nodejs-best-practices
sickn33/antigravity-awesome-skills
Node.js development principles and decision-making for framework selection, async patterns, security, and architecture.
What is nodejs-best-practices?
This skill teaches Node.js architectural thinking rather than code patterns. It covers framework selection (Hono, Fastify, Express, NestJS), async patterns, error handling, validation, security, and testing—helping you make context-aware decisions for each project rather than defaulting to the same solution.
- Framework selection decision tree based on deployment target, performance needs, and team experience
- Runtime considerations including native TypeScript, ESM vs CommonJS, and runtime options (Node.js, Bun, Deno)
- Layered architecture principles (controller, service, repository) for testability and maintainability
- Centralized error handling with appropriate HTTP status codes and logging strategies
- Async pattern guidance (async/await, Promise.all, Promise.race) with event loop awareness
- Input validation at boundaries using libraries like Zod, Valibot, or ArkType
How to install nodejs-best-practices
npx skills add https://github.com/sickn33/antigravity-awesome-skills --skill nodejs-best-practicesHow to use nodejs-best-practices
- 1.Ask the user about their specific context: deployment target, performance requirements, team experience, and existing codebase
- 2.Use the framework selection decision tree to choose the appropriate framework (Hono for edge/serverless, Fastify for performance, Express for legacy, NestJS for enterprise)
- 3.Apply the layered architecture pattern (controller → service → repository) for growing projects
- 4.Implement centralized error handling with appropriate HTTP status codes and logging
- 5.Validate all inputs at API boundaries using a validation library suited to your needs
- 6.Review the security checklist and implement required measures for your use case
- 7.Select async patterns based on whether operations are sequential or parallel
- 8.Plan testing strategy with priorities on critical paths, edge cases, and error handling
Use cases
- Choosing between Hono, Fastify, Express, or NestJS for a new API project based on deployment constraints
- Designing error handling and HTTP status code responses for REST APIs
- Structuring a growing Node.js application with layered architecture to improve testability
- Selecting async patterns (Promise.all vs async/await) for parallel vs sequential operations
- Implementing input validation at API entry points before database operations
- Node.js developers making architecture decisions
- Backend engineers choosing frameworks for new projects
- Teams establishing coding standards and best practices
- Developers transitioning from other languages to Node.js
- Architects designing scalable API structures
nodejs-best-practices FAQ
It depends on context. Use Fastify if performance and cold start time are critical. Use Express if your team is already familiar with it or you need maximum ecosystem support. Use Hono if deploying to edge/serverless. Always ask the user about their deployment target and performance requirements.
Use Promise.all when you have multiple independent async operations that can run in parallel. Use async/await for sequential operations where each step depends on the previous one. Use Promise.allSettled if some operations can fail without stopping others.
Zod is best for TypeScript-first projects with type inference. Valibot is smaller and tree-shakeable. ArkType excels at performance. Yup works well if you're already using it with React forms. Choose based on your project's bundle size and TypeScript needs.
Create custom error classes, throw them from any layer, catch at the top level with middleware, and format consistent responses. Return appropriate HTTP status codes (400 for bad input, 401 for auth, 403 for permission, 404 for not found, 500 for server errors). Log full stack traces and context server-side without exposing internal details to clients.
It works for simple projects and scripts without a build step, but consider your deployment environment and team comfort. For production APIs, a build step with proper type checking is still recommended. Evaluate based on your specific project complexity and deployment constraints.
Full instructions (SKILL.md)
Source of truth, from sickn33/antigravity-awesome-skills.
name: nodejs-best-practices description: "Node.js development principles and decision-making. Framework selection, async patterns, security, and architecture. Teaches thinking, not copying." risk: unknown source: community date_added: "2026-02-27"
Node.js Best Practices
Principles and decision-making for Node.js development in 2025. Learn to THINK, not memorize code patterns.
When to Use
Use this skill when making Node.js architecture decisions, choosing frameworks, designing async patterns, or applying security and deployment best practices.
⚠️ How to Use This Skill
This skill teaches decision-making principles, not fixed code to copy.
- ASK user for preferences when unclear
- Choose framework/pattern based on CONTEXT
- Don't default to same solution every time
1. Framework Selection (2025)
Decision Tree
What are you building?
│
├── Edge/Serverless (Cloudflare, Vercel)
│ └── Hono (zero-dependency, ultra-fast cold starts)
│
├── High Performance API
│ └── Fastify (2-3x faster than Express)
│
├── Enterprise/Team familiarity
│ └── NestJS (structured, DI, decorators)
│
├── Legacy/Stable/Maximum ecosystem
│ └── Express (mature, most middleware)
│
└── Full-stack with frontend
└── Next.js API Routes or tRPC
Comparison Principles
| Factor | Hono | Fastify | Express |
|---|---|---|---|
| Best for | Edge, serverless | Performance | Legacy, learning |
| Cold start | Fastest | Fast | Moderate |
| Ecosystem | Growing | Good | Largest |
| TypeScript | Native | Excellent | Good |
| Learning curve | Low | Medium | Low |
Selection Questions to Ask:
- What's the deployment target?
- Is cold start time critical?
- Does team have existing experience?
- Is there legacy code to maintain?
2. Runtime Considerations (2025)
Native TypeScript
Node.js 22+: --experimental-strip-types
├── Run .ts files directly
├── No build step needed for simple projects
└── Consider for: scripts, simple APIs
Module System Decision
ESM (import/export)
├── Modern standard
├── Better tree-shaking
├── Async module loading
└── Use for: new projects
CommonJS (require)
├── Legacy compatibility
├── More npm packages support
└── Use for: existing codebases, some edge cases
Runtime Selection
| Runtime | Best For |
|---|---|
| Node.js | General purpose, largest ecosystem |
| Bun | Performance, built-in bundler |
| Deno | Security-first, built-in TypeScript |
3. Architecture Principles
Layered Structure Concept
Request Flow:
│
├── Controller/Route Layer
│ ├── Handles HTTP specifics
│ ├── Input validation at boundary
│ └── Calls service layer
│
├── Service Layer
│ ├── Business logic
│ ├── Framework-agnostic
│ └── Calls repository layer
│
└── Repository Layer
├── Data access only
├── Database queries
└── ORM interactions
Why This Matters:
- Testability: Mock layers independently
- Flexibility: Swap database without touching business logic
- Clarity: Each layer has single responsibility
When to Simplify:
- Small scripts → Single file OK
- Prototypes → Less structure acceptable
- Always ask: "Will this grow?"
4. Error Handling Principles
Centralized Error Handling
Pattern:
├── Create custom error classes
├── Throw from any layer
├── Catch at top level (middleware)
└── Format consistent response
Error Response Philosophy
Client gets:
├── Appropriate HTTP status
├── Error code for programmatic handling
├── User-friendly message
└── NO internal details (security!)
Logs get:
├── Full stack trace
├── Request context
├── User ID (if applicable)
└── Timestamp
Status Code Selection
| Situation | Status | When |
|---|---|---|
| Bad input | 400 | Client sent invalid data |
| No auth | 401 | Missing or invalid credentials |
| No permission | 403 | Valid auth, but not allowed |
| Not found | 404 | Resource doesn't exist |
| Conflict | 409 | Duplicate or state conflict |
| Validation | 422 | Schema valid but business rules fail |
| Server error | 500 | Our fault, log everything |
5. Async Patterns Principles
When to Use Each
| Pattern | Use When |
|---|---|
async/await | Sequential async operations |
Promise.all | Parallel independent operations |
Promise.allSettled | Parallel where some can fail |
Promise.race | Timeout or first response wins |
Event Loop Awareness
I/O-bound (async helps):
├── Database queries
├── HTTP requests
├── File system
└── Network operations
CPU-bound (async doesn't help):
├── Crypto operations
├── Image processing
├── Complex calculations
└── → Use worker threads or offload
Avoiding Event Loop Blocking
- Never use sync methods in production (fs.readFileSync, etc.)
- Offload CPU-intensive work
- Use streaming for large data
6. Validation Principles
Validate at Boundaries
Where to validate:
├── API entry point (request body/params)
├── Before database operations
├── External data (API responses, file uploads)
└── Environment variables (startup)
Validation Library Selection
| Library | Best For |
|---|---|
| Zod | TypeScript first, inference |
| Valibot | Smaller bundle (tree-shakeable) |
| ArkType | Performance critical |
| Yup | Existing React Form usage |
Validation Philosophy
- Fail fast: Validate early
- Be specific: Clear error messages
- Don't trust: Even "internal" data
7. Security Principles
Security Checklist (Not Code)
- Input validation: All inputs validated
- Parameterized queries: No string concatenation for SQL
- Password hashing: bcrypt or argon2
- JWT verification: Always verify signature and expiry
- Rate limiting: Protect from abuse
- Security headers: Helmet.js or equivalent
- HTTPS: Everywhere in production
- CORS: Properly configured
- Secrets: Environment variables only
- Dependencies: Regularly audited
Security Mindset
Trust nothing:
├── Query params → validate
├── Request body → validate
├── Headers → verify
├── Cookies → validate
├── File uploads → scan
└── External APIs → validate response
8. Testing Principles
Test Strategy Selection
| Type | Purpose | Tools |
|---|---|---|
| Unit | Business logic | node:test, Vitest |
| Integration | API endpoints | Supertest |
| E2E | Full flows | Playwright |
What to Test (Priorities)
- Critical paths: Auth, payments, core business
- Edge cases: Empty inputs, boundaries
- Error handling: What happens when things fail?
- Not worth testing: Framework code, trivial getters
Built-in Test Runner (Node.js 22+)
node --test src/**/*.test.ts
├── No external dependency
├── Good coverage reporting
└── Watch mode available
9. Anti-Patterns to Avoid
❌ DON'T:
- Use Express for new edge projects (use Hono)
- Use sync methods in production code
- Put business logic in controllers
- Skip input validation
- Hardcode secrets
- Trust external data without validation
- Block event loop with CPU work
✅ DO:
- Choose framework based on context
- Ask user for preferences when unclear
- Use layered architecture for growing projects
- Validate all inputs
- Use environment variables for secrets
- Profile before optimizing
10. Decision Checklist
Before implementing:
- Asked user about stack preference?
- Chosen framework for THIS context? (not just default)
- Considered deployment target?
- Planned error handling strategy?
- Identified validation points?
- Considered security requirements?
Remember: Node.js best practices are about decision-making, not memorizing patterns. Every project deserves fresh consideration based on its requirements.
Limitations
- Use this skill only when the task clearly matches the scope described above.
- Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
- Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.
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