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Deploy local files and directories to S3

Project description

AWS CDK Assets

---

cdk-constructs: Experimental

The APIs of higher level constructs in this module are experimental and under active development. They are subject to non-backward compatible changes or removal in any future version. These are not subject to the Semantic Versioning model and breaking changes will be announced in the release notes. This means that while you may use them, you may need to update your source code when upgrading to a newer version of this package.


Assets are local files or directories which are needed by a CDK app. A common example is a directory which contains the handler code for a Lambda function, but assets can represent any artifact that is needed for the app's operation.

When deploying a CDK app that includes constructs with assets, the CDK toolkit will first upload all the assets to S3, and only then deploy the stacks. The S3 locations of the uploaded assets will be passed in as CloudFormation Parameters to the relevant stacks.

The following JavaScript example defines an directory asset which is archived as a .zip file and uploaded to S3 during deployment.

# Example automatically generated. See https://github.com/aws/jsii/issues/826
asset = assets.Asset(self, "SampleAsset",
    path=path.join(__dirname, "sample-asset-directory")
)

The following JavaScript example defines a file asset, which is uploaded as-is to an S3 bucket during deployment.

# Example automatically generated. See https://github.com/aws/jsii/issues/826
asset = assets.Asset(self, "SampleAsset",
    path=path.join(__dirname, "file-asset.txt")
)

Attributes

Asset constructs expose the following deploy-time attributes:

  • s3BucketName - the name of the assets S3 bucket.
  • s3ObjectKey - the S3 object key of the asset file (whether it's a file or a zip archive)
  • s3ObjectUrl - the S3 object URL of the asset (i.e. s3://mybucket/mykey.zip)
  • httpUrl - the S3 HTTP URL of the asset (i.e. https://s3.us-east-1.amazonaws.com/mybucket/mykey.zip)

In the following example, the various asset attributes are exported as stack outputs:

# Example automatically generated. See https://github.com/aws/jsii/issues/826
asset = assets.Asset(self, "SampleAsset",
    path=path.join(__dirname, "sample-asset-directory")
)

cdk.CfnOutput(self, "S3BucketName", value=asset.s3_bucket_name)
cdk.CfnOutput(self, "S3ObjectKey", value=asset.s3_object_key)
cdk.CfnOutput(self, "S3HttpURL", value=asset.http_url)
cdk.CfnOutput(self, "S3ObjectURL", value=asset.s3_object_url)

Permissions

IAM roles, users or groups which need to be able to read assets in runtime will should be granted IAM permissions. To do that use the asset.grantRead(principal) method:

The following examples grants an IAM group read permissions on an asset:

# Example automatically generated. See https://github.com/aws/jsii/issues/826
group = iam.Group(self, "MyUserGroup")
asset.grant_read(group)

How does it work?

When an asset is defined in a construct, a construct metadata entry aws:cdk:asset is emitted with instructions on where to find the asset and what type of packaging to perform (zip or file). Furthermore, the synthesized CloudFormation template will also include two CloudFormation parameters: one for the asset's bucket and one for the asset S3 key. Those parameters are used to reference the deploy-time values of the asset (using { Ref: "Param" }).

Then, when the stack is deployed, the toolkit will package the asset (i.e. zip the directory), calculate an MD5 hash of the contents and will render an S3 key for this asset within the toolkit's asset store. If the file doesn't exist in the asset store, it is uploaded during deployment.

The toolkit's asset store is an S3 bucket created by the toolkit for each environment the toolkit operates in (environment = account + region).

Now, when the toolkit deploys the stack, it will set the relevant CloudFormation Parameters to point to the actual bucket and key for each asset.

Asset Bundling

When defining an asset, you can use the bundling option to specify a command to run inside a docker container. The command can read the contents of the asset source from /asset-input and is expected to write files under /asset-output (directories mapped inside the container). The files under /asset-output will be zipped and uploaded to S3 as the asset.

The following example uses custom asset bundling to convert a markdown file to html:

# Example automatically generated. See https://github.com/aws/jsii/issues/826
asset = assets.Asset(self, "BundledAsset",
    path=path.join(__dirname, "markdown-asset"), # /asset-input and working directory in the container
    bundling=BundlingOptions(
        image=BundlingDockerImage.from_asset(path.join(__dirname, "alpine-markdown")), # Build an image
        command=["sh", "-c", "\n            markdown index.md > /asset-output/index.html\n          "
        ]
    )
)

The bundling docker image (image) can either come from a registry (BundlingDockerImage.fromRegistry) or it can be built from a Dockerfile located inside your project (BundlingDockerImage.fromAsset).

You can set the CDK_DOCKER environment variable in order to provide a custom docker program to execute. This may sometime be needed when building in environments where the standard docker cannot be executed (see https://github.com/aws/aws-cdk/issues/8460 for details).

Use local to specify a local bundling provider. The provider implements a method tryBundle() which should return true if local bundling was performed. If false is returned, docker bundling will be done:

# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
assets.Asset(self, "BundledAsset",
    path="/path/to/asset",
    bundling={
        "local": {
            def try_bundle(output_dir, options):
                if can_run_locally: return Truereturn False
        },
        # Docker bundling fallback
        "image": BundlingDockerImage.from_registry("alpine"),
        "command": ["bundle"]
    }
)

Although optional, it's recommended to provide a local bundling method which can greatly improve performance.

CloudFormation Resource Metadata

NOTE: This section is relevant for authors of AWS Resource Constructs.

In certain situations, it is desirable for tools to be able to know that a certain CloudFormation resource is using a local asset. For example, SAM CLI can be used to invoke AWS Lambda functions locally for debugging purposes.

To enable such use cases, external tools will consult a set of metadata entries on AWS CloudFormation resources:

  • aws:asset:path points to the local path of the asset.
  • aws:asset:property is the name of the resource property where the asset is used

Using these two metadata entries, tools will be able to identify that assets are used by a certain resource, and enable advanced local experiences.

To add these metadata entries to a resource, use the asset.addResourceMetadata(resource, property) method.

See https://github.com/aws/aws-cdk/issues/1432 for more details

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