There's this software, X, which has this really complicated API that I have to write a facade for. I wrote a class library,
XClientLibrary, and I made it using DI and IoC container (Unity). This was possible because my library exports services (interfaces) so users are not aware of the concrete classes which use constructor DI. They're also unaware of the IoC container.
The "root service" is a
IXClient instance which is supposed to be created once and used as long as the application runs. (It is a desktop application btw). The X-client allows users to connect to X-hosts if they know the URL. A X-host allows users to access host's services and their services and so on (quite a complex object graph). This is sample user code:
// 1. app startup XClientProvider provider = new XClientProvider(); // call only once per app IXClient xClient = provider.GetClient(); // always returns the same instance xClient.Startup(); // 2. app normal usage IXHost host = xClient.ConnectToHost(new Uri("http://localhost")); // return new instance each time IXService1 service = host.GetThis(); IXService2 otherService = service.DoThat(); ... host.Dispose(); // get another host, consume it, dispose it, etc ... // 3. app shutdown xClient.Shutdown(); provider.Dispose();
I tried to follow Mark Seemann's suggestions to implement this, but I'm not sure if they apply to a class library too. The client provider is the composition root, which is the only place where the IoC container is used. The composition root follows the RRR pattern:
- the container is created on
new XClientProvider()and configured
- the container resolves
- the container is disposed on
Things get complicated when the container is asked to resolve
IXHost. Its implementation is:
internal class XHost : IXHost public XHost(Uri uri, IXService1 service1)
The client is supposed to create
XHost instances, so its implementation needs to know how to create
internal class XClient : IXClient public XClient(Func<IXService1> xService1DelegateFactory)
Invoking the delegate factory reaches the container which creates a
IXService1. Also, let's say that in this graph there is a class
XComponent7 which requires the exact
IXService1 instance which was used to create the host:
internal class XComponent7 : IXService7 public XComponent7(Func<IXService1> service1DelegateFactory)
I have to use
Func to deal with the circular dependency. The container should be configured such that once a
IXService1 was resolved, it will provide the same instance whenever asked to resolve
Now it gets really complicated. I want to restrict this behavior "per host resolve", meaning once a host is created the container should create a
IXService1 and cache it and provide it to whatever component needs it, as long as the component is part of the object graph of the host. I also need a way to dispose all components when a host is disposed.
I was thinking I can do it using child containers. I can create one when users call
ConnectToHost, ask it to resolve the host and dispose it on host disposal. The main container is still alive and won't be disposed until they call
Dispose on the provider.
Problem is, I think it breaks the RRR pattern. So I wonder how RRR works when child container are involved... Maybe the
IXHost is another "root" which can be directly resolved by the composition root? Or maybe there's a really smart Unity lifetime manager which can do what I need?