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Organizing Layers Using Hexagonal Architecture, DDD, and Spring

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1. Overview

In this tutorial, we'll implement a Spring application using DDD. Additionally, we'll organize layers with the help of Hexagonal Architecture.

In the end, our application will expose a RESTful API and will store information about Orders in MongoDB.

2. Hexagonal Architecture

Hexagonal architecture is a model of designing software applications around domain logic in order to isolate it from external factors.

The domain logic is specified in a business core, which we'll call the inside part, the rest being outside parts. Access to domain logic from the outside is available through ports and adapters

3. Principles

Firstly, we should define principles to divide our code. As explained briefly already, hexagonal architecture defines the inside and the outside part.

What we'll do instead is divide our application into three layers; application (outside), domain (inside), and infrastructure (outside):

Through the application layer, the user or any other program will interact with the application. That area should contain things like user interfaces, RESTful controllers, and JSON serialization libraries. Basically, this includes anything that exposes entry to our application and orchestrates the execution of domain logic.

In the domain layer, we keep the code that touches and implements business logic. This is the core of our application. Additionally, this layer should be isolated from both the application part and the infrastructure part. On top of that, it should also contain interfaces that define the API to communicate with external parts, like the database, which the domain interacts with.

Lastly, the infrastructure layer is the part that contains anything that the application needs to work such as database configuration or Spring configuration. In addition, it also implements infrastructure-dependent interfaces from the domain layer.

4. Domain Layer

Let's begin by implementing our core layer, which is the domain layer.

Firstly, we should create the Order class:

public class Order {
    private UUID id;
    private OrderStatus status;
    private List<OrderItem> orderItems;
    private BigDecimal price;

    public Order(UUID id, Product product) {
        this.id = id;
        this.orderItems = new ArrayList<>(Arrays.astList(new OrderItem(product)));
        this.status = OrderStatus.CREATED;
        this.price = product.getPrice();
    }

    public void complete() {
        validateState();
        this.status = OrderStatus.COMPLETED;
    }

    public void addOrder(Product product) {
        validateState();
        validateProduct(product);
        orderItems.add(new OrderItem(product));
        price = price.add(product.getPrice());
    }

    public void removeOrder(UUID id) {
        validateState();
        final OrderItem orderItem = getOrderItem(id);
        orderItems.remove(orderItem);

        price = price.subtract(orderItem.getPrice());
    }

    // getters
}

This is our aggregate root. Anything related to our business logic will go through this class. Additionally, Order is responsible for keeping itself in the correct state:

  • The order can only be created with the given ID and based on one Product – the constructor itself also inits the order with CREATED status
  • Once the order is completed, changing OrderItems is impossible
  • It's impossible to change the Order from outside the domain object, like with a setter

Furthermore, the Order class is also responsible for creating its OrderItem.

Let's create the OrderItem class then:

public class OrderItem {
    private UUID productId;
    private BigDecimal price;

    public OrderItem(Product product) {
        this.productId = product.getId();
        this.price = product.getPrice();
    }

    // getters
}

As we can see, OrderItem is created based on a Product. It keeps the reference to it and stores the current price of the Product.

Next, we'll create a repository interface (a port in Hexagonal Architecture). The implementation of the interface will be in the infrastructure layer:

public interface OrderRepository {
    Optional<Order> findById(UUID id);

    void save(Order order);
}

Lastly, we should make sure that the Order will be always saved after each action. In order to do that, we'll define a Domain Service, which usually contains logic that can't be a part of our root:

public class DomainOrderService implements OrderService {

    private final OrderRepository orderRepository;

    public DomainOrderService(OrderRepository orderRepository) {
        this.orderRepository = orderRepository;
    }

    @Override
    public UUID createOrder(Product product) {
        Order order = new Order(UUID.randomUUID(), product);
        orderRepository.save(order);

        return order.getId();
    }

    @Override
    public void addProduct(UUID id, Product product) {
        Order order = getOrder(id);
        order.addOrder(product);

        orderRepository.save(order);
    }

    @Override
    public void completeOrder(UUID id) {
        Order order = getOrder(id);
        order.complete();

        orderRepository.save(order);
    }

    @Override
    public void deleteProduct(UUID id, UUID productId) {
        Order order = getOrder(id);
        order.removeOrder(productId);

        orderRepository.save(order);
    }

    private Order getOrder(UUID id) {
        return orderRepository
          .findById(id)
          .orElseThrow(RuntimeException::new);
    }
}

In a hexagonal architecture, this service would be an adapter that implements the port. Additionally, we'll not register it as a Spring bean because, from a domain perspective, this is in the inside part, and Spring configuration is on the outside. We'll wire it with Spring in the infrastructure layer.

5. Application Layer

In this section, we'll implement the application layer. We'll allow the user to communicate with our application via a RESTful API.

Therefore, let's create the OrderController:

@RestController
@RequestMapping("/orders")
public class OrderController {

    private OrderService orderService;

    @Autowired
    public OrderController(OrderService orderService) {
        this.orderService = orderService;
    }

    @PostMapping
    CreateOrderResponse createOrder(@RequestBody CreateOrderRequest request) {
        UUID id = orderService.createOrder(request.getProduct());

        return new CreateOrderResponse(id);
    }

    @PostMapping(value = "/{id}/products")
    void addProduct(@PathVariable UUID id, @RequestBody AddProductRequest request) {
        orderService.addProduct(id, request.getProduct());
    }

    @DeleteMapping(value = "/{id}/products")
    void deleteProduct(@PathVariable UUID id, @RequestParam UUID productId) {
        orderService.deleteProduct(id, productId);
    }

    @PostMapping("/{id}/complete")
    void completeOrder(@PathVariable UUID id) {
        orderService.completeOrder(id);
    }
}

This simple Spring Rest controller is responsible for orchestrating the execution of domain logic. It does it by calling the appropriate methods from OrderService (port).  Furthermore, this controller would be an adapter in the hexagonal architecture as a part of outside logic.

6. Infrastructure Layer

The infrastructure layer should contain the logic needed to run the application.

Therefore, we'll start by creating the configuration classes. Firstly, let's implement a class that will register our OrderService as a Spring bean:

@Configuration
public class BeanConfiguration {

    @Bean
    OrderService orderService(OrderRepository orderRepository) {
        return new DomainOrderService(orderRepository);
    }
}

Next, let's create the configuration responsible for enabling the Spring Data repositories we'll use:

@EnableMongoRepositories(basePackageClasses = SpringDataOrderRepository.class)
public class MongoDBConfiguration {
}

We have used the basePackageClasses property because those repositories can only be in the infrastructure layer. Hence, there's no reason for Spring to scan the whole application. Furthermore, this class can contain everything related to establishing a connection between MongoDB and our application.

Lastly, we'll implement the OrderRepository from the domain layer. We'll use our SpringDataOrderRepository in our implementation:

@Component
public class MongoDbOrderRepository implements OrderRepository {

    private SpringDataOrderRepository orderRepository;

    @Autowired
    public MongoDbOrderRepository(SpringDataOrderRepository orderRepository) {
        this.orderRepository = orderRepository;
    }

    @Override
    public Optional<Order> findById(UUID id) {
        return orderRepository.findById(id);
    }

    @Override
    public void save(Order order) {
        orderRepository.save(order);
    }
}

This implementation stores our Order in MongoDB.

We could easily implement it in a different way without affecting the domain or application layer. For instance, we could store our Order in PostgreSQL, and that would not change the domain logic. In a hexagonal architecture, this implementation would be an adapter.

7. Benefits

The first advantage of this approach is that we separate work for each layer. We can focus on one layer without affecting others. Furthermore, they're naturally easier to understand because each of them focuses on its own logic.

Another big advantage is that we've isolated the domain logic from everything else. The domain part only contains business logic and can be easily moved to a different environment. For instance, we can change the application framework without changing the domain layer.

8. Conclusion

In this article, we've learned how to separate the logic related to our application into specific layers.

First, we defined three main layers: application, domain, and infrastructure. After that, we described how to fill them and explained the advantages. Finally, we have come up with the implementation for each layer:

As always, the code for these examples is available over on GitHub.


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