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Sample project: https://github.com/znsio/specmatic-order-bff-nodejs
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In our previous post, we looked at how we can stub out redis with Specmatic so that we can test our application independent of its dependency on Redis. In this post we will be looking at mocking Kafka with Specmatic by leveraging AsyncAPI specification.
Overview – how Specmatic can be used to mock Kafka using AsyncAPI
Let’s take the example of an HTTP consumer that sends a request to an API application. The request is received by the controller, which invokes a service layer that fetches data from an HTTP API dependency, and then drops a message onto a Kafka topic. The service layer returns a response to the controller, which in turn returns a response to the consumer.
To test this application independently, we need to isolate it from its http and Kafka dependencies. Specmatic can stub Http API dependencies by leveraging their OpenAPI specifications. For asynchronous interactions such as those over Kafka, Specmatic can leverage AsyncAPI specifications.
To isolate our application / system under test from its Kafka dependency, let us take an AsyncAPI specification that defines the format for messages on the Kafka topic and mock it out using Specmatic’s Kafka mock.
asyncapi: 2.6.0
info:
title: Product audits API
version: '1.0.0'
servers:
kafka-dev:
url: tcp://localhost:61616
protocol: kafka
channels:
product-queries:
publish:
operationId: publishObjectMessage
message:
bindings:
kafka:
key:
type: string
bindingVersion: '0.4.0'
payload:
$ref: "#/components/messages/product"
components:
messages:
product:
name: product
title: An inventory product
summary: Product representing items in inventory
contentType: application/json
payload:
type: object
properties:
name:
description: Every product has a name
type: string
inventory:
description: Count of items in inventory
type: integer
id:
description: Unique indentifier of the product
type: integer
categories:
description: A list of product categories
type: array
items:
$ref: "#/components/schemas/category"
schemas:
category:
type: object
properties:
id:
description: The id of the category
type: integer
name:
description: The name of the category
type: string
YAML
Let’s say we also use Specmatic to run contract tests against the application. First, we must set expectations on the Kafka mock about messages that it will receive. Then we must set expectations (response mappings) on Specmatic HTTP stub that is leveraging the OpenAPI specification of the HTTP dependency (Domain Service in the diagram above). You can learn more about contract testing and HTTP stubbing with Specmatic in other videos. Finally, Specmatic uses the application’s OpenAPI specification to run contract tests against it.
Each contract test sends a request to the application which is received by the controller which in turn invokes the service layer. The service layer fetches data from the HTTP service stub and drops a message onto the topic on the Kafka mock. The Kafka mock uses an in memory Kafka broker, so the service layer sends messages to it seamlessly. Because of this, to the application it will be exactly like sending messages to a real Kafka broker in production. The service layer responds to the controller, which in turn responds to the contract test. After the contract tests have run, Specmatic asks the Kafka mock to verify the messages that it received. Let’s see this in an actual example.
Code walkthrough: Contract Test demonstrating Specmatic Kafka mock in action
Here’s an application that fetches data from an HTTP API and writes a message to a Kafka broker.
Here is a specmatic.json, in which we provide the path to AsyncAPI specification file for mocking out the Kafka dependency, the OpenAPI specification for stubbing out the HTTP dependency which the application needs, and the OpenAPI specification of the application itself which Specmatic will use to run contract tests.
Now, let’s run the contract tests.
In the API coverage summary for the above test, we have a contract test for one of the APIs, but not for the other, and so it’s marked as missed.
Let’s look at how the Kafka expectations are being set and verified.
After starting the Specmatic Kafka mock, we set an expectation that it would receive a single message on the “product queries” topic. When the test runs, any messages received on this topic are validated against the product queries schema in the AsyncAPI specification. Finally, we verify the kafka mock. This checks if, as per expectations, the mock has received a single message at the product queries topic, and if that message adhered to the AsyncAPI specification. If either of these conditions are not met, or say if a topic that has not been captured in the AsyncAPI specification received a message, the verification fails. The message verification process lets the test keep a tight rein on all Kafka messages sent by the application.
Code walkthrough: API Test demonstrating Specmatic Kafka mock in action
The setup for API tests is on similar lines to the Specmatic contract tests. Let’s take a quick look at the test set up.
Like with the contract tests, we start a Kafka mock, and then we set an expectation that a single message is expected on the product queries topic. Then in the test, we verify that the required message has indeed been received, and this line will verify that only one message on the product queries topic has been received as defined by the expectation set earlier on.
Since the Specmatic Kafka mock is wire compatible and entirely within the control of the test, the test can run locally and in CI and deliver quick feedback early in the cycle. So the application itself runs exactly as it would with a real Kafka.
Sample project: https://github.com/znsio/specmatic-order-bff-nodejs
Download Specmatic: https://github.com/znsio/specmatic/releases
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