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Kubernetes Metrics Server

Metrics Server is a scalable, efficient source of container resource metrics for Kubernetes built-in autoscaling pipelines.

Metrics Server collects resource metrics from Kubelets and exposes them in Kubernetes apiserver through Metrics API for use by Horizontal Pod Autoscaler and Vertical Pod Autoscaler. Metrics API can also be accessed by kubectl top, making it easier to debug autoscaling pipelines.

Metrics Server is not meant for non-autoscaling purposes. For example, don't use it to forward metrics to monitoring solutions, or as a source of monitoring solution metrics. In such cases please collect metrics from Kubelet /metrics/resource endpoint directly.

Metrics Server offers:

  • A single deployment that works on most clusters (see Requirements)
  • Fast autoscaling, collecting metrics every 15 seconds.
  • Resource efficiency, using 1 mili core of CPU and 2 MB of memory for each node in a cluster.
  • Scalable support up to 5,000 node clusters.

Use cases

You can use Metrics Server for:

Don't use Metrics Server when you need:

  • Non-Kubernetes clusters
  • An accurate source of resource usage metrics
  • Horizontal autoscaling based on other resources than CPU/Memory

For unsupported use cases, check out full monitoring solutions like Prometheus.

Requirements

Metrics Server has specific requirements for cluster and network configuration. These requirements aren't the default for all cluster distributions. Please ensure that your cluster distribution supports these requirements before using Metrics Server:

Installation

Metrics Server can be installed either directly from YAML manifest or via the official Helm chart. To install the latest Metrics Server release from the components.yaml manifest, run the following command.

kubectl apply -f https://github.com/kubernetes-sigs/metrics-server/releases/latest/download/components.yaml

Installation instructions for previous releases can be found in Metrics Server releases.

Compatibility Matrix

Metrics Server Metrics API group/version Supported Kubernetes version
0.6.x metrics.k8s.io/v1beta1 *1.19+
0.5.x metrics.k8s.io/v1beta1 *1.8+
0.4.x metrics.k8s.io/v1beta1 *1.8+
0.3.x metrics.k8s.io/v1beta1 1.8-1.21

*Kubernetes versions lower than v1.16 require passing the --authorization-always-allow-paths=/livez,/readyz command line flag

High Availability

Metrics Server can be installed in high availability mode directly from a YAML manifest or via the official Helm chart by setting the replicas value greater than 1. To install the latest Metrics Server release in high availability mode from the high-availability.yaml manifest, run the following command.

kubectl apply -f https://github.com/kubernetes-sigs/metrics-server/releases/latest/download/high-availability.yaml

Note that this configuration requires having a cluster with at least 2 nodes on which Metrics Server can be scheduled.

Also, to maximize the efficiency of this highly available configuration, it is recommended to add the --enable-aggregator-routing=true CLI flag to the kube-apiserver so that requests sent to Metrics Server are load balanced between the 2 instances.

Helm Chart

The Helm chart is maintained as an additional component within this repo and released into a chart repository backed on the gh-pages branch. A new version of the chart will be released for each Metrics Server release and can also be released independently if there is a need. The chart on the master branch shouldn't be referenced directly as it might contain modifications since it was last released, to view the chart code use the chart release tag.

Security context

Metrics Server requires the CAP_NET_BIND_SERVICE capability in order to bind to a privileged ports as non-root. If you are running Metrics Server in an environment that uses PSPs or other mechanisms to restrict pod capabilities, ensure that Metrics Server is allowed to use this capability. This applies even if you use the --secure-port flag to change the port that Metrics Server binds to to a non-privileged port.

Scaling

Starting from v0.5.0 Metrics Server comes with default resource requests that should guarantee good performance for most cluster configurations up to 100 nodes:

  • 100m core of CPU
  • 200MiB of memory

Metrics Server resource usage depends on multiple independent dimensions, creating a Scalability Envelope. Default Metrics Server configuration should work in clusters that don't exceed any of the thresholds listed below:

Quantity Namespace threshold Cluster threshold
#Nodes n/a 100
#Pods per node 70 70
#Deployments with HPAs 100 100

Resources can be adjusted proportionally based on number of nodes in the cluster. For clusters of more than 100 nodes, allocate additionally:

  • 1m core per node
  • 2MiB memory per node

You can use the same approach to lower resource requests, but there is a boundary where this may impact other scalability dimensions like maximum number of pods per node.

Configuration

Depending on your cluster setup, you may also need to change flags passed to the Metrics Server container. Most useful flags:

  • --kubelet-preferred-address-types - The priority of node address types used when determining an address for connecting to a particular node (default [Hostname,InternalDNS,InternalIP,ExternalDNS,ExternalIP])
  • --kubelet-insecure-tls - Do not verify the CA of serving certificates presented by Kubelets. For testing purposes only.
  • --requestheader-client-ca-file - Specify a root certificate bundle for verifying client certificates on incoming requests.

You can get a full list of Metrics Server configuration flags by running:

docker run --rm registry.k8s.io/metrics-server/metrics-server:v0.6.4 --help

Design

Metrics Server is a component in the core metrics pipeline described in Kubernetes monitoring architecture.

For more information, see:

Have a question?

Before posting an issue, first checkout Frequently Asked Questions and Known Issues.

Community, discussion, contribution, and support

Learn how to engage with the Kubernetes community on the community page.

You can reach the maintainers of this project at:

This project is maintained by SIG Instrumentation

Code of conduct

Participation in the Kubernetes community is governed by the Kubernetes Code of Conduct.

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