I have a data cache class (that uses the MemoryCache class).

The basic function of this class is to cache reference data. To get this reference data it needs an instance of an Entity Framework dbContext. This gets passed in by dependency injection (Simple Injector).

But this dbContext has a lifecycle of "per call" (AsyncScopedLifestyle). So to satisify this I put the call to setup the cache in a "scope" that expires after the call.

The cache gets invalidated every 2 hours and is re-queried. Unsurprisingly, the dbContext has been cleaned up by then (because it went out of the scope).

I can think of ways to get around this issue. But I want to know if there is a pattern I should be following for this kind of issue. (Most of my solutions have me passing the container into my cache class. But that seems to be a violation of several DI patterns.)

Anyone know of a design pattern to use when you have a reoccurring need for an injection inside of a class?

A bit more background:

  • My cache class (called DataCache) gets the context from constructor injection.
  • The call to set it up is made from the Configure method in Startup.cs. This looks like this:


using (AsyncScopedLifestyle.BeginScope(container))
    // Setup the long lived data caching
    var dataCache = container.GetInstance<DataCache>();
  • It sets the MemoryCache to expire the data in the cache after two hours. But the injected context is long cleaned up by then.
  • What does the data cache class look like? Where does it get the context from and how? In any case, it should request a context only when it needs to load new data. When that happens, it needs to create a scope to get that per-call context. – Panagiotis Kanavos Sep 26 '19 at 16:12
  • Check Consuming a scoped service in a background task. The problem is similar. – Panagiotis Kanavos Sep 26 '19 at 16:15
  • Can you not use a BackgroundService that is set up via AddHostedService that runs in the background periodically refreshing the cache? The DBContext could be injected into the BackgroundService and thus be available outside the scope of an individual request. – strickt01 Sep 26 '19 at 16:16

I see two general solutions here:

  1. Move the cache that the DataCache manages out of that class, in such way that MyCacheClass can become Scoped. This seams a no-brainer as this is likely what MemoryCache is for. Memory cache is likely a Singleton.
  2. Move DataCache into the Composition Root so it can safely depend on the container (or a container abstraction), without falling into Service Locator anti-pattern trap.

The first solution can be applied in multiple ways. Perhaps it's a matter of defining the cache in a static field:

public class DataCache
    private static ConcurrentDictionary<string, object> cache;

And in case you inject MemoryCache as storage provider for your data, it will contain the cache, and the lifestyle of DataCache becomes irrelevant:

public class DataCache
    public DataCache(MyContext context, IMemoryCache cache)

If, however, DataCache needs to be injected into Singleton consumers, it itself needs to be Singleton. This disallows this approach, as MyContext needs to be Scoped, to prevent Captive Dependencies. For that you can use solution 2.

With solution to, you ensure that DataCache is created inside your Composition Root. This forces you to hide DataCache behind an abstraction, e.g. IDataCache. This abstraction can be placed in a location that allows consumers to depend on, while the DataCache implementation will be completely hidden inside the Composition Root. At that location it becomes safe to depend on the DI Container.

// Part of the Composition Root
sealed class DataCache: IDataCache
    public DataCache(Container container, IMemoryCache cache) ...

    public ProductData GetProductByKey(string key)
        if (key not in cache)
            using (AsyncScopedLifestyle.BeginScope(this.container))
                var context = container.GetInstance<MyContext>();
                var p = context.Products.SingleOrDefault(p => p.Key == key);
                var data = new ProductData(p);
                AddProductToCache(key, data);
                return data;
  • This worked well (Option 2). The key part I was missing was the "Composition Root" concept. I felt like I was doing it wrong to pass the container into my DataCache. But I abstracted DataCache behind an interface (IDataCache) for the rest of the application and it seems clean. Thank you! – Vaccano Sep 26 '19 at 22:15

You should rely on DI the whole way. In other words, if the cache class needs the context, then that's a dependency, and should be injected as such:

public class MyCacheClass
    private readonly MyContext _context;

    public MyCacheClass(MyContext context)
        _context = context;


That of course assumes the cache class has a scoped lifetime as well, which there's really no reason it shouldn't, since it interacts with scoped dependencies. However, if for some reason you need it to have a singleton lifetime, then you can simply inject IServiceProvider and then create a scope and pull out the context when you need it:

using (var scope = _serviceProvider.CreateScope())
    var context = scope.ServiceProvider.GetRequiredService<MyContext>();
    // do something with context

If you're using a static class, don't.

  • Sorry to downvote you although the answer is nicely written. I really don't like the (ab)use of the service locator here. Service locator is anti pattern because there is always a better solution. And although asp.net core is tagged the question is not really related to IServiceProvider. – Ric .Net Sep 26 '19 at 16:53
  • 1
    That's not what the down vote is for. And, when you have a Singleton class, that's your only option. There is no better alternative. As I said in my answer, it would be better to use a scoped lifetime. – Chris Pratt Sep 26 '19 at 16:56
  • Also it is, because regardless of what DI container you use, it still uses the Microsoft.Extensions.DependencyInjection facades. – Chris Pratt Sep 26 '19 at 16:57
  • My cache runs in a singleton lifetime. Because it just hangs around trying to prevent slower calls. If it gets re-created for each scope instance (ie each call), then there would be no point in having the cache. But the context it uses (to get the reference data) is scoped for each call, because that is its primary use. Maybe I should make a separate EF Core dbContext that is use used for calls to get the cache data? And make that one have a singleton scope too? – Vaccano Sep 26 '19 at 17:22
  • 1
    Ric is referring to is the Service Locator (SL) anti-pattern, and SL is a bad idea. It's important to note, however, that whether or not this code example is an implementation of SL, depends on where MyCacheClass is declared. Depending on IServiceProvider is fine, long as MyCacheClass is part of the Composition Root. My main criticism to Chris’ answer is that it lacks the warning that MyCacheClass must become part of the Composition Root. – Steven Sep 26 '19 at 18:39

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