Development for this project has moved to pulumi/pulumi-converter-kubernetes. If you are looking to convert Kubernetes manifests to Pulumi programs, we strongly recommend you utilize the new converter plugin. You can find detailed instructions on using the new converter plugin here.
Many of the long-requested features and bug fixes have been integrated into the newer converter plugin, making it more versatile and reliable.
Convert Kubernetes YAML to Pulumi programs in Go, TypeScript, Python, C# and Java. Improve your Kubernetes development experience by taking advantage of strong types, compilation errors, full IDE support for features like autocomplete. Declare and manage the infrastructure in any cloud in the same program that manages your Kubernetes resources.
$ pulumi plugin install resource kubernetes v3.0.0
If you wish to use kube2pulumi
without developing the tool itself, you can use one of the binary
releases hosted on GitHub.
kube2pulumi
can be installed on Mac from the Pulumi Homebrew tap.
brew install pulumi/tap/kube2pulumi
kube2pulumi uses Go modules to manage dependencies. If you want to develop kube2pulumi
itself, you'll need to have Go installed in order to build.
Once this prerequisite is installed, run the following to build the kube2pulumi
binary and install it into $GOPATH/bin
:
$ go build -o $GOPATH/bin/kube2pulumi -ldflags="-X github.com/pulumi/kube2pulumi/pkg/version.Version=1.0.0" cmd/kube2pulumi/main.go
The ldflags
argument is necessary to dynamically set the kube2pulumi
version at build time. However, the version
itself can be anything, so you don't have to set it to dev
.
Go should automatically handle pulling the dependencies for you. If $GOPATH/bin
is not on your path, you may want to
move the kube2pulumi
binary from $GOPATH/bin
into a directory that is on your path.
In order to use kube2pulumi
to convert Kubernetes YAML to Pulumi and then deploy it,
you'll first need to install the Pulumi CLI.
Once the Pulumi CLI has been installed, you'll need to install the Kubernetes plugin:
$ pulumi plugin install resource kubernetes v2.4.2
Now, navigate to the same directory as the the YAML you'd like to convert and create a new Pulumi stack in your favorite language:
// For a Go project
$ pulumi new kubernetes-go -f
// For a TypeScript project
$ pulumi new kubernetes-typescript -f
// For a Python project
$ pulumi new kubernetes-python -f
// For a C# project
$ pulumi new kubernetes-csharp -f
// For a Java project
$ pulumi new kubernetes-java -f
Then run kube2pulumi
which will write a file in the directory that
contains the Pulumi project you just created:
// For a Go project
$ kube2pulumi go
// For a TypeScript project
$ kube2pulumi typescript
// For a Python project
$ kube2pulumi python
// For a C# project
$ kube2pulumi csharp
// For a Java project
$ kube2pulumi java
This will generate a Pulumi program that when run with pulumi update
will deploy the
Kubernetes resources originally described by your YAML. Note that before deployment you will need to configure Kubernetes so the Pulumi CLI can connect to a Kubernetes cluster. If you have previously configured the kubectl CLI, kubectl
, Pulumi will respect and use your configuration settings.
Let's convert a simple YAML file describing a pod with a single container running nginx:
apiVersion: v1
kind: Pod
metadata:
namespace: foo
name: bar
spec:
containers:
- name: nginx
image: nginx:1.14-alpine
resources:
limits:
memory: 20Mi
cpu: 0.2
kube2pulumi go -f ./pod.yaml
package main
import (
corev1 "github.com/pulumi/pulumi-kubernetes/sdk/v3/go/kubernetes/core/v1"
metav1 "github.com/pulumi/pulumi-kubernetes/sdk/v3/go/kubernetes/meta/v1"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := corev1.NewPod(ctx, "fooBarPod", &corev1.PodArgs{
ApiVersion: pulumi.String("v1"),
Kind: pulumi.String("Pod"),
Metadata: &metav1.ObjectMetaArgs{
Namespace: pulumi.String("foo"),
Name: pulumi.String("bar"),
},
Spec: &corev1.PodSpecArgs{
Containers: corev1.ContainerArray{
&corev1.ContainerArgs{
Name: pulumi.String("nginx"),
Image: pulumi.String("nginx:1.14-alpine"),
Resources: &corev1.ResourceRequirementsArgs{
Limits: pulumi.StringMap{
"memory": pulumi.String("20Mi"),
"cpu": pulumi.String("0.2"),
},
},
},
},
},
})
if err != nil {
return err
}
return nil
})
}
kube2pulumi typescript -f ./pod.yaml
import * as pulumi from "@pulumi/pulumi";
import * as kubernetes from "@pulumi/kubernetes";
const fooBarPod = new kubernetes.core.v1.Pod("fooBarPod", {
apiVersion: "v1",
kind: "Pod",
metadata: {
namespace: "foo",
name: "bar",
},
spec: {
containers: [{
name: "nginx",
image: "nginx:1.14-alpine",
resources: {
limits: {
memory: "20Mi",
cpu: 0.2,
},
},
}],
},
});
kube2pulumi python -f ./pod.yaml
import pulumi
import pulumi_kubernetes as kubernetes
foo_bar_pod = kubernetes.core.v1.Pod("fooBarPod",
api_version="v1",
kind="Pod",
metadata={
"namespace": "foo",
"name": "bar",
},
spec={
"containers": [{
"name": "nginx",
"image": "nginx:1.14-alpine",
"resources": {
"limits": {
"memory": "20Mi",
"cpu": "0.2",
},
},
}],
})
kube2pulumi csharp -f ./pod.yaml
using Pulumi;
using Kubernetes = Pulumi.Kubernetes;
class MyStack : Stack
{
public MyStack()
{
var fooBarPod = new Kubernetes.Core.V1.Pod("fooBarPod", new Kubernetes.Types.Inputs.Core.V1.PodArgs
{
ApiVersion = "v1",
Kind = "Pod",
Metadata = new Kubernetes.Types.Inputs.Meta.V1.ObjectMetaArgs
{
Namespace = "foo",
Name = "bar",
},
Spec = new Kubernetes.Types.Inputs.Core.V1.PodSpecArgs
{
Containers =
{
new Kubernetes.Types.Inputs.Core.V1.ContainerArgs
{
Name = "nginx",
Image = "nginx:1.14-alpine",
Resources = new Kubernetes.Types.Inputs.Core.V1.ResourceRequirementsArgs
{
Limits =
{
{ "memory", "20Mi" },
{ "cpu", "0.2" },
},
},
},
},
},
});
}
}
kube2pulumi java -f ./pod.yaml
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.kubernetes.core_v1.Pod;
import com.pulumi.kubernetes.core_v1.PodArgs;
import com.pulumi.kubernetes.meta_v1.inputs.ObjectMetaArgs;
import com.pulumi.kubernetes.core_v1.inputs.PodSpecArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
var fooBarPod = new Pod("fooBarPod", PodArgs.builder()
.apiVersion("v1")
.kind("Pod")
.metadata(ObjectMetaArgs.builder()
.namespace("foo")
.name("bar")
.build())
.spec(PodSpecArgs.builder()
.containers(ContainerArgs.builder()
.name("nginx")
.image("nginx:1.14-alpine")
.resources(ResourceRequirementsArgs.builder()
.limits(Map.ofEntries(
Map.entry("memory", "20Mi"),
Map.entry("cpu", 0.2)
))
.build())
.build())
.build())
.build());
}
}
kube2pulumi
currently does not handle the conversion of CustomResourceDefinitions or CustomResources. However, our
new tool crd2pulumi
, creates strongly-typed args for a Resource based on your CRD! If using CRD/CR's make sure to check out the following tool!