| name | resilience |
| description | Resilience patterns for .NET 10 applications using Polly v8. Covers retry, circuit breaker, timeout, fallback, rate limiter, hedging, and composing resilience pipelines. Load this skill when implementing retry logic, circuit breakers, handling transient failures, or when the user mentions "Polly", "resilience", "retry", "circuit breaker", "timeout", "fallback", "rate limit", "hedging", "transient fault", "HttpClient resilience", or "resilience pipeline".
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Resilience
Core Principles
- Polly v8 resilience pipelines, not v7 policies — Polly v8 replaced
Policy with ResiliencePipeline. Never use PolicyBuilder, Policy.Handle<>(), or ISyncPolicy. The new API is composable, type-safe, and integrates natively with IHttpClientFactory.
- Configure via
AddResilienceHandler, not manual wrapping — For HTTP calls, use Microsoft.Extensions.Http.Resilience which adds pipelines directly to HttpClient via DI. No manual ExecuteAsync wrapping.
- Compose strategies, don't nest them — A single
ResiliencePipeline can chain retry + circuit breaker + timeout. Strategies execute outer-to-inner (first added = outermost). No need for nested try/catch or manual orchestration.
- Always set timeouts — Every external call needs a timeout. Use Polly's
AddTimeout() as the innermost strategy so it applies per-attempt, and optionally an outer timeout for total elapsed time.
- Instrument everything — Polly v8 emits
Metering events and supports TelemetryOptions for OpenTelemetry. Use them to monitor retry rates, circuit breaker state, and timeout frequency.
Patterns
HTTP Client Resilience (Recommended Default)
builder.Services.AddHttpClient<IPaymentGateway, PaymentGatewayClient>(client =>
{
client.BaseAddress = new Uri("https://api.payments.example.com");
})
.AddStandardResilienceHandler();
Why: AddStandardResilienceHandler() from Microsoft.Extensions.Http.Resilience applies production-ready defaults. Override only when you need different thresholds.
Custom HTTP Resilience Configuration
builder.Services.AddHttpClient<ICatalogService, CatalogServiceClient>(client =>
{
client.BaseAddress = new Uri("https://api.catalog.example.com");
})
.AddResilienceHandler("catalog", builder =>
{
builder.AddTimeout(TimeSpan.FromSeconds(15));
builder.AddRetry(new HttpRetryStrategyOptions
{
MaxRetryAttempts = 3,
BackoffType = DelayBackoffType.Exponential,
UseJitter = true,
Delay = TimeSpan.FromMilliseconds(500),
ShouldHandle = static args => ValueTask.FromResult(
args.Outcome.Result?.StatusCode is HttpStatusCode.RequestTimeout
or HttpStatusCode.TooManyRequests
or HttpStatusCode.ServiceUnavailable
|| args.Outcome.Exception is HttpRequestException)
});
builder.AddCircuitBreaker(new HttpCircuitBreakerStrategyOptions
{
FailureRatio = 0.5,
SamplingDuration = TimeSpan.FromSeconds(10),
MinimumThroughput = 10,
BreakDuration = TimeSpan.FromSeconds(30)
});
builder.AddTimeout(TimeSpan.FromSeconds(5));
});
Why: Named resilience handlers let you tune per-service. The order matters: total timeout > retry > circuit breaker > attempt timeout.
Non-HTTP Resilience Pipeline
builder.Services.AddResiliencePipeline("database", builder =>
{
builder
.AddRetry(new RetryStrategyOptions
{
MaxRetryAttempts = 3,
BackoffType = DelayBackoffType.Exponential,
Delay = TimeSpan.FromMilliseconds(200),
ShouldHandle = new PredicateBuilder()
.Handle<TimeoutException>()
.Handle<InvalidOperationException>(ex =>
ex.Message.Contains("deadlock", StringComparison.OrdinalIgnoreCase))
})
.AddTimeout(TimeSpan.FromSeconds(10));
});
public sealed class OrderRepository(
AppDbContext db,
[FromKeyedServices("database")] ResiliencePipeline pipeline)
{
public async Task<Order?> GetByIdAsync(Guid id, CancellationToken ct)
{
return await pipeline.ExecuteAsync(
async token => await db.Orders.FindAsync([id], token),
ct);
}
}
Why: AddResiliencePipeline registers a named pipeline in DI. Inject with [FromKeyedServices] for clean, testable code.
Typed Resilience Pipeline
builder.Services.AddResiliencePipeline<string, HttpResponseMessage>("external-api", builder =>
{
builder
.AddFallback(new FallbackStrategyOptions<HttpResponseMessage>
{
FallbackAction = static args =>
{
var response = new HttpResponseMessage(HttpStatusCode.OK)
{
Content = new StringContent("{\"status\":\"degraded\",\"data\":[]}")
};
return Outcome.FromResultAsValueTask(response);
},
ShouldHandle = static args => ValueTask.FromResult(
args.Outcome.Exception is not null
|| args.Outcome.Result?.IsSuccessStatusCode == false)
})
.AddRetry(new RetryStrategyOptions<HttpResponseMessage>
{
MaxRetryAttempts = 2,
Delay = TimeSpan.FromMilliseconds(500)
})
.AddTimeout(TimeSpan.FromSeconds(5));
});
Why: Typed pipelines let you add fallback strategies that return a default value when all retries are exhausted — critical for graceful degradation.
Hedging (Parallel Requests)
builder.Services.AddHttpClient<ISearchService, SearchServiceClient>()
.AddResilienceHandler("search-hedging", builder =>
{
builder.AddHedging(new HttpHedgingStrategyOptions
{
MaxHedgedAttempts = 2,
Delay = TimeSpan.FromMilliseconds(500)
});
builder.AddTimeout(TimeSpan.FromSeconds(3));
});
Why: Hedging sends a parallel request if the first hasn't responded within the delay. Use for latency-sensitive reads where you can tolerate duplicate work.
Telemetry Integration
builder.Services.AddResiliencePipeline("monitored", (builder, context) =>
{
builder
.AddRetry(new RetryStrategyOptions { MaxRetryAttempts = 3 })
.AddCircuitBreaker(new CircuitBreakerStrategyOptions())
.AddTimeout(TimeSpan.FromSeconds(10));
builder.TelemetryListener = new TelemetryOptions
{
LoggerFactory = context.ServiceProvider.GetRequiredService<ILoggerFactory>()
}.TelemetryListener;
});
builder.Services.AddOpenTelemetry()
.WithMetrics(metrics => metrics.AddMeter("Polly"));
Rate Limiting (.NET Built-in)
.NET provides built-in rate limiting middleware via AddRateLimiter() — no external packages needed. Algorithms: AddFixedWindowLimiter, AddSlidingWindowLimiter, AddTokenBucketLimiter, AddConcurrencyLimiter.
builder.Services.AddRateLimiter(options =>
{
options.AddFixedWindowLimiter("fixed", opt =>
{
opt.PermitLimit = 100;
opt.Window = TimeSpan.FromSeconds(60);
opt.QueueLimit = 0;
});
options.OnRejected = async (context, ct) =>
{
context.HttpContext.Response.StatusCode = StatusCodes.Status429TooManyRequests;
if (context.Lease.TryGetMetadata(MetadataName.RetryAfter, out var retryAfter))
context.HttpContext.Response.Headers.RetryAfter =
((int)retryAfter.TotalSeconds).ToString();
await context.HttpContext.Response.WriteAsJsonAsync(
new ProblemDetails { Title = "Too many requests", Status = 429 }, ct);
};
});
app.UseRateLimiter();
app.MapGet("/api/orders", ListOrders).RequireRateLimiting("fixed");
Anti-patterns
BAD: Using Polly v7 API
var retryPolicy = Policy
.Handle<HttpRequestException>()
.WaitAndRetryAsync(3, attempt => TimeSpan.FromSeconds(Math.Pow(2, attempt)));
var response = await retryPolicy.ExecuteAsync(() => httpClient.GetAsync("/api/data"));
GOOD: Polly v8 Resilience Pipeline
builder.Services.AddHttpClient<IDataService, DataServiceClient>()
.AddStandardResilienceHandler();
BAD: Wrapping Every Call Manually
public async Task<Order> GetOrderAsync(Guid id)
{
try
{
return await _pipeline.ExecuteAsync(async ct =>
await _httpClient.GetFromJsonAsync<Order>($"/orders/{id}", ct));
}
catch (TimeoutRejectedException)
{
return Order.Empty;
}
catch (BrokenCircuitException)
{
return Order.Empty;
}
}
GOOD: Pipeline Handles Everything via HttpClient DI
public async Task<Order?> GetOrderAsync(Guid id, CancellationToken ct)
{
var response = await _httpClient.GetAsync($"/orders/{id}", ct);
if (!response.IsSuccessStatusCode) return null;
return await response.Content.ReadFromJsonAsync<Order>(ct);
}
BAD: Retry on Non-Idempotent Operations
builder.AddRetry(new RetryStrategyOptions
{
MaxRetryAttempts = 5
});
GOOD: Retry Only Idempotent Operations or Use Idempotency Keys
builder.AddRetry(new HttpRetryStrategyOptions
{
MaxRetryAttempts = 3,
ShouldHandle = static args => ValueTask.FromResult(
args.Outcome.Result?.StatusCode is HttpStatusCode.RequestTimeout
or HttpStatusCode.ServiceUnavailable)
});
httpClient.DefaultRequestHeaders.Add("Idempotency-Key", Guid.NewGuid().ToString());
BAD: Circuit Breaker Without Monitoring
builder.AddCircuitBreaker(new CircuitBreakerStrategyOptions());
GOOD: Circuit Breaker with Telemetry
builder.Services.AddOpenTelemetry()
.WithMetrics(metrics => metrics.AddMeter("Polly"));
Decision Guide
| Scenario | Strategy | Configuration |
|---|
| HTTP calls to external APIs | AddStandardResilienceHandler() | Use defaults, override only specific thresholds |
| HTTP with custom thresholds | AddResilienceHandler("name", ...) | Named handler with per-service tuning |
| Database / EF Core calls | AddResiliencePipeline("db", ...) | Retry on deadlock/timeout, no circuit breaker |
| Message queue publishing | AddResiliencePipeline("mq", ...) | Retry with exponential backoff, timeout |
| Latency-sensitive reads | AddHedging(...) | Parallel request after delay threshold |
| Graceful degradation | AddFallback(...) | Return cached/default value on total failure |
| Per-attempt time limit | AddTimeout(...) innermost | 2-10s depending on operation |
| Total operation time limit | AddTimeout(...) outermost | Sum of all retries + buffer |
| Non-idempotent writes | Retry with idempotency key | Or no retry — fail fast |
| Read-heavy microservice | Standard handler + hedging | Low latency with redundancy |
| API rate limiting | AddRateLimiter() + RequireRateLimiting() | Fixed, sliding, or token bucket per endpoint |