nestjs-patterns
NestJS architecture patterns for modules, controllers, providers, DTO validation, guards, interceptors, config, and production-grade TypeScript backends.
NestJS Development Patterns
Production-grade NestJS patterns for modular TypeScript backends.
When to Activate
- Building NestJS APIs or services
- Structuring modules, controllers, and providers
- Adding DTO validation, guards, interceptors, or exception filters
- Configuring environment-aware settings and database integrations
- Testing NestJS units or HTTP endpoints
Project Structure
src/├── app.module.ts├── main.ts├── common/│ ├── filters/│ ├── guards/│ ├── interceptors/│ └── pipes/├── config/│ ├── configuration.ts│ └── validation.ts├── modules/│ ├── auth/│ │ ├── auth.controller.ts│ │ ├── auth.module.ts│ │ ├── auth.service.ts│ │ ├── dto/│ │ ├── guards/│ │ └── strategies/│ └── users/│ ├── dto/│ ├── entities/│ ├── users.controller.ts│ ├── users.module.ts│ └── users.service.ts└── prisma/ or database/- Keep domain code inside feature modules.
- Put cross-cutting filters, decorators, guards, and interceptors in
common/. - Keep DTOs close to the module that owns them.
Bootstrap and Global Validation
async function bootstrap() { const app = await NestFactory.create(AppModule, { bufferLogs: true });
app.useGlobalPipes( new ValidationPipe({ whitelist: true, forbidNonWhitelisted: true, transform: true, transformOptions: { enableImplicitConversion: true }, }), );
app.useGlobalInterceptors(new ClassSerializerInterceptor(app.get(Reflector))); app.useGlobalFilters(new HttpExceptionFilter());
await app.listen(process.env.PORT ?? 3000);}bootstrap();- Always enable
whitelistandforbidNonWhitelistedon public APIs. - Prefer one global validation pipe instead of repeating validation config per route.
Modules, Controllers, and Providers
@Module({ controllers: [UsersController], providers: [UsersService], exports: [UsersService],})export class UsersModule {}
@Controller('users')export class UsersController { constructor(private readonly usersService: UsersService) {}
@Get(':id') getById(@Param('id', ParseUUIDPipe) id: string) { return this.usersService.getById(id); }
@Post() create(@Body() dto: CreateUserDto) { return this.usersService.create(dto); }}
@Injectable()export class UsersService { constructor(private readonly usersRepo: UsersRepository) {}
async create(dto: CreateUserDto) { return this.usersRepo.create(dto); }}- Controllers should stay thin: parse HTTP input, call a provider, return response DTOs.
- Put business logic in injectable services, not controllers.
- Export only the providers other modules genuinely need.
DTOs and Validation
export class CreateUserDto { @IsEmail() email!: string;
@IsString() @Length(2, 80) name!: string;
@IsOptional() @IsEnum(UserRole) role?: UserRole;}- Validate every request DTO with
class-validator. - Use dedicated response DTOs or serializers instead of returning ORM entities directly.
- Avoid leaking internal fields such as password hashes, tokens, or audit columns.
Auth, Guards, and Request Context
@UseGuards(JwtAuthGuard, RolesGuard)@Roles('admin')@Get('admin/report')getAdminReport(@Req() req: AuthenticatedRequest) { return this.reportService.getForUser(req.user.id);}- Keep auth strategies and guards module-local unless they are truly shared.
- Encode coarse access rules in guards, then do resource-specific authorization in services.
- Prefer explicit request types for authenticated request objects.
Exception Filters and Error Shape
@Catch()export class HttpExceptionFilter implements ExceptionFilter { catch(exception: unknown, host: ArgumentsHost) { const response = host.switchToHttp().getResponse<Response>(); const request = host.switchToHttp().getRequest<Request>();
if (exception instanceof HttpException) { return response.status(exception.getStatus()).json({ path: request.url, error: exception.getResponse(), }); }
return response.status(500).json({ path: request.url, error: 'Internal server error', }); }}- Keep one consistent error envelope across the API.
- Throw framework exceptions for expected client errors; log and wrap unexpected failures centrally.
Config and Environment Validation
ConfigModule.forRoot({ isGlobal: true, load: [configuration], validate: validateEnv,});- Validate env at boot, not lazily at first request.
- Keep config access behind typed helpers or config services.
- Split dev/staging/prod concerns in config factories instead of branching throughout feature code.
Persistence and Transactions
- Keep repository / ORM code behind providers that speak domain language.
- For Prisma or TypeORM, isolate transactional workflows in services that own the unit of work.
- Do not let controllers coordinate multi-step writes directly.
Testing
describe('UsersController', () => { let app: INestApplication;
beforeAll(async () => { const moduleRef = await Test.createTestingModule({ imports: [UsersModule], }).compile();
app = moduleRef.createNestApplication(); app.useGlobalPipes(new ValidationPipe({ whitelist: true, transform: true })); await app.init(); });});- Unit test providers in isolation with mocked dependencies.
- Add request-level tests for guards, validation pipes, and exception filters.
- Reuse the same global pipes/filters in tests that you use in production.
Production Defaults
- Enable structured logging and request correlation ids.
- Terminate on invalid env/config instead of booting partially.
- Prefer async provider initialization for DB/cache clients with explicit health checks.
- Keep background jobs and event consumers in their own modules, not inside HTTP controllers.
- Make rate limiting, auth, and audit logging explicit for public endpoints.