@cdk8s/cdktf-resolver
v0.0.132
Published
The `CdkTfResolver` is able to resolve any [`TerraformOutput`](https://developer.hashicorp.com/terraform/cdktf/concepts/variables-and-outputs#output-values) defined by your CDKTF application. In this example, we create an S3 `Bucket` with the CDKTF, and
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CDK For Terraform Resolver
The CdkTfResolver
is able to resolve any TerraformOutput
defined by your CDKTF application. In this example, we create an S3 Bucket
with the CDKTF, and pass its (deploy time generated)
name as an environment variable to a Kubernetes CronJob
resource.
import * as tf from "cdktf";
import * as aws from "@cdktf/provider-aws";
import * as k8s from 'cdk8s';
import * as kplus from 'cdk8s-plus-26';
import { CdkTfResolver } from '@cdk8s/cdktf-resolver';
const awsApp = new tf.App();
const stack = new tf.TerraformStack(awsApp, 'aws');
const k8sApp = new k8s.App({ resolvers: [new resolver.CdktfResolver({ app: awsApp })] });
const manifest = new k8s.Chart(k8sApp, 'Manifest', { resolver });
const bucket = new aws.s3Bucket.S3Bucket(stack, 'Bucket');
const bucketName = new tf.TerraformOutput(constrcut, 'BucketName', {
value: bucket.bucket,
});
new kplus.CronJob(manifest, 'CronJob', {
schedule: k8s.Cron.daily(),
containers: [{
image: 'job',
envVariables: {
// directly passing the value of the `TerraformOutput` containing
// the deploy time bucket name
BUCKET_NAME: kplus.EnvValue.fromValue(bucketName.value),
}
}]
});
awsApp.synth();
k8sApp.synth();
During cdk8s synthesis, the custom resolver will detect that bucketName.value
is not a concrete value,
but rather a value of a TerraformOutput
. It will then perform cdktf
CLI commands in order to fetch the
actual value from the deployed infrastructure in your account. This means that in order
for cdk8s synth
to succeed, it must be executed after the CDKTF resources
have been deployed. So your deployment workflow should (conceptually) be:
cdktf deploy
cdk8s synth
Note that the
CdkTfResolver
is only able to fetch tokens that have aTerraformOutput
defined for them.
Permissions
Since running cdk8s synth
will now require reading terraform outputs, it must have permissions to do so.
In case a remote state file is used, this means providing a set of credentials for the account that have access
to where the state is stored. This will vary depending on your cloud provider, but in most cases will involve giving
read permissions on a blob storage device (e.g S3 bucket).
Note that the permissions cdk8s require are far more scoped down than those normally required for the
deployment of CDKTF applications. It is therefore recommended to not reuse the same set of credentials,
and instead create a scoped down ReadOnly
role dedicated for cdk8s resolvers.
Following are the set of commands the resolver will execute:
Cross Repository Workflow
As we've seen, your cdk8s
application needs access to the objects defined in your cloud application. If both applications
are defined within the same file, this is trivial to achieve. If they are in different files, a simple import
statement will suffice.
However, what if the applications are managed in two separate repositories? This makes it a little trickier, but still possible.
In this scenario, cdktf.ts
in the CDKTF application, stored in a dedicated repository.
import * as tf from "cdktf";
import * as aws from "@cdktf/provider-aws";
import { CdkTfResolver } from '@cdk8s/cdktf-resolver';
const awsApp = new tf.App();
const stack = new tf.TerraformStack(awsApp, 'aws');
const bucket = new aws.s3Bucket.S3Bucket(stack, 'Bucket');
const bucketName = new tf.TerraformOutput(constrcut, 'BucketName', {
value: bucket.bucket,
});
awsApp.synth();
In order for the cdk8s
application to have cross repository access, the CDKTF object instances
that we want to expose need to be available via a package repository. To do this, break up the
CDKTF application into the following files:
app.ts
import * as tf from "cdktf";
import * as aws from "@cdktf/provider-aws";
import { CdkTfResolver } from '@cdk8s/cdktf-resolver';
// export the app so we can pass it to the cdk8s resolver
export const awsApp = new tf.App();
const stack = new tf.TerraformStack(awsApp, 'aws');
const bucket = new aws.s3Bucket.S3Bucket(stack, 'Bucket');
// export the thing we want to have available for cdk8s applications
export const bucketName = new tf.TerraformOutput(constrcut, 'BucketName', {
value: bucket.bucket,
});
// note that we don't call awsApp.synth here
main.ts
import { awsApp } from './app.ts'
awsApp.synth();
Now, publish the app.ts
file to a package manager, so that your cdk8s
application can install and import it.
This approach might be somewhat counter intuitive, because normally we only publish classes to the package manager,
not instances. Indeed, these types of applications introduce a new use-case that requires the sharing of instances.
Conceptually, this is no different than writing state* to an SSM parameter or an S3 bucket, and it allows us to remain
in the boundaries of our programming language, and the typing guarantees it provides.
* Actually, we are only publishing instructions for fetching state, not the state itself.
Assuming app.ts
was published as the my-cdktf-app
package, our cdk8s
application will now look like so:
import * as k8s from 'cdk8s';
import * as kplus from 'cdk8s-plus-27';
// import the desired instance from the CDKTF app.
import { bucketName, awsApp } from 'my-cdktf-app';
import { CdkTfResolver } from '@cdk8s/cdktf-resolver';
const k8sApp = new k8s.App({ resolvers: [new resolver.CdktfResolver({ app: awsApp })] });
const manifest = new k8s.Chart(k8sApp, 'Manifest');
new kplus.CronJob(manifest, 'CronJob', {
schedule: k8s.Cron.daily(),
containers: [{
image: 'job',
envVariables: {
// directly passing the value of the `TerraformOutput` containing
// the deploy time bucket name
BUCKET_NAME: kplus.EnvValue.fromValue(bucketName.value),
}
}]
});
k8sApp.synth();