Pulumi Kubernetes Resource Provider
The Kubernetes resource provider for Pulumi lets you create, deploy, and manage Kubernetes API resources and workloads in a running cluster. For a streamlined Pulumi walkthrough, including language runtime installation and Kubernetes configuration, select "Get Started" below.
Introduction
pulumi-kubernetes
provides an SDK to create any of the API resources
available in Kubernetes.
This includes the resources you know and love, such as:
- Deployments
- ReplicaSets
- ConfigMaps
- Secrets
- Jobs etc.
Kubernetes API Version Support
The pulumi-kubernetes
SDK closely tracks the latest upstream release, and provides access
to the full API surface, including deprecated endpoints.
The SDK API is 100% compatible with the Kubernetes API, and is
schematically identical to what Kubernetes users expect.
We support Kubernetes clusters with version >=1.9.0.
How does API support for Kubernetes work?
Pulumi’s Kubernetes SDK is manufactured by automatically wrapping our
library functionality around the Kubernetes resource OpenAPI
spec as soon as a
new version is released! Ultimately, this means that Pulumi users do not have
to learn a new Kubernetes API model, nor wait long to work with the latest
available versions.
Note: Pulumi also supports alpha and beta APIs.
Visit the FAQ
for more details.
References
Prerequisites
- Install Pulumi.
- Install a language runtime such as Node.js, Python or .NET.
- Install a package manager
- For Node.js, use NPM or Yarn.
- For Python, use pip.
- For .NET, use Nuget which is integrated with the
dotnet
CLI.
- Have access to a running Kubernetes cluster
- If
kubectl
already works for your running cluster, Pulumi respects and uses this configuration. - If you do not have a cluster already running and available, we encourage you to
explore Pulumi's SDKs for AWS EKS, Azure AKS, and GCP GKE. Visit the
API reference docs in the Pulumi Registry for more details.
- Install
kubectl
.
Installing
This package is available in many languages in the standard packaging formats.
For Node.js use either npm
or yarn
:
npm
:
npm install @pulumi/kubernetes
yarn
:
yarn add @pulumi/kubernetes
For Python use pip
:
pip install pulumi-kubernetes
For .NET, dependencies will be automatically installed as part of your Pulumi deployments using dotnet build
.
To use from Go, use go install
to grab the latest version of the library
$ go install github.com/pulumi/pulumi-kubernetes/sdk/v4/go/kubernetes@latest
Quick Examples
The following examples demonstrate how to work with pulumi-kubernetes
in
a couple of ways.
Examples may include the creation of an AWS EKS cluster, although an EKS cluster
is not required to use pulumi/kubernetes
. It is simply used to ensure
we have access to a running Kubernetes cluster to deploy resources and workloads into.
Deploying a YAML Manifest
This example deploys resources from a YAML manifest file path, using the
transient, default kubeconfig
credentials on the local machine, just as kubectl
does.
import * as k8s from "@pulumi/kubernetes";
const myApp = new k8s.yaml.ConfigFile("app", {
file: "app.yaml"
});
Deploying a Helm Chart
This example creates an EKS cluster with pulumi/eks
,
and then deploys a Helm chart from the stable repo using the
kubeconfig
credentials from the cluster's Pulumi provider.
import * as eks from "@pulumi/eks";
import * as k8s from "@pulumi/kubernetes";
const cluster = new eks.Cluster("my-cluster");
const wordpress = new k8s.helm.v3.Chart("wordpress", {
repo: "stable",
chart: "wordpress",
values: {
wordpressBlogName: "My Cool Kubernetes Blog!",
},
}, { providers: { "kubernetes": cluster.provider } });
export const kubeconfig = cluster.kubeconfig;
Deploying a Workload using the Resource API
This example creates a EKS cluster with pulumi/eks
,
and then deploys an NGINX Deployment and Service using the SDK resource API, and the
kubeconfig
credentials from the cluster's Pulumi provider.
import * as eks from "@pulumi/eks";
import * as k8s from "@pulumi/kubernetes";
const cluster = new eks.Cluster("my-cluster");
const appName = "my-app";
const appLabels = { appClass: appName };
const deployment = new k8s.apps.v1.Deployment(`${appName}-dep`, {
metadata: { labels: appLabels },
spec: {
replicas: 2,
selector: { matchLabels: appLabels },
template: {
metadata: { labels: appLabels },
spec: {
containers: [{
name: appName,
image: "nginx",
ports: [{ name: "http", containerPort: 80 }]
}],
}
}
},
}, { provider: cluster.provider });
const service = new k8s.core.v1.Service(`${appName}-svc`, {
metadata: { labels: appLabels },
spec: {
type: "LoadBalancer",
ports: [{ port: 80, targetPort: "http" }],
selector: appLabels,
},
}, { provider: cluster.provider });
export const url = service.status.loadBalancer.ingress[0].hostname;
export const kubeconfig = cluster.kubeconfig;
Contributing
If you are interested in contributing, please see the contributing docs.
Code of Conduct
You can read the code of conduct here.