--- name: aws-cdk-development description: AWS Cloud Development Kit (CDK) expert for building cloud infrastructure with TypeScript/Python. Use when creating CDK stacks, defining CDK constructs, implementing infrastructure as code, or when the user mentions CDK, CloudFormation, IaC, cdk synth, cdk deploy, or wants to define AWS infrastructure programmatically. Covers CDK app structure, construct patterns, stack composition, and deployment workflows. --- # AWS CDK Development This skill provides comprehensive guidance for developing AWS infrastructure using the Cloud Development Kit (CDK), with integrated MCP servers for accessing latest AWS knowledge and CDK utilities. ## Integrated MCP Servers This skill includes two MCP servers automatically configured with the plugin: ### AWS Documentation MCP Server **When to use**: Always verify AWS service information before implementation - Search AWS documentation for latest features and best practices - Check regional availability of AWS services - Verify service limits and quotas - Confirm API specifications and parameters - Access up-to-date AWS service information **Critical**: Use this server whenever AWS service features, configurations, or availability need verification. ### AWS CDK MCP Server **When to use**: For CDK-specific guidance and utilities - Get CDK construct recommendations - Retrieve CDK best practices - Access CDK pattern suggestions - Validate CDK configurations - Get help with CDK-specific APIs **Important**: Leverage this server for CDK construct guidance and advanced CDK operations. ## When to Use This Skill Use this skill when: - Creating new CDK stacks or constructs - Refactoring existing CDK infrastructure - Implementing Lambda functions within CDK - Following AWS CDK best practices - Validating CDK stack configurations before deployment - Verifying AWS service capabilities and regional availability ## Core CDK Principles ### Resource Naming **CRITICAL**: Do NOT explicitly specify resource names when they are optional in CDK constructs. **Why**: CDK-generated names enable: - **Reusable patterns**: Deploy the same construct/pattern multiple times without conflicts - **Parallel deployments**: Multiple stacks can deploy simultaneously in the same region - **Cleaner shared logic**: Patterns and shared code can be initialized multiple times without name collision - **Stack isolation**: Each stack gets uniquely identified resources automatically **Pattern**: Let CDK generate unique names automatically using CloudFormation's naming mechanism. ```typescript // ❌ BAD - Explicit naming prevents reusability and parallel deployments new lambda.Function(this, 'MyFunction', { functionName: 'my-lambda', // Avoid this // ... }); // ✅ GOOD - Let CDK generate unique names new lambda.Function(this, 'MyFunction', { // No functionName specified - CDK generates: StackName-MyFunctionXXXXXX // ... }); ``` **Security Note**: For different environments (dev, staging, prod), follow AWS Security Pillar best practices by using separate AWS accounts rather than relying on resource naming within a single account. Account-level isolation provides stronger security boundaries. ### Lambda Function Development Use the appropriate Lambda construct based on runtime: **TypeScript/JavaScript**: Use `@aws-cdk/aws-lambda-nodejs` ```typescript import { NodejsFunction } from 'aws-cdk-lib/aws-lambda-nodejs'; new NodejsFunction(this, 'MyFunction', { entry: 'lambda/handler.ts', handler: 'handler', // Automatically handles bundling, dependencies, and transpilation }); ``` **Python**: Use `@aws-cdk/aws-lambda-python` ```typescript import { PythonFunction } from '@aws-cdk/aws-lambda-python-alpha'; new PythonFunction(this, 'MyFunction', { entry: 'lambda', index: 'handler.py', handler: 'handler', // Automatically handles dependencies and packaging }); ``` **Benefits**: - Automatic bundling and dependency management - Transpilation handled automatically - No manual packaging required - Consistent deployment patterns ### Pre-Deployment Validation Use a **multi-layer validation strategy** for comprehensive CDK quality checks: #### Layer 1: Real-Time IDE Feedback (Recommended) **For TypeScript/JavaScript projects**: Install [cdk-nag](https://github.com/cdklabs/cdk-nag) for synthesis-time validation: ```bash npm install --save-dev cdk-nag ``` Add to your CDK app: ```typescript import { Aspects } from 'aws-cdk-lib'; import { AwsSolutionsChecks } from 'cdk-nag'; const app = new App(); Aspects.of(app).add(new AwsSolutionsChecks()); ``` **Optional - VS Code users**: Install [CDK NAG Validator extension](https://marketplace.visualstudio.com/items?itemName=alphacrack.cdk-nag-validator) for faster feedback on file save. **For Python/Java/C#/Go projects**: cdk-nag is available in all CDK languages and provides the same synthesis-time validation. #### Layer 2: Synthesis-Time Validation (Required) 1. **Synthesis with cdk-nag**: Validate stack with comprehensive rules ```bash cdk synth # cdk-nag runs automatically via Aspects ``` 2. **Suppress legitimate exceptions** with documented reasons: ```typescript import { NagSuppressions } from 'cdk-nag'; // Document WHY the exception is needed NagSuppressions.addResourceSuppressions(resource, [ { id: 'AwsSolutions-L1', reason: 'Lambda@Edge requires specific runtime for CloudFront compatibility' } ]); ``` #### Layer 3: Pre-Commit Safety Net 1. **Build**: Ensure compilation succeeds ```bash npm run build # or language-specific build command ``` 2. **Tests**: Run unit and integration tests ```bash npm test # or pytest, mvn test, etc. ``` 3. **Validation Script**: Meta-level checks ```bash ./scripts/validate-stack.sh ``` The validation script now focuses on: - Language detection - Template size and resource count analysis - Synthesis success verification - (Note: Detailed anti-pattern checks are handled by cdk-nag) ## Workflow Guidelines ### Development Workflow 1. **Design**: Plan infrastructure resources and relationships 2. **Verify AWS Services**: Use AWS Documentation MCP to confirm service availability and features - Check regional availability for all required services - Verify service limits and quotas - Confirm latest API specifications 3. **Implement**: Write CDK constructs following best practices - Use CDK MCP server for construct recommendations - Reference CDK best practices via MCP tools 4. **Validate**: Run pre-deployment checks (see above) 5. **Synthesize**: Generate CloudFormation templates 6. **Review**: Examine synthesized templates for correctness 7. **Deploy**: Deploy to target environment 8. **Verify**: Confirm resources are created correctly ### Stack Organization - Use nested stacks for complex applications - Separate concerns into logical construct boundaries - Export values that other stacks may need - Use CDK context for environment-specific configuration ### Testing Strategy - Unit test individual constructs - Integration test stack synthesis - Snapshot test CloudFormation templates - Validate resource properties and relationships ## Using MCP Servers Effectively ### When to Use AWS Documentation MCP **Always verify before implementing**: - New AWS service features or configurations - Service availability in target regions - API parameter specifications - Service limits and quotas - Security best practices for AWS services **Example scenarios**: - "Check if Lambda supports Python 3.13 runtime" - "Verify DynamoDB is available in eu-south-2" - "What are the current Lambda timeout limits?" - "Get latest S3 encryption options" ### When to Use CDK MCP Server **Leverage for CDK-specific guidance**: - CDK construct selection and usage - CDK API parameter options - CDK best practice patterns - Construct property configurations - CDK-specific optimizations **Example scenarios**: - "What's the recommended CDK construct for API Gateway REST API?" - "How to configure NodejsFunction bundling options?" - "Best practices for CDK stack organization" - "CDK construct for DynamoDB with auto-scaling" ### MCP Usage Best Practices 1. **Verify First**: Always check AWS Documentation MCP before implementing new features 2. **Regional Validation**: Check service availability in target deployment regions 3. **CDK Guidance**: Use CDK MCP for construct-specific recommendations 4. **Stay Current**: MCP servers provide latest information beyond knowledge cutoff 5. **Combine Sources**: Use both skill patterns and MCP servers for comprehensive guidance ## CDK Patterns Reference For detailed CDK patterns, anti-patterns, and architectural guidance, refer to the comprehensive reference: **File**: `references/cdk-patterns.md` This reference includes: - Common CDK patterns and their use cases - Anti-patterns to avoid - Security best practices - Cost optimization strategies - Performance considerations ## Additional Resources - **Validation Script**: `scripts/validate-stack.sh` - Pre-deployment validation - **CDK Patterns**: `references/cdk-patterns.md` - Detailed pattern library - **AWS Documentation MCP**: Integrated for latest AWS information - **CDK MCP Server**: Integrated for CDK-specific guidance ## GitHub Actions Integration When GitHub Actions workflow files exist in the repository, ensure all checks defined in `.github/workflows/` pass before committing. This prevents CI/CD failures and maintains code quality standards.