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Api Design Principles

Master REST and GraphQL API design principles to build intuitive, scalable, and maintainable APIs that delight developers. Use when designing new APIs, reviewing API specifications, or establishing...

Authorwshobson
Version1.0.0
LicenseMIT
Token count~901
Views42
UpdatedMay 27, 2026

Install

Quick install

via npx skills · works with 57+ agents
npx skills add https://github.com/wshobson/agents/tree/main/plugins/backend-development/skills/api-design-principles
Or pick agent:
npx skills add wshobson/agents --skill api-design-principles --agent claude-code
npx skills add wshobson/agents --skill api-design-principles --agent cursor
npx skills add wshobson/agents --skill api-design-principles --agent codex
npx skills add wshobson/agents --skill api-design-principles --agent opencode
npx skills add wshobson/agents --skill api-design-principles --agent github-copilot
npx skills add wshobson/agents --skill api-design-principles --agent windsurf
More install options

Shorthand — useful for multi-skill repos:

npx skills add wshobson/agents --skill api-design-principles

Manual — clone the repo and drop the folder into your agent's skills directory:

git clone https://github.com/wshobson/agents.git
cp -r agents/plugins/backend-development/skills/api-design-principles ~/.claude/skills/
How to use: Once installed, ask your agent to "use the api-design-principles skill" or describe what you want (e.g. "Master REST and GraphQL API design principles to build intuitive, scalable, and"). Requires Node.js 18+.

API Design Principles

Master REST and GraphQL API design principles to build intuitive, scalable, and maintainable APIs that delight developers and stand the test of time.

When to Use This Skill

  • Designing new REST or GraphQL APIs
  • Refactoring existing APIs for better usability
  • Establishing API design standards for your team
  • Reviewing API specifications before implementation
  • Migrating between API paradigms (REST to GraphQL, etc.)
  • Creating developer-friendly API documentation
  • Optimizing APIs for specific use cases (mobile, third-party integrations)

Core Concepts

1. RESTful Design Principles

Resource-Oriented Architecture

  • Resources are nouns (users, orders, products), not verbs
  • Use HTTP methods for actions (GET, POST, PUT, PATCH, DELETE)
  • URLs represent resource hierarchies
  • Consistent naming conventions

HTTP Methods Semantics:

  • GET: Retrieve resources (idempotent, safe)
  • POST: Create new resources
  • PUT: Replace entire resource (idempotent)
  • PATCH: Partial resource updates
  • DELETE: Remove resources (idempotent)

2. GraphQL Design Principles

Schema-First Development

  • Types define your domain model
  • Queries for reading data
  • Mutations for modifying data
  • Subscriptions for real-time updates

Query Structure:

  • Clients request exactly what they need
  • Single endpoint, multiple operations
  • Strongly typed schema
  • Introspection built-in

3. API Versioning Strategies

URL Versioning:

/api/v1/users
/api/v2/users

Header Versioning:

Accept: application/vnd.api+json; version=1

Query Parameter Versioning:

/api/users?version=1

Detailed patterns and worked examples

Detailed pattern documentation lives in references/details.md. Read that file when the navigation tier above is insufficient.

Best Practices

REST APIs

  1. Consistent Naming: Use plural nouns for collections (/users, not /user)
  2. Stateless: Each request contains all necessary information
  3. Use HTTP Status Codes Correctly: 2xx success, 4xx client errors, 5xx server errors
  4. Version Your API: Plan for breaking changes from day one
  5. Pagination: Always paginate large collections
  6. Rate Limiting: Protect your API with rate limits
  7. Documentation: Use OpenAPI/Swagger for interactive docs

GraphQL APIs

  1. Schema First: Design schema before writing resolvers
  2. Avoid N+1: Use DataLoaders for efficient data fetching
  3. Input Validation: Validate at schema and resolver levels
  4. Error Handling: Return structured errors in mutation payloads
  5. Pagination: Use cursor-based pagination (Relay spec)
  6. Deprecation: Use @deprecated directive for gradual migration
  7. Monitoring: Track query complexity and execution time

Common Pitfalls

  • Over-fetching/Under-fetching (REST): Fixed in GraphQL but requires DataLoaders
  • Breaking Changes: Version APIs or use deprecation strategies
  • Inconsistent Error Formats: Standardize error responses
  • Missing Rate Limits: APIs without limits are vulnerable to abuse
  • Poor Documentation: Undocumented APIs frustrate developers
  • Ignoring HTTP Semantics: POST for idempotent operations breaks expectations
  • Tight Coupling: API structure shouldn't mirror database schema

SKILL.md source

---
name: api-design-principles
description: Master REST and GraphQL API design principles to build intuitive, scalable, and maintainable APIs that delight developers. Use when designing new APIs, reviewing API specifications, or establishing...
---

# API Design Principles

Master REST and GraphQL API design principles to build intuitive, scalable, and maintainable APIs that delight developers and stand the test of time.

## When to Use This Skill

- Designing new REST or GraphQL APIs
- Refactoring existing APIs for better usability
- Establishing API design standards for your team
- Reviewing API specifications before implementation
- Migrating between API paradigms (REST to GraphQL, etc.)
- Creating developer-friendly API documentation
- Optimizing APIs for specific use cases (mobile, third-party integrations)

## Core Concepts

### 1. RESTful Design Principles

**Resource-Oriented Architecture**

- Resources are nouns (users, orders, products), not verbs
- Use HTTP methods for actions (GET, POST, PUT, PATCH, DELETE)
- URLs represent resource hierarchies
- Consistent naming conventions

**HTTP Methods Semantics:**

- `GET`: Retrieve resources (idempotent, safe)
- `POST`: Create new resources
- `PUT`: Replace entire resource (idempotent)
- `PATCH`: Partial resource updates
- `DELETE`: Remove resources (idempotent)

### 2. GraphQL Design Principles

**Schema-First Development**

- Types define your domain model
- Queries for reading data
- Mutations for modifying data
- Subscriptions for real-time updates

**Query Structure:**

- Clients request exactly what they need
- Single endpoint, multiple operations
- Strongly typed schema
- Introspection built-in

### 3. API Versioning Strategies

**URL Versioning:**

```
/api/v1/users
/api/v2/users
```

**Header Versioning:**

```
Accept: application/vnd.api+json; version=1
```

**Query Parameter Versioning:**

```
/api/users?version=1
```

## Detailed patterns and worked examples

Detailed pattern documentation lives in `references/details.md`. Read that file when the navigation tier above is insufficient.

## Best Practices

### REST APIs

1. **Consistent Naming**: Use plural nouns for collections (`/users`, not `/user`)
2. **Stateless**: Each request contains all necessary information
3. **Use HTTP Status Codes Correctly**: 2xx success, 4xx client errors, 5xx server errors
4. **Version Your API**: Plan for breaking changes from day one
5. **Pagination**: Always paginate large collections
6. **Rate Limiting**: Protect your API with rate limits
7. **Documentation**: Use OpenAPI/Swagger for interactive docs

### GraphQL APIs

1. **Schema First**: Design schema before writing resolvers
2. **Avoid N+1**: Use DataLoaders for efficient data fetching
3. **Input Validation**: Validate at schema and resolver levels
4. **Error Handling**: Return structured errors in mutation payloads
5. **Pagination**: Use cursor-based pagination (Relay spec)
6. **Deprecation**: Use `@deprecated` directive for gradual migration
7. **Monitoring**: Track query complexity and execution time

## Common Pitfalls

- **Over-fetching/Under-fetching (REST)**: Fixed in GraphQL but requires DataLoaders
- **Breaking Changes**: Version APIs or use deprecation strategies
- **Inconsistent Error Formats**: Standardize error responses
- **Missing Rate Limits**: APIs without limits are vulnerable to abuse
- **Poor Documentation**: Undocumented APIs frustrate developers
- **Ignoring HTTP Semantics**: POST for idempotent operations breaks expectations
- **Tight Coupling**: API structure shouldn't mirror database schema

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