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Chapter 5. Remote health monitoring with connected clusters


5.1. About remote health monitoring

Red Hat OpenShift Service on AWS collects telemetry and configuration data about your cluster and reports it to Red Hat by using the Telemeter Client and the Insights Operator. The data that is provided to Red Hat enables the benefits outlined in this document.

A cluster that reports data to Red Hat through Telemetry and the Insights Operator is considered a connected cluster.

Telemetry is the term that Red Hat uses to describe the information being sent to Red Hat by the Red Hat OpenShift Service on AWS Telemeter Client. Lightweight attributes are sent from connected clusters to Red Hat to enable subscription management automation, monitor the health of clusters, assist with support, and improve customer experience.

The Insights Operator gathers Red Hat OpenShift Service on AWS configuration data and sends it to Red Hat. The data is used to produce insights about potential issues that a cluster might be exposed to. These insights are communicated to cluster administrators on OpenShift Cluster Manager.

More information is provided in this document about these two processes.

Telemetry and Insights Operator benefits

Telemetry and the Insights Operator enable the following benefits for end-users:

  • Enhanced identification and resolution of issues. Events that might seem normal to an end-user can be observed by Red Hat from a broader perspective across a fleet of clusters. Some issues can be more rapidly identified from this point of view and resolved without an end-user needing to open a support case or file a Jira issue.
  • Advanced release management. Red Hat OpenShift Service on AWS offers the candidate, fast, and stable release channels, which enable you to choose an update strategy. The graduation of a release from fast to stable is dependent on the success rate of updates and on the events seen during upgrades. With the information provided by connected clusters, Red Hat can improve the quality of releases to stable channels and react more rapidly to issues found in the fast channels.
  • Targeted prioritization of new features and functionality. The data collected provides insights about which areas of Red Hat OpenShift Service on AWS are used most. With this information, Red Hat can focus on developing the new features and functionality that have the greatest impact for our customers.
  • A streamlined support experience. You can provide a cluster ID for a connected cluster when creating a support ticket on the Red Hat Customer Portal. This enables Red Hat to deliver a streamlined support experience that is specific to your cluster, by using the connected information. This document provides more information about that enhanced support experience.
  • Predictive analytics. The insights displayed for your cluster on OpenShift Cluster Manager are enabled by the information collected from connected clusters. Red Hat is investing in applying deep learning, machine learning, and artificial intelligence automation to help identify issues that Red Hat OpenShift Service on AWS clusters are exposed to.

On Red Hat OpenShift Service on AWS, remote health reporting is always enabled. You cannot opt out of it.

5.1.1. About Telemetry

Telemetry sends a carefully chosen subset of the cluster monitoring metrics to Red Hat. The Telemeter Client fetches the metrics values every four minutes and thirty seconds and uploads the data to Red Hat. These metrics are described in this document.

This stream of data is used by Red Hat to monitor the clusters in real-time and to react as necessary to problems that impact our customers. It also allows Red Hat to roll out Red Hat OpenShift Service on AWS upgrades to customers to minimize service impact and continuously improve the upgrade experience.

This debugging information is available to Red Hat Support and Engineering teams with the same restrictions as accessing data reported through support cases. All connected cluster information is used by Red Hat to help make Red Hat OpenShift Service on AWS better and more intuitive to use.

5.1.1.1. Information collected by Telemetry

The following information is collected by Telemetry:

5.1.1.1.1. System information
  • Version information, including the Red Hat OpenShift Service on AWS cluster version and installed update details that are used to determine update version availability
  • Update information, including the number of updates available per cluster, the channel and image repository used for an update, update progress information, and the number of errors that occur in an update
  • The unique random identifier that is generated during an installation
  • Configuration details that help Red Hat Support to provide beneficial support for customers, including node configuration at the cloud infrastructure level, hostnames, IP addresses, Kubernetes pod names, namespaces, and services
  • The Red Hat OpenShift Service on AWS framework components installed in a cluster and their condition and status
  • Events for all namespaces listed as "related objects" for a degraded Operator
  • Information about degraded software
  • Information about the validity of certificates
  • The name of the provider platform that Red Hat OpenShift Service on AWS is deployed on and the data center location
5.1.1.1.2. Sizing Information
  • Sizing information about clusters, machine types, and machines, including the number of CPU cores and the amount of RAM used for each
  • The number of etcd members and the number of objects stored in the etcd cluster
  • Number of application builds by build strategy type
5.1.1.1.3. Usage information
  • Usage information about components, features, and extensions
  • Usage details about Technology Previews and unsupported configurations

Telemetry does not collect identifying information such as usernames or passwords. Red Hat does not intend to collect personal information. If Red Hat discovers that personal information has been inadvertently received, Red Hat will delete such information. To the extent that any telemetry data constitutes personal data, please refer to the Red Hat Privacy Statement for more information about Red Hat’s privacy practices.

5.1.1.2. User Telemetry

Red Hat collects anonymized user data from your browser. This anonymized data includes what pages, features, and resource types that the user of all clusters with enabled telemetry uses.

Other considerations:

  • User events are grouped as a SHA-1 hash.
  • User’s IP address is saved as 0.0.0.0.
  • User names and IP addresses are never saved as separate values.

Additional resources

5.1.2. About the Insights Operator

The Insights Operator periodically gathers configuration and component failure status and, by default, reports that data every two hours to Red Hat. This information enables Red Hat to assess configuration and deeper failure data than is reported through Telemetry.

Users of Red Hat OpenShift Service on AWS can display the report of each cluster in the Insights Advisor service on Red Hat Hybrid Cloud Console. If any issues have been identified, Insights provides further details and, if available, steps on how to solve a problem.

The Insights Operator does not collect identifying information, such as user names, passwords, or certificates. See Red Hat Insights Data & Application Security for information about Red Hat Insights data collection and controls.

Red Hat uses all connected cluster information to:

  • Identify potential cluster issues and provide a solution and preventive actions in the Insights Advisor service on Red Hat Hybrid Cloud Console
  • Improve Red Hat OpenShift Service on AWS by providing aggregated and critical information to product and support teams
  • Make Red Hat OpenShift Service on AWS more intuitive

5.1.2.1. Information collected by the Insights Operator

The following information is collected by the Insights Operator:

  • General information about your cluster and its components to identify issues that are specific to your Red Hat OpenShift Service on AWS version and environment
  • Configuration files, such as the image registry configuration, of your cluster to determine incorrect settings and issues that are specific to parameters you set
  • Errors that occur in the cluster components
  • Progress information of running updates, and the status of any component upgrades
  • Details of the platform that Red Hat OpenShift Service on AWS is deployed on and the region that the cluster is located in
  • Cluster workload information transformed into discreet Secure Hash Algorithm (SHA) values, which allows Red Hat to assess workloads for security and version vulnerabilities without disclosing sensitive details
  • If an Operator reports an issue, information is collected about core Red Hat OpenShift Service on AWS pods in the openshift-* and kube-* projects. This includes state, resource, security context, volume information, and more

Additional resources

  • The Insights Operator source code is available for review and contribution. See the Insights Operator upstream project for a list of the items collected by the Insights Operator.

5.1.3. Understanding Telemetry and Insights Operator data flow

The Telemeter Client collects selected time series data from the Prometheus API. The time series data is uploaded to api.openshift.com every four minutes and thirty seconds for processing.

The Insights Operator gathers selected data from the Kubernetes API and the Prometheus API into an archive. The archive is uploaded to OpenShift Cluster Manager every two hours for processing. The Insights Operator also downloads the latest Insights analysis from OpenShift Cluster Manager. This is used to populate the Insights status pop-up that is included in the Overview page in the Red Hat OpenShift Service on AWS web console.

All of the communication with Red Hat occurs over encrypted channels by using Transport Layer Security (TLS) and mutual certificate authentication. All of the data is encrypted in transit and at rest.

Access to the systems that handle customer data is controlled through multi-factor authentication and strict authorization controls. Access is granted on a need-to-know basis and is limited to required operations.

Telemetry and Insights Operator data flow

Telemetry and Insights Operator data flow

Additional resources

  • See Monitoring overview for more information about the Red Hat OpenShift Service on AWS monitoring stack.

5.1.4. Additional details about how remote health monitoring data is used

The information collected to enable remote health monitoring is detailed in Information collected by Telemetry and Information collected by the Insights Operator.

As further described in the preceding sections of this document, Red Hat collects data about your use of the Red Hat Product(s) for purposes such as providing support and upgrades, optimizing performance or configuration, minimizing service impacts, identifying and remediating threats, troubleshooting, improving the offerings and user experience, responding to issues, and for billing purposes if applicable.

Collection safeguards

Red Hat employs technical and organizational measures designed to protect the telemetry and configuration data.

Sharing

Red Hat may share the data collected through Telemetry and the Insights Operator internally within Red Hat to improve your user experience. Red Hat may share telemetry and configuration data with its business partners in an aggregated form that does not identify customers to help the partners better understand their markets and their customers’ use of Red Hat offerings or to ensure the successful integration of products jointly supported by those partners.

Third parties

Red Hat may engage certain third parties to assist in the collection, analysis, and storage of the Telemetry and configuration data.

5.2. Showing data collected by remote health monitoring

User control / enabling and disabling telemetry and configuration data collection

As an administrator, you can review the metrics collected by Telemetry and the Insights Operator.

5.2.1. Showing data collected by Telemetry

You can view the cluster and components time series data captured by Telemetry.

Prerequisites

  • You have installed the OpenShift Container Platform CLI (oc).
  • You have access to the cluster as a user with the dedicated-admin role.

Procedure

  1. Log in to a cluster.
  2. Run the following command, which queries a cluster’s Prometheus service and returns the full set of time series data captured by Telemetry:
Note

The following example contains some values that are specific to Red Hat OpenShift Service on AWS on AWS.

$ curl -G -k -H "Authorization: Bearer $(oc whoami -t)" \
https://$(oc get route prometheus-k8s-federate -n \
openshift-monitoring -o jsonpath="{.spec.host}")/federate \
--data-urlencode 'match[]={__name__=~"cluster:usage:.*"}' \
--data-urlencode 'match[]={__name__="count:up0"}' \
--data-urlencode 'match[]={__name__="count:up1"}' \
--data-urlencode 'match[]={__name__="cluster_version"}' \
--data-urlencode 'match[]={__name__="cluster_version_available_updates"}' \
--data-urlencode 'match[]={__name__="cluster_version_capability"}' \
--data-urlencode 'match[]={__name__="cluster_operator_up"}' \
--data-urlencode 'match[]={__name__="cluster_operator_conditions"}' \
--data-urlencode 'match[]={__name__="cluster_version_payload"}' \
--data-urlencode 'match[]={__name__="cluster_installer"}' \
--data-urlencode 'match[]={__name__="cluster_infrastructure_provider"}' \
--data-urlencode 'match[]={__name__="cluster_feature_set"}' \
--data-urlencode 'match[]={__name__="instance:etcd_object_counts:sum"}' \
--data-urlencode 'match[]={__name__="ALERTS",alertstate="firing"}' \
--data-urlencode 'match[]={__name__="code:apiserver_request_total:rate:sum"}' \
--data-urlencode 'match[]={__name__="cluster:capacity_cpu_cores:sum"}' \
--data-urlencode 'match[]={__name__="cluster:capacity_memory_bytes:sum"}' \
--data-urlencode 'match[]={__name__="cluster:cpu_usage_cores:sum"}' \
--data-urlencode 'match[]={__name__="cluster:memory_usage_bytes:sum"}' \
--data-urlencode 'match[]={__name__="openshift:cpu_usage_cores:sum"}' \
--data-urlencode 'match[]={__name__="openshift:memory_usage_bytes:sum"}' \
--data-urlencode 'match[]={__name__="workload:cpu_usage_cores:sum"}' \
--data-urlencode 'match[]={__name__="workload:memory_usage_bytes:sum"}' \
--data-urlencode 'match[]={__name__="cluster:virt_platform_nodes:sum"}' \
--data-urlencode 'match[]={__name__="cluster:node_instance_type_count:sum"}' \
--data-urlencode 'match[]={__name__="cnv:vmi_status_running:count"}' \
--data-urlencode 'match[]={__name__="cluster:vmi_request_cpu_cores:sum"}' \
--data-urlencode 'match[]={__name__="node_role_os_version_machine:cpu_capacity_cores:sum"}' \
--data-urlencode 'match[]={__name__="node_role_os_version_machine:cpu_capacity_sockets:sum"}' \
--data-urlencode 'match[]={__name__="subscription_sync_total"}' \
--data-urlencode 'match[]={__name__="olm_resolution_duration_seconds"}' \
--data-urlencode 'match[]={__name__="csv_succeeded"}' \
--data-urlencode 'match[]={__name__="csv_abnormal"}' \
--data-urlencode 'match[]={__name__="cluster:kube_persistentvolumeclaim_resource_requests_storage_bytes:provisioner:sum"}' \
--data-urlencode 'match[]={__name__="cluster:kubelet_volume_stats_used_bytes:provisioner:sum"}' \
--data-urlencode 'match[]={__name__="ceph_cluster_total_bytes"}' \
--data-urlencode 'match[]={__name__="ceph_cluster_total_used_raw_bytes"}' \
--data-urlencode 'match[]={__name__="ceph_health_status"}' \
--data-urlencode 'match[]={__name__="odf_system_raw_capacity_total_bytes"}' \
--data-urlencode 'match[]={__name__="odf_system_raw_capacity_used_bytes"}' \
--data-urlencode 'match[]={__name__="odf_system_health_status"}' \
--data-urlencode 'match[]={__name__="job:ceph_osd_metadata:count"}' \
--data-urlencode 'match[]={__name__="job:kube_pv:count"}' \
--data-urlencode 'match[]={__name__="job:odf_system_pvs:count"}' \
--data-urlencode 'match[]={__name__="job:ceph_pools_iops:total"}' \
--data-urlencode 'match[]={__name__="job:ceph_pools_iops_bytes:total"}' \
--data-urlencode 'match[]={__name__="job:ceph_versions_running:count"}' \
--data-urlencode 'match[]={__name__="job:noobaa_total_unhealthy_buckets:sum"}' \
--data-urlencode 'match[]={__name__="job:noobaa_bucket_count:sum"}' \
--data-urlencode 'match[]={__name__="job:noobaa_total_object_count:sum"}' \
--data-urlencode 'match[]={__name__="odf_system_bucket_count", system_type="OCS", system_vendor="Red Hat"}' \
--data-urlencode 'match[]={__name__="odf_system_objects_total", system_type="OCS", system_vendor="Red Hat"}' \
--data-urlencode 'match[]={__name__="noobaa_accounts_num"}' \
--data-urlencode 'match[]={__name__="noobaa_total_usage"}' \
--data-urlencode 'match[]={__name__="console_url"}' \
--data-urlencode 'match[]={__name__="cluster:ovnkube_master_egress_routing_via_host:max"}' \
--data-urlencode 'match[]={__name__="cluster:network_attachment_definition_instances:max"}' \
--data-urlencode 'match[]={__name__="cluster:network_attachment_definition_enabled_instance_up:max"}' \
--data-urlencode 'match[]={__name__="cluster:ingress_controller_aws_nlb_active:sum"}' \
--data-urlencode 'match[]={__name__="cluster:route_metrics_controller_routes_per_shard:min"}' \
--data-urlencode 'match[]={__name__="cluster:route_metrics_controller_routes_per_shard:max"}' \
--data-urlencode 'match[]={__name__="cluster:route_metrics_controller_routes_per_shard:avg"}' \
--data-urlencode 'match[]={__name__="cluster:route_metrics_controller_routes_per_shard:median"}' \
--data-urlencode 'match[]={__name__="cluster:openshift_route_info:tls_termination:sum"}' \
--data-urlencode 'match[]={__name__="insightsclient_request_send_total"}' \
--data-urlencode 'match[]={__name__="cam_app_workload_migrations"}' \
--data-urlencode 'match[]={__name__="cluster:apiserver_current_inflight_requests:sum:max_over_time:2m"}' \
--data-urlencode 'match[]={__name__="cluster:alertmanager_integrations:max"}' \
--data-urlencode 'match[]={__name__="cluster:telemetry_selected_series:count"}' \
--data-urlencode 'match[]={__name__="openshift:prometheus_tsdb_head_series:sum"}' \
--data-urlencode 'match[]={__name__="openshift:prometheus_tsdb_head_samples_appended_total:sum"}' \
--data-urlencode 'match[]={__name__="monitoring:container_memory_working_set_bytes:sum"}' \
--data-urlencode 'match[]={__name__="namespace_job:scrape_series_added:topk3_sum1h"}' \
--data-urlencode 'match[]={__name__="namespace_job:scrape_samples_post_metric_relabeling:topk3"}' \
--data-urlencode 'match[]={__name__="monitoring:haproxy_server_http_responses_total:sum"}' \
--data-urlencode 'match[]={__name__="rhmi_status"}' \
--data-urlencode 'match[]={__name__="status:upgrading:version:rhoam_state:max"}' \
--data-urlencode 'match[]={__name__="state:rhoam_critical_alerts:max"}' \
--data-urlencode 'match[]={__name__="state:rhoam_warning_alerts:max"}' \
--data-urlencode 'match[]={__name__="rhoam_7d_slo_percentile:max"}' \
--data-urlencode 'match[]={__name__="rhoam_7d_slo_remaining_error_budget:max"}' \
--data-urlencode 'match[]={__name__="cluster_legacy_scheduler_policy"}' \
--data-urlencode 'match[]={__name__="cluster_master_schedulable"}' \
--data-urlencode 'match[]={__name__="che_workspace_status"}' \
--data-urlencode 'match[]={__name__="che_workspace_started_total"}' \
--data-urlencode 'match[]={__name__="che_workspace_failure_total"}' \
--data-urlencode 'match[]={__name__="che_workspace_start_time_seconds_sum"}' \
--data-urlencode 'match[]={__name__="che_workspace_start_time_seconds_count"}' \
--data-urlencode 'match[]={__name__="cco_credentials_mode"}' \
--data-urlencode 'match[]={__name__="cluster:kube_persistentvolume_plugin_type_counts:sum"}' \
--data-urlencode 'match[]={__name__="visual_web_terminal_sessions_total"}' \
--data-urlencode 'match[]={__name__="acm_managed_cluster_info"}' \
--data-urlencode 'match[]={__name__="cluster:vsphere_vcenter_info:sum"}' \
--data-urlencode 'match[]={__name__="cluster:vsphere_esxi_version_total:sum"}' \
--data-urlencode 'match[]={__name__="cluster:vsphere_node_hw_version_total:sum"}' \
--data-urlencode 'match[]={__name__="openshift:build_by_strategy:sum"}' \
--data-urlencode 'match[]={__name__="rhods_aggregate_availability"}' \
--data-urlencode 'match[]={__name__="rhods_total_users"}' \
--data-urlencode 'match[]={__name__="instance:etcd_disk_wal_fsync_duration_seconds:histogram_quantile",quantile="0.99"}' \
--data-urlencode 'match[]={__name__="instance:etcd_mvcc_db_total_size_in_bytes:sum"}' \
--data-urlencode 'match[]={__name__="instance:etcd_network_peer_round_trip_time_seconds:histogram_quantile",quantile="0.99"}' \
--data-urlencode 'match[]={__name__="instance:etcd_mvcc_db_total_size_in_use_in_bytes:sum"}' \
--data-urlencode 'match[]={__name__="instance:etcd_disk_backend_commit_duration_seconds:histogram_quantile",quantile="0.99"}' \
--data-urlencode 'match[]={__name__="jaeger_operator_instances_storage_types"}' \
--data-urlencode 'match[]={__name__="jaeger_operator_instances_strategies"}' \
--data-urlencode 'match[]={__name__="jaeger_operator_instances_agent_strategies"}' \
--data-urlencode 'match[]={__name__="appsvcs:cores_by_product:sum"}' \
--data-urlencode 'match[]={__name__="nto_custom_profiles:count"}' \
--data-urlencode 'match[]={__name__="openshift_csi_share_configmap"}' \
--data-urlencode 'match[]={__name__="openshift_csi_share_secret"}' \
--data-urlencode 'match[]={__name__="openshift_csi_share_mount_failures_total"}' \
--data-urlencode 'match[]={__name__="openshift_csi_share_mount_requests_total"}' \
--data-urlencode 'match[]={__name__="cluster:velero_backup_total:max"}' \
--data-urlencode 'match[]={__name__="cluster:velero_restore_total:max"}' \
--data-urlencode 'match[]={__name__="eo_es_storage_info"}' \
--data-urlencode 'match[]={__name__="eo_es_redundancy_policy_info"}' \
--data-urlencode 'match[]={__name__="eo_es_defined_delete_namespaces_total"}' \
--data-urlencode 'match[]={__name__="eo_es_misconfigured_memory_resources_info"}' \
--data-urlencode 'match[]={__name__="cluster:eo_es_data_nodes_total:max"}' \
--data-urlencode 'match[]={__name__="cluster:eo_es_documents_created_total:sum"}' \
--data-urlencode 'match[]={__name__="cluster:eo_es_documents_deleted_total:sum"}' \
--data-urlencode 'match[]={__name__="pod:eo_es_shards_total:max"}' \
--data-urlencode 'match[]={__name__="eo_es_cluster_management_state_info"}' \
--data-urlencode 'match[]={__name__="imageregistry:imagestreamtags_count:sum"}' \
--data-urlencode 'match[]={__name__="imageregistry:operations_count:sum"}' \
--data-urlencode 'match[]={__name__="log_logging_info"}' \
--data-urlencode 'match[]={__name__="log_collector_error_count_total"}' \
--data-urlencode 'match[]={__name__="log_forwarder_pipeline_info"}' \
--data-urlencode 'match[]={__name__="log_forwarder_input_info"}' \
--data-urlencode 'match[]={__name__="log_forwarder_output_info"}' \
--data-urlencode 'match[]={__name__="cluster:log_collected_bytes_total:sum"}' \
--data-urlencode 'match[]={__name__="cluster:log_logged_bytes_total:sum"}' \
--data-urlencode 'match[]={__name__="cluster:kata_monitor_running_shim_count:sum"}' \
--data-urlencode 'match[]={__name__="platform:hypershift_hostedclusters:max"}' \
--data-urlencode 'match[]={__name__="platform:hypershift_nodepools:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_unhealthy_bucket_claims:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_buckets_claims:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_unhealthy_namespace_resources:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_namespace_resources:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_unhealthy_namespace_buckets:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_namespace_buckets:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_accounts:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_usage:max"}' \
--data-urlencode 'match[]={__name__="namespace:noobaa_system_health_status:max"}' \
--data-urlencode 'match[]={__name__="ocs_advanced_feature_usage"}' \
--data-urlencode 'match[]={__name__="os_image_url_override:sum"}' \
--data-urlencode 'match[]={__name__="openshift:openshift_network_operator_ipsec_state:info"}'

5.3. Using Insights to identify issues with your cluster

Insights repeatedly analyzes the data Insights Operator sends. Users of Red Hat OpenShift Service on AWS can display the report in the Insights Advisor service on Red Hat Hybrid Cloud Console.

5.3.1. About Red Hat Insights Advisor for Red Hat OpenShift Service on AWS

You can use Insights Advisor to assess and monitor the health of your Red Hat OpenShift Service on AWS clusters. Whether you are concerned about individual clusters, or with your whole infrastructure, it is important to be aware of the exposure of your cluster infrastructure to issues that can affect service availability, fault tolerance, performance, or security.

Using cluster data collected by the Insights Operator, Insights repeatedly compares that data against a library of recommendations. Each recommendation is a set of cluster-environment conditions that can leave Red Hat OpenShift Service on AWS clusters at risk. The results of the Insights analysis are available in the Insights Advisor service on Red Hat Hybrid Cloud Console. In the Console, you can perform the following actions:

  • See clusters impacted by a specific recommendation.
  • Use robust filtering capabilities to refine your results to those recommendations.
  • Learn more about individual recommendations, details about the risks they present, and get resolutions tailored to your individual clusters.
  • Share results with other stakeholders.

5.3.2. Understanding Insights Advisor recommendations

Insights Advisor bundles information about various cluster states and component configurations that can negatively affect the service availability, fault tolerance, performance, or security of your clusters. This information set is called a recommendation in Insights Advisor and includes the following information:

  • Name: A concise description of the recommendation
  • Added: When the recommendation was published to the Insights Advisor archive
  • Category: Whether the issue has the potential to negatively affect service availability, fault tolerance, performance, or security
  • Total risk: A value derived from the likelihood that the condition will negatively affect your infrastructure, and the impact on operations if that were to happen
  • Clusters: A list of clusters on which a recommendation is detected
  • Description: A brief synopsis of the issue, including how it affects your clusters
  • Link to associated topics: More information from Red Hat about the issue

5.3.3. Displaying potential issues with your cluster

This section describes how to display the Insights report in Insights Advisor on OpenShift Cluster Manager.

Note that Insights repeatedly analyzes your cluster and shows the latest results. These results can change, for example, if you fix an issue or a new issue has been detected.

Prerequisites

Procedure

  1. Navigate to Advisor Recommendations on OpenShift Cluster Manager.

    Depending on the result, Insights Advisor displays one of the following:

    • No matching recommendations found, if Insights did not identify any issues.
    • A list of issues Insights has detected, grouped by risk (low, moderate, important, and critical).
    • No clusters yet, if Insights has not yet analyzed the cluster. The analysis starts shortly after the cluster has been installed, registered, and connected to the internet.
  2. If any issues are displayed, click the > icon in front of the entry for more details.

    Depending on the issue, the details can also contain a link to more information from Red Hat about the issue.

5.3.4. Displaying all Insights Advisor recommendations

The Recommendations view, by default, only displays the recommendations that are detected on your clusters. However, you can view all of the recommendations in the advisor archive.

Prerequisites

Procedure

  1. Navigate to Advisor Recommendations on OpenShift Cluster Manager.
  2. Click the X icons next to the Clusters Impacted and Status filters.

    You can now browse through all of the potential recommendations for your cluster.

5.3.5. Advisor recommendation filters

The Insights advisor service can return a large number of recommendations. To focus on your most critical recommendations, you can apply filters to the Advisor recommendations list to remove low-priority recommendations.

By default, filters are set to only show enabled recommendations that are impacting one or more clusters. To view all or disabled recommendations in the Insights library, you can customize the filters.

To apply a filter, select a filter type and then set its value based on the options that are available in the drop-down list. You can apply multiple filters to the list of recommendations.

You can set the following filter types:

  • Name: Search for a recommendation by name.
  • Total risk: Select one or more values from Critical, Important, Moderate, and Low indicating the likelihood and the severity of a negative impact on a cluster.
  • Impact: Select one or more values from Critical, High, Medium, and Low indicating the potential impact to the continuity of cluster operations.
  • Likelihood: Select one or more values from Critical, High, Medium, and Low indicating the potential for a negative impact to a cluster if the recommendation comes to fruition.
  • Category: Select one or more categories from Service Availability, Performance, Fault Tolerance, Security, and Best Practice to focus your attention on.
  • Status: Click a radio button to show enabled recommendations (default), disabled recommendations, or all recommendations.
  • Clusters impacted: Set the filter to show recommendations currently impacting one or more clusters, non-impacting recommendations, or all recommendations.
  • Risk of change: Select one or more values from High, Moderate, Low, and Very low indicating the risk that the implementation of the resolution could have on cluster operations.

5.3.5.1. Filtering Insights advisor recommendations

As an Red Hat OpenShift Service on AWS cluster manager, you can filter the recommendations that are displayed on the recommendations list. By applying filters, you can reduce the number of reported recommendations and concentrate on your highest priority recommendations.

The following procedure demonstrates how to set and remove Category filters; however, the procedure is applicable to any of the filter types and respective values.

Prerequisites

You are logged in to the OpenShift Cluster Manager Hybrid Cloud Console.

Procedure

  1. Go to Red Hat Hybrid Cloud Console OpenShift Advisor recommendations.
  2. In the main, filter-type drop-down list, select the Category filter type.
  3. Expand the filter-value drop-down list and select the checkbox next to each category of recommendation you want to view. Leave the checkboxes for unnecessary categories clear.
  4. Optional: Add additional filters to further refine the list.

Only recommendations from the selected categories are shown in the list.

Verification

  • After applying filters, you can view the updated recommendations list. The applied filters are added next to the default filters.

5.3.5.2. Removing filters from Insights Advisor recommendations

You can apply multiple filters to the list of recommendations. When ready, you can remove them individually or completely reset them.

Removing filters individually

  • Click the X icon next to each filter, including the default filters, to remove them individually.

Removing all non-default filters

  • Click Reset filters to remove only the filters that you applied, leaving the default filters in place.

5.3.6. Disabling Insights Advisor recommendations

You can disable specific recommendations that affect your clusters, so that they no longer appear in your reports. It is possible to disable a recommendation for a single cluster or all of your clusters.

Note

Disabling a recommendation for all of your clusters also applies to any future clusters.

Prerequisites

Procedure

  1. Navigate to Advisor Recommendations on OpenShift Cluster Manager.
  2. Optional: Use the Clusters Impacted and Status filters as needed.
  3. Disable an alert by using one of the following methods:

    • To disable an alert:

      1. Click the Options menu kebab for that alert, and then click Disable recommendation.
      2. Enter a justification note and click Save.
    • To view the clusters affected by this alert before disabling the alert:

      1. Click the name of the recommendation to disable. You are directed to the single recommendation page.
      2. Review the list of clusters in the Affected clusters section.
      3. Click Actions Disable recommendation to disable the alert for all of your clusters.
      4. Enter a justification note and click Save.

5.3.7. Enabling a previously disabled Insights Advisor recommendation

When a recommendation is disabled for all clusters, you no longer see the recommendation in the Insights Advisor. You can change this behavior.

Prerequisites

Procedure

  1. Navigate to Advisor Recommendations on OpenShift Cluster Manager.
  2. Filter the recommendations to display on the disabled recommendations:

    1. From the Status drop-down menu, select Status.
    2. From the Filter by status drop-down menu, select Disabled.
    3. Optional: Clear the Clusters impacted filter.
  3. Locate the recommendation to enable.
  4. Click the Options menu kebab , and then click Enable recommendation.

5.3.8. Displaying the Insights status in the web console

Insights repeatedly analyzes your cluster and you can display the status of identified potential issues of your cluster in the Red Hat OpenShift Service on AWS web console. This status shows the number of issues in the different categories and, for further details, links to the reports in OpenShift Cluster Manager.

Prerequisites

  • Your cluster is registered in OpenShift Cluster Manager.
  • Remote health reporting is enabled, which is the default.
  • You are logged in to the Red Hat OpenShift Service on AWS web console.

Procedure

  1. Navigate to Home Overview in the Red Hat OpenShift Service on AWS web console.
  2. Click Insights on the Status card.

    The pop-up window lists potential issues grouped by risk. Click the individual categories or View all recommendations in Insights Advisor to display more details.

5.4. Using the Insights Operator

The Insights Operator periodically gathers configuration and component failure status and, by default, reports that data every two hours to Red Hat. This information enables Red Hat to assess configuration and deeper failure data than is reported through Telemetry. Users of Red Hat OpenShift Service on AWS can display the report in the Insights Advisor service on Red Hat Hybrid Cloud Console.

Additional resources

5.4.1. Understanding Insights Operator alerts

The Insights Operator declares alerts through the Prometheus monitoring system to the Alertmanager. You can view these alerts in the Alerting UI in the Red Hat OpenShift Service on AWS web console by using one of the following methods:

  • In the Administrator perspective, click Observe Alerting.
  • In the Developer perspective, click Observe <project_name> Alerts tab.

Currently, Insights Operator sends the following alerts when the conditions are met:

Table 5.1. Insights Operator alerts
AlertDescription

InsightsDisabled

Insights Operator is disabled.

SimpleContentAccessNotAvailable

Simple content access is not enabled in Red Hat Subscription Management.

InsightsRecommendationActive

Insights has an active recommendation for the cluster.

5.4.2. Obfuscating Deployment Validation Operator data

Cluster administrators can configure the Insight Operator to obfuscate data from the Deployment Validation Operator (DVO), if the Operator is installed. When the workload_names value is added to the insights-config ConfigMap object, workload names—rather than UIDs—are displayed in Insights for Openshift, making them more recognizable for cluster administrators.

Prerequisites

  • Remote health reporting is enabled, which is the default.
  • You are logged in to the Red Hat OpenShift Service on AWS web console with the "cluster-admin" role.
  • The insights-config ConfigMap object exists in the openshift-insights namespace.
  • The cluster is self managed and the Deployment Validation Operator is installed.

Procedure

  1. Go to Workloads ConfigMaps and select Project: openshift-insights.
  2. Click on the insights-config ConfigMap object to open it.
  3. Click Actions and select Edit ConfigMap.
  4. Click the YAML view radio button.
  5. In the file, set the obfuscation attribute with the workload_names value.

    apiVersion: v1
    kind: ConfigMap
    # ...
    data:
      config.yaml: |
        dataReporting:
          obfuscation:
            - workload_names
    # ...
  6. Click Save. The insights-config config-map details page opens.
  7. Verify that the value of the config.yaml obfuscation attribute is set to - workload_names.
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