      type: user
      profile: default
      anthosBareMetalVersion: 1.16.0
      gkeConnect:
        projectID: clusters-project
      controlPlane:
        nodePoolSpec:
          nodes:
          - address: 192.0.2.53
      ...
    ---
    apiVersion: baremetal.cluster.gke.io/v1
    kind: NodePool
    metadata:
      name: node-pool-1
      namespace: cluster-test-user001
    spec:
      clusterName: test-user001
      nodes:
      - address: 192.0.2.54
      ...
    Status:
      Checks:
        192.0.2.53:
          Job UID:  d0b5dc1f-9d39-4cc8-b3d2-0841212f7f8c
          Message:  
          Pass:     true
        192.0.2.53-gcp:
          Job UID:  b4d96ce5-0d4e-4e3c-97db-6317e0c15fc8
          Message:  
          Pass:     true
        192.0.2.54:
          Job UID:  b67cf195-3951-46ad-b91c-0d79025cfc0a
          Message:  
          Pass:     true
        192.0.2.54-gcp:
          Job UID:  aed509e2-4bf7-44c4-bfa0-8147ef8ea74e
          Message:  
          Pass:     true
        Gcp:
          Job UID:  ac479ac4-e1c4-4681-9f2b-5773069bf6ae
          Message:  
          Pass:     true
        Node - Network:
          Job UID:  8a57c4ee-ad17-4560-8809-b117c871ad5d
          Message:  
          Pass:     true
        Pod - Cidr:
          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
      ...
      Completion Time:                 2023-09-22T17:51:22Z
      Conditions:
        Last Transition Time:  2023-10-02T23:59:06Z
        Observed Generation:   1
        Reason:                Reconciling
        Status:                True
        Type:                  Reconciling
      Node Pool Specs:
        node-pool-1:
          Cluster Name:  test-user001
          Nodes:
            Address:         192.0.2.54
        ...
      Pass:                  true
      Start Time:            2023-09-22T17:50:32Z
    Events:                  <none>
    

    In the preceding PreflightCheck custom resource, the Status section contains the following information:

    • The Checks section lists individual preflight checks that were run and whether or not they passed. In this example, the following checks ran:
      • 192.0.2.53 and 192.0.2.54: node checks (OS configuration, resources, and software settings) for machines with IP addresses 192.0.2.53 and 192.0.2.54.
      • 192.0.2.53-gpc and 192.0.2.54-gcp: Google Cloud connectivity checks (Container Registry and Google API access) for machines with IP addresses 192.0.2.53 and 192.0.2.54.
      • Gcp: Google Cloud connectivity checks for the cluster.
      • Node - Network: Network checks (connectivity, etcd operation, VIP access, and port binding) for the cluster.
      • Pod - Cidr: Pod IP address checks for overlapping addresses for the cluster.
    • The Cluster Spec section shows the cluster configuration.
    • The Pass field shows true, indicating that the preflight checks passed collectively.

Preflight check logs

When preflight checks run as a result of a bmctl command, such as bmctl check preflight, Google Distributed Cloud creates log files. Here's what gets generated and where:

  • Preflight check logs are generated in a directory with the following naming pattern preflight-TIMESTAMP.

  • This preflight directory is created in the log directory for the cluster in the bmctl workspace. By default, the log directory path is bmctl-workspace/CLUSTER_NAME/log.

  • The preflight logs consist of the following files:

    • Log files for node machine checks, one for each cluster node. These log files are named using the IP address of the node. For example, a filename might be 192.0.2.53.

    • Log files for Google Cloud access checks, one for each cluster node. These log files are named using the IP address of the node. For example, a filename might be 192.0.2.53-gcp.

    • Log file for cluster Google Cloud access checks, which is named gcp.

    • Log file for node networking checks, which is named node-network.

If a preflight check fails, these log files can help you identify and troubleshoot the problem.

Preflight checks for cluster creation

When you create clusters, Google Distributed Cloud automatically runs preflight checks before any changes are made.

What's checked?

Preflight checks for installation check the following:

  • Node machine checks:

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

    • OS version is supported.

    • OS is using a supported kernel version.

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

    • For Ubuntu, package manager apt is operable and required packages are available.

    • For Red Hat Enterprise Linux, package manager dnf is operable and required packages are available.

    • For Red Hat Enterprise Linux, Podman isn't installed.

    • Node machines meet the minimum CPU requirements.

    • Node machines meet the minimum memory requirements.

    • Node machines meet the minimum disk storage requirements.

    • Time synchronization is configured on node machines.

    • kubelet is active and running on node machines.

    • containerd is active and running on node machines.

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

    • Domain Name System (DNS) is functioning properly. If the cluster is configured to run behind a proxy, this check is skipped.

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

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

  • Google Cloud checks for each node and for the cluster:

    • Container Registry, gcr.io, reachability is checked. If the cluster is configured to use a registry mirror, this check is skipped.

    • Google APIs are reachable.

  • Node networking checks (varies based on load balancing configuration):

    • VIP for the Kubernetes API server is accessible.

    • Load balancer VIPs are accessible.

    • Nodes can communicate on required ports.

    • The etcd events instance is provisioned and port requirements are met.

When all checks pass, Google Distributed Cloud creates the cluster. For more information about the requirements for creating clusters, see Installation prerequisites overview.

Run on-demand preflight checks for cluster creation

You can also run preflight checks independently, before you create a cluster. Doing so can be beneficial as major cluster operations, such as cluster creation, are time-consuming. Identifying and resolving issues separately before starting a major cluster operation may help you with scheduling.

Self-managed clusters

  • The following command validates the specified cluster configuration file, but doesn't try to create the cluster itself:

    bmctl check config --cluster CLUSTER_NAME
    

    Replace CLUSTER_NAME with the name of the cluster that's associated with the configuration file you're checking.

  • This command checks whether the machines and network are ready for cluster creation:

    bmctl check preflight --cluster CLUSTER_NAME
    

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

User clusters

  • The following command validates the specified cluster config file, but doesn't try to create the cluster itself:

    bmctl check config --cluster CLUSTER_NAME --admin-kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the user cluster that you're checking.
    • ADMIN_KUBECONFIG: the path of the associated admin cluster kubeconfig file.
  • The following command checks whether the machines and network are ready for cluster creation:

    bmctl check preflight --cluster CLUSTER_NAME --admin-kubeconfig ADMIN_KUBECONFIG
    

bmctl supports the use of --kubeconfig as an alias for the--admin-kubeconfig flag.

Preflight checks for cluster upgrades

When you upgrade clusters, Google Distributed Cloud automatically runs preflight checks before any changes are made.

What's checked?

Preflight checks for cluster upgrades check the following:

  • Node machine checks:

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

    • OS version is supported.

    • OS is using a supported kernel version.

    • 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 functioning properly. If the cluster is configured to run behind a proxy, this check is skipped.

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

    * No control plane nodes or load balancer nodes are in maintenance mode.

  • Google Cloud checks for each node and for the cluster:

    • Container Registry, gcr.io, reachability is checked. If the cluster is configured to use a registry mirror, this check is skipped.

    • Google APIs are reachable.

  • Machine checks:

    • 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.

  • Node networking checks (varies based on load balancing configuration):

    • VIP for the Kubernetes API server is accessible.

    • Load balancer VIPs are accessible.

    • Nodes can communicate on required ports.

    • The etcd events instance is provisioned and port requirements are met.

When all checks pass, Google Distributed Cloud upgrades the cluster. For more information about upgrading clusters, see Best practices for Google Distributed Cloud cluster upgrades and Lifecycle and stages of cluster upgrades.

Run on-demand preflight checks for cluster upgrades

The bmctl check preflight command lets you run a preflight check before upgrading your cluster. You can check if the clusters are ready for an upgrade by running the following preflight check command before starting the upgrade:

  1. Update the cluster version (anthosBareMetalVersion) in the cluster configuration file.

  2. Use the following command to check if the clusters are ready for an upgrade and run a preflight check:

    bmctl check preflight --cluster CLUSTER_NAME --kubeconfig ADMIN_KUBECONFIG
    

    Replace the following:

    • CLUSTER_NAME: the name of the cluster to upgrade.
    • ADMIN_KUBECONFIG: the path to the admin cluster kubeconfig file.

    When you create the preflight check with this command to test a cluster upgrade, a PreflightCheck custom resource is created in the admin cluster.

Internal preflight checks on existing clusters

Google Distributed Cloud performs internal preflight checks automatically when you apply Kubernetes resources to an existing cluster. If any checks fail, Google Distributed Cloud doesn't change any of the related nodes unless you bypass the checks explicitly.

Bypass preflight checks when applying Kubernetes resources

To ignore the internal preflight checks when applying resources to existing clusters, you need to set the BypassPreflightCheck field to true in the cluster configuration file.

Here's part of a cluster configuration file that shows the bypassPreflightCheck field set to true:

apiVersion: v1
kind: Namespace
metadata:
  name: cluster-user1
---
apiVersion: baremetal.cluster.gke.io/v1
kind: Cluster
metadata:
  name: user1
  namespace: cluster-user1
spec:
  type: user
  bypassPreflightCheck: true
  # Anthos cluster version.
  anthosBareMetalVersion: 1.30.200-gke.101
...

Run the latest preflight checks

Preflight checks (and health 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 preflight --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 creating or upgrading your cluster.

You can also perform the latest health checks of a live cluster to determine whether it's operating properly. For more information, see Run the latest health checks.

Ignore the results of automated preflight checks

If you run preflight checks on demand before you create or upgrade clusters, you can bypass the automated preflight checks. To bypass automated preflight checks, use the optional --force flag when you run bmctl create cluster or bmctl upgrade cluster.

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