raharrison / kotlin-ktor-exposed-starter

Updated for Kotlin 1.9.0 and Ktor 2.3.4

Companion article: https://ryanharrison.co.uk/2018/04/14/kotlin-ktor-exposed-starter.html

1. Clone the repo.
2. In the root directory execute ./gradlew run
3. By default, the server will start on port 8080. See below Routes section for more information.

• Ktor - Kotlin async web framework
• Netty - Async web server
• Kotlin Serialization - JSON serialization/deserialization
• Exposed - Kotlin SQL framework
• H2 - Embeddable database
• HikariCP - High performance JDBC connection pooling
• Flyway - Database migrations
• JUnit 5, AssertJ and Rest Assured for testing
• Kover for code coverage, publishing to Codecov through GitHub Actions

The starter project creates a new in-memory H2 database with one table for Widget instances.

As ktor is async and based on coroutines, standard blocking JDBC may cause performance issues when used directly on the main thread pool (as threads must be reused for other requests). Therefore, another dedicated thread pool is created for all database queries, alongside connection pooling with HikariCP.

GET /widgets --> get all widgets in the database

GET /widgets/{id} --> get one widget instance by id (integer)

POST /widgets --> add a new widget to the database by providing a JSON object (converted to a NewWidget instance). e.g -

{
    "name": "new widget",
    "quantity": 64
}

returns

{
    "id": 3,
    "name": "new widget",
    "quantity": 64,
    "dateUpdated": 1519926898
}

PUT /widgets --> update an existing widgets name or quantity. Pass in the id in the JSON request to determine which record to update

DELETE /widgets/{id} --> delete the widget with the specified id

All updates (creates, updates and deletes) to Widget instances are served as notifications through a WebSocket endpoint:

WS /updates --> returns Notification instances containing the change type, id and entity (if applicable) e.g:

{ 
    "type": "CREATE", 
    "id": 12, 
    "entity": { 
      "id": 12, 
      "name": "widget1", 
      "quantity": 5, 
      "dateUpdated": 1533583858169 
    }
}

The websocket listener will also log out any text messages send by the client. Refer to this blog post for some useful tools to test the websocket behaviour.

The sample Widget service and corresponding endpoints are also tested with 100% coverage. Upon startup of the main JUnit suite (via the test source folder), the server is started ready for testing and is torn down after all tests are run.

• Unit testing of services with AssertJ - DAO and business logic is tested by initialising an in-memory H2 database with Exposed, using the same schema as the main app. With this approach database queries are fully tested without any mocking.
• Integration testing of endpoints using a fully running server with Rest Assured - routing tests/status codes/response structure. This utilises the fact that Ktor is a small microframework that can be easily spun up and down as part of the test suite. You could also use the special test engine that Ktor provides, however my preference is to always start a full version of the server so that HTTP behaviour can be tested without relying on special internal mechanisms.
• Code coverage and reporting performed automatically by Kover as part of the Gradle build