cdk-patterns
Common AWS CDK patterns and constructs for building cloud infrastructure with TypeScript, Python, or Java. Use when designing reusable CDK stacks and L3 constructs.
Best use case
cdk-patterns is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Common AWS CDK patterns and constructs for building cloud infrastructure with TypeScript, Python, or Java. Use when designing reusable CDK stacks and L3 constructs.
Teams using cdk-patterns should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/cdk-patterns/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How cdk-patterns Compares
| Feature / Agent | cdk-patterns | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Common AWS CDK patterns and constructs for building cloud infrastructure with TypeScript, Python, or Java. Use when designing reusable CDK stacks and L3 constructs.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
You are an expert in AWS Cloud Development Kit (CDK) specializing in reusable patterns, L2/L3 constructs, and production-grade infrastructure stacks.
## Use this skill when
- Building reusable CDK constructs or patterns
- Designing multi-stack CDK applications
- Implementing common infrastructure patterns (API + Lambda + DynamoDB, ECS services, static sites)
- Reviewing CDK code for best practices and anti-patterns
## Do not use this skill when
- The user needs raw CloudFormation templates without CDK
- The task is Terraform-specific
- Simple one-off CLI resource creation is sufficient
## Instructions
1. Identify the infrastructure pattern needed (e.g., serverless API, container service, data pipeline).
2. Use L2 constructs over L1 (Cfn*) constructs whenever possible for safer defaults.
3. Apply the principle of least privilege for all IAM roles and policies.
4. Use `RemovalPolicy` and `Tags` appropriately for production readiness.
5. Structure stacks for reusability: separate stateful (databases, buckets) from stateless (compute, APIs).
6. Enable monitoring by default (CloudWatch alarms, X-Ray tracing).
## Examples
### Example 1: Serverless API Pattern
```typescript
import { Construct } from "constructs";
import * as apigateway from "aws-cdk-lib/aws-apigateway";
import * as lambda from "aws-cdk-lib/aws-lambda";
import * as dynamodb from "aws-cdk-lib/aws-dynamodb";
export class ServerlessApiPattern extends Construct {
constructor(scope: Construct, id: string) {
super(scope, id);
const table = new dynamodb.Table(this, "Table", {
partitionKey: { name: "pk", type: dynamodb.AttributeType.STRING },
billingMode: dynamodb.BillingMode.PAY_PER_REQUEST,
removalPolicy: cdk.RemovalPolicy.RETAIN,
});
const handler = new lambda.Function(this, "Handler", {
runtime: lambda.Runtime.NODEJS_20_X,
handler: "index.handler",
code: lambda.Code.fromAsset("lambda"),
environment: { TABLE_NAME: table.tableName },
tracing: lambda.Tracing.ACTIVE,
});
table.grantReadWriteData(handler);
new apigateway.LambdaRestApi(this, "Api", { handler });
}
}
```
## Best Practices
- ✅ **Do:** Use `cdk.Tags.of(this).add()` for consistent tagging
- ✅ **Do:** Separate stateful and stateless resources into different stacks
- ✅ **Do:** Use `cdk diff` before every deploy
- ❌ **Don't:** Use L1 (`Cfn*`) constructs when L2 alternatives exist
- ❌ **Don't:** Hardcode account IDs or regions — use `cdk.Aws.ACCOUNT_ID`
## Troubleshooting
**Problem:** Circular dependency between stacks
**Solution:** Extract shared resources into a dedicated base stack and pass references via constructor props.Related Skills
wcag-audit-patterns
Conduct WCAG 2.2 accessibility audits with automated testing, manual verification, and remediation guidance. Use when auditing websites for accessibility, fixing WCAG violations, or implementing ac...
similarity-search-patterns
Implement efficient similarity search with vector databases. Use when building semantic search, implementing nearest neighbor queries, or optimizing retrieval performance.
projection-patterns
Build read models and projections from event streams. Use when implementing CQRS read sides, building materialized views, or optimizing query performance in event-sourced systems.
ddd-tactical-patterns
Apply DDD tactical patterns in code using entities, value objects, aggregates, repositories, and domain events with explicit invariants.
rust-async-patterns
Master Rust async programming with Tokio, async traits, error handling, and concurrent patterns. Use when building async Rust applications, implementing concurrent systems, or debugging async code.
go-concurrency-patterns
Master Go concurrency with goroutines, channels, sync primitives, and context. Use when building concurrent Go applications, implementing worker pools, or debugging race conditions.
cc-skill-backend-patterns
Backend architecture patterns, API design, database optimization, and server-side best practices for Node.js, Express, and Next.js API routes.
react-ui-patterns
Modern React UI patterns for loading states, error handling, and data fetching. Use when building UI components, handling async data, or managing UI states.
cc-skill-frontend-patterns
Frontend development patterns for React, Next.js, state management, performance optimization, and UI best practices.
angular-ui-patterns
Modern Angular UI patterns for loading states, error handling, and data display. Use when building UI components, handling async data, or managing component states.
elixir-otp-patterns
OTP architecture patterns for Elixir: GenServer, Supervisor, DynamicSupervisor, Registry, Application. Use when designing fault-tolerant process architectures, supervision trees, or stateful services.
ecto-database-patterns
Ecto database patterns: changesets, composable queries, Multi transactions, migrations, multi-tenancy. Use when designing database interactions in Elixir applications.