Crossplane KCL function allows developers to use KCL (a DSL) to write composite logic without the need for repeated packaging of crossplane functions, and we support package management and the KRM KCL specification, which allows for OCI/Git source and the reuse of KCL's module ecosystem.
Check out these following blogs to learn more.
- Using KCL Programming Language to Write Crossplane Composition Functions
- KCL: The Game-Changer for Crossplane Composition Building
Here's a simple example:
apiVersion: apiextensions.crossplane.io/v1
kind: Composition
metadata:
name: example
spec:
compositeTypeRef:
apiVersion: example.crossplane.io/v1beta1
kind: XR
mode: Pipeline
pipeline:
- step: basic
functionRef:
name: function-kcl
input:
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
source: |
# Read the XR
oxr = option("params").oxr
# Patch the XR with the status field
dxr = {
**option("params").dxr
status.dummy = "cool-status"
}
# Construct a bucket
bucket = {
apiVersion = "s3.aws.upbound.io/v1beta1"
kind = "Bucket"
metadata.annotations: {
"krm.kcl.dev/composition-resource-name" = "bucket"
}
spec.forProvider.region = option("oxr").spec.region
}
# Return the bucket and patched XR
items = [bucket, dxr]
- step: automatically-detect-ready-composed-resources
functionRef:
name: function-auto-ready
cat <<EOF | kubectl apply -f -
apiVersion: pkg.crossplane.io/v1beta1
kind: Function
metadata:
name: kcl-function
spec:
package: xpkg.upbound.io/crossplane-contrib/function-kcl:latest
EOF
To use a KCLInput
as the function config, the KCL source must be specified in the source
field. Additional parameters can be specified in the params
field. The params field supports any complex data structure as long as it can be represented in YAML. Besides, the function can load KCL codes from inline source, OCI source, Git source and FileSystem source.
- Inline source example
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
{
apiVersion = "s3.aws.upbound.io/v1beta1"
kind = "Bucket"
metadata.annotations: {
"krm.kcl.dev/composition-resource-name" = "bucket"
}
spec.forProvider.region = option("oxr").spec.region
}
- OCI source example
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: oci://ghcr.io/kcl-lang/crossplane-xnetwork-kcl-function
- Git source example
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: github.com/kcl-lang/modules/crossplane-xnetwork-kcl-function
- FileSystem source example
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: ./path/to/kcl/file.k
Note: You can't run the FileSystem example using
crossplane render
because it loads templates from a ConfigMap in the cluster. You can create aConfigMap
with the templates using the following command.
kubectl create configmap templates --from-file=templates.k -n crossplane-system
This ConfigMap
will be mounted to the function pod and the templates will be available in the /templates
directory. See the following function config for details.
apiVersion: pkg.crossplane.io/v1beta1
kind: Function
metadata:
name: function-kcl
spec:
package: xpkg.upbound.io/crossplane-contrib/function-kcl:latest
runtimeConfigRef:
name: mount-templates
---
apiVersion: pkg.crossplane.io/v1beta1
kind: DeploymentRuntimeConfig
metadata:
name: mount-templates
spec:
deploymentTemplate:
spec:
selector: {}
template:
spec:
containers:
- name: package-runtime
volumeMounts:
- mountPath: /templates
name: templates
readOnly: true
volumes:
- name: templates
configMap:
name: templates
- Read the
ObservedCompositeResource
fromoption("params").oxr
. - Read the
ObservedComposedResources
fromoption("params").ocds
. - Read the
DesiredCompositeResource
fromoption("params").dxr
. - Read the
DesiredComposedResources
fromoption("params").dcds
. - Read the
function pipeline's context
fromoption("params").ctx
. - Return an error using
assert {condition}, {error_message}
. - Log variable values using the function
print(variable)
and it will be output to the stdout of the function pod. - Read the PATH variables. e.g.
option("PATH")
. - Read the environment variables. e.g.
option("env")
.
You can define your custom parameters in the params
field and use option("params").custom_key
to get the custom_value
.
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
params:
custom_key: custom_value
source: oci://ghcr.io/kcl-lang/crossplane-xnetwork-kcl-function
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: kcl-xnetwork
spec:
params:
annotations:
krm.kcl.dev/allow-insecure-source: "true" # For localhost OCI registry
source: oci://ghcr.io/kcl-lang/crossplane-xnetwork-kcl-function
credentials: # If private OCI registry
url: https://<oci-host-url> # or KCL_SRC_URL environment variable
username: <username> # or KCL_SRC_USERNAME environment variable
password: <password> # or KCL_SRC_PASSWORD environment variable
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
spec:
source: oci://ghcr.io/kcl-lang/crossplane-xnetwork-kcl-function
config: # See [pkg/api/ConfigSpec]
vendor: true
sortKeys: true
disableNone: true
# omit other fields
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
spec:
# Set the dependencies are the external dependencies for the KCL code.
# The format of the `dependencies` field is same as the [dependencies]` in the `kcl.mod` file
dependencies:
k8s = "1.31"
source: |
import k8s.api.core.v1 as k8core
k8core.Pod {
spec: k8core.PodSpec{
containers: [{
name = "main"
}]
}
}
A KRM YAML list means that each document must have an apiVersion
, kind
through the items
field or a single YAML output.
- Using the
items
field
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
items = [{
apiVersion: "ec2.aws.upbound.io/v1beta1"
kind: "Instance"
metadata.name = "instance1"
spec.forProvider.region: "us-east-2"
}, {
apiVersion: "ec2.aws.upbound.io/v1beta1"
kind: "Instance"
metadata.name = "instance2"
spec.forProvider.region: "us-east-2"
}]
- Single YAML output
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
{
apiVersion: "ec2.aws.upbound.io/v1beta1"
kind: "Instance"
metadata.name = "instance"
spec.forProvider.ami: "ami-0d9858aa3c6322f73"
spec.forProvider.instanceType: "t2.micro"
spec.forProvider.region: "us-east-2"
}
Note that when returning multiple resources, we need to set different
metadata.name
ormetadata.annotations."krm.kcl.dev/composition-resource-name"
to distinguish between different resources in the composition functions.
The KCL function can target various types of objects:
Default
: create new resources and set fields on the XR.Resources
: create new resources.PatchDesired
: set fields on existing DesiredComposed Resources.PatchResources
: set fields on existing resources fields. These resources will then be added to the desired resources map.XR
: set fields on the XR.
This is controlled by fields on the KCInput
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
# default: Default
target: Default | PatchDesired | PatchResources | Resources | XR
source: |
# Omit the source field
...
To extract data from a specific composed resource by using the resource name, we can use the option("params").ocds
variable, ocds
is a mapping that its key is the resource name and its value is the observed composed resource
like the example.
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: show-ocds
spec:
source: |
{
metadata.name = "ocds"
spec.ocds = option("params").ocds
spec.user_kind = option("params").ocds["test-user"]?.Resource.Kind
spec.user_metadata = option("params").ocds["test-user"]?.Resource.metadata
spec.user_status = option("params").ocds["test-user"]?.Resource.status
}
To return desired composite resource connection details, include a KCL config that produces the special CompositeConnectionDetails resource like the example:
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
details = {
apiVersion: "meta.krm.kcl.dev/v1alpha1"
kind: "CompositeConnectionDetails"
data: {
"connection-secret-key": "connection-secret-value"
}
}
# Omit other composite logics.
# Input the details resource into the return resource list.
items = [
details
# Omit other return resources.
]
Note: The value of the connection secret value must be base64 encoded. This is already the case if you are referencing a key from a managed resource's connectionDetails field. However, if you want to include a connection secret value from somewhere else, you will need to use the
base64.encode
function:
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
import base64
# Omit other logic
ocds = option("params").ocds
details = {
apiVersion: "meta.krm.kcl.dev/v1alpha1"
kind: "CompositeConnectionDetails"
data: {
"server-endpoint" = base64.encode(ocds["my-server"].Resource.status.atProvider.endpoint)
}
}
To mark a desired composed resource as ready, use the krm.kcl.dev/ready
annotation:
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
# Omit other logic
user = {
apiVersion: "iam.aws.upbound.io/v1beta1"
kind: "User"
metadata.name = "test-user"
metadata.annotations: {
"krm.kcl.dev/ready": "True"
}
}
By defining one or more special ExtraResources
, you can ask Crossplane to retrieve additional resources from the local cluster and make them available to your templates. See the docs for more information.
With ExtraResources, you can fetch cluster-scoped resources, but not namespaced resources such as claims. If you need to get a composite resource via its claim name you can use
matchLabels
withcrossplane.io/claim-name: <claimname>
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
# Omit other logic
details = {
apiVersion: "meta.krm.kcl.dev/v1alpha1"
kind: "ExtraResources"
requirements = {
foo = {
apiVersion: "example.com/v1beta1",
kind: "Foo",
matchLabels: {
"foo": "bar"
}
},
bar = {
apiVersion: "example.com/v1beta1",
kind: "Bar",
matchName: "my-bar"
}
}
}
# Omit other composite logics.
items = [
details
# Omit other return resources.
]
You can retrieve the extra resources either via labels with matchLabels
or via name with matchName: somename
.
This will result in Crossplane receiving the requested resources and make them available with the following format.
foo:
- Resource:
apiVersion: example.com/v1beta1
kind: Foo
metadata:
labels:
foo: bar
# Omitted for brevity
- Resource:
apiVersion: example.com/v1beta1
kind: Foo
metadata:
labels:
foo: bar
# Omit for brevity
bar:
- Resource:
apiVersion: example.com/v1beta1
kind: Bar
metadata:
name: my-bar
# Omitted for brevity
You can access the retrieved resources in your code like this:
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
er = option("params")?.extraResources
name = er?.bar[0]?.Resource?.metadata?.name or ""
# Omit other logic
You can read the XR, patch it with the status field and return the new patched XR in the item
result like this
apiVersion: krm.kcl.dev/v1alpha1
kind: KCLInput
metadata:
name: basic
spec:
source: |
# Read the XR
dxr = option("params").dxr
# Patch the XR with the status field
dxr.status.dummy = "cool-status"
items = [dxr] # Omit other resources
You can directly use KCL standard libraries such as regex.match
, math.log
.
See here to study more features such as conditions and loops in KCL.
More examples can be found here
Logs are emitted to the Function's pod logs. Look for the Function pod in crossplane-system
.
Info # default
Debug # run with --debug flag
# Run code generation - see input/generate.go
$ go generate ./...
# Run tests - see fn_test.go
$ go test ./...
# Build the function's runtime image - see Dockerfile
$ docker build . --tag=kcllang/crossplane-kcl
# Build a function package - see package/crossplane.yaml
$ crossplane xpkg build -f package --embed-runtime-image=kcllang/crossplane-kcl
# Push a function package to the registry
$ crossplane --verbose xpkg push -f package/*.xpkg xpkg.upbound.io/crossplane-contrib/function-kcl:latest