I have been looking around for a non Parameter injection option for the WebApi attributes.
My question is simply whether this is actually possible using Structuremap?
I have been googling around but keep coming up with either property injection (which I prefer not to use) or supposed implementations of constructor injection that I have thus far been unable to replicate.
My container of choice is Structuremap however any example of this will suffice as I am able to convert it.
Anyone ever managed this?
Yes, it is possible. You (like most people) are being thrown by Microsoft's marketing of Action Filter Attributes, which are conveniently put into a single class, but not at all DI-friendly.
The solution is to break the Action Filter Attribute into 2 parts as demonstrated in this post:
The approach is to use the IActionFilter to test for the presence of the attribute, and then execute the desired behavior. The action filter can be supplied with all dependencies (through the constructor) and then injected when the application is composed.
IConfigProvider provider = new WebConfigProvider();
IActionFilter filter = new MaxLengthActionFilter(provider);
config.Filters.Add(filter);
NOTE: If you need any of the filter's dependencies to have a lifetime shorter than singleton, you will need to use a
GlobalFilterProvider
as in this answer.
To wire this up with StructureMap, you will need to return an instance of the container from your DI configuration module. The Application_Start method is still part of the composition root, so you can use the container anywhere within this method and it is still not considered a service locator pattern. Note that I don't show a complete WebApi setup here, because I am assuming you already have a working DI configuration with WebApi. If you need one, that is another question.
public class DIConfig()
{
public static IContainer Register()
{
// Create the DI container
var container = new Container();
// Setup configuration of DI
container.Configure(r => r.AddRegistry<SomeRegistry>());
// Add additional registries here...
#if DEBUG
container.AssertConfigurationIsValid();
#endif
// Return our DI container instance to the composition root
return container;
}
}
public class MvcApplication : System.Web.HttpApplication
{
protected void Application_Start()
{
// Hang on to the container instance so you can resolve
// instances while still in the composition root
IContainer container = DIConfig.Register();
AreaRegistration.RegisterAllAreas();
// Pass the container so we can resolve our IActionFilter
WebApiConfig.Register(GlobalConfiguration.Configuration, container);
FilterConfig.RegisterGlobalFilters(GlobalFilters.Filters);
RouteConfig.RegisterRoutes(RouteTable.Routes);
BundleConfig.RegisterBundles(BundleTable.Bundles);
AuthConfig.RegisterAuth();
}
}
public static class WebApiConfig
{
// Add a parameter for IContainer
public static void Register(HttpConfiguration config, IContainer container)
{
config.Routes.MapHttpRoute(
name: "DefaultApi",
routeTemplate: "api/{controller}/{id}",
defaults: new { id = RouteParameter.Optional }
);
// Uncomment the following line of code to enable query support for actions with an IQueryable or IQueryable<T> return type.
// To avoid processing unexpected or malicious queries, use the validation settings on QueryableAttribute to validate incoming queries.
// For more information, visit http://go.microsoft.com/fwlink/?LinkId=279712.
//config.EnableQuerySupport();
// Add our action filter
config.Filters.Add(container.GetInstance<IMaxLengthActionFilter>());
// Add additional filters here that look for other attributes...
}
}
The implementation of MaxLengthActionFilter would look something like this:
// Used to uniquely identify the filter in StructureMap
public interface IMaxLengthActionFilter : System.Web.Http.Filters.IActionFilter
{
}
public class MaxLengthActionFitler : IMaxLengthActionFilter
{
public readonly IConfigProvider configProvider;
public MaxLengthActionFilter(IConfigProvider configProvider)
{
if (configProvider == null)
throw new ArgumentNullException("configProvider");
this.configProvider = configProvider;
}
public Task<HttpResponseMessage> ExecuteActionFilterAsync(
HttpActionContext actionContext,
CancellationToken cancellationToken,
Func<Task<HttpResponseMessage>> continuation)
{
var attribute = this.GetMaxLengthAttribute(filterContext.ActionDescriptor);
if (attribute != null)
{
var maxLength = attribute.MaxLength;
// Execute your behavior here (before the continuation),
// and use the configProvider as needed
return continuation().ContinueWith(t =>
{
// Execute your behavior here (after the continuation),
// and use the configProvider as needed
return t.Result;
});
}
return continuation();
}
public bool AllowMultiple
{
get { return true; }
}
public MaxLengthAttribute GetMaxLengthAttribute(ActionDescriptor actionDescriptor)
{
MaxLengthAttribute result = null;
// Check if the attribute exists on the action method
result = (MaxLengthAttribute)actionDescriptor
.GetCustomAttributes(typeof(MaxLengthAttribute), false)
.SingleOrDefault();
if (result != null)
{
return result;
}
// Check if the attribute exists on the controller
result = (MaxLengthAttribute)actionDescriptor
.ControllerDescriptor
.GetCustomAttributes(typeof(MaxLengthAttribute), false)
.SingleOrDefault();
return result;
}
}
And, your attribute which should not contain any behavior should look something like this:
// This attribute should contain no behavior. No behavior, nothing needs to be injected.
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Class, AllowMultiple = false)]
public class MaxLengthAttribute : Attribute
{
public MaxLengthAttribute(int maxLength)
{
this.MaxLength = maxLength;
}
public int MaxLength { get; private set; }
}