Yes, the default life time for
DbContext is scoped. This is intended this way.
DbContext is pretty cheap and it makes sure that the your do not use to many resources. If you'd have a
DbContext with a singleton lifetime, then all records that you read once will be tracked by the
DbContext, unless you specifically disable tracking. This will require much more memory usage and it will keep growing.
And the more the
DbContext tracks, the lower the performance will be. That's why you often see
DbContext only used within a
using(var context = new AppDbContext()) block.
In web applications however, using the
using block is bad, because the lifetime is managed by the framework and if you dispose it to early the calls after that will fail with an exception.
If you use transient lifetime on the other side, you will lose the "transaction" functionality. With scoped, the
DbContext has a transaction scope that's as long as the request.
If you need more fine-grained control, you have to use the Unit of Work pattern (which
DbContext already kind of utilize).
For your second question:
If you create a service, it must have a lifetime that's equal to the one of the scope or shorter (read: Scoped or transient).
If you explicitly need a longer life-time for a service, you should inject a
DbContext factory service or factory method into your service.
You can accomplish this with something like
services.AddTransient<Func<AppDbContext>>( (provider) => new Func<MyDbContext>( () => new AppDbContext()));
And your service may look like this:
public class MySingletonService : IMySingletonService, IDisposable
private readonly AppDbContext context;
public MySingletonService(Func<AppDbContext> contextFactory)
if(contextFactory == null)
throw new ArgumentNullException(nameof(contextFactory));
// it creates an transient factory, make sure to dispose it in `Dispose()` method.
// Since it's member of the MySingletonService, it's lifetime
// is effectively bound to it.
context = contextFactory();