Language	Package
.NET	`Amazon.CDK.AWS.S3.Deployment`
Go	`github.com/aws/aws-cdk-go/awscdk/v2/awss3deployment`
Java	`software.amazon.awscdk.services.s3.deployment`
Python	`aws_cdk.aws_s3_deployment`
TypeScript	`aws-cdk-lib` » `aws_s3_deployment`

AWS S3 Deployment Construct Library

This library allows populating an S3 bucket with the contents of .zip files from other S3 buckets or from local disk.

The following example defines a publicly accessible S3 bucket with web hosting enabled and populates it from a local directory on disk.

const websiteBucket = new s3.Bucket(this, 'WebsiteBucket', {
  websiteIndexDocument: 'index.html',
  publicReadAccess: true,
});

new s3deploy.BucketDeployment(this, 'DeployWebsite', {
  sources: [s3deploy.Source.asset('./website-dist')],
  destinationBucket: websiteBucket,
  destinationKeyPrefix: 'web/static', // optional prefix in destination bucket
});

Example not in your language?

This is what happens under the hood:

When this stack is deployed (either via cdk deploy or via CI/CD), the contents of the local website-dist directory will be archived and uploaded to an intermediary assets bucket (the StagingBucket of the CDK bootstrap stack). If there is more than one source, they will be individually uploaded.
The BucketDeployment construct synthesizes a Lambda-backed custom CloudFormation resource of type Custom::CDKBucketDeployment into the template. The source bucket/key is set to point to the assets bucket.
The custom resource invokes its associated Lambda function, which downloads the .zip archive, extracts it and issues aws s3 sync --delete against the destination bucket (in this case websiteBucket). If there is more than one source, the sources will be downloaded and merged pre-deployment at this step.

If you are referencing the filled bucket in another construct that depends on the files already be there, be sure to use deployment.deployedBucket. This will ensure the bucket deployment has finished before the resource that uses the bucket is created:

declare const websiteBucket: s3.Bucket;

const deployment = new s3deploy.BucketDeployment(this, 'DeployWebsite', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket: websiteBucket,
});

new ConstructThatReadsFromTheBucket(this, 'Consumer', {
  // Use 'deployment.deployedBucket' instead of 'websiteBucket' here
  bucket: deployment.deployedBucket,
});

Example not in your language?

It is also possible to add additional sources using the addSource method.

declare const websiteBucket: s3.IBucket;

const deployment = new s3deploy.BucketDeployment(this, 'DeployWebsite', {
  sources: [s3deploy.Source.asset('./website-dist')],
  destinationBucket: websiteBucket,
  destinationKeyPrefix: 'web/static', // optional prefix in destination bucket
});

deployment.addSource(s3deploy.Source.asset('./another-asset'));

Example not in your language?

For the Lambda function to download object(s) from the source bucket, besides the obvious s3:GetObject* permissions, the Lambda's execution role needs the kms:Decrypt and kms:DescribeKey permissions on the KMS key that is used to encrypt the bucket. By default, when the source bucket is encrypted with the S3 managed key of the account, these permissions are granted by the key's resource-based policy, so they do not need to be on the Lambda's execution role policy explicitly. However, if the encryption key is not the s3 managed one, its resource-based policy is quite likely to NOT grant such KMS permissions. In this situation, the Lambda execution will fail with an error message like below:

download failed: ...
An error occurred (AccessDenied) when calling the GetObject operation:
User: *** is not authorized to perform: kms:Decrypt on the resource associated with this ciphertext
because no identity-based policy allows the kms:Decrypt action

Example not in your language?

When this happens, users can use the public handlerRole property of BucketDeployment to manually add the KMS permissions:

declare const destinationBucket: s3.Bucket;

const deployment = new s3deploy.BucketDeployment(this, 'DeployFiles', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'source-files'))],
  destinationBucket,
});

deployment.handlerRole.addToPolicy(
  new iam.PolicyStatement({
    actions: ['kms:Decrypt', 'kms:DescribeKey'],
    effect: iam.Effect.ALLOW,
    resources: ['<encryption key ARN>'],
  }),
);

Example not in your language?

The situation above could arise from the following scenarios:

User created a customer managed KMS key and passed its ID to the cdk bootstrap command via the --bootstrap-kms-key-id CLI option. The default key policy alone is not sufficient to grant the Lambda KMS permissions.
A corporation uses its own custom CDK bootstrap process, which encrypts the CDK StagingBucket by a KMS key from a management account of the corporation's AWS Organization. In this cross-account access scenario, the KMS permissions must be explicitly present in the Lambda's execution role policy.
One of the sources for the BucketDeployment comes from the Source.bucket static method, which points to a bucket whose encryption key is not the S3 managed one, and the resource-based policy of the encryption key is not sufficient to grant the Lambda kms:Decrypt and kms:DescribeKey permissions.

Supported sources

The following source types are supported for bucket deployments:

Local .zip file: s3deploy.Source.asset('/path/to/local/file.zip')
Local directory: s3deploy.Source.asset('/path/to/local/directory')
Another bucket: s3deploy.Source.bucket(bucket, zipObjectKey)
String data: s3deploy.Source.data('object-key.txt', 'hello, world!') (supports deploy-time values)
JSON data: s3deploy.Source.jsonData('object-key.json', { json: 'object' }) (supports deploy-time values)
YAML data: s3deploy.Source.yamlData('object-key.yaml', { yaml: 'object' }) (supports deploy-time values)

To create a source from a single file, you can pass AssetOptions to exclude all but a single file:

Single file: s3deploy.Source.asset('/path/to/local/directory', { exclude: ['**', '!onlyThisFile.txt'] })

IMPORTANT The aws-s3-deployment module is only intended to be used with zip files from trusted sources. Directories bundled by the CDK CLI (by using Source.asset() on a directory) are safe. If you are using Source.asset() or Source.bucket() to reference an existing zip file, make sure you trust the file you are referencing. Zips from untrusted sources might be able to execute arbitrary code in the Lambda Function used by this module, and use its permissions to read or write unexpected files in the S3 bucket.

Retain on Delete

By default, the contents of the destination bucket will not be deleted when the BucketDeployment resource is removed from the stack or when the destination is changed. You can use the option retainOnDelete: false to disable this behavior, in which case the contents will be deleted.

Configuring this has a few implications you should be aware of:

Logical ID Changes

Changing the logical ID of the BucketDeployment construct, without changing the destination (for example due to refactoring, or intentional ID change) will result in the deletion of the objects. This is because CloudFormation will first create the new resource, which will have no affect, followed by a deletion of the old resource, which will cause a deletion of the objects, since the destination hasn't changed, and retainOnDelete is false.
Destination Changes

When the destination bucket or prefix is changed, all files in the previous destination will first be deleted and then uploaded to the new destination location. This could have availability implications on your users.

General Recommendations

Shared Bucket

If the destination bucket is not dedicated to the specific BucketDeployment construct (i.e shared by other entities), we recommend to always configure the destinationKeyPrefix property. This will prevent the deployment from accidentally deleting data that wasn't uploaded by it.

Dedicated Bucket

If the destination bucket is dedicated, it might be reasonable to skip the prefix configuration, in which case, we recommend to remove retainOnDelete: false, and instead, configure the autoDeleteObjects property on the destination bucket. This will avoid the logical ID problem mentioned above.

Prune

By default, files in the destination bucket that don't exist in the source will be deleted when the BucketDeployment resource is created or updated. You can use the option prune: false to disable this behavior, in which case the files will not be deleted.

declare const destinationBucket: s3.Bucket;
new s3deploy.BucketDeployment(this, 'DeployMeWithoutDeletingFilesOnDestination', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket,
  prune: false,
});

Example not in your language?

This option also enables you to multiple bucket deployments for the same destination bucket & prefix, each with its own characteristics. For example, you can set different cache-control headers based on file extensions:

declare const destinationBucket: s3.Bucket;
new s3deploy.BucketDeployment(this, 'BucketDeployment', {
  sources: [s3deploy.Source.asset('./website', { exclude: ['index.html'] })],
  destinationBucket,
  cacheControl: [
    s3deploy.CacheControl.maxAge(Duration.days(365)),
    s3deploy.CacheControl.immutable(),
  ],
  prune: false,
});

new s3deploy.BucketDeployment(this, 'HTMLBucketDeployment', {
  sources: [s3deploy.Source.asset('./website', { exclude: ['*', '!index.html'] })],
  destinationBucket,
  cacheControl: [
    s3deploy.CacheControl.maxAge(Duration.seconds(0)),
  ],
  prune: false,
});

Example not in your language?

Exclude and Include Filters

There are two points at which filters are evaluated in a deployment: asset bundling and the actual deployment. If you simply want to exclude files in the asset bundling process, you should leverage the exclude property of AssetOptions when defining your source:

declare const destinationBucket: s3.Bucket;
new s3deploy.BucketDeployment(this, 'HTMLBucketDeployment', {
  sources: [s3deploy.Source.asset('./website', { exclude: ['*', '!index.html'] })],
  destinationBucket,
});

Example not in your language?

If you want to specify filters to be used in the deployment process, you can use the exclude and include filters on BucketDeployment. If excluded, these files will not be deployed to the destination bucket. In addition, if the file already exists in the destination bucket, it will not be deleted if you are using the prune option:

declare const destinationBucket: s3.Bucket;
new s3deploy.BucketDeployment(this, 'DeployButExcludeSpecificFiles', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket,
  exclude: ['*.txt'],
});

Example not in your language?

These filters follow the same format that is used for the AWS CLI. See the CLI documentation for information on Using Include and Exclude Filters.

Objects metadata

You can specify metadata to be set on all the objects in your deployment. There are 2 types of metadata in S3: system-defined metadata and user-defined metadata. System-defined metadata have a special purpose, for example cache-control defines how long to keep an object cached. User-defined metadata are not used by S3 and keys always begin with x-amz-meta- (this prefix is added automatically).

System defined metadata keys include the following:

cache-control (--cache-control in aws s3 sync)
content-disposition (--content-disposition in aws s3 sync)
content-encoding (--content-encoding in aws s3 sync)
content-language (--content-language in aws s3 sync)
content-type (--content-type in aws s3 sync)
expires (--expires in aws s3 sync)
x-amz-storage-class (--storage-class in aws s3 sync)
x-amz-website-redirect-location (--website-redirect in aws s3 sync)
x-amz-server-side-encryption (--sse in aws s3 sync)
x-amz-server-side-encryption-aws-kms-key-id (--sse-kms-key-id in aws s3 sync)
x-amz-server-side-encryption-customer-algorithm (--sse-c-copy-source in aws s3 sync)
x-amz-acl (--acl in aws s3 sync)

You can find more information about system defined metadata keys in S3 PutObject documentation and aws s3 sync documentation.

const websiteBucket = new s3.Bucket(this, 'WebsiteBucket', {
  websiteIndexDocument: 'index.html',
  publicReadAccess: true,
});

new s3deploy.BucketDeployment(this, 'DeployWebsite', {
  sources: [s3deploy.Source.asset('./website-dist')],
  destinationBucket: websiteBucket,
  destinationKeyPrefix: 'web/static', // optional prefix in destination bucket
  metadata: { A: "1", b: "2" }, // user-defined metadata

  // system-defined metadata
  contentType: "text/html",
  contentLanguage: "en",
  storageClass: s3deploy.StorageClass.INTELLIGENT_TIERING,
  serverSideEncryption: s3deploy.ServerSideEncryption.AES_256,
  cacheControl: [
    s3deploy.CacheControl.setPublic(),
    s3deploy.CacheControl.maxAge(Duration.hours(1)),
  ],
  accessControl: s3.BucketAccessControl.BUCKET_OWNER_FULL_CONTROL,
});

Example not in your language?

CloudFront Invalidation

You can provide a CloudFront distribution and optional paths to invalidate after the bucket deployment finishes.

import * as cloudfront from 'aws-cdk-lib/aws-cloudfront';
import * as origins from 'aws-cdk-lib/aws-cloudfront-origins';

const bucket = new s3.Bucket(this, 'Destination');

// Handles buckets whether or not they are configured for website hosting.
const distribution = new cloudfront.Distribution(this, 'Distribution', {
  defaultBehavior: { origin: new origins.S3Origin(bucket) },
});

new s3deploy.BucketDeployment(this, 'DeployWithInvalidation', {
  sources: [s3deploy.Source.asset('./website-dist')],
  destinationBucket: bucket,
  distribution,
  distributionPaths: ['/images/*.png'],
});

Example not in your language?

Signed Content Payloads

By default, deployment uses streaming uploads which set the x-amz-content-sha256 request header to UNSIGNED-PAYLOAD (matching default behavior of the AWS CLI tool). In cases where bucket policy restrictions require signed content payloads, you can enable generation of a signed x-amz-content-sha256 request header with signContent: true.

declare const bucket: s3.IBucket;

new s3deploy.BucketDeployment(this, 'DeployWithSignedPayloads', {
  sources: [s3deploy.Source.asset('./website-dist')],
  destinationBucket: bucket,
  signContent: true,
});

Example not in your language?

Size Limits

The default memory limit for the deployment resource is 128MiB. If you need to copy larger files, you can use the memoryLimit configuration to increase the size of the AWS Lambda resource handler.

The default ephemeral storage size for the deployment resource is 512MiB. If you need to upload larger files, you may hit this limit. You can use the ephemeralStorageSize configuration to increase the storage size of the AWS Lambda resource handler.

NOTE: a new AWS Lambda handler will be created in your stack for each combination of memory and storage size.

EFS Support

If your workflow needs more disk space than default (512 MB) disk space, you may attach an EFS storage to underlying lambda function. To Enable EFS support set efs and vpc props for BucketDeployment.

Check sample usage below. Please note that creating VPC inline may cause stack deletion failures. It is shown as below for simplicity. To avoid such condition, keep your network infra (VPC) in a separate stack and pass as props.

declare const destinationBucket: s3.Bucket;
declare const vpc: ec2.Vpc;

new s3deploy.BucketDeployment(this, 'DeployMeWithEfsStorage', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket,
  destinationKeyPrefix: 'efs/',
  useEfs: true,
  vpc,
  retainOnDelete: false,
});

Example not in your language?

Data with deploy-time values

The content passed to Source.data(), Source.jsonData(), or Source.yamlData() can include references that will get resolved only during deployment. Only a subset of CloudFormation functions are supported however, namely: Ref, Fn::GetAtt, Fn::Join, and Fn::Select (Fn::Split may be nested under Fn::Select).

For example:

import * as sns from 'aws-cdk-lib/aws-sns';
import * as elbv2 from 'aws-cdk-lib/aws-elasticloadbalancingv2';

declare const destinationBucket: s3.Bucket;
declare const topic: sns.Topic;
declare const tg: elbv2.ApplicationTargetGroup;

const appConfig = {
  topic_arn: topic.topicArn,
  base_url: 'https://my-endpoint',
  lb_name: tg.firstLoadBalancerFullName,
};

new s3deploy.BucketDeployment(this, 'BucketDeployment', {
  sources: [s3deploy.Source.jsonData('config.json', appConfig)],
  destinationBucket,
});

Example not in your language?

The value in topic.topicArn is a deploy-time value. It only gets resolved during deployment by placing a marker in the generated source file and substituting it when its deployed to the destination with the actual value.

Substitutions from Templated Files

The DeployTimeSubstitutedFile construct allows you to specify substitutions to make from placeholders in a local file which will be resolved during deployment. This is especially useful in situations like creating an API from a spec file, where users might want to reference other CDK resources they have created.

The syntax for template variables is {{ variableName }} in your local file. Then, you would specify the substitutions in CDK like this:

import * as lambda from 'aws-cdk-lib/aws-lambda';

declare const myLambdaFunction: lambda.Function;
declare const destinationBucket: s3.Bucket;
//(Optional) if provided, the resulting processed file would be uploaded to the destinationBucket under the destinationKey name.
declare const destinationKey: string;
declare const role: iam.Role;

new s3deploy.DeployTimeSubstitutedFile(this, 'MyFile', {
  source: 'my-file.yaml',
  destinationKey: destinationKey,
  destinationBucket: destinationBucket,
  substitutions: {
    variableName: myLambdaFunction.functionName,
  },
  role: role,
});

Example not in your language?

Nested variables, like {{ {{ foo }} }} or {{ foo {{ bar }} }}, are not supported by this construct. In the first case of a single variable being is double nested {{ {{ foo }} }}, only the {{ foo }} would be replaced by the substitution, and the extra brackets would remain in the file. In the second case of two nexted variables {{ foo {{ bar }} }}, only the {{ bar }} would be replaced in the file.

Keep Files Zipped

By default, files are zipped, then extracted into the destination bucket.

You can use the option extract: false to disable this behavior, in which case, files will remain in a zip file when deployed to S3. To reference the object keys, or filenames, which will be deployed to the bucket, you can use the objectKeys getter on the bucket deployment.

import * as cdk from 'aws-cdk-lib';

declare const destinationBucket: s3.Bucket;

const myBucketDeployment = new s3deploy.BucketDeployment(this, 'DeployMeWithoutExtractingFilesOnDestination', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket,
  extract: false,
});

new cdk.CfnOutput(this, 'ObjectKey', {
  value: cdk.Fn.select(0, myBucketDeployment.objectKeys),
});

Example not in your language?

Controlling the Output of Source Object Keys

By default, the keys of the source objects copied to the destination bucket are returned in the Data property of the custom resource. However, you can disable this behavior by setting the outputObjectKeys property to false. This is particularly useful when the number of objects is too large and might exceed the size limit of the responseData property.

import * as cdk from 'aws-cdk-lib';

declare const destinationBucket: s3.Bucket;

const myBucketDeployment = new s3deploy.BucketDeployment(this, 'DeployMeWithoutExtractingFilesOnDestination', {
  sources: [s3deploy.Source.asset(path.join(__dirname, 'my-website'))],
  destinationBucket,
  outputObjectKeys: false,
});

new cdk.CfnOutput(this, 'ObjectKey', {
  value: cdk.Fn.select(0, myBucketDeployment.objectKeys),
});

Example not in your language?

Notes

This library uses an AWS CloudFormation custom resource which is about 10MiB in size. The code of this resource is bundled with this library.
AWS Lambda execution time is limited to 15min. This limits the amount of data which can be deployed into the bucket by this timeout.
When the BucketDeployment is removed from the stack, the contents are retained in the destination bucket (#952).
If you are using s3deploy.Source.bucket() to take the file source from another bucket: the deployed files will only be updated if the key (file name) of the file in the source bucket changes. Mutating the file in place will not be good enough: the custom resource will simply not run if the properties don't change.
- If you use assets (s3deploy.Source.asset()) you don't need to worry about this: the asset system will make sure that if the files have changed, the file name is unique and the deployment will run.

Development

The custom resource is implemented in Python 3.9 in order to be able to leverage the AWS CLI for "aws s3 sync". The code is now in the @aws-cdk/custom-resource-handlers package under lib/aws-s3-deployment/bucket-deployment-handler and unit tests are under test/aws-s3-deployment/bucket-deployment-handler.

This package requires Python 3.9 during build time in order to create the custom resource Lambda bundle and test it. It also relies on a few bash scripts, so might be tricky to build on Windows.

Roadmap

[ ] Support "blue/green" deployments (#954)