But my decorator is never hit!
That's correct. To understand why this is the case, it's best to visualize the object graph that you wish to be constructed:
new CachedCachedQueryDecorator<Task<List<Asset>>, User>(
PRO TIP: For many DI-related problems, it is very useful to construct the required object graph in plain C#, as the previous code snippet shows. This presents you with a clear mental model. This not only is a useful model for yourself, it is a useful way of communicating to others what it is you are trying to achieve. This is often much harder to comprehend when just showing DI registrations.
If you try this, however, this code won't compile. It won't compile because
GetTagsForUserQuery requires a
GetAssetsForUserQuery in its constructor, but a
CachedCachedQueryDecorator<Task<List<Asset>>, User> is not a
GetTagsForUserQuery—they are both an
ICachedQuery<Task<List<Asset>>, User>, but that's not what
Because of this, it is technically impossible to wrap
GetAssetsForUserQuery with a
CachedCachedQueryDecorator and inject that decorator into
GetTagsForUserQuery. And the same holds when you would be resolving
GetAssetsForUserQuery directly from Simple Injector like this:
GetAssetsForUserQuery query = container.GetInstance<GetAssetsForUserQuery>();
In this case you are requesting a
GetAssetsForUserQuery from the container, and this type is compile-time enforced. Also in this case it is impossible to wrap
GetAssetsForUserQuery with the decorator while preserving
What would work, though, is requesting the type by its abstraction:
ICachedQuery<Task<List<Asset>>, User> query =
In this case, you are requesting an
ICachedQuery<Task<List<Asset>>, User> and the container is free to return you any type, as long as it implements
Same holds for your
GetTagsForUserQuery. Only when you let it depend on
ICachedQuery<,>, makes it possible to decorate it. The solution is, therefore, to register
GetAssetsForUserQuery by its abstraction:
Container.Register<ICachedQuery<Task<List<Asset>>, User>, GetAssetsForUserQuery>();
But please note the following things:
- Whether or not your queries (I typically call them the 'handlers', but what's in the name) are cacheable or not is an implementation detail. You shouldn't have to define a different abstraction for cacheable queries, and consumers shouldn't have to be aware of that.
- Instead of exposing a separate
CacheStringKey, instead use the
P args as the cache key. This can be done, for instance, by serializing the
args to a JSON object. This makes caching more transparent. In case the
args object is very complex, the number of cache entries will be too big anyway, so you typically only want to cache results of very simple
- Whether or not to cache, is rather an implementation detail that either should be incorporated in the Composition Root, or part of the query (handler) implementation. I typically do this by marking that implementation with an attribute, but an interface can work as well. You can then apply the decorator conditionally.
- Prevent supplying full blown entities both as input and as output for your query (handlers). Instead use seperate data-centric POCOs (like DTOs). What does it mean to send a
User as input? It's much clearer, though, when you send a
GetAllUserAssets object. That
GetAllUserAssets can probable just contain a
UserId property. This makes it very easy to turn this object into a cachable entry. The same holds for output objects. Entities are very hard to cache reliably. This is much easier with POCOs or DTOs. They can be serialized with much less effort and risk.
I've written about CQRS-styled architectures in the past myself. See for instance this article. That article explains some of the points summed up above.