DynamoDB Toolbox
Single Table Designs have never been this easy!
The DynamoDB Toolbox is a set of tools that makes it easy to work with Amazon DynamoDB and the DocumentClient. It's designed with Single Tables in mind, but works just as well with multiple tables. It lets you define your Entities (with typings and aliases) and map them to your DynamoDB tables. You can then generate the API parameters to put
, get
, delete
, update
, query
, scan
, batchGet
, and batchWrite
data by passing in JavaScript objects. The DynamoDB Toolbox will map aliases, validate and coerce types, and even write complex UpdateExpression
s for you. 😉
Version 0.4 🙌
v0.4 is here and now supports "Type Inferencing" 😎. This is a new feature that infers types from your Entity definitions. There should be NO regressions from v0.3.5, but please submit an issue if you find one!
Feedback is welcome and much appreciated! (Huge thanks to @ThomasAribart for all his work on this 🙌)
Quick Start
Install DynamoDB Toolbox:
npm i dynamodb-toolbox
yarn add dynamodb-toolbox
Require or import Table
and Entity
from dynamodb-toolbox
:
import { Table, Entity } from 'dynamodb-toolbox'
Create a Table (with the DocumentClient):
import DynamoDB from 'aws-sdk/clients/dynamodb'
const DocumentClient = new DynamoDB.DocumentClient({
convertEmptyValue: false
})
const MyTable = new Table({
name: 'my-table',
partitionKey: 'pk',
sortKey: 'sk',
DocumentClient
})
Create an Entity:
const Customer = new Entity({
name: 'Customer',
attributes: {
id: { partitionKey: true },
sk: { hidden: true, sortKey: true },
age: { type: 'number' },
name: { type: 'string', map: 'data' },
emailVerified: { type: 'boolean', required: true },
co: { alias: 'company' },
status: ['sk', 0],
date_added: ['sk', 1]
},
table: MyTable
} as const)
Put an item:
const customer = {
id: 123,
age: 35,
name: 'Jane Smith',
emailVerified: true,
company: 'ACME',
status: 'active',
date_added: '2020-04-24'
}
await Customer.put(customer)
The item will be saved to DynamoDB like this:
{
"pk": 123,
"sk": "active#2020-04-24",
"age": 35,
"data": "Jane Smith",
"emailVerified": true,
"co": "ACME",
"_et": "customer",
"_ct": "2021-01-01T00:00:00.000Z",
"_md": "2021-01-01T00:00:00.000Z"
}
You can then get the data:
const primaryKey = {
id: 123,
status: 'active',
date_added: '2020-04-24'
}
const response = await Customer.get(primaryKey)
Since v0.4, the method inputs, options and response types are inferred from the Entity definition:
await Customer.put({
id: 123,
age: 35,
name: ['Jane', 'Smith'],
emailVerified: undefined,
company: 'ACME'
})
const { Item: customer } = await Customer.get({
id: 123,
status: 'active',
date_added: '2020-04-24'
})
type Customer = typeof customer
type ExpectedCustomer =
| {
id: any
age?: number | undefined
name?: string | undefined
emailVerified: boolean
company?: any
status: any
date_added: any
entity: string
created: string
modified: string
}
| undefined
See Type Inference in the documentation for more details.
Features
- Table Schemas and DynamoDB Typings: Define your Table and Entity data models using a simple JavaScript object structure, assign DynamoDB data types, and optionally set defaults.
- Magic UpdateExpressions: Writing complex
UpdateExpression
strings is a major pain, especially if the input data changes the underlying clauses or requires dynamic (or nested) attributes. This library handles everything from simple SET
clauses, to complex list
and set
manipulations, to defaulting values with smartly applied if_not_exists()
to avoid overwriting data. - Bidirectional Mapping and Aliasing: When building a single table design, you can define multiple entities that map to the same table. Each entity can reuse fields (like
pk
andsk
) and map them to different aliases depending on the item type. Your data is automatically mapped correctly when reading and writing data. - Composite Key Generation and Field Mapping: Doing some fancy data modeling with composite keys? Like setting your
sortKey
to [country]#[region]#[state]#[county]#[city]#[neighborhood]
model hierarchies? DynamoDB Toolbox lets you map data to these composite keys which will both autogenerate the value and parse them into fields for you. - Type Coercion and Validation: Automatically coerce values to strings, numbers and booleans to ensure consistent data types in your DynamoDB tables. Validate
list
, map
, and set
types against your data. Oh yeah, and set
s are automatically handled for you. 😉 - Powerful Query Builder: Specify a
partitionKey
, and then easily configure your sortKey conditions, filters, and attribute projections to query your primary or secondary indexes. This library can even handle pagination with a simple .next()
method. - Simple Table Scans: Scan through your table or secondary indexes and add filters, projections, parallel scans and more. And don't forget the pagination support with
.next()
. - Filter and Condition Expression Builder: Build complex Filter and Condition expressions using a standardized
array
and object
notation. No more appending strings! - Projection Builder: Specify which attributes and paths should be returned for each entity type, and automatically filter the results.
- Secondary Index Support: Map your secondary indexes (GSIs and LSIs) to your table, and dynamically link your entity attributes.
- Batch Operations: Full support for batch operations with a simpler interface to work with multiple entities and tables.
- Transactions: Full support for transaction with a simpler interface to work with multiple entities and tables.
- Default Value Dependency Graphs: Create dynamic attribute defaults by chaining other dynamic attribute defaults together.
- TypeScript Support: v0.4 of this library provides strong typing support AND type inference 😍. Inferred type can still overriden with Overlays. Some Utility Types are also exposed. Additional work is still required to support schema validation & typings.
Additional References
Contributions and Feedback
Contributions, ideas and bug reports are welcome and greatly appreciated. Please add issues for suggestions and bug reports or create a pull request. You can also contact me on Twitter: @jeremy_daly.