Component Definition
In this section, we will introduce how to use CUE to customize components via ComponentDefinition. Make sure you've learned the basic knowledge about Definition Concept and how to manage definition.
Declare ComponentDefinition
First, generate ComponentDefinition scaffolds via vela def init with existed YAML file.
The YAML file:
apiVersion: "apps/v1"
kind: "Deployment"
spec:
selector:
matchLabels:
"app.oam.dev/component": "name"
template:
metadata:
labels:
"app.oam.dev/component": "name"
spec:
containers:
- name: "name"
image: "image"
Generate ComponentDefinition based on the YAML file:
vela def init stateless -t component --template-yaml ./stateless.yaml -o stateless.cue
It generates a file:
$ cat stateless.cue
stateless: {
annotations: {}
attributes: workload: definition: {
apiVersion: "<change me> apps/v1"
kind: "<change me> Deployment"
}
description: ""
labels: {}
type: "component"
}
template: {
output: {
spec: {
selector: matchLabels: "app.oam.dev/component": "name"
template: {
metadata: labels: "app.oam.dev/component": "name"
spec: containers: [{
name: "name"
image: "image"
}]
}
}
apiVersion: "apps/v1"
kind: "Deployment"
}
outputs: {}
parameters: {}
}
In detail:
.spec.workloadis required to indicate the workload type of this component..spec.schematic.cue.templateis a CUE template, specifically:- The
outputfiled defines the template for the abstraction. - The
parameterfiled defines the template parameters, i.e. the configurable properties exposed in theApplicationabstraction (and JSON schema will be automatically generated based on them).
- The
Add parameters in this auto-generated custom component file :
stateless: {
annotations: {}
attributes: workload: definition: {
apiVersion: "<change me> apps/v1"
kind: "<change me> Deployment"
}
description: ""
labels: {}
type: "component"
}
template: {
output: {
spec: {
selector: matchLabels: "app.oam.dev/component": parameter.name
template: {
metadata: labels: "app.oam.dev/component": parameter.name
spec: containers: [{
name: parameter.name
image: parameter.image
}]
}
}
apiVersion: "apps/v1"
kind: "Deployment"
}
outputs: {}
parameters: {
name: string
image: string
}
}
You can use vela def vet to validate the format:
$ vela def vet stateless.cue
Validation succeed.
Declare another component named task which is an abstraction for run-to-completion workload.
vela def init task -t component -o task.cue
It generates a file:
$ cat task.cue
task: {
annotations: {}
attributes: workload: definition: {
apiVersion: "<change me> apps/v1"
kind: "<change me> Deployment"
}
description: ""
labels: {}
type: "component"
}
template: {
output: {}
parameter: {}
}
Edit the generated component file:
task: {
annotations: {}
attributes: workload: definition: {
apiVersion: "batch/v1"
kind: "Job"
}
description: ""
labels: {}
type: "component"
}
template: {
output: {
apiVersion: "batch/v1"
kind: "Job"
spec: {
parallelism: parameter.count
completions: parameter.count
template: spec: {
restartPolicy: parameter.restart
containers: [{
image: parameter.image
if parameter["cmd"] != _|_ {
command: parameter.cmd
}
}]
}
}
}
parameter: {
count: *1 | int
image: string
restart: *"Never" | string
cmd?: [...string]
}
}
Apply above ComponentDefinition files to your Kubernetes cluster:
$ vela def apply stateless.cue
ComponentDefinition stateless created in namespace vela-system.
$ vela def apply task.cue
ComponentDefinition task created in namespace vela-system.
Declare an Application
The ComponentDefinition can be instantiated in Application abstraction as below:
apiVersion: core.oam.dev/v1alpha2
kind: Application
metadata:
name: website
spec:
components:
- name: hello
type: stateless
properties:
image: oamdev/hello-world
name: mysvc
- name: countdown
type: task
properties:
image: centos:7
cmd:
- "bin/bash"
- "-c"
- "for i in 9 8 7 6 5 4 3 2 1 ; do echo $i ; done"
Under The Hood
Details
Above application resource will generate and manage following Kubernetes resources in your target cluster based on the output in CUE template and user input in Application properties.
apiVersion: apps/v1
kind: Deployment
metadata:
name: backend
... # skip tons of metadata info
spec:
template:
spec:
containers:
- name: mysvc
image: oamdev/hello-world
metadata:
labels:
app.oam.dev/component: mysvc
selector:
matchLabels:
app.oam.dev/component: mysvc
---
apiVersion: batch/v1
kind: Job
metadata:
name: countdown
... # skip tons of metadata info
spec:
parallelism: 1
completions: 1
template:
metadata:
name: countdown
spec:
containers:
- name: countdown
image: 'centos:7'
command:
- bin/bash
- '-c'
- for i in 9 8 7 6 5 4 3 2 1 ; do echo $i ; done
restartPolicy: Never
CUE Context
KubeVela allows you to reference the runtime information of your application via context keyword.
The most widely used context is application name(context.appName) component name(context.name).
context: {
appName: string
name: string
}
For example, let's say you want to use the component name filled in by users as the container name in the workload instance:
parameter: {
image: string
}
output: {
...
spec: {
containers: [{
name: context.name
image: parameter.image
}]
}
...
}
Note that
contextinformation are auto-injected before resources are applied to target cluster.
Full available context information can be used
- Check the reference docs of definition protocol to see all of the available information in KubeVela
context.
Composition
It's common that a component definition is composed by multiple API resources, for example, a webserver component that is composed by a Deployment and a Service. CUE is a great solution to achieve this in simplified primitives.
Another approach to do composition in KubeVela of course is using Helm.
How-to
KubeVela requires you to define the template of workload type in output section, and leave all the other resource templates in outputs section with format as below:
outputs: <unique-name>:
<full template data>
The reason for this requirement is KubeVela needs to know it is currently rendering a workload so it could do some "magic" like patching annotations/labels or other data during it.
Below is the example for webserver definition:
webserver: {
annotations: {}
attributes: workload: definition: {
apiVersion: "apps/v1"
kind: "Deployment"
}
description: ""
labels: {}
type: "component"
}
template: {
output: {
apiVersion: "apps/v1"
kind: "Deployment"
spec: {
selector: matchLabels: {
"app.oam.dev/component": context.name
}
template: {
metadata: labels: {
"app.oam.dev/component": context.name
}
spec: {
containers: [{
name: context.name
image: parameter.image
if parameter["cmd"] != _|_ {
command: parameter.cmd
}
if parameter["env"] != _|_ {
env: parameter.env
}
if context["config"] != _|_ {
env: context.config
}
ports: [{
containerPort: parameter.port
}]
if parameter["cpu"] != _|_ {
resources: {
limits:
cpu: parameter.cpu
requests:
cpu: parameter.cpu
}
}
}]
}
}
}
}
// an extra template
outputs: service: {
apiVersion: "v1"
kind: "Service"
spec: {
selector: {
"app.oam.dev/component": context.name
}
ports: [
{
port: parameter.port
targetPort: parameter.port
},
]
}
}
parameter: {
image: string
cmd?: [...string]
port: *80 | int
env?: [...{
name: string
value?: string
valueFrom?: {
secretKeyRef: {
name: string
key: string
}
}
}]
cpu?: string
}
}
Apply to your Kubernetes cluster:
$ vela def apply webserver.cue
ComponentDefinition webserver created in namespace vela-system.
The user could now declare an Application with it:
apiVersion: core.oam.dev/v1beta1
kind: Application
metadata:
name: webserver-demo
namespace: default
spec:
components:
- name: hello-world
type: webserver
properties:
image: oamdev/hello-world
port: 8000
env:
- name: "foo"
value: "bar"
cpu: "100m"
It will generate and manage below Kubernetes API resources in target cluster, you can use kubectl to check:
kubectl get deployment
NAME READY UP-TO-DATE AVAILABLE AGE
hello-world-v1 1/1 1 1 15s
kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
hello-world-trait-7bdcff98f7 ClusterIP <your ip> <none> 8000/TCP 32s
What's Next
- Learn more about defining customized trait in CUE.
- Learn how to define health check and custom status of Component.
- Learn how to define policy in CUE.