Questo contenuto non è disponibile nella lingua selezionata.

Chapter 17. Requesting CRI-O and Kubelet profiling data by using the Node Observability Operator


The Node Observability Operator collects and stores the CRI-O and Kubelet profiling data of worker nodes. You can query the profiling data to analyze the CRI-O and Kubelet performance trends and debug the performance-related issues.

Important

The Node Observability Operator is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.

For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope.

17.1. Workflow of the Node Observability Operator

The following workflow outlines on how to query the profiling data using the Node Observability Operator:

  1. Install the Node Observability Operator in the OpenShift Container Platform cluster.
  2. Create a NodeObservability custom resource to enable the CRI-O profiling on the worker nodes of your choice.
  3. Run the profiling query to generate the profiling data.

17.2. Installing the Node Observability Operator

The Node Observability Operator is not installed in OpenShift Container Platform by default. You can install the Node Observability Operator by using the OpenShift Container Platform CLI or the web console.

17.2.1. Installing the Node Observability Operator using the CLI

You can install the Node Observability Operator by using the OpenShift CLI (oc).

Prerequisites

  • You have installed the OpenShift CLI (oc).
  • You have access to the cluster with cluster-admin privileges.

Procedure

  1. Confirm that the Node Observability Operator is available by running the following command:

    $ oc get packagemanifests -n openshift-marketplace node-observability-operator

    Example output

    NAME                            CATALOG                AGE
    node-observability-operator     Red Hat Operators      9h

  2. Create the node-observability-operator namespace by running the following command:

    $ oc new-project node-observability-operator
  3. Create an OperatorGroup object YAML file:

    cat <<EOF | oc apply -f -
    apiVersion: operators.coreos.com/v1
    kind: OperatorGroup
    metadata:
      name: node-observability-operator
      namespace: node-observability-operator
    spec:
      targetNamespaces: []
    EOF
  4. Create a Subscription object YAML file to subscribe a namespace to an Operator:

    cat <<EOF | oc apply -f -
    apiVersion: operators.coreos.com/v1alpha1
    kind: Subscription
    metadata:
      name: node-observability-operator
      namespace: node-observability-operator
    spec:
      channel: alpha
      name: node-observability-operator
      source: redhat-operators
      sourceNamespace: openshift-marketplace
    EOF

Verification

  1. View the install plan name by running the following command:

    $ oc -n node-observability-operator get sub node-observability-operator -o yaml | yq '.status.installplan.name'

    Example output

    install-dt54w

  2. Verify the install plan status by running the following command:

    $ oc -n node-observability-operator get ip <install_plan_name> -o yaml | yq '.status.phase'

    <install_plan_name> is the install plan name that you obtained from the output of the previous command.

    Example output

    COMPLETE

  3. Verify that the Node Observability Operator is up and running:

    $ oc get deploy -n node-observability-operator

    Example output

    NAME                                            READY   UP-TO-DATE  AVAILABLE   AGE
    node-observability-operator-controller-manager  1/1     1           1           40h

17.2.2. Installing the Node Observability Operator using the web console

You can install the Node Observability Operator from the OpenShift Container Platform web console.

Prerequisites

  • You have access to the cluster with cluster-admin privileges.
  • You have access to the OpenShift Container Platform web console.

Procedure

  1. Log in to the OpenShift Container Platform web console.
  2. In the Administrator’s navigation panel, expand Operators OperatorHub.
  3. In the All items field, enter Node Observability Operator and select the Node Observability Operator tile.
  4. Click Install.
  5. On the Install Operator page, configure the following settings:

    1. In the Update channel area, click alpha.
    2. In the Installation mode area, click A specific namespace on the cluster.
    3. From the Installed Namespace list, select node-observability-operator from the list.
    4. In the Update approval area, select Automatic.
    5. Click Install.

Verification

  1. In the Administrator’s navigation panel, expand Operators Installed Operators.
  2. Verify that the Node Observability Operator is listed in the Operators list.

17.3. Creating the Node Observability custom resource

You must create and run the NodeObservability custom resource (CR) before you run the profiling query. When you run the NodeObservability CR, it creates the necessary machine config and machine config pool CRs to enable the CRI-O profiling on the worker nodes matching the nodeSelector.

Important

If CRI-O profiling is not enabled on the worker nodes, the NodeObservabilityMachineConfig resource gets created. Worker nodes matching the nodeSelector specified in NodeObservability CR restarts. This might take 10 or more minutes to complete.

Note

Kubelet profiling is enabled by default.

The CRI-O unix socket of the node is mounted on the agent pod, which allows the agent to communicate with CRI-O to run the pprof request. Similarly, the kubelet-serving-ca certificate chain is mounted on the agent pod, which allows secure communication between the agent and node’s kubelet endpoint.

Prerequisites

  • You have installed the Node Observability Operator.
  • You have installed the OpenShift CLI (oc).
  • You have access to the cluster with cluster-admin privileges.

Procedure

  1. Log in to the OpenShift Container Platform CLI by running the following command:

    $ oc login -u kubeadmin https://<HOSTNAME>:6443
  2. Switch back to the node-observability-operator namespace by running the following command:

    $ oc project node-observability-operator
  3. Create a CR file named nodeobservability.yaml that contains the following text:

        apiVersion: nodeobservability.olm.openshift.io/v1alpha2
        kind: NodeObservability
        metadata:
          name: cluster 1
        spec:
          nodeSelector:
            kubernetes.io/hostname: <node_hostname> 2
          type: crio-kubelet
    1
    You must specify the name as cluster because there should be only one NodeObservability CR per cluster.
    2
    Specify the nodes on which the Node Observability agent must be deployed.
  4. Run the NodeObservability CR:

    oc apply -f nodeobservability.yaml

    Example output

    nodeobservability.olm.openshift.io/cluster created

  5. Review the status of the NodeObservability CR by running the following command:

    $ oc get nob/cluster -o yaml | yq '.status.conditions'

    Example output

    conditions:
      conditions:
      - lastTransitionTime: "2022-07-05T07:33:54Z"
        message: 'DaemonSet node-observability-ds ready: true NodeObservabilityMachineConfig
          ready: true'
        reason: Ready
        status: "True"
        type: Ready

    NodeObservability CR run is completed when the reason is Ready and the status is True.

17.4. Running the profiling query

To run the profiling query, you must create a NodeObservabilityRun resource. The profiling query is a blocking operation that fetches CRI-O and Kubelet profiling data for a duration of 30 seconds. After the profiling query is complete, you must retrieve the profiling data inside the container file system /run/node-observability directory. The lifetime of data is bound to the agent pod through the emptyDir volume, so you can access the profiling data while the agent pod is in the running status.

Important

You can request only one profiling query at any point of time.

Prerequisites

  • You have installed the Node Observability Operator.
  • You have created the NodeObservability custom resource (CR).
  • You have access to the cluster with cluster-admin privileges.

Procedure

  1. Create a NodeObservabilityRun resource file named nodeobservabilityrun.yaml that contains the following text:

    apiVersion: nodeobservability.olm.openshift.io/v1alpha2
    kind: NodeObservabilityRun
    metadata:
      name: nodeobservabilityrun
    spec:
      nodeObservabilityRef:
        name: cluster
  2. Trigger the profiling query by running the NodeObservabilityRun resource:

    $ oc apply -f nodeobservabilityrun.yaml
  3. Review the status of the NodeObservabilityRun by running the following command:

    $ oc get nodeobservabilityrun nodeobservabilityrun -o yaml  | yq '.status.conditions'

    Example output

    conditions:
    - lastTransitionTime: "2022-07-07T14:57:34Z"
      message: Ready to start profiling
      reason: Ready
      status: "True"
      type: Ready
    - lastTransitionTime: "2022-07-07T14:58:10Z"
      message: Profiling query done
      reason: Finished
      status: "True"
      type: Finished

    The profiling query is complete once the status is True and type is Finished.

  4. Retrieve the profiling data from the container’s /run/node-observability path by running the following bash script:

    for a in $(oc get nodeobservabilityrun nodeobservabilityrun -o yaml | yq .status.agents[].name); do
      echo "agent ${a}"
      mkdir -p "/tmp/${a}"
      for p in $(oc exec "${a}" -c node-observability-agent -- bash -c "ls /run/node-observability/*.pprof"); do
        f="$(basename ${p})"
        echo "copying ${f} to /tmp/${a}/${f}"
        oc exec "${a}" -c node-observability-agent -- cat "${p}" > "/tmp/${a}/${f}"
      done
    done
Red Hat logoGithubRedditYoutubeTwitter

Formazione

Prova, acquista e vendi

Community

Informazioni sulla documentazione di Red Hat

Aiutiamo gli utenti Red Hat a innovarsi e raggiungere i propri obiettivi con i nostri prodotti e servizi grazie a contenuti di cui possono fidarsi.

Rendiamo l’open source più inclusivo

Red Hat si impegna a sostituire il linguaggio problematico nel codice, nella documentazione e nelle proprietà web. Per maggiori dettagli, visita ilBlog di Red Hat.

Informazioni su Red Hat

Forniamo soluzioni consolidate che rendono più semplice per le aziende lavorare su piattaforme e ambienti diversi, dal datacenter centrale all'edge della rete.

© 2024 Red Hat, Inc.