Kubernetes Service Concepts

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External

Internal

Playground

https://github.com/ovidiuf/playground/tree/master/kubernetes/httpd-pod-and-service

Service

A Service is a mechanism that provides reliable TCP and UDP networking to a set of pods. As described in the Pod Lifecycle section, pods may come and go, and every time a new replacement pod is brought up, it comes with a new IP address; the process results in a fair amount of IP churn. The service fronts an inherently dynamic set of pods. It provides a reliable name and a stable IP address and port for the pods "represented" by that service. The service is automatically registered with the cluster's DNS service so cluster components can find services by name, which becomes DNS-resolvable. More details between a service and the DNS service are available in the Services and DNS section. In case of two or more pods, the service load balances requests between the available pods.

If the number of pods is increased by explicitly scaling the deployment, no service modification is required - the service dynamically identifies the new pods and starts to load-balance requests to them, using a mechanism involving labels and a selector. If a pod dies, the service dynamically and transparently clears the relationship to the defunct pod, and stops sending requests into it.

Services operate at the TCP/UDP layer (level 3) and in consequence cannot provide application-layer routing. If application-layer routing is needed, a primitive named Ingress is available.

A Service is a Kubernetes API Resource, an object whose state is maintained by the Kubernetes API server, and for which we define a manifest that is then POSTed to the API server.

Service Manifest

Service Manifest

Connecting Pods to Services

Pods and services are loose coupled via labels and label selectors.

The service maintains the label selector, which is a list of all the labels a pod must possess in order for it to receive traffic from the service. The service will send traffic to all ready pods - a pod whose containers have all passed the readiness check - that posses all the labels contained by the service's selector. The pod may have extra labels in additions with those specified by the service's selector, and those will not interfere with the service selection process. In other words, the label selector needs to match some of the labels on a pod, but for a pod to match a service, in must have ll of the labels the service is looking for.

As pods fail or get started, the service in front of them observes these events and updates its knowledge of the pods, but it never changes the stable IP address, port and DNS name that it exposes.

Services and DNS

A service is automatically registered with the cluster's DNS service so cluster components can find services by name, which becomes DNS-resolvable.

Service Types

TODO: https://www.ibm.com/support/knowledgecenter/en/SSBS6K_3.1.1/manage_network/kubernetes_types.html

ClusterIP

NodePort

apiVersion: v1
kind: Service
metadata:
  name: my-service
spec:
  type: NodePort
  ports:
  - port: 8080
    targetPort: 8080
    nodePort: 30001
    protocol: TCP
  selector:
    app: my-app

LoadBalancer

ExternalName

Endpoint

Endpoint Controller

The endpoint controller is part of the controller manager.