CUE Basic
In this section, we will explain more about how KubeVela use CUE to encapsulate and abstract a given capability in Kubernetes in detail.
We'll start from some basic CUE knowledge first, if you don't have any idea of KubeVela Concept, don't worry! This doc is available for anyone who want to learn how to use CUE in practice quickly.
Overview
The reasons for KubeVela supports CUE as a first-class solution to design abstraction can be concluded as below:
- CUE is designed for large scale configuration. CUE has the ability to understand a configuration worked on by engineers across a whole company and to safely change a value that modifies thousands of objects in a configuration. This aligns very well with KubeVela's original goal to define and ship production level applications at web scale.
- CUE supports first-class code generation and automation. CUE can integrate with existing tools and workflows naturally while other tools would have to build complex custom solutions. For example, generate OpenAPI schemas with Go code. This is how KubeVela build developer tools and GUI interfaces based on the CUE templates.
- CUE integrates very well with Go. KubeVela is built with GO just like most projects in Kubernetes system. CUE is also implemented in and exposes a rich API in Go. KubeVela integrates with CUE as its core library and works as a Kubernetes controller. With the help of CUE, KubeVela can easily handle data constraint problems.
Pleas also check The Configuration Complexity Curse and The Logic of CUE for more details.
Prerequisites
Please make sure below CLIs are present in your environment:
cue
v0.2.2+, currently KubeVela only supports CUE v0.2.2, we're positively discussing with CUE community for upgrade.vela
v1.0.0+.
CUE CLI Basic
Below is the basic CUE data, you can define both schema and value in the same file with the almost same format:
a: 1.5
a: float
b: 1
b: int
d: [1, 2, 3]
g: {
h: "abc"
}
e: string
CUE is a superset of JSON, we can use it like json with following convenience:
- C style comments,
- quotes may be omitted from field names without special characters,
- commas at the end of fields are optional,
- comma after last element in list is allowed,
- outer curly braces are optional.
CUE has powerful CLI commands. Let's keep the data in a file named first.cue
and try.
Format the CUE file. If you're using Goland or similar JetBrains IDE, you can configure save on format instead. This command will not only format the CUE, but also point out the wrong schema. That's very useful.
cue fmt first.cue
Schema Check, besides
cue fmt
, you can also usecue vet
to check schema.cue vet first.cue
Calculate/Render the result.
cue eval
will calculate the CUE file and render out the result. You can see the results don't containa: float
andb: int
, because these two variables are calculated. While thee: string
doesn't have definitive results, so it keeps as it is.cue eval first.cue
a: 1.5
b: 1
d: [1, 2, 3]
g: {
h: "abc"
}
e: stringRender for specified result. For example, we want only know the result of
b
in the file, then we can specify the parameter-e
.cue eval -e b first.cue
1
Export the result.
cue export
will export the result with final value. It will report an error if some variables are not definitive.cue export first.cue
e: cannot convert incomplete value "string" to JSON:
./first.cue:9:4We can complete the value by giving a value to
e
, for example:echo "e: \"abc\"" >> first.cue
Then, the command will work. By default, the result will be rendered in json format.
cue export first.cue
{
"a": 1.5,
"b": 1,
"d": [
1,
2,
3
],
"g": {
"h": "abc"
},
"e": "abc"
}Export the result in YAML format.
cue export first.cue --out yaml
a: 1.5
b: 1
d:
- 1
- 2
- 3
g:
h: abc
e: abcExport the result for specified variable.
cue export -e g first.cue
{
"h": "abc"
}
For now, you have learned all useful CUE cli operations.
CUE Language Basic
- Data structure: Below is the basic data structure of CUE.
// float
a: 1.5
// int
b: 1
// string
c: "blahblahblah"
// array
d: [1, 2, 3, 1, 2, 3, 1, 2, 3]
// bool
e: true
// struct
f: {
a: 1.5
b: 1
d: [1, 2, 3, 1, 2, 3, 1, 2, 3]
g: {
h: "abc"
}
}
// null
j: null
- Define a custom CUE type. You can use a
#
symbol to specify some variable represents a CUE type.
#abc: string
Let's name it second.cue
. Then the cue export
won't complain as the #abc
is a type not incomplete value.
cue export second.cue
{}
You can also define a more complex custom struct, such as:
#abc: {
x: int
y: string
z: {
a: float
b: bool
}
}
It's widely used in KubeVela to define templates and do validation.
CUE Templating and References
Let's try to define a CUE template with the knowledge just learned.
- Define a struct variable
parameter
.
parameter: {
name: string
image: string
}
Let's save it in a file called deployment.cue
.
- Define a more complex struct variable
template
and reference the variableparameter
.
template: {
apiVersion: "apps/v1"
kind: "Deployment"
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
}]
}}}
}
People who are familiar with Kubernetes may have understood that is a template of K8s Deployment. The parameter
part
is the parameters of the template.
Add it into the deployment.cue
.
- Then, let's add the value by adding following code block:
parameter:{
name: "mytest"
image: "nginx:v1"
}
- Finally, let's export it in yaml:
cue export deployment.cue -e template --out yaml
apiVersion: apps/v1
kind: Deployment
spec:
template:
spec:
containers:
- name: mytest
image: nginx:v1
metadata:
labels:
app.oam.dev/component: mytest
selector:
matchLabels:
app.oam.dev/component: mytest
Advanced CUE Schematic
Open struct and list. Using
...
in a list or struct means the object is open.- A list like
[...string]
means it can hold multiple string elements. If we don't add...
, then[string]
means the list can only have onestring
element in it. - A struct like below means the struct can contain unknown fields.
{
abc: string
...
}
- A list like
Operator
|
, it represents a value could be both case. Below is an example that the variablea
could be in string or int type.a: string | int
Default Value, we can use
*
symbol to represent a default value for variable. That's usually used with|
, which represents a default value for some type. Below is an example that variablea
isint
and it's default value is1
.a: *1 | int
Optional Variable. In some cases, a variable could not be used, they're optional variables, we can use
?:
to define it. In the below example,a
is an optional variable,x
andz
in#my
is optional whiley
is a required variable.a ?: int
#my: {
x ?: string
y : int
z ?:float
}
Optional variables can be skipped, that usually works together with conditional logic.
Specifically, if some field does not exist, the CUE grammar is if _variable_ != _|_
, the example is like below:
#Config: {
name: string
value: string
}
parameter: {
name: string
image: string
config?: [...#Config]
}
output: {
...
spec: {
containers: [{
name: parameter.name
image: parameter.image
if parameter.config != _|_ {
config: parameter.config
}
}]
}
...
}
- Operator
&
, it used to calculate two variables.
a: *1 | int
b: 3
c: a & b
Saving it in third.cue
file.
You can evaluate the result by using cue eval
:
cue eval third.cue
a: 1
b: 3
c: 3
- Conditional statement, it's really useful when you have some cascade operations that different value affects different results.
So you can do
if..else
logic in the template.
price: number
feel: *"good" | string
// Feel bad if price is too high
if price > 100 {
feel: "bad"
}
price: 200
Saving it in fourth.cue
file.
You can evaluate the result by using cue eval
:
cue eval fourth.cue
price: 200
feel: "bad"
Another example is to use bool type as parameter.
parameter: {
name: string
image: string
useENV: bool
}
output: {
...
spec: {
containers: [{
name: parameter.name
image: parameter.image
if parameter.useENV == true {
env: [{name: "my-env", value: "my-value"}]
}
}]
}
...
}
For Loop: if you want to avoid duplicate, you may want to use for loop.
Loop for Map
parameter: {
name: string
image: string
env: [string]: string
}
output: {
spec: {
containers: [{
name: parameter.name
image: parameter.image
env: [
for k, v in parameter.env {
name: k
value: v
},
]
}]
}
}Loop for type
#a: {
"hello": "Barcelona"
"nihao": "Shanghai"
}
for k, v in #a {
"\(k)": {
nameLen: len(v)
value: v
}
}Note that we use
"\( _my-statement_ )"
for inner calculation in string, it's very useful!Loop for Slice
parameter: {
name: string
image: string
env: [...{name:string,value:string}]
}
output: {
...
spec: {
containers: [{
name: parameter.name
image: parameter.image
env: [
for _, v in parameter.env {
name: v.name
value: v.value
},
]
}]
}
}If clause in Loop {}
parameter: [
{
name: "empty"
}, {
name: "xx1"
},
]
dataFrom: [ for _, v in parameter {
if v.name != "empty" {
name: v.name
}
}]the result is:
cue eval ../blog/a.cue -e dataFrom
[{}, {
name: "xx1"
}]- If clause in Loop with condition
parameter: [
{
name: "empty"
}, {
name: "xx1"
},
]
dataFrom: [ for _, v in parameter if v.name != "empty" {
name: v.name
}]the result is:
cue eval ../blog/a.cue -e dataFrom
[{
name: "xx1"
}]
Import CUE Internal Packages
CUE has many internal packages which also can be used in KubeVela.
Below is an example that use strings.Join
to concat
string list to one string.
import ("strings")
parameter: {
outputs: [{ip: "1.1.1.1", hostname: "xxx.com"}, {ip: "2.2.2.2", hostname: "yyy.com"}]
}
output: {
spec: {
if len(parameter.outputs) > 0 {
_x: [ for _, v in parameter.outputs {
"\(v.ip) \(v.hostname)"
}]
message: "Visiting URL: " + strings.Join(_x, "")
}
}
}
Great, now you've learned all of the basic skills and best practices about how to use CUE!
If you want to learn more details of CUE, you can refer to the CUE official documentation or the well documented tutorials.
In the following sections, we'll start to learn how KubeVela use CUE to glue resources. Make sure you have learned the core concepts of KubeVela before that.
Next
- Learn how to use CUE to extend KubeVela by Managing Definition.