This document describes the purpose of integration tests as well as acting as a guide on what type of changes require integrations tests and how you should write integration tests.
All Construct libraries in the CDK code base have integration tests that serve to -
- Acts as a regression detector. It does this by running
cdk synth
on the integration test and comparing it against the Cloud Assembly stored in the snapshot (*.integ.snapshot/
) directory. This highlights how a change affects the synthesized stacks. - Allows for a way to verify if the stacks are still valid CloudFormation templates, as part of an intrusive change.
This is done by running
yarn integ
which will runcdk deploy
across all of the integration tests in that package. If you are developing a new integration test or for some other reason want to work on a single integration test over and over again without running through all the integration tests you can do so usingyarn integ integ.test-name.js
.Remember to set up AWS credentials before doing this. - (Optionally) Acts as a way to validate that constructs set up the CloudFormation resources as expected. A successful CloudFormation deployment does not mean that the resources are set up correctly.
The following list contains common scenarios where we know that integration tests are required. This is not an exhaustive list and we will, by default, require integration tests for all new features unless there is a good reason why one is not needed.
1. Adding a new feature that is using previously unused CloudFormation resource types For example, adding a new L2 construct for an L1 resource. There should be a new integration test to test that the new L2 successfully creates the resources in AWS.
2. Adding a new feature that is using previously unused (or untested) CloudFormation properties For example, there is an existing L2 construct for a CloudFormation resource and you are adding support for a new property. This could be either a new property that has been added to CloudFormation or an existing property that the CDK did not have coverage for. You should either update and existing integration test to cover this new property or create a new test.
Sometimes the CloudFormation documentation is incorrect or unclear on the correct way to configure a property. This can lead to introducing new features that don't actually work. Creating an integration test for the new feature can ensure that it works and avoid unnecessary bugs.
3. Involves configuring resource types across services (i.e. integrations) For example, you are adding functionality that allows for service x to integrate with service y. A good example of this is the aws-stepfunctions-tasks or aws-apigatewayv2-integrations modules. Both of these have L2 constructs that provide functionality to integrate services.
Sometimes these integrations involve configuring/formatting json/vtl or some other type of data. For these types of features it is important to create an integration test that not only validates that the infrastructure deploys successfully, but that the intended functionality works. This could mean deploying the integration test and then manually making an HTTP request or invoking a Lambda function.
4. Adding a new supported version (e.g. a new AuroraMysqlEngineVersion) Sometimes new versions introduce new CloudFormation properties or new required configuration. For example Aurora MySQL version 8 introduced a new parameter and was not compatible with the existing parameter (see #19145).
5. Adding any functionality via a Custom Resource Custom resources involve non-standard functionality and are at a higher risk of introducing bugs.
This section will detail how to write integration tests, how they are executed and how to ensure you have good test coverage.
An integration tests is any file located in the test/
directory that has a name that starts with integ.
(e.g. integ.*.ts
).
To create a new integration test, first create a new file, for example integ.my-new-construct.ts
.
The contents of this file should be a CDK app. For example, a very simple integration test for a
Lambda Function would look like this:
integ.lambda.ts
import * as iam from '@aws-cdk/aws-iam';
import * as cdk from '@aws-cdk/core';
import * as lambda from '../lib';
const app = new cdk.App();
const stack = new cdk.Stack(app, 'aws-cdk-lambda-1');
const fn = new lambda.Function(stack, 'MyLambda', {
code: new lambda.InlineCode('foo'),
handler: 'index.handler',
runtime: lambda.Runtime.NODEJS_10_X,
});
app.synth();
To run the test you would run:
Note - filename must be *.js
yarn integ --update-on-failed integ.lambda.js
This will:
- Synthesize the CDK app
cdk deploy
to your AWS accountcdk destroy
to delete the stack- Save a snapshot of the Cloud Assembly to
lambda.integ.snapshot/
Now when you run npm test
it will synth the integ app and compare the result with the snapshot.
If the snapshot has changed the same process must be followed to update the snapshot.
When creating a new L2 construct (or new construct library) it is important to ensure you have a good coverage base from which future contributions can build on.
Some general rules to follow are:
- 1 test with all default values One test for each L2 that only populates the required properties. For a Lambda Function this would look like:
new lambda.Function(this, 'Handler', {
code,
handler,
runtime,
});
- 1 test with all values provided One test for each L2 that populates non-default properties. Some of this will come down to judgement, but this should be based on major functionality. For example, when testing a Lambda Function there are 37 (*at the time of this writing) different input parameters. Some of these can be tested together and don't represent large pieces of functionality, while others do.
For example, the test for a Lambda Function might look like this. For most of these properties we are probably fine
testing them together and just testing one of their values. For example we don't gain much by testing a bunch of
different memorySize
settings, as long as we test that we can set
the memorySize then we should be good.
new lambda.Function(this, 'Handler', {
code,
handler,
runtime,
architecture,
description,
environment,
environmentEncryption,
functionName,
initialPolicy,
insightsVersion,
layers,
maxEventAge,
memorySize,
reservedConcurrentExecutions,
retryAttempts,
role,
timeout,
tracing,
});
Other parameters might represent larger pieces of functionality and might create other resources for us or configure integrations with other services. For these it might make sense to split them out into separate tests so it is easier to reason about them.
A couple of examples would be (you could also mix in different configurations of the above parameters with each of these):
testing filesystems
new lambda.Function(this, 'Handler', {
filesystem,
});
testing event sources
new lambda.Function(this, 'Handler', {
events,
});
testing VPCs
new lambda.Function(this, 'Handler', {
securityGroups,
vpc,
vpcSubnets,
});
Updating an existing L2 Construct could consist of:
-
Adding coverage for a new (or previously uncovered) CloudFormation property. In this case you would want to either add this new property to an existing integration test or create a new integration test. A new integration test is preferred for larger update (e.g. adding VPC connectivity, etc).
-
Updating functionality for an existing property. In this case you should first check if you are already covered by an existing integration test. If not, then you would follow the same process as adding new coverage.
-
Changing functionality that affects asset bundling Some constructs deal with asset bundling (i.e.
aws-lambda-nodejs
,aws-lambda-python
, etc). There are some updates that may not touch any CloudFormation property, but instead change the way that code is bundled. While these types of changes may not require a change to an integration test, you need to make sure that the integration tests and assertions are rerun.
An example of this would be making a change to the way aws-lambda-nodejs
bundles Lambda code. A couple of things could go wrong that would
only be caught by rerunning the integration tests.
- The bundling commands are only running when performing a real synth (not part of unit tests). Running the integration test confirms that the actual bundling was not broken.
- When deploying Lambda Functions, CloudFormation will only update the Function configuration with the new code, but it will not validate that the Lambda function can be invoked. Because of this, it is important to rerun the integration test to deploy the Lambda Function and then rerun the assertions to ensure that the function can still be invoked.
...Coming soon...