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Version: 0.6

Configuration

Introduction

Configuration is a vital aspect of software systems that are constantly in flux due to evolving business requirements, infrastructure demands, and other factors. Often, changing these systems' behavior quickly can be challenging, especially when doing so requires a costly and time-consuming reconstruction and redeployment process. In such cases, making changes to the business code may not be sufficient. Fortunately, the configuration provides a low-overhead way to modify system functions. For instance, many developers write JSON or YAML files to configure their systems.

We can store the static configuration in JSON and YAML files as needed. Moreover, the configuration can also be stored in a high-level language that allows for more flexible configuration. This language can be coded, rendered, and statically configured. KCL is a configuration language that offers such functionality. Developers can write KCL code to generate JSON/YAML and other configurations.

Use KCL for Configuration

KCL's core features are its modeling and constraint capabilities, and its basic functions revolve around these two key elements. Additionally, KCL follows a user-centric configuration concept when designing its basic functions. Configuration code has requirements for configuration data constraints, such as type constraints and required/optional constraints on configuration attributes, range constraints, and immutability constraints. These are also some of the core issues that KCL is committed to resolving.

Now that we have an understanding of KCL's capabilities, let's explore how to use it to generate configurations.

0. Prerequisite

1. Get the Example

Firstly, let's get the example.

git clone https://github.com/kcl-lang/kcl-lang.io.git/
cd ./kcl-lang.io/examples/configuration

We can run the following command to show the config.

cat nginx.k

The output is

schema Nginx:
"""Schema for Nginx configuration files"""
http: Http

schema Http:
server: Server

schema Server:
listen: int | str # The attribute `listen` can be int type or a string type.
location?: Location # Optional, but must be non-empty when specified

schema Location:
root: str
index: str

nginx = Nginx {
http.server = {
listen = 80
location = {
root = "/var/www/html"
index = "index.html"
}
}
}

2. Generate YAML using KCL

Run the following command

kcl nginx.k

We can get the output YAML

nginx:
http:
server:
listen: 80
location:
root: /var/www/html
index: index.html

3. Configuration with Dynamic Parameters

Besides, we can dynamically receive external parameters through the KCL builtin function option. For example, for the following KCL file (db.k), we can use the KCL command line -D flag to receive an external dynamic parameter.

env: str = option("env") or "dev"  # The attribute `env` has a default value "den"
database: str = option("database")
hosts = {
dev = "postgres.dev"
stage = "postgres.stage"
prod = "postgres.prod"
}
dbConfig = {
host = hosts[env]
database = database
port = "2023"
conn = "postgres://${host}:${port}/${database}"
}
# Use the `-D` flag to input external parameters.
kcl db.k -D database="foo"

The output is

env: dev
database: foo
hosts:
dev: postgres.dev
stage: postgres.stage
prod: postgres.prod
dbConfig:
host: postgres.dev
database: foo
port: "2023"
conn: "postgres://postgres.dev:2023/foo"

Summary

By using KCL, we can generate low-level data configurations. For different situations, we set dynamic parameters through the -D flag to meet the scene requirements. For more KCL features, please refer to here.