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Flux Prometheus metrics

How to monitor Flux with Prometheus Operator and Grafana

Flux has native support for Prometheus metrics to provide insights into the state of the Flux components. These can be used to set up monitoring for the Flux controllers. In addition, Flux Custom Resource metrics can also be collected leveraging tools like kube-state-metrics. This document provides information about Flux metrics that can be used to set up monitoring, with some examples.

The fluxcd/flux2-monitoring-example repository provides a ready-made example setup to get started with monitoring Flux. It is recommended to set up the monitoring example before continuing with this document to follow along. Before getting into the monitoring setup, the following sections will describe the kinds of metrics that can be collected for Flux.

Controller metrics

The default installation of Flux controllers export Prometheus metrics at port 8080 in the standard /metrics path. These metrics are about the inner workings of the controllers.

Flux resource reconciliation duration metrics:

gotk_reconcile_duration_seconds_bucket{kind, name, namespace, le}
gotk_reconcile_duration_seconds_sum{kind, name, namespace}
gotk_reconcile_duration_seconds_count{kind, name, namespace}

Cache event metrics:

gotk_cache_events_total{event_type, name, namespace}

Controller CPU and memory usage:

process_cpu_seconds_total{namespace, pod}
container_memory_working_set_bytes{namespace, pod}

Kubernetes API usage:

rest_client_requests_total{namespace, pod}

Controller runtime:

workqueue_longest_running_processor_seconds{name}
controller_runtime_reconcile_total{controller, result}

In addition, many other Go runtime and controller-runtime metrics are also exported.

Resource metrics

Metrics for the Flux custom resources can be used to monitor the deployment of workloads. Since the use case for these metrics may vary depending on the needs, it’s hard to decide which fields of the resources would be useful to the users. Hence, these metrics are not exported by the Flux controllers themselves but can be collected and exported by using other tools that can read the custom resource state from the kube-apiserver. One such tool is kube-state-metrics (KSM). KSM is also deployed as part of kube-prometheus-stack and is used to export the metrics of kubernetes core resources. It can be configured to also collect custom resource metrics. The monitoring setup in flux2-monitoring-example uses KSM to collect and export Flux custom resource metrics.

In the example monitoring setup, the metric gotk_resource_info provides information about the current state of Flux resources.

gotk_resource_info{customresource_group, customresource_kind, customresource_version, exported_namespace, name, ready, suspended, ...}
  • customresource_group is the API group of the resource, for example source.toolkit.fluxcd.io for the Flux source API.
  • customresource_kind is the kind of the resource, for example a GitRepository source.
  • customresource_version is the API version of the resource, for example v1.
  • exported_namespace is the namespace of the resource.
  • name is the name of the resource.
  • ready shows the readiness of the resource.
  • suspended shows if the resource’s reconciliation is suspended.

These are some of the common labels that are present in metrics for all the kinds of resources. In addition, there are a few resource kind specific labels. See the following table for a list of labels associated with specific resource kind.

Resource KindLabels
Kustomizationrevision, source_name
HelmReleaserevision, chart_name, chart_source_name
GitRepositoryrevision, url
Bucketrevision, endpoint, bucket_name
HelmRepositoryrevision, url
HelmChartrevision, chart_name, chart_version
OCIRepositoryrevision, url
Receiverwebhook_path
ImageRepositoryimage
ImagePolicysource_name
ImageUpdateAutomationsource_name

gotk_resource_info is an example of a metric used to collect information about the Flux resources. This metric can be customized to add more labels, or more such metrics can also be created by changing the kube-state-metrics custom resource state configuration. Please see Flux custom Prometheus metrics for details about them.

⚠️ Deprecated resource metrics

Prior to Flux v2.1.0, the individual Flux controllers used to export resource metrics that they managed. They have been deprecated for custom metrics using kube-state-metrics.

Users of the deprecated metrics gotk_reconcile_condition and gotk_suspend_status can find the same information in the new gotk_resource_info metric exported using kube-state-metrics. If needed, an equivalent of gotk_reconcile_condition and gotk_suspend_status can be created as a custom metric using the kube-state-metrics custom resource state configuration. Please see Flux custom Prometheus metrics for details.

Monitoring setup

In the monitoring example repository, the monitoring configurations can be found in the monitoring/ directory. monitoring/controllers/ directory contains the configurations for deploying kube-prometheus-stack and loki-stack. We’ll discuss kube-prometheus-stack below. For Flux log collection using Loki, refer to the Flux logs docs.

The configuration in the monitoring/controllers/kube-prometheus-stack/ directory creates a HelmRepository of type OCI for the prometheus-community helm charts and a HelmRelease to deploy the kube-prometheus-stack chart in the monitoring namespace. This installs all the monitoring components in the monitoring namespace. Please see the values used for the chart deployment and modify them accordingly.

The chart values used for configuring kube-state-metrics are in the file kube-state-metrics-config.yaml, as seen in the kustomization.yaml, which uses a kustomize ConfigMap generator to put the configurations in a ConfigMap and use the chart values from the ConfigMap. These values are merged with the inline chart values in the HelmRelease. Kube-state-metrics values are in a separate file to make it easier to customize the metrics it collects; refer to the Flux custom Prometheus metrics docs to see how they are used. Once deployed with these values, the kube-state-metrics starts collecting and exporting the Flux resource metrics.

To configure Prometheus to scrape Flux controller metrics, a PodMonitor is used that selects all the Flux controller Pods and sets the metrics endpoint to the http-prom port. Once created, the prometheus-operator will automatically configure Prometheus to scrape the Flux controller metrics.

Flux Grafana dashboards

The example monitoring setup provides two example Grafana dashboards in monitoring/configs/dashboards that use the Flux controller and resource metrics. The Flux Cluster Stats dashboard shows the overall state of the Flux Sources and Cluster Reconcilers. The Flux Control Plane dashboard shows the statistics of the various components that constitute the Flux Control Plane and their operational metrics.

Control plane dashboard:

Control Plane Dashboard - Part 1

Control Plane Dashboard - Part 2

Control Plane Dashboard - Part 3

Control Plane Dashboard - Part 4

Cluster reconciliation dashboard:

Cluster reconciliation dashboard - Part 1

Cluster reconciliation dashboard - Part 2

More custom metrics can be created and used in the dashboards for monitoring Flux.