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@nestjs/jwt1,139,35462451.3 kB2a month agoMIT
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@nestjs/jwt is a package designed for use with the NestJS framework, providing a simple and effective way to handle JSON Web Tokens (JWT) for authentication and authorization in applications. It integrates seamlessly with NestJS, allowing developers to easily create, sign, and verify JWTs. This package is particularly useful for building secure APIs and managing user sessions in a scalable manner. With features like token expiration and refresh mechanisms, @nestjs/jwt simplifies the implementation of JWT-based authentication in NestJS applications.

While @nestjs/jwt is a great choice for NestJS applications, there are other libraries available that also handle JWTs effectively. Here are a few alternatives:

  • express-jwt is a middleware for Express.js that helps to protect routes by validating JWTs. It provides a straightforward way to authenticate requests based on tokens, ensuring that only authorized users can access certain endpoints. express-jwt is particularly useful for applications built with Express, as it integrates directly into the middleware stack, allowing for easy token validation and error handling.
  • jsonwebtoken is a widely-used library for creating and verifying JSON Web Tokens. It is not tied to any specific framework, making it a versatile choice for various Node.js applications. With jsonwebtoken, developers can easily sign and verify tokens, manage expiration times, and handle token payloads. This library is ideal for those who need a low-level implementation of JWT without the additional abstractions provided by framework-specific libraries.

To see how @nestjs/jwt compares with express-jwt and jsonwebtoken, check out the comparison: Comparing @nestjs/jwt vs express-jwt vs jsonwebtoken.

README for @nestjs/jwt

Nest Logo

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Description

JWT utilities module for Nest based on the jsonwebtoken package.

Installation

$ npm i --save @nestjs/jwt

Usage

Import JwtModule:

@Module({
  imports: [JwtModule.register({ secret: 'hard!to-guess_secret' })],
  providers: [...],
})
export class AuthModule {}

Inject JwtService:

@Injectable()
export class AuthService {
  constructor(private readonly jwtService: JwtService) {}
}

Secret / Encryption Key options

If you want to control secret and key management dynamically you can use the secretOrKeyProvider function for that purpose. You also can use asynchronous version of secretOrKeyProvider. NOTE: For asynchronous version of secretOrKeyProvider, synchronous versions of .sign() and .verify() will throw an exception.

JwtModule.register({
   /* Secret has precedence over keys */
  secret: 'hard!to-guess_secret',

  /* public key used in asymmetric algorithms (required if non other secrets present) */
  publicKey: '...',

  /* private key used in asymmetric algorithms (required if non other secrets present) */
  privateKey: '...',

  /* Dynamic key provider has precedence over static secret or pub/private keys */
  secretOrKeyProvider: (
    requestType: JwtSecretRequestType,
    tokenOrPayload: string | Object | Buffer,
    verifyOrSignOrOptions?: jwt.VerifyOptions | jwt.SignOptions
  ) => {
    switch (requestType) {
      case JwtSecretRequestType.SIGN:
        // retrieve signing key dynamically
        return 'privateKey';
      case JwtSecretRequestType.VERIFY:
        // retrieve public key for verification dynamically
        return 'publicKey';
      default:
        // retrieve secret dynamically
        return 'hard!to-guess_secret';
    }
  },
});

Async options

Quite often you might want to asynchronously pass your module options instead of passing them beforehand. In such case, use registerAsync() method, that provides a couple of various ways to deal with async data.

1. Use factory

JwtModule.registerAsync({
  useFactory: () => ({
    secret: 'hard!to-guess_secret'
  })
});

Obviously, our factory behaves like every other one (might be async and is able to inject dependencies through inject).

JwtModule.registerAsync({
  imports: [ConfigModule],
  useFactory: async (configService: ConfigService) => ({
    secret: configService.get<string>('SECRET'),
  }),
  inject: [ConfigService],
}),

2. Use class

JwtModule.registerAsync({
  useClass: JwtConfigService
});

Above construction will instantiate JwtConfigService inside JwtModule and will leverage it to create options object.

class JwtConfigService implements JwtOptionsFactory {
  createJwtOptions(): JwtModuleOptions {
    return {
      secret: 'hard!to-guess_secret'
    };
  }
}

3. Use existing

JwtModule.registerAsync({
  imports: [ConfigModule],
  useExisting: ConfigService,
}),

It works the same as useClass with one critical difference - JwtModule will lookup imported modules to reuse already created ConfigService, instead of instantiating it on its own.

API Spec

The JwtService uses jsonwebtoken underneath.

jwtService.sign(payload: string | Object | Buffer, options?: JwtSignOptions): string

The sign method is an implementation of jsonwebtoken .sign(). Differing from jsonwebtoken it also allows an additional secret, privateKey, and publicKey properties on options to override options passed in from the module. It only overrides the secret, publicKey or privateKey though not a secretOrKeyProvider. NOTE: Will throw an exception for asynchronous version of secretOrKeyProvider;

jwtService.signAsync(payload: string | Object | Buffer, options?: JwtSignOptions): Promise<string>

The asynchronous .sign() method.

jwtService.verify<T extends object = any>(token: string, options?: JwtVerifyOptions): T

The verify method is an implementation of jsonwebtoken .verify(). Differing from jsonwebtoken it also allows an additional secret, privateKey, and publicKey properties on options to override options passed in from the module. It only overrides the secret, publicKey or privateKey though not a secretOrKeyProvider. NOTE: Will throw an exception for asynchronous version of secretOrKeyProvider;

jwtService.verifyAsync<T extends object = any>(token: string, options?: JwtVerifyOptions): Promise<T>

The asynchronous .verify() method.

jwtService.decode(token: string, options: DecodeOptions): object | string

The decode method is an implementation of jsonwebtoken .decode().

The JwtModule takes an options object:

  • secret is either a string, buffer, or object containing the secret for HMAC algorithms
  • secretOrKeyProvider function with the following signature (requestType, tokenOrPayload, options?) => jwt.Secret | Promise<jwt.Secret> (allows generating either secrets or keys dynamically)
  • signOptions read more
  • privateKey PEM encoded private key for RSA and ECDSA with passphrase an object { key, passphrase } read more
  • publicKey PEM encoded public key for RSA and ECDSA
  • verifyOptions read more
  • secretOrPrivateKey (DEPRECATED!) read more

Support

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Stay in touch

License

Nest is MIT licensed.

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