dynamodb-toolbox-patterns
Provides TypeScript patterns for DynamoDB-Toolbox v2 including schema/table/entity modeling, .build() command workflow, query/scan access patterns, batch and transaction operations, and single-table design with computed keys. Use when implementing type-safe DynamoDB access layers with DynamoDB-Toolbox v2 in TypeScript services or serverless applications.
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The skill provides architectural patterns and TypeScript code examples for the DynamoDB-Toolbox v2 library. It includes instructions for schema modeling, CRUD operations, and single-table design with references to official documentation and standard npm packages.
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What does this agent skill do?
DynamoDB-Toolbox v2 Patterns (TypeScript)
Overview
This skill provides practical TypeScript patterns for using DynamoDB-Toolbox v2 with AWS SDK v3 DocumentClient. It focuses on type-safe schema modeling, .build() command usage, and production-ready single-table design.
When to Use
- Defining DynamoDB tables and entities with strict TypeScript inference
- Modeling schemas with
item,string,number,list,set,map, andrecord - Implementing
GetItem,PutItem,UpdateItem,DeleteItemvia.build() - Building query and scan access paths with primary keys and GSIs
- Handling batch and transactional operations
- Designing single-table systems with computed keys and entity patterns
Instructions
- Start from access patterns: identify read/write queries first, then design keys.
- Create table + entity boundaries: one table, multiple entities if using single-table design.
- Define schemas with constraints: apply
.key(),.required(),.default(),.transform(),.link(). - Use
.build()commands everywhere: avoid ad-hoc command construction for consistency and type safety. - Add query/index coverage: validate GSI/LSI paths for each required access pattern.
- Use batch/transactions intentionally: batch for throughput, transactions for atomicity.
- Keep items evolvable: use optional fields, defaults, and derived attributes for schema evolution.
Examples
Install and Setup
npm install dynamodb-toolbox @aws-sdk/client-dynamodb @aws-sdk/lib-dynamodb
import { DynamoDBClient } from '@aws-sdk/client-dynamodb';
import { DynamoDBDocumentClient } from '@aws-sdk/lib-dynamodb';
import { Table } from 'dynamodb-toolbox/table';
import { Entity } from 'dynamodb-toolbox/entity';
import { item, string, number, list, map } from 'dynamodb-toolbox/schema';
const client = new DynamoDBClient({ region: process.env.AWS_REGION ?? 'eu-west-1' });
const documentClient = DynamoDBDocumentClient.from(client);
export const AppTable = new Table({
name: 'app-single-table',
partitionKey: { name: 'PK', type: 'string' },
sortKey: { name: 'SK', type: 'string' },
indexes: {
byType: { type: 'global', partitionKey: { name: 'GSI1PK', type: 'string' }, sortKey: { name: 'GSI1SK', type: 'string' } }
},
documentClient
});
Entity Schema with Modifiers and Complex Attributes
const now = () => new Date().toISOString();
export const UserEntity = new Entity({
name: 'User',
table: AppTable,
schema: item({
tenantId: string().required('always'),
userId: string().required('always'),
email: string().required('always').transform(input => input.toLowerCase()),
role: string().enum('admin', 'member').default('member'),
loginCount: number().default(0),
tags: list(string()).default([]),
profile: map({
displayName: string().optional(),
timezone: string().default('UTC')
}).default({ timezone: 'UTC' })
}),
computeKey: ({ tenantId, userId }) => ({
PK: `TENANT#${tenantId}`,
SK: `USER#${userId}`,
GSI1PK: `TENANT#${tenantId}#TYPE#USER`,
GSI1SK: `EMAIL#${userId}`
})
});
.build() CRUD Commands
import { PutItemCommand } from 'dynamodb-toolbox/entity/actions/put';
import { GetItemCommand } from 'dynamodb-toolbox/entity/actions/get';
import { UpdateItemCommand, $add } from 'dynamodb-toolbox/entity/actions/update';
import { DeleteItemCommand } from 'dynamodb-toolbox/entity/actions/delete';
await UserEntity.build(PutItemCommand)
.item({ tenantId: 't1', userId: 'u1', email: 'A@Example.com' })
.send();
const { Item } = await UserEntity.build(GetItemCommand)
.key({ tenantId: 't1', userId: 'u1' })
.send();
await UserEntity.build(UpdateItemCommand)
.item({ tenantId: 't1', userId: 'u1', loginCount: $add(1) })
.send();
await UserEntity.build(DeleteItemCommand)
.key({ tenantId: 't1', userId: 'u1' })
.send();
Query and Scan Patterns
import { QueryCommand } from 'dynamodb-toolbox/table/actions/query';
import { ScanCommand } from 'dynamodb-toolbox/table/actions/scan';
const byTenant = await AppTable.build(QueryCommand)
.query({
partition: `TENANT#t1`,
range: { beginsWith: 'USER#' }
})
.send();
const byTypeIndex = await AppTable.build(QueryCommand)
.query({
index: 'byType',
partition: 'TENANT#t1#TYPE#USER'
})
.options({ limit: 25 })
.send();
const scanned = await AppTable.build(ScanCommand)
.options({ limit: 100 })
.send();
Batch and Transaction Workflows
import { BatchWriteCommand } from 'dynamodb-toolbox/table/actions/batchWrite';
import { TransactWriteCommand } from 'dynamodb-toolbox/table/actions/transactWrite';
await AppTable.build(BatchWriteCommand)
.requests(
UserEntity.build(PutItemCommand).item({ tenantId: 't1', userId: 'u2', email: 'u2@example.com' }),
UserEntity.build(PutItemCommand).item({ tenantId: 't1', userId: 'u3', email: 'u3@example.com' })
)
.send();
await AppTable.build(TransactWriteCommand)
.requests(
UserEntity.build(PutItemCommand).item({ tenantId: 't1', userId: 'u4', email: 'u4@example.com' }),
UserEntity.build(UpdateItemCommand).item({ tenantId: 't1', userId: 'u1', loginCount: $add(1) })
)
.send();
Single-Table Design Guidance
- Model each business concept as an entity with strict schema.
- Keep PK/SK predictable and composable (
TENANT#,USER#,ORDER#). - Encode access paths into GSI keys, not in-memory filters.
- Prefer append-only timelines for audit/history data.
- Keep hot partitions under control with scoped partitions and sharding where needed.
Best Practices
- Design keys from access patterns first, then derive entity attributes.
- Keep one source of truth for key composition (
computeKey) to avoid drift. - Use
.options({ consistent: true })only where strict read-after-write is required. - Prefer targeted queries over scans for runtime request paths.
- Add conditional expressions for idempotency and optimistic concurrency control.
- Validate batch/transaction size limits before execution to avoid partial failures.
Constraints and Warnings
- DynamoDB-Toolbox v2 relies on AWS SDK v3 DocumentClient integration.
- Avoid table scans in request paths unless explicitly bounded.
- Use conditional writes for concurrency-sensitive updates.
- Transactions are limited and slower than single-item writes; use only for true atomic requirements.
- Validate key design against target throughput before implementation.
References
Primary references curated from Context7 are available in:
references/api-dynamodb-toolbox-v2.md
How can the creator link this skill?
Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.
<a href="https://skillzs.dev/skills/giuseppe-trisciuoglio/developer-kit/dynamodb-toolbox-patterns">View dynamodb-toolbox-patterns on skillZs</a>