Spring Boot Resilience4j Patterns
Overview
Provides Resilience4j patterns (circuit breaker, retry, rate limiter, bulkhead, time limiter, fallback) for Spring Boot 3.x fault tolerance with configuration and testing workflows.
When to Use
- Implementing fault tolerance and preventing cascading failures
- Adding circuit breakers, retry logic, or rate limiting to service calls
- Handling transient failures with exponential backoff
- Protecting services from overload and resource exhaustion
- Combining multiple patterns for comprehensive resilience
Instructions
1. Setup and Dependencies
Add Resilience4j dependencies to your project. For Maven, add to pom.xml:
<dependency>
<groupId>io.github.resilience4j</groupId>
<artifactId>resilience4j-spring-boot3</artifactId>
<version>2.2.0</version> // Use latest stable version
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-aop</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-actuator</artifactId>
</dependency>
For Gradle, add to build.gradle:
implementation "io.github.resilience4j:resilience4j-spring-boot3:2.2.0"
implementation "org.springframework.boot:spring-boot-starter-aop"
implementation "org.springframework.boot:spring-boot-starter-actuator"
Enable AOP annotation processing with @EnableAspectJAutoProxy (auto-configured by Spring Boot).
2. Circuit Breaker Pattern
Apply @CircuitBreaker annotation to methods calling external services:
@Service
public class PaymentService {
private final RestTemplate restTemplate;
public PaymentService(RestTemplate restTemplate) {
this.restTemplate = restTemplate;
}
@CircuitBreaker(name = "paymentService", fallbackMethod = "paymentFallback")
public PaymentResponse processPayment(PaymentRequest request) {
return restTemplate.postForObject("http://payment-api/process",
request, PaymentResponse.class);
}
private PaymentResponse paymentFallback(PaymentRequest request, Exception ex) {
return PaymentResponse.builder()
.status("PENDING")
.message("Service temporarily unavailable")
.build();
}
}
Configure in application.yml:
resilience4j:
circuitbreaker:
configs:
default:
registerHealthIndicator: true
slidingWindowSize: 10
minimumNumberOfCalls: 5
failureRateThreshold: 50
waitDurationInOpenState: 10s
instances:
paymentService:
baseConfig: default
See @references/configuration-reference.md for complete circuit breaker configuration options.
3. Retry Pattern
Apply @Retry annotation for transient failure recovery:
@Service
public class ProductService {
private final RestTemplate restTemplate;
public ProductService(RestTemplate restTemplate) {
this.restTemplate = restTemplate;
}
@Retry(name = "productService", fallbackMethod = "getProductFallback")
public Product getProduct(Long productId) {
return restTemplate.getForObject(
"http://product-api/products/" + productId,
Product.class);
}
private Product getProductFallback(Long productId, Exception ex) {
return Product.builder()
.id(productId)
.name("Unavailable")
.available(false)
.build();
}
}
Configure retry in application.yml:
resilience4j:
retry:
configs:
default:
maxAttempts: 3
waitDuration: 500ms
enableExponentialBackoff: true
exponentialBackoffMultiplier: 2
instances:
productService:
baseConfig: default
maxAttempts: 5
See @references/configuration-reference.md for retry exception configuration.
4. Rate Limiter Pattern
Apply @RateLimiter to control request rates:
@Service
public class NotificationService {
private final EmailClient emailClient;
public NotificationService(EmailClient emailClient) {
this.emailClient = emailClient;
}
@RateLimiter(name = "notificationService",
fallbackMethod = "rateLimitFallback")
public void sendEmail(EmailRequest request) {
emailClient.send(request);
}
private void rateLimitFallback(EmailRequest request, Exception ex) {
throw new RateLimitExceededException(
"Too many requests. Please try again later.");
}
}
Configure in application.yml:
resilience4j:
ratelimiter:
configs:
default:
registerHealthIndicator: true
limitForPeriod: 10
limitRefreshPeriod: 1s
timeoutDuration: 500ms
instances:
notificationService:
baseConfig: default
limitForPeriod: 5
5. Bulkhead Pattern
Apply @Bulkhead to isolate resources. Use type = SEMAPHORE for synchronous methods:
@Service
public class ReportService {
private final ReportGenerator reportGenerator;
public ReportService(ReportGenerator reportGenerator) {
this.reportGenerator = reportGenerator;
}
@Bulkhead(name = "reportService", type = Bulkhead.Type.SEMAPHORE)
public Report generateReport(ReportRequest request) {
return reportGenerator.generate(request);
}
}
Use type = THREADPOOL for async/CompletableFuture methods:
@Service
public class AnalyticsService {
@Bulkhead(name = "analyticsService", type = Bulkhead.Type.THREADPOOL)
public CompletableFuture<AnalyticsResult> runAnalytics(
AnalyticsRequest request) {
return CompletableFuture.supplyAsync(() ->
analyticsEngine.analyze(request));
}
}
Configure in application.yml:
resilience4j:
bulkhead:
configs:
default:
maxConcurrentCalls: 10
maxWaitDuration: 100ms
instances:
reportService:
baseConfig: default
maxConcurrentCalls: 5
thread-pool-bulkhead:
instances:
analyticsService:
maxThreadPoolSize: 8
6. Time Limiter Pattern
Apply @TimeLimiter to async methods to enforce timeout boundaries:
@Service
public class SearchService {
@TimeLimiter(name = "searchService", fallbackMethod = "searchFallback")
public CompletableFuture<SearchResults> search(SearchQuery query) {
return CompletableFuture.supplyAsync(() ->
searchEngine.executeSearch(query));
}
private CompletableFuture<SearchResults> searchFallback(
SearchQuery query, Exception ex) {
return CompletableFuture.completedFuture(
SearchResults.empty("Search timed out"));
}
}
Configure in application.yml:
resilience4j:
timelimiter:
configs:
default:
timeoutDuration: 2s
cancelRunningFuture: true
instances:
searchService:
baseConfig: default
timeoutDuration: 3s
7. Combining Multiple Patterns
Stack multiple patterns on a single method for comprehensive fault tolerance:
@Service
public class OrderService {
@CircuitBreaker(name = "orderService")
@Retry(name = "orderService")
@RateLimiter(name = "orderService")
@Bulkhead(name = "orderService")
public Order createOrder(OrderRequest request) {
return orderClient.createOrder(request);
}
}
Execution order: Retry → CircuitBreaker → RateLimiter → Bulkhead → Method
All patterns should reference the same named configuration instance for consistency.
8. Exception Handling and Monitoring
Create a global exception handler using @RestControllerAdvice:
@RestControllerAdvice
public class ResilienceExceptionHandler {
@ExceptionHandler(CallNotPermittedException.class)
@ResponseStatus(HttpStatus.SERVICE_UNAVAILABLE)
public ErrorResponse handleCircuitOpen(CallNotPermittedException ex) {
return new ErrorResponse("SERVICE_UNAVAILABLE",
"Service currently unavailable");
}
@ExceptionHandler(RequestNotPermitted.class)
@ResponseStatus(HttpStatus.TOO_MANY_REQUESTS)
public ErrorResponse handleRateLimited(RequestNotPermitted ex) {
return new ErrorResponse("TOO_MANY_REQUESTS",
"Rate limit exceeded");
}
@ExceptionHandler(BulkheadFullException.class)
@ResponseStatus(HttpStatus.SERVICE_UNAVAILABLE)
public ErrorResponse handleBulkheadFull(BulkheadFullException ex) {
return new ErrorResponse("CAPACITY_EXCEEDED",
"Service at capacity");
}
}
Enable Actuator endpoints for monitoring resilience patterns in application.yml:
management:
endpoints:
web:
exposure:
include: health,metrics,circuitbreakers,retries,ratelimiters
endpoint:
health:
show-details: always
health:
circuitbreakers:
enabled: true
ratelimiters:
enabled: true
Access monitoring endpoints:
GET /actuator/health- Overall health including resilience patternsGET /actuator/circuitbreakers- Circuit breaker statesGET /actuator/metrics- Custom resilience metrics
Testing & Verification Workflow
-
Circuit Breaker: Call endpoint with failures → check
GET /actuator/circuitbreakersshowsOPEN→ waitwaitDurationInOpenState→ verify state transitions toHALF_OPEN→CLOSED -
Retry: Enable
resilience4j.retry.metrics.enabled: true→ invoke endpoint → verifyretry.{instance}.successful-calls-with-retry-attemptsmetric increases -
Rate Limiter: Send requests exceeding
limitForPeriod→ verify 429 status → checkGET /actuator/ratelimitersshowsLIMITED -
Bulkhead: Load test with concurrent requests exceeding
maxConcurrentCalls→ verify excess requests fail immediately withBulkheadFullException -
Time Limiter: Mock async delay beyond
timeoutDuration→ verify fallback triggers after timeout
See @references/testing-patterns.md for unit and integration testing strategies.
Best Practices
- Provide fallback methods: Ensure graceful degradation with meaningful responses
- Use exponential backoff: Prevent overwhelming recovering services (
exponentialBackoffMultiplier: 2) - Set appropriate thresholds:
failureRateThresholdbetween 50-70% - Use constructor injection: Never use field injection for Resilience4j dependencies
- Enable health indicators: Set
registerHealthIndicator: truefor all patterns - Retry only transient errors: Network timeouts, 5xx; skip 4xx and business exceptions
- Size bulkheads based on load: Calculate thread pool and semaphore sizes from expected concurrency
- Document fallback behavior: Make fallback logic clear and predictable
Constraints and Warnings
- Fallback methods must have the same signature plus an optional exception parameter
- Circuit breaker state is per-instance; ensure proper bean scoping in multi-tenant scenarios
- Retry operations must be idempotent (may execute multiple times)
- Do not use circuit breakers for operations that must always complete; use timeouts instead
- Rate limiters can cause thread blocking; configure appropriate wait durations
- Be cautious with
@Retryon non-idempotent operations like POST requests - Monitor memory when using thread pool bulkheads with high concurrency
Examples
Before → After: Circuit Breaker
// BEFORE: No protection
public PaymentResponse processPayment(PaymentRequest request) {
return restTemplate.postForObject("http://payment-api/process", request, PaymentResponse.class);
}
// AFTER: Circuit breaker with fallback
@CircuitBreaker(name = "paymentService", fallbackMethod = "paymentFallback")
public PaymentResponse processPayment(PaymentRequest request) {
return restTemplate.postForObject("http://payment-api/process", request, PaymentResponse.class);
}
private PaymentResponse paymentFallback(PaymentRequest request, Exception ex) {
return PaymentResponse.builder().status("PENDING").message("Service temporarily unavailable").build();
}
Before → After: Retry with Backoff
// BEFORE: Single attempt
public Order getOrder(Long orderId) {
return orderRepository.findById(orderId).orElseThrow(() -> new OrderNotFoundException(orderId));
}
// AFTER: Retry with exponential backoff
@Retry(name = "orderService", maxAttempts = 3, waitDuration = @WaitDuration(500L), fallbackMethod = "getOrderFallback")
public Order getOrder(Long orderId) {
return orderRepository.findById(orderId).orElseThrow(() -> new OrderNotFoundException(orderId));
}
private Order getOrderFallback(Long orderId, Exception ex) { return Order.cachedOrder(orderId); }
Before → After: Rate Limiting
// BEFORE: Unbounded requests
@GetMapping("/api/data") public Data fetchData() { return dataService.process(); }
// AFTER: Rate limited
@RateLimiter(name = "dataService", fallbackMethod = "rateLimitFallback")
@GetMapping("/api/data") public Data fetchData() { return dataService.process(); }
private ResponseEntity<ErrorResponse> rateLimitFallback(Exception ex) {
return ResponseEntity.status(429).body(new ErrorResponse("TOO_MANY_REQUESTS", "Rate limit exceeded"));
}
See also: Configuration Reference · Testing Patterns · Examples · Resilience4j Docs · Actuator Skill