| name | dependency-injection |
| description | Dependency injection patterns for .NET 10. Covers service lifetimes, keyed services, the decorator pattern, factory pattern, and common DI pitfalls. Load this skill when registering services, resolving lifetime issues, designing service composition, or when the user mentions "DI", "dependency injection", "service registration", "AddScoped", "AddTransient", "AddSingleton", "keyed services", "decorator", "Scrutor", "IServiceCollection", or "captive dependency".
|
Dependency Injection
Core Principles
- Constructor injection is the default — Inject dependencies through the constructor (primary constructors make this clean). No service locator, no property injection.
- Match lifetimes carefully — A singleton must never depend on a scoped or transient service. This is the most common DI bug.
- Register interfaces, resolve interfaces — Register
services.AddScoped<IOrderService, OrderService>(), not the concrete type.
- Keyed services for strategy pattern — .NET 8+ keyed services replace manual factory patterns for selecting between implementations.
Patterns
Keyed Services (.NET 8+)
Use keyed services to register and resolve multiple implementations of the same interface.
builder.Services.AddKeyedScoped<INotificationService, EmailNotificationService>("email");
builder.Services.AddKeyedScoped<INotificationService, SmsNotificationService>("sms");
builder.Services.AddKeyedScoped<INotificationService, PushNotificationService>("push");
public class OrderHandler([FromKeyedServices("email")] INotificationService notifier)
{
public async Task Handle(CreateOrder.Command command, CancellationToken ct)
{
await notifier.SendAsync(notification, ct);
}
}
public class NotificationRouter(IServiceProvider provider)
{
public INotificationService GetService(string channel)
{
return provider.GetRequiredKeyedService<INotificationService>(channel);
}
}
Decorator Pattern
public interface IOrderService
{
Task<Result<Order>> CreateAsync(CreateOrderRequest request, CancellationToken ct);
}
public class OrderService(AppDbContext db, TimeProvider clock) : IOrderService
{
public async Task<Result<Order>> CreateAsync(CreateOrderRequest request, CancellationToken ct)
{
var order = Order.Create(request, clock.GetUtcNow());
db.Orders.Add(order);
await db.SaveChangesAsync(ct);
return Result.Success(order);
}
}
public class LoggingOrderService(IOrderService inner, ILogger<LoggingOrderService> logger) : IOrderService
{
public async Task<Result<Order>> CreateAsync(CreateOrderRequest request, CancellationToken ct)
{
logger.LogInformation("Creating order for customer {CustomerId}", request.CustomerId);
var result = await inner.CreateAsync(request, ct);
if (result.IsSuccess)
logger.LogInformation("Order {OrderId} created", result.Value.Id);
return result;
}
}
builder.Services.AddScoped<IOrderService, OrderService>();
builder.Services.Decorate<IOrderService, LoggingOrderService>();
Registration by Convention (Scrutor)
builder.Services.Scan(scan => scan
.FromAssemblyOf<Program>()
.AddClasses(classes => classes.AssignableTo<ITransientService>())
.AsImplementedInterfaces()
.WithTransientLifetime()
.AddClasses(classes => classes.AssignableTo<IScopedService>())
.AsImplementedInterfaces()
.WithScopedLifetime());
Factory Pattern
When you need runtime logic to select an implementation.
builder.Services.AddScoped<IPaymentProcessor>(sp =>
{
var config = sp.GetRequiredService<IOptions<PaymentOptions>>().Value;
return config.Provider switch
{
"stripe" => ActivatorUtilities.CreateInstance<StripeProcessor>(sp),
"paypal" => ActivatorUtilities.CreateInstance<PayPalProcessor>(sp),
_ => throw new InvalidOperationException($"Unknown payment provider: {config.Provider}")
};
});
Options Registration
builder.Services.AddOptions<JwtOptions>()
.BindConfiguration("Jwt")
.ValidateDataAnnotations()
.ValidateOnStart();
public class TokenService(IOptions<JwtOptions> options)
{
private readonly JwtOptions _jwt = options.Value;
}
Anti-patterns
Don't Capture Scoped Services in Singletons
builder.Services.AddSingleton<OrderCache>();
public class OrderCache(IServiceScopeFactory scopeFactory)
{
public async Task<Order?> GetAsync(Guid id)
{
await using var scope = scopeFactory.CreateAsyncScope();
var db = scope.ServiceProvider.GetRequiredService<AppDbContext>();
return await db.Orders.FindAsync(id);
}
}
Don't Register Everything as Singleton
builder.Services.AddSingleton<OrderService>();
builder.Services.AddScoped<OrderService>();
Decision Guide
| Scenario | Recommendation |
|---|
| Stateless service | Scoped (default) or Transient |
| Configuration / cache | Singleton |
| DbContext | Scoped (registered by AddDbContext) |
| Multiple implementations | Keyed services (strategy pattern) |
| Cross-cutting behavior | Decorator pattern |
| Convention-based registration | Scrutor |
| Runtime implementation selection | Factory delegate |
| Strongly-typed config | AddOptions<T>().BindConfiguration() |