Skip to main content

The CDK Construct Library for AWS::DynamoDB

Project description

Amazon DynamoDB Construct Library

---

cfn-resources: Stable

cdk-constructs: Stable


Here is a minimal deployable DynamoDB table definition:

table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING)
)

Importing existing tables

To import an existing table into your CDK application, use the Table.fromTableName, Table.fromTableArn or Table.fromTableAttributes factory method. This method accepts table name or table ARN which describes the properties of an already existing table:

# user: iam.User

table = dynamodb.Table.from_table_arn(self, "ImportedTable", "arn:aws:dynamodb:us-east-1:111111111:table/my-table")
# now you can just call methods on the table
table.grant_read_write_data(user)

If you intend to use the tableStreamArn (including indirectly, for example by creating an @aws-cdk/aws-lambda-event-source.DynamoEventSource on the imported table), you must use the Table.fromTableAttributes method and the tableStreamArn property must be populated.

Keys

When a table is defined, you must define it's schema using the partitionKey (required) and sortKey (optional) properties.

Billing Mode

DynamoDB supports two billing modes:

  • PROVISIONED - the default mode where the table and global secondary indexes have configured read and write capacity.
  • PAY_PER_REQUEST - on-demand pricing and scaling. You only pay for what you use and there is no read and write capacity for the table or its global secondary indexes.
table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    billing_mode=dynamodb.BillingMode.PAY_PER_REQUEST
)

Further reading: https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/HowItWorks.ReadWriteCapacityMode.

Table Class

DynamoDB supports two table classes:

  • STANDARD - the default mode, and is recommended for the vast majority of workloads.
  • STANDARD_INFREQUENT_ACCESS - optimized for tables where storage is the dominant cost.
table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    table_class=dynamodb.TableClass.STANDARD_INFREQUENT_ACCESS
)

Further reading: https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/HowItWorks.TableClasses.html

Configure AutoScaling for your table

You can have DynamoDB automatically raise and lower the read and write capacities of your table by setting up autoscaling. You can use this to either keep your tables at a desired utilization level, or by scaling up and down at pre-configured times of the day:

Auto-scaling is only relevant for tables with the billing mode, PROVISIONED.

read_scaling = table.auto_scale_read_capacity(min_capacity=1, max_capacity=50)

read_scaling.scale_on_utilization(
    target_utilization_percent=50
)

read_scaling.scale_on_schedule("ScaleUpInTheMorning",
    schedule=appscaling.Schedule.cron(hour="8", minute="0"),
    min_capacity=20
)

read_scaling.scale_on_schedule("ScaleDownAtNight",
    schedule=appscaling.Schedule.cron(hour="20", minute="0"),
    max_capacity=20
)

Further reading: https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/AutoScaling.html https://aws.amazon.com/blogs/database/how-to-use-aws-cloudformation-to-configure-auto-scaling-for-amazon-dynamodb-tables-and-indexes/

Amazon DynamoDB Global Tables

You can create DynamoDB Global Tables by setting the replicationRegions property on a Table:

global_table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    replication_regions=["us-east-1", "us-east-2", "us-west-2"]
)

When doing so, a CloudFormation Custom Resource will be added to the stack in order to create the replica tables in the selected regions.

The default billing mode for Global Tables is PAY_PER_REQUEST. If you want to use PROVISIONED, you have to make sure write auto-scaling is enabled for that Table:

global_table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    replication_regions=["us-east-1", "us-east-2", "us-west-2"],
    billing_mode=dynamodb.BillingMode.PROVISIONED
)

global_table.auto_scale_write_capacity(
    min_capacity=1,
    max_capacity=10
).scale_on_utilization(target_utilization_percent=75)

When adding a replica region for a large table, you might want to increase the timeout for the replication operation:

global_table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    replication_regions=["us-east-1", "us-east-2", "us-west-2"],
    replication_timeout=Duration.hours(2)
)

Encryption

All user data stored in Amazon DynamoDB is fully encrypted at rest. When creating a new table, you can choose to encrypt using the following customer master keys (CMK) to encrypt your table:

  • AWS owned CMK - By default, all tables are encrypted under an AWS owned customer master key (CMK) in the DynamoDB service account (no additional charges apply).
  • AWS managed CMK - AWS KMS keys (one per region) are created in your account, managed, and used on your behalf by AWS DynamoDB (AWS KMS charges apply).
  • Customer managed CMK - You have full control over the KMS key used to encrypt the DynamoDB Table (AWS KMS charges apply).

Creating a Table encrypted with a customer managed CMK:

table = dynamodb.Table(self, "MyTable",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    encryption=dynamodb.TableEncryption.CUSTOMER_MANAGED
)

# You can access the CMK that was added to the stack on your behalf by the Table construct via:
table_encryption_key = table.encryption_key

You can also supply your own key:

import aws_cdk.aws_kms as kms


encryption_key = kms.Key(self, "Key",
    enable_key_rotation=True
)
table = dynamodb.Table(self, "MyTable",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    encryption=dynamodb.TableEncryption.CUSTOMER_MANAGED,
    encryption_key=encryption_key
)

In order to use the AWS managed CMK instead, change the code to:

table = dynamodb.Table(self, "MyTable",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    encryption=dynamodb.TableEncryption.AWS_MANAGED
)

Get schema of table or secondary indexes

To get the partition key and sort key of the table or indexes you have configured:

# table: dynamodb.Table

schema = table.schema()
partition_key = schema.partition_key
sort_key = schema.sort_key

Kinesis Stream

A Kinesis Data Stream can be configured on the DynamoDB table to capture item-level changes.

import aws_cdk.aws_kinesis as kinesis


stream = kinesis.Stream(self, "Stream")

table = dynamodb.Table(self, "Table",
    partition_key=dynamodb.Attribute(name="id", type=dynamodb.AttributeType.STRING),
    kinesis_stream=stream
)

Project details


Release history Release notifications | RSS feed

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

aws-cdk.aws-dynamodb-1.186.0.tar.gz (313.0 kB view details)

Uploaded Source

Built Distribution

aws_cdk.aws_dynamodb-1.186.0-py3-none-any.whl (312.2 kB view details)

Uploaded Python 3

File details

Details for the file aws-cdk.aws-dynamodb-1.186.0.tar.gz.

File metadata

File hashes

Hashes for aws-cdk.aws-dynamodb-1.186.0.tar.gz
Algorithm Hash digest
SHA256 cff02e00e66ac7642b9f1e9e7da5a8bc98e6214a9a743e38d39350e902803dc6
MD5 1c771d1ba53ae45024219190be088ffd
BLAKE2b-256 2f28d4ebdeecf71fbf898cec61de3994c816b052e81fb61f97bd17e9742ec275

See more details on using hashes here.

Provenance

File details

Details for the file aws_cdk.aws_dynamodb-1.186.0-py3-none-any.whl.

File metadata

File hashes

Hashes for aws_cdk.aws_dynamodb-1.186.0-py3-none-any.whl
Algorithm Hash digest
SHA256 d5e513ee540025bab378ec3a5bb9fc9d13b48abc08657dc7f0203642b1512c54
MD5 abd3d7939a5929aa465664f6e1b03605
BLAKE2b-256 a29ed165589d69624ba001f4dcde5b309af8c295549686e4ba71ba2d6012b5de

See more details on using hashes here.

Provenance

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page