auth-implementation-patterns
Master authentication and authorization patterns including JWT, OAuth2, session management, and RBAC to build secure, scalable access control systems. Use when implementing auth systems, securing APIs, or debugging security issues.
Best use case
auth-implementation-patterns is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Master authentication and authorization patterns including JWT, OAuth2, session management, and RBAC to build secure, scalable access control systems. Use when implementing auth systems, securing APIs, or debugging security issues.
Teams using auth-implementation-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/auth-implementation-patterns/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How auth-implementation-patterns Compares
| Feature / Agent | auth-implementation-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?
Master authentication and authorization patterns including JWT, OAuth2, session management, and RBAC to build secure, scalable access control systems. Use when implementing auth systems, securing APIs, or debugging security issues.
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
# Authentication & Authorization Implementation Patterns
Build secure, scalable authentication and authorization systems using industry-standard patterns and modern best practices.
## When to Use This Skill
- Implementing user authentication systems
- Securing REST or GraphQL APIs
- Adding OAuth2/social login
- Implementing role-based access control (RBAC)
- Designing session management
- Migrating authentication systems
- Debugging auth issues
- Implementing SSO or multi-tenancy
## Core Concepts
### 1. Authentication vs Authorization
**Authentication (AuthN)**: Who are you?
- Verifying identity (username/password, OAuth, biometrics)
- Issuing credentials (sessions, tokens)
- Managing login/logout
**Authorization (AuthZ)**: What can you do?
- Permission checking
- Role-based access control (RBAC)
- Resource ownership validation
- Policy enforcement
### 2. Authentication Strategies
**Session-Based:**
- Server stores session state
- Session ID in cookie
- Traditional, simple, stateful
**Token-Based (JWT):**
- Stateless, self-contained
- Scales horizontally
- Can store claims
**OAuth2/OpenID Connect:**
- Delegate authentication
- Social login (Google, GitHub)
- Enterprise SSO
## JWT Authentication
### Pattern 1: JWT Implementation
```typescript
// JWT structure: header.payload.signature
import jwt from "jsonwebtoken";
import { Request, Response, NextFunction } from "express";
interface JWTPayload {
userId: string;
email: string;
role: string;
iat: number;
exp: number;
}
// Generate JWT
function generateTokens(userId: string, email: string, role: string) {
const accessToken = jwt.sign(
{ userId, email, role },
process.env.JWT_SECRET!,
{ expiresIn: "15m" }, // Short-lived
);
const refreshToken = jwt.sign(
{ userId },
process.env.JWT_REFRESH_SECRET!,
{ expiresIn: "7d" }, // Long-lived
);
return { accessToken, refreshToken };
}
// Verify JWT
function verifyToken(token: string): JWTPayload {
try {
return jwt.verify(token, process.env.JWT_SECRET!) as JWTPayload;
} catch (error) {
if (error instanceof jwt.TokenExpiredError) {
throw new Error("Token expired");
}
if (error instanceof jwt.JsonWebTokenError) {
throw new Error("Invalid token");
}
throw error;
}
}
// Middleware
function authenticate(req: Request, res: Response, next: NextFunction) {
const authHeader = req.headers.authorization;
if (!authHeader?.startsWith("Bearer ")) {
return res.status(401).json({ error: "No token provided" });
}
const token = authHeader.substring(7);
try {
const payload = verifyToken(token);
req.user = payload; // Attach user to request
next();
} catch (error) {
return res.status(401).json({ error: "Invalid token" });
}
}
// Usage
app.get("/api/profile", authenticate, (req, res) => {
res.json({ user: req.user });
});
```
### Pattern 2: Refresh Token Flow
```typescript
interface StoredRefreshToken {
token: string;
userId: string;
expiresAt: Date;
createdAt: Date;
}
class RefreshTokenService {
// Store refresh token in database
async storeRefreshToken(userId: string, refreshToken: string) {
const expiresAt = new Date(Date.now() + 7 * 24 * 60 * 60 * 1000);
await db.refreshTokens.create({
token: await hash(refreshToken), // Hash before storing
userId,
expiresAt,
});
}
// Refresh access token
async refreshAccessToken(refreshToken: string) {
// Verify refresh token
let payload;
try {
payload = jwt.verify(refreshToken, process.env.JWT_REFRESH_SECRET!) as {
userId: string;
};
} catch {
throw new Error("Invalid refresh token");
}
// Check if token exists in database
const storedToken = await db.refreshTokens.findOne({
where: {
token: await hash(refreshToken),
userId: payload.userId,
expiresAt: { $gt: new Date() },
},
});
if (!storedToken) {
throw new Error("Refresh token not found or expired");
}
// Get user
const user = await db.users.findById(payload.userId);
if (!user) {
throw new Error("User not found");
}
// Generate new access token
const accessToken = jwt.sign(
{ userId: user.id, email: user.email, role: user.role },
process.env.JWT_SECRET!,
{ expiresIn: "15m" },
);
return { accessToken };
}
// Revoke refresh token (logout)
async revokeRefreshToken(refreshToken: string) {
await db.refreshTokens.deleteOne({
token: await hash(refreshToken),
});
}
// Revoke all user tokens (logout all devices)
async revokeAllUserTokens(userId: string) {
await db.refreshTokens.deleteMany({ userId });
}
}
// API endpoints
app.post("/api/auth/refresh", async (req, res) => {
const { refreshToken } = req.body;
try {
const { accessToken } =
await refreshTokenService.refreshAccessToken(refreshToken);
res.json({ accessToken });
} catch (error) {
res.status(401).json({ error: "Invalid refresh token" });
}
});
app.post("/api/auth/logout", authenticate, async (req, res) => {
const { refreshToken } = req.body;
await refreshTokenService.revokeRefreshToken(refreshToken);
res.json({ message: "Logged out successfully" });
});
```
## Session-Based Authentication
### Pattern 1: Express Session
```typescript
import session from "express-session";
import RedisStore from "connect-redis";
import { createClient } from "redis";
// Setup Redis for session storage
const redisClient = createClient({
url: process.env.REDIS_URL,
});
await redisClient.connect();
app.use(
session({
store: new RedisStore({ client: redisClient }),
secret: process.env.SESSION_SECRET!,
resave: false,
saveUninitialized: false,
cookie: {
secure: process.env.NODE_ENV === "production", // HTTPS only
httpOnly: true, // No JavaScript access
maxAge: 24 * 60 * 60 * 1000, // 24 hours
sameSite: "strict", // CSRF protection
},
}),
);
// Login
app.post("/api/auth/login", async (req, res) => {
const { email, password } = req.body;
const user = await db.users.findOne({ email });
if (!user || !(await verifyPassword(password, user.passwordHash))) {
return res.status(401).json({ error: "Invalid credentials" });
}
// Store user in session
req.session.userId = user.id;
req.session.role = user.role;
res.json({ user: { id: user.id, email: user.email, role: user.role } });
});
// Session middleware
function requireAuth(req: Request, res: Response, next: NextFunction) {
if (!req.session.userId) {
return res.status(401).json({ error: "Not authenticated" });
}
next();
}
// Protected route
app.get("/api/profile", requireAuth, async (req, res) => {
const user = await db.users.findById(req.session.userId);
res.json({ user });
});
// Logout
app.post("/api/auth/logout", (req, res) => {
req.session.destroy((err) => {
if (err) {
return res.status(500).json({ error: "Logout failed" });
}
res.clearCookie("connect.sid");
res.json({ message: "Logged out successfully" });
});
});
```
## OAuth2 / Social Login
### Pattern 1: OAuth2 with Passport.js
```typescript
import passport from "passport";
import { Strategy as GoogleStrategy } from "passport-google-oauth20";
import { Strategy as GitHubStrategy } from "passport-github2";
// Google OAuth
passport.use(
new GoogleStrategy(
{
clientID: process.env.GOOGLE_CLIENT_ID!,
clientSecret: process.env.GOOGLE_CLIENT_SECRET!,
callbackURL: "/api/auth/google/callback",
},
async (accessToken, refreshToken, profile, done) => {
try {
// Find or create user
let user = await db.users.findOne({
googleId: profile.id,
});
if (!user) {
user = await db.users.create({
googleId: profile.id,
email: profile.emails?.[0]?.value,
name: profile.displayName,
avatar: profile.photos?.[0]?.value,
});
}
return done(null, user);
} catch (error) {
return done(error, undefined);
}
},
),
);
// Routes
app.get(
"/api/auth/google",
passport.authenticate("google", {
scope: ["profile", "email"],
}),
);
app.get(
"/api/auth/google/callback",
passport.authenticate("google", { session: false }),
(req, res) => {
// Generate JWT
const tokens = generateTokens(req.user.id, req.user.email, req.user.role);
// Redirect to frontend with token
res.redirect(
`${process.env.FRONTEND_URL}/auth/callback?token=${tokens.accessToken}`,
);
},
);
```
## Authorization Patterns
### Pattern 1: Role-Based Access Control (RBAC)
```typescript
enum Role {
USER = "user",
MODERATOR = "moderator",
ADMIN = "admin",
}
const roleHierarchy: Record<Role, Role[]> = {
[Role.ADMIN]: [Role.ADMIN, Role.MODERATOR, Role.USER],
[Role.MODERATOR]: [Role.MODERATOR, Role.USER],
[Role.USER]: [Role.USER],
};
function hasRole(userRole: Role, requiredRole: Role): boolean {
return roleHierarchy[userRole].includes(requiredRole);
}
// Middleware
function requireRole(...roles: Role[]) {
return (req: Request, res: Response, next: NextFunction) => {
if (!req.user) {
return res.status(401).json({ error: "Not authenticated" });
}
if (!roles.some((role) => hasRole(req.user.role, role))) {
return res.status(403).json({ error: "Insufficient permissions" });
}
next();
};
}
// Usage
app.delete(
"/api/users/:id",
authenticate,
requireRole(Role.ADMIN),
async (req, res) => {
// Only admins can delete users
await db.users.delete(req.params.id);
res.json({ message: "User deleted" });
},
);
```
### Pattern 2: Permission-Based Access Control
```typescript
enum Permission {
READ_USERS = "read:users",
WRITE_USERS = "write:users",
DELETE_USERS = "delete:users",
READ_POSTS = "read:posts",
WRITE_POSTS = "write:posts",
}
const rolePermissions: Record<Role, Permission[]> = {
[Role.USER]: [Permission.READ_POSTS, Permission.WRITE_POSTS],
[Role.MODERATOR]: [
Permission.READ_POSTS,
Permission.WRITE_POSTS,
Permission.READ_USERS,
],
[Role.ADMIN]: Object.values(Permission),
};
function hasPermission(userRole: Role, permission: Permission): boolean {
return rolePermissions[userRole]?.includes(permission) ?? false;
}
function requirePermission(...permissions: Permission[]) {
return (req: Request, res: Response, next: NextFunction) => {
if (!req.user) {
return res.status(401).json({ error: "Not authenticated" });
}
const hasAllPermissions = permissions.every((permission) =>
hasPermission(req.user.role, permission),
);
if (!hasAllPermissions) {
return res.status(403).json({ error: "Insufficient permissions" });
}
next();
};
}
// Usage
app.get(
"/api/users",
authenticate,
requirePermission(Permission.READ_USERS),
async (req, res) => {
const users = await db.users.findAll();
res.json({ users });
},
);
```
### Pattern 3: Resource Ownership
```typescript
// Check if user owns resource
async function requireOwnership(
resourceType: "post" | "comment",
resourceIdParam: string = "id",
) {
return async (req: Request, res: Response, next: NextFunction) => {
if (!req.user) {
return res.status(401).json({ error: "Not authenticated" });
}
const resourceId = req.params[resourceIdParam];
// Admins can access anything
if (req.user.role === Role.ADMIN) {
return next();
}
// Check ownership
let resource;
if (resourceType === "post") {
resource = await db.posts.findById(resourceId);
} else if (resourceType === "comment") {
resource = await db.comments.findById(resourceId);
}
if (!resource) {
return res.status(404).json({ error: "Resource not found" });
}
if (resource.userId !== req.user.userId) {
return res.status(403).json({ error: "Not authorized" });
}
next();
};
}
// Usage
app.put(
"/api/posts/:id",
authenticate,
requireOwnership("post"),
async (req, res) => {
// User can only update their own posts
const post = await db.posts.update(req.params.id, req.body);
res.json({ post });
},
);
```
## Security Best Practices
### Pattern 1: Password Security
```typescript
import bcrypt from "bcrypt";
import { z } from "zod";
// Password validation schema
const passwordSchema = z
.string()
.min(12, "Password must be at least 12 characters")
.regex(/[A-Z]/, "Password must contain uppercase letter")
.regex(/[a-z]/, "Password must contain lowercase letter")
.regex(/[0-9]/, "Password must contain number")
.regex(/[^A-Za-z0-9]/, "Password must contain special character");
// Hash password
async function hashPassword(password: string): Promise<string> {
const saltRounds = 12; // 2^12 iterations
return bcrypt.hash(password, saltRounds);
}
// Verify password
async function verifyPassword(
password: string,
hash: string,
): Promise<boolean> {
return bcrypt.compare(password, hash);
}
// Registration with password validation
app.post("/api/auth/register", async (req, res) => {
try {
const { email, password } = req.body;
// Validate password
passwordSchema.parse(password);
// Check if user exists
const existingUser = await db.users.findOne({ email });
if (existingUser) {
return res.status(400).json({ error: "Email already registered" });
}
// Hash password
const passwordHash = await hashPassword(password);
// Create user
const user = await db.users.create({
email,
passwordHash,
});
// Generate tokens
const tokens = generateTokens(user.id, user.email, user.role);
res.status(201).json({
user: { id: user.id, email: user.email },
...tokens,
});
} catch (error) {
if (error instanceof z.ZodError) {
return res.status(400).json({ error: error.errors[0].message });
}
res.status(500).json({ error: "Registration failed" });
}
});
```
### Pattern 2: Rate Limiting
```typescript
import rateLimit from "express-rate-limit";
import RedisStore from "rate-limit-redis";
// Login rate limiter
const loginLimiter = rateLimit({
store: new RedisStore({ client: redisClient }),
windowMs: 15 * 60 * 1000, // 15 minutes
max: 5, // 5 attempts
message: "Too many login attempts, please try again later",
standardHeaders: true,
legacyHeaders: false,
});
// API rate limiter
const apiLimiter = rateLimit({
windowMs: 60 * 1000, // 1 minute
max: 100, // 100 requests per minute
standardHeaders: true,
});
// Apply to routes
app.post("/api/auth/login", loginLimiter, async (req, res) => {
// Login logic
});
app.use("/api/", apiLimiter);
```
## Best Practices
1. **Never Store Plain Passwords**: Always hash with bcrypt/argon2
2. **Use HTTPS**: Encrypt data in transit
3. **Short-Lived Access Tokens**: 15-30 minutes max
4. **Secure Cookies**: httpOnly, secure, sameSite flags
5. **Validate All Input**: Email format, password strength
6. **Rate Limit Auth Endpoints**: Prevent brute force attacks
7. **Implement CSRF Protection**: For session-based auth
8. **Rotate Secrets Regularly**: JWT secrets, session secrets
9. **Log Security Events**: Login attempts, failed auth
10. **Use MFA When Possible**: Extra security layer
## Common Pitfalls
- **Weak Passwords**: Enforce strong password policies
- **JWT in localStorage**: Vulnerable to XSS, use httpOnly cookies
- **No Token Expiration**: Tokens should expire
- **Client-Side Auth Checks Only**: Always validate server-side
- **Insecure Password Reset**: Use secure tokens with expiration
- **No Rate Limiting**: Vulnerable to brute force
- **Trusting Client Data**: Always validate on serverRelated Skills
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