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A metalibrary for generating Concourse yml configuration files, and building a DevOps package

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concourse-ts

A set of libraries for SRE/DevOps teams to generate Concourse pipelines, task yaml files, and set defaults*.

View the full API documentation, including examples, on the Wiki!

Table of Contents

@decentm/concourse-ts

About concourse-ts

Concourse by default accepts yaml as its configuration, which makes it nearly impossible to reuse code for it. Its main advantage is its statelessness and self-contained nature, but this makes config reuse diffucult. We can fix the code reusability issue by creating a library that generates yaml using code.

This is a meta-package that's designed to be used to create a library that's specific to an organisation's infrastructure. The dependency chain looks like this: @corpity-corp/project > @corpity-corp/ci > @decentm/concourse-ts.

If you're a developer using a package that depends on concourse-ts, you shouldn't install concourse-ts. Consult your SRE/DevOps team's documentation about using their package. This page is for people looking to write Pipelines from scratch, or those who are creating an organisation-specific package that customises concourse-ts.

Programmatic usage

For the sake of example, the name corpity-corp is used throughout this repo when talking about a theoretical organisation using concourse-ts.

  • Create a new package

    • yarn init -y
    • npm init
  • Install the package as a production dependency. This will make sure your users will be able to install everything easily and have the same version

    • yarn add typescript @decentm/concourse-ts
    • npm i --save typescript @decentm/concourse-ts

Library

The most friendly way to use concourse-ts is to create an NPM package that depends on concourse-ts and publishing it to your private registry. This will allow you to harness the power of concourse-ts while adding organisation-specific defaults.

  • In the entrypoint of your package, extend and export the following classes:

    • Pipeline
    • Job
    • Task
  • Implement defaults* by calling the customise static function on classes. For example, you can call task.set_cpu_limit_shares(1) in your Task customiser to make all tasks limit CPU usage on workers.

  • Extend Resource and ResourceType as many times as needed to implement organisation-specific configuration, like e-mail notifications, webhooks, SCM repos, build processes, and test automation.

Security

Important to note, that defaults only apply to the customiser function. Each class can be interacted in two ways by the end user (in this case, the developer using the @corpity-corp/ci package). First, when a concourse-ts class is instantiated, it accepts an optional initialiser function that can be used to access the constructed object. Second, class instances are available to modify after they've been created. To make it clear:

let thing = null

const task = new Task('my_task', (my_task) => {
  thing = my_task
})

task === thing // true

When you set defaults on a class with .customise(), those statements run after the initialiser function, but that's not a guarantee that those values will never be modified. If the end user sets properties or calls functions after the new statement and uses its return value, they can override defaults set here. Take this for example:

// @corpity-corp/ci > src/build-task.ts
Task.customise((task) => {
  task.set_cpu_limit_shares(1)
})
// @corpity-corp/projects/zeus-server > ci/build.task.ts
import {Task} from '@corpity-corp/ci'

const build_task = new BuildTask('my_build', (task) => {
  // This will be overwritten with 1 by the base customiser
  task.set_cpu_limit_shares(3)
})

// This will overwrite the value from the customiser
build_task.set_cpu_limit_shares(2)

// CPU limit is 2 here

In this above case, the final value for the cpu_limit_shares will be 2. Since the configuration for projects is stored in each project's repo, this library or any project-level check is not appropriate for security checks. Also avoid directly inserting secrets into your @corpity-corp/ci library, as they'll be written to disk and visible in the generated YAML config. Use credential management to handle secrets. That way you can also ensure that secrets do not show up in build logs.

@decentm/concourse-ts-cli

npm i --save-dev @decentm/concourse-ts-cli yarn add -D @decentm/concourse-ts-cli

About the CLI

The concourse-ts command line package reads a typescript pipeline, compiles it to valid Concourse YAML syntax, and writes it to disk. Run concourse-ts --help to view documentation for the command syntax.

The input file must contain valid Typescript code, that has a default export that returns either a Pipeline instance or a promise that resolves to a Pipeline instance.

Command line usage

There are two ways to compile a concourse-ts Pipeline file. Your needs and team's requirements will determine which one to use, both are supported.

  • First is to install @decentm/concourse-ts-cli as a devDependency in your project, and set up a husky hook to compile your pipeline during git commit. This means that the actual YAML pipeline file will be visible in your repository.
    • Advantages:
      • Easy to view your pipeline evolve, and guarantee that you have the last say in what your CI will execute.
      • Ability to run generated tasks locally with Concourse's fly CLI (requires the --extract-tasks or -e option).
      • Native support for self-setting pipelines (e.g. set-pipeline: "self"). Since the actual YAML files are in your repository, your set-pipeline step will be very fast.
    • Disadvantages:
      • You have to install @decentm/concourse-ts-cli in your repository as a devDependency, and keep it up to date and in sync with your version of concourse-ts in each project.
      • Both the pipeline source and the compiled yaml output will be present in your repository, making it slightly more cluttered.
      • If another developer commits with git commit -n, they will be able to run a pipeline that doesn't match the output of your concourse-ts pipeline file.
  • Second is to use the decentm/concourse-ts-cli Docker image to compile the pipeline just before the set-pipeline step.
    • Advantages:
      • No need to install the CLI NPM package locally or keep it up to date.
      • Compiled YAML output is NOT committed to the repository, keeping the codebase cleaner.
      • The pipeline executed in your CI is guaranteed to be the same as the output of your concourse-ts Pipeline file.
      • Language agnosticity; you don't need to install NodeJS or Typescript into your project to compile pipelines.
    • Disadvantages:
      • Your pipeline's history is only visible in the Typescript file. If someone is familiar with Concourse configuration, but not concourse-ts, they will have a harder time tracking down bugs, for example in git blame.
      • Since compiled YAML files are not readily available, you can't use fly to run indivisual tasks (unless you pull the decentm/concourse-ts-cli docker image locally and use Docker to run it)
      • No native set-pipeline speed. Before your set-pipeline step, you must include a step that uses the Docker image to compile your Pipeline file.

.rc file

concourse-ts-cli will look for an .rc file using Cosmiconfig, with Typescript support. This means that files ending with rc, rc.json, rc.yaml, rc.yml, rc.js, rc.ts, rc.cjs, .config.js, .config.ts, .config.cjs are searched in the working directory, and also ./.config.

rc files must export an object with CLI options for each command separately. For .js, .cjs, and .ts files, a type helper is available in the package. Non-typescript files must export the same interface on their default export. (e.g. module.exports in .js, and an object in .json and .yml)

For example, the .concourse-tsrc.ts file may have the following contents:

import { rc } from '@decentm/concourse-ts-cli'

export default rc({
  compile: {
    clean: true,
  },
  decompile: {
    package: '@corpity-corp/ci',
  },
})

Features

Compilation

Use the compile command to compile a concourse-ts Typescript file into a valid Concourse YAML file.

Examples:

cat ci/pipeline.ts | concourse-ts compile > .ci/pipeline.yml
# No output

concourse-ts compile -i ci/pipeline.ts -o .ci/pipeline.yml -f
# No output

concourse-ts compile < ci/pipeline.ts
# Outputs the resulting YAML, because no "-o" was provided, and output
# is not redirected

Decompilation

Use the decompile command to convert an existing Concourse YAML pipeline file to valid concourse-ts typescript code. This will turn existing Concourse configuration into concourse-ts code, without having to reimplement pipelines, provided that you already have a YAML file.

This command generates code in a non-human-friendly way, where components may be functionally duplicated if multiple similar configurations exist in the source YAML. After decompilation, it's strongly recommended to review the generated code and refactor it.

Examples:

cat .ci/pipeline.yml | concourse-ts decompile > ci/pipeline.ts
# No output

concourse-ts decompile -i .ci/pipeline.yml -o ci/pipeline.ts
# No output

concourse-ts decompile < .ci/pipeline.yml
# Outputs the resulting Typescript code, because no "-o" was provided,
# and output is not redirected

Transformation

Use the transform command to apply transformations to pipeline yml files. This command can be used even on non-concourse-ts pipelines, as it reads yaml and also writes yaml.

Examples:

cat .ci/pipeline.yml | concourse-ts transform > .ci/pipeline-new.yml
# No output

concourse-ts transform -i .ci/pipeline.yml -o .ci/pipeline.yml
# No output, output will be overwritten

concourse-ts transform < .ci/pipeline.yml
# Outputs the transformed yaml, because no "-o" was provided,
# and output is not redirected

concourse-ts transform -t apply_across_polyfill,apply_task_hoisting
# Runs transformation with options only from the .rc file, with the two
# specified transformers

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A metalibrary for generating Concourse yml configuration files, and building a DevOps package

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