or run

tessl search

spring-boot-event-driven-patterns

tessl install github:giuseppe-trisciuoglio/developer-kit --skill spring-boot-event-driven-patterns

github.com/giuseppe-trisciuoglio/developer-kit

Implement Event-Driven Architecture (EDA) in Spring Boot using ApplicationEvent, @EventListener, and Kafka. Use for building loosely-coupled microservices with domain events, transactional event listeners, and distributed messaging patterns.

Review Score

82%

Validation Score

9/16

Implementation Score

73%

Activation Score

100%

Spring Boot Event-Driven Patterns

Overview

Implement Event-Driven Architecture (EDA) patterns in Spring Boot 3.x using domain events, ApplicationEventPublisher, @TransactionalEventListener, and distributed messaging with Kafka and Spring Cloud Stream.

When to Use This Skill

Use this skill when building applications that require:

Loose coupling between microservices through event-based communication
Domain event publishing from aggregate roots in DDD architectures
Transactional event listeners ensuring consistency after database commits
Distributed messaging with Kafka for inter-service communication
Event streaming with Spring Cloud Stream for reactive systems
Reliability using the transactional outbox pattern
Asynchronous communication between bounded contexts
Event sourcing foundations with proper event sourcing patterns

Setup and Configuration

Required Dependencies

To implement event-driven patterns, include these dependencies in your project:

Maven:

<dependencies>
    <!-- Spring Boot Web -->
    <dependency>
        <groupId>org.springframework.boot</groupId>
        <artifactId>spring-boot-starter-web</artifactId>
    </dependency>

    <!-- Spring Data JPA -->
    <dependency>
        <groupId>org.springframework.boot</groupId>
        <artifactId>spring-boot-starter-data-jpa</artifactId>
    </dependency>

    <!-- Kafka for distributed messaging -->
    <dependency>
        <groupId>org.springframework.kafka</groupId>
        <artifactId>spring-kafka</artifactId>
    </dependency>

    <!-- Spring Cloud Stream -->
    <dependency>
        <groupId>org.springframework.cloud</groupId>
        <artifactId>spring-cloud-stream</artifactId>
        <version>4.0.4</version> // Use latest compatible version
    </dependency>

    <!-- Testing -->
    <dependency>
        <groupId>org.springframework.boot</groupId>
        <artifactId>spring-boot-starter-test</artifactId>
        <scope>test</scope>
    </dependency>

    <!-- Testcontainers for integration testing -->
    <dependency>
        <groupId>org.testcontainers</groupId>
        <artifactId>testcontainers</artifactId>
        <version>1.19.0</version>
        <scope>test</scope>
    </dependency>
</dependencies>

Gradle:

dependencies {
    // Spring Boot Web
    implementation 'org.springframework.boot:spring-boot-starter-web'

    // Spring Data JPA
    implementation 'org.springframework.boot:spring-boot-starter-data-jpa'

    // Kafka
    implementation 'org.springframework.kafka:spring-kafka'

    // Spring Cloud Stream
    implementation 'org.springframework.cloud:spring-cloud-stream:4.0.4'

    // Testing
    testImplementation 'org.springframework.boot:spring-boot-starter-test'
    testImplementation 'org.testcontainers:testcontainers:1.19.0'
}

Basic Configuration

Configure your application for event-driven architecture:

# Server Configuration
server.port=8080

# Kafka Configuration
spring.kafka.bootstrap-servers=localhost:9092
spring.kafka.producer.key-serializer=org.apache.kafka.common.serialization.StringSerializer
spring.kafka.producer.value-serializer=org.springframework.kafka.support.serializer.JsonSerializer

# Spring Cloud Stream Configuration
spring.cloud.stream.kafka.binder.brokers=localhost:9092

Core Patterns

1. Domain Events Design

Create immutable domain events for business domain changes:

// Domain event base class
public abstract class DomainEvent {
    private final UUID eventId;
    private final LocalDateTime occurredAt;
    private final UUID correlationId;

    protected DomainEvent() {
        this.eventId = UUID.randomUUID();
        this.occurredAt = LocalDateTime.now();
        this.correlationId = UUID.randomUUID();
    }

    protected DomainEvent(UUID correlationId) {
        this.eventId = UUID.randomUUID();
        this.occurredAt = LocalDateTime.now();
        this.correlationId = correlationId;
    }

    // Getters
    public UUID getEventId() { return eventId; }
    public LocalDateTime getOccurredAt() { return occurredAt; }
    public UUID getCorrelationId() { return correlationId; }
}

// Specific domain events
public class ProductCreatedEvent extends DomainEvent {
    private final ProductId productId;
    private final String name;
    private final BigDecimal price;
    private final Integer stock;

    public ProductCreatedEvent(ProductId productId, String name, BigDecimal price, Integer stock) {
        super();
        this.productId = productId;
        this.name = name;
        this.price = price;
        this.stock = stock;
    }

    // Getters
    public ProductId getProductId() { return productId; }
    public String getName() { return name; }
    public BigDecimal getPrice() { return price; }
    public Integer getStock() { return stock; }
}

2. Aggregate Root with Event Publishing

Implement aggregates that publish domain events:

@Entity
@Getter
@ToString
@EqualsAndHashCode(of = "id")
@NoArgsConstructor(access = AccessLevel.PROTECTED)
public class Product {
    @Id
    private ProductId id;
    private String name;
    private BigDecimal price;
    private Integer stock;

    @Transient
    private List<DomainEvent> domainEvents = new ArrayList<>();

    public static Product create(String name, BigDecimal price, Integer stock) {
        Product product = new Product();
        product.id = ProductId.generate();
        product.name = name;
        product.price = price;
        product.stock = stock;
        product.domainEvents.add(new ProductCreatedEvent(product.id, name, price, stock));
        return product;
    }

    public void decreaseStock(Integer quantity) {
        this.stock -= quantity;
        this.domainEvents.add(new ProductStockDecreasedEvent(this.id, quantity, this.stock));
    }

    public List<DomainEvent> getDomainEvents() {
        return new ArrayList<>(domainEvents);
    }

    public void clearDomainEvents() {
        domainEvents.clear();
    }
}

3. Application Event Publishing

Publish domain events from application services:

@Service
@RequiredArgsConstructor
@Transactional
public class ProductApplicationService {
    private final ProductRepository productRepository;
    private final ApplicationEventPublisher eventPublisher;

    public ProductResponse createProduct(CreateProductRequest request) {
        Product product = Product.create(
            request.getName(),
            request.getPrice(),
            request.getStock()
        );

        productRepository.save(product);

        // Publish domain events
        product.getDomainEvents().forEach(eventPublisher::publishEvent);
        product.clearDomainEvents();

        return mapToResponse(product);
    }
}

4. Local Event Handling

Handle events with transactional event listeners:

@Component
@RequiredArgsConstructor
public class ProductEventHandler {
    private final NotificationService notificationService;
    private final AuditService auditService;

    @TransactionalEventListener(phase = TransactionPhase.AFTER_COMMIT)
    public void onProductCreated(ProductCreatedEvent event) {
        auditService.logProductCreation(
            event.getProductId().getValue(),
            event.getName(),
            event.getPrice(),
            event.getCorrelationId()
        );

        notificationService.sendProductCreatedNotification(event.getName());
    }

    @TransactionalEventListener(phase = TransactionPhase.AFTER_COMMIT)
    public void onProductStockDecreased(ProductStockDecreasedEvent event) {
        notificationService.sendStockUpdateNotification(
            event.getProductId().getValue(),
            event.getQuantity()
        );
    }
}

5. Distributed Event Publishing

Publish events to Kafka for inter-service communication:

@Component
@RequiredArgsConstructor
public class ProductEventPublisher {
    private final KafkaTemplate<String, Object> kafkaTemplate;

    public void publishProductCreatedEvent(ProductCreatedEvent event) {
        ProductCreatedEventDto dto = mapToDto(event);
        kafkaTemplate.send("product-events", event.getProductId().getValue(), dto);
    }

    private ProductCreatedEventDto mapToDto(ProductCreatedEvent event) {
        return new ProductCreatedEventDto(
            event.getEventId(),
            event.getProductId().getValue(),
            event.getName(),
            event.getPrice(),
            event.getStock(),
            event.getOccurredAt(),
            event.getCorrelationId()
        );
    }
}

6. Event Consumer with Spring Cloud Stream

Consume events using functional programming style:

@Component
@RequiredArgsConstructor
public class ProductEventStreamConsumer {
    private final OrderService orderService;

    @Bean
    public Consumer<ProductCreatedEventDto> productCreatedConsumer() {
        return event -> {
            orderService.onProductCreated(event);
        };
    }

    @Bean
    public Consumer<ProductStockDecreasedEventDto> productStockDecreasedConsumer() {
        return event -> {
            orderService.onProductStockDecreased(event);
        };
    }
}

Advanced Patterns

Transactional Outbox Pattern

Ensure reliable event publishing with the outbox pattern:

@Entity
@Table(name = "outbox_events")
@Getter
@Setter
@Builder
@NoArgsConstructor
@AllArgsConstructor
public class OutboxEvent {
    @Id
    @GeneratedValue(strategy = GenerationType.UUID)
    private UUID id;

    private String aggregateId;
    private String eventType;
    private String payload;
    private UUID correlationId;
    private LocalDateTime createdAt;
    private LocalDateTime publishedAt;
    private Integer retryCount;
}

@Component
@RequiredArgsConstructor
public class OutboxEventProcessor {
    private final OutboxEventRepository outboxRepository;
    private final KafkaTemplate<String, Object> kafkaTemplate;

    @Scheduled(fixedDelay = 5000)
    @Transactional
    public void processPendingEvents() {
        List<OutboxEvent> pendingEvents = outboxRepository.findByPublishedAtNull();

        for (OutboxEvent event : pendingEvents) {
            try {
                kafkaTemplate.send("product-events", event.getAggregateId(), event.getPayload());
                event.setPublishedAt(LocalDateTime.now());
                outboxRepository.save(event);
            } catch (Exception e) {
                event.setRetryCount(event.getRetryCount() + 1);
                outboxRepository.save(event);
            }
        }
    }
}

Testing Strategies

Unit Testing Domain Events

Test domain event publishing and handling:

class ProductTest {
    @Test
    void shouldPublishProductCreatedEventOnCreation() {
        Product product = Product.create("Test Product", BigDecimal.TEN, 100);

        assertThat(product.getDomainEvents()).hasSize(1);
        assertThat(product.getDomainEvents().get(0))
            .isInstanceOf(ProductCreatedEvent.class);
    }
}

@ExtendWith(MockitoExtension.class)
class ProductEventHandlerTest {
    @Mock
    private NotificationService notificationService;

    @InjectMocks
    private ProductEventHandler handler;

    @Test
    void shouldHandleProductCreatedEvent() {
        ProductCreatedEvent event = new ProductCreatedEvent(
            ProductId.of("123"), "Product", BigDecimal.TEN, 100
        );

        handler.onProductCreated(event);

        verify(notificationService).sendProductCreatedNotification("Product");
    }
}

Integration Testing with Testcontainers

Test Kafka integration with Testcontainers:

@SpringBootTest
@Testcontainers
class KafkaEventIntegrationTest {
    @Container
    static KafkaContainer kafka = new KafkaContainer(DockerImageName.parse("confluentinc/cp-kafka:7.5.0"));

    @Autowired
    private ProductApplicationService productService;

    @DynamicPropertySource
    static void configureProperties(DynamicPropertyRegistry registry) {
        registry.add("spring.kafka.bootstrap-servers", kafka::getBootstrapServers);
    }

    @Test
    void shouldPublishEventToKafka() {
        CreateProductRequest request = new CreateProductRequest(
            "Test Product", BigDecimal.valueOf(99.99), 50
        );

        ProductResponse response = productService.createProduct(request);

        // Verify event was published
        verify(eventPublisher).publishProductCreatedEvent(any(ProductCreatedEvent.class));
    }
}

Best Practices

Event Design Guidelines

Use past tense naming: ProductCreated, not CreateProduct
Keep events immutable: All fields should be final
Include correlation IDs: For tracing events across services
Serialize to JSON: For cross-service compatibility

Transactional Consistency

Use AFTER_COMMIT phase: Ensures events are published after successful database transaction
Implement idempotent handlers: Handle duplicate events gracefully
Add retry mechanisms: For failed event processing

Error Handling

Implement dead-letter queues: For events that fail processing
Log all failures: Include sufficient context for debugging
Set appropriate timeouts: For event processing operations

Performance Considerations

Batch event processing: When handling high volumes
Use proper partitioning: For Kafka topics
Monitor event latencies: Set up alerts for slow processing

Examples and References

See the following resources for comprehensive examples:

Troubleshooting

Common Issues

Events not being published:

Check transaction phase configuration
Verify ApplicationEventPublisher is properly autowired
Ensure transaction is committed before event publishing

Kafka connection issues:

Verify bootstrap servers configuration
Check network connectivity to Kafka
Ensure proper serialization configuration

Event handling failures:

Check for circular dependencies in event handlers
Verify transaction boundaries
Monitor for exceptions in event processing

Debug Tips

Enable debug logging for Spring events: logging.level.org.springframework.context=DEBUG
Use correlation IDs to trace events across services
Monitor event processing metrics in Actuator endpoints

This skill provides the essential patterns and best practices for implementing event-driven architectures in Spring Boot applications.