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Version: v0.10

Configuration File Overview

Kusion consumes one or more declarative configuration files (written in KCL) that describe the application, and delivers intent to the target runtime including Kubernetes, clouds, or on-prem infrastructure.

This documentation series walks you through the odds and ends of managing such configuration files.

Table of Contentโ€‹

Directory Structureโ€‹

Kusion expects the configuration file to be placed in a certain directory structure because it might need some metadata (that is not stored in the application configuration itself) in order to proceed.

info

See Project and Stack for more details about Project and Stack.

A sample multi-stack directory structure looks like the following:

~/playground$ tree multi-stack-project/
multi-stack-project/
โ”œโ”€โ”€ README.md
โ”œโ”€โ”€ base
โ”‚ย ย  โ””โ”€โ”€ base.k
โ”œโ”€โ”€ dev
โ”‚ย ย  โ”œโ”€โ”€ kcl.mod
โ”‚ย ย  โ”œโ”€โ”€ main.k
โ”‚ย ย  โ””โ”€โ”€ stack.yaml
โ”œโ”€โ”€ prod
โ”‚ย ย  โ”œโ”€โ”€ kcl.mod
โ”‚ย ย  โ”œโ”€โ”€ main.k
โ”‚ย ย  โ””โ”€โ”€ stack.yaml
โ””โ”€โ”€ project.yaml

In general, the directory structure follows a hierarchy where the top-level is the project configurations, and the sub-directories represent stack-level configurations.

You may notice there is a base directory besides all the stacks. The base directory is not mandatory, but rather a place to store common configurations between different stacks. A common pattern we observed is to use stacks to represent different stages (dev, stage, prod, etc.) in the software development lifecycle, and/or different deployment targets (azure-eastus, aws-us-east-1, etc). A project can have as many stacks as needed.

In practice, the applications deployed into dev and prod might very likely end up with a similar set of configurations except a few fields such as the application image (dev might be on newer versions), resource requirements (prod might require more resources), etc.

As a general best practice, we recommend managing the common configurations in base.k as much as possible to minimize duplicate code. We will cover how override works in Base and Override.

AppConfiguration Modelโ€‹

AppConfiguration is the out-of-the-box model we build that describes an application. It serves as the declarative intent for a given application.

The schema for AppConfiguration is defined in the KusionStack/catalog repository. It is designed as a unified, application-centric model that encapsulates the comprehensive configuration details and in the meantime, hides the complexity of the infrastructure as much as possible.

AppConfiguration consists of multiple sub-components that each represent either the application workload itself, its dependencies, relevant workflows or operational expectations. We will deep dive into the details on how to author each of these elements in this upcoming documentation series.

For more details on the AppConfiguration, please refer to the design documentation.

Authoring Configuration Filesโ€‹

KCL is the choice of configuration language consumed by Kusion. KCL is an open-source constraint-based record and functional language. KCL works well with a large number of complex configurations via modern programming language technology and practice, and is committed to provide better modularity, scalability, stability and extensibility.

Identifying KCL fileโ€‹

KCL files are identified with .k suffix in the filename.

KCL Packages and Importโ€‹

Similar to most modern General Programming Languages (GPLs), KCL packages are used to organize collections of related KCL source files into modular and re-usable units.

In the context of Kusion, we use KCL packages to define models that could best abstract the behavior of an application. Specifically, we provide an official out-of-the-box KCL package(will keep iterating) with the name catalog. When authoring an application configuration file, you can simply import the catalog package in the source code and use all the schemas (including AppConfiguration) defined in the catalog package.

Similarly, if the schemas in the catalog package does not meet your needs, you can always fork it and make modifications, then import the modified package; or create a brand new package altogether and import it.

The Kusion ecosystem can be easily expanded in this manner.

An example of the import looks like the following:

### import from the official catalog package
import catalog.models.schema.v1 as ac
import catalog.models.schema.v1.workload as wl
import catalog.models.schema.v1.workload.container as c

### import my own modified package
import my_own_catalog.models.schema.v1 as moc
import my_other_package.schema.v1.redis as myredis

Take import catalog.models.schema.v1.workload as wl as an example, the .models.schema.v1.workload part after import catalog represents the relative path of a specific schema to import. In this case, the workload schemas is defined under models/schema/v1/workload directory in the catalog package.

Understanding kcl.modโ€‹

Much similar to the concept of go.mod, Kusion uses kcl.mod as the source of truth to manage metadata (such as package name, dependencies, etc.) for the current package. Kusion will also auto-generate a kcl.mod.lock as the dependency lock file.

The most common usage for kcl.mod is to manage the dependency of your application configurations.

info

Please note this kcl.mod will be automatically generated if you are using kusion init to initialize a project with a template. You will only need to modify this file if you are modifying the project metadata outside the initialization process, such as upgrading the dependency version or adding a new dependency altogether, etc.

There are 3 sections in a kcl.mod file:

  • package, representing the metadata for the current package.
  • dependencies, describing the packages the current package depends on. Supports referencing either a git repository or an OCI artifact.
  • profile, defining the behavior for Kusion. In the example below, it describes the list of files Kusion should look for when parsing the application configuration.

An example of kcl.mod:

[package]
name = "multi-stack-project"
edition = "0.5.0"
version = "0.1.0"

[dependencies]
catalog = { git = "https://github.com/KusionStack/catalog.git", tag = "0.1.0" }
# Uncomment the line below to use your own modified package
# my-package = ghcr.io/kcl-lang/my-package

[profile]
entries = ["../base/base.k", "main.k"]

Building Blocksโ€‹

Configuration files consist of building blocks that are made of instances of schemas. An AppConfiguration instance consists of several child schemas, most of which are optional. The only mandatory one is the workload instance. We will take a closer look in the workload walkthrough. The order of the building blocks does NOT matter.

The major building blocks as of version 0.9.0:

myapp: ac.AppConfiguration {
workload: wl.Service {
containers: {
"myapp": c.Container {}
...
}
ports: []
secrets: {}
}
database: d.Database{}
monitoring: m.Prometheus{}
opsRule: t.OpsRule {}
...
}

We will deep dive into each one of the building blocks in this documentation series.

Instantiating an applicationโ€‹

In Kusion's out-of-the-box experience, an application is identified with an instance of AppConfiguration. You may have more than one application in the same project or stack.

Here's an example of a configuration that can be consumed by Kusion (assuming it is placed inside the proper directory structure that includes project and stack configurations, with a kcl.mod present):

import catalog.models.schema.v1 as ac
import catalog.models.schema.v1.workload as wl
import catalog.models.schema.v1.workload.network as n
import catalog.models.schema.v1.workload.container as c

gocity: ac.AppConfiguration {
workload: wl.Service {
containers: {
"gocity": c.Container {
image = "howieyuen/gocity:latest"
resources: {
"cpu": "500m"
"memory": "512Mi"
}
}
}
replicas: 1
ports: [
n.Port {
port: 4000
}
]
}
}

Don't worry about what workload or ports stand for at the moment. We will deep dive into each one of them in this upcoming documentation series.

Using kusion initโ€‹

Kusion offers a kusion init sub-command which initializes a new project using some pre-built templates, which saves you from the hassle of manually building the aforementioned directory structure that Kusion expects.

There is a built-in template single-stack-sample in the Kusion binary that can be used offline.

We also maintain a kusion-templates repository that hosts a list of more comprehensive project scaffolds. You can access them via kusion init --online command which requires connectivity to github.com.

The pre-built templates are meant to help you get off the ground quickly with some simple out-of-the-box examples. You can refer to the QuickStart documentation for some step-by-step tutorials.

Using referencesโ€‹

The reference documentation for the catalog package is located in Reference.

If you are using the catalog package out of the box, the reference documentation provides a comprehensive view for each schema involved, including all the attribute names and description, their types, default value if any, and whether a particular attribute is required or not. There will also be an example attached to each schema reference.

We will also deep dive into some common examples in the upcoming sections.