I'm trying to add logging with aspect orientated programming using castle windsor in plain asp.net, i.e. not MVC
I've added a class that implements the IInterceptor interface and an attribute that inherits from Attribute.
public class LogAttribute : Attribute
{
public Level LogLevel { get; set; }
public LogAttribute(Level level)
{
LogLevel = level;
}
}
public class LoggingInterceptor : IInterceptor
{
public void Intercept(IInvocation invocation)
{
MethodInfo mi = invocation.Method;
LogAttribute[] atts = (LogAttribute[])mi.GetCustomAttributes(typeof(LogAttribute), true);
// if method not marked with InternalUseRestricted attribute, then pass on call
if (atts.Length == 0)
{
invocation.Proceed();
}
else
{
ISeiLogger log = LoggerFactory.GetLogger(mi.DeclaringType.ToString());
//assume only one logging attribute
//log on entry
log.LogEnter(atts[0].LogLevel);
//allow code to continue
invocation.Proceed();
//log on exit
log.LogExit(atts[0].LogLevel);
}
}
}
Now in the global.asax.cs I've added the following:
public partial class Global : System.Web.HttpApplication, IoCProvider
{
private void InitializeIoC()
{
container = new WindsorContainer();
container.Install(new Sei.Aspect.AspectInstaller());
}
public IWindsorContainer Container
{
get { return container; }
}
private static Sei.Logging.ISeiLogger log;
private IWindsorContainer container;
public override void Init()
{
base.Init();
InitializeIoC();
}
and I've created an installer class:
public class AspectInstaller : IWindsorInstaller
{
public void Install(IWindsorContainer container, IConfigurationStore store)
{
//container.Register(AllTypes.FromAssembly(Assembly.GetExecutingAssembly()).BasedOn<IInterceptor>().Configure(component => component.LifeStyle.PerWebRequest));
container.Register(Component.For<IInterceptor>().ImplementedBy<LoggingInterceptor>().LifeStyle.PerWebRequest);
container.Register(Component.For<IInterceptor>().ImplementedBy<InternalUseRestrictedInterceptor>().LifeStyle.PerWebRequest);
container.Register(Component.For<IInterceptor>().ImplementedBy<CachingInterceptor>().LifeStyle.PerWebRequest);
}
}
I now want to add the attribute to some arbitary page's code behind class and some arbitary virtual method, as in
[Log(Level.Info)]
protected string Login(string username, string password)
{
DoSomething();
}
This obviously doesn't work. Do I need to change the way I'm instantiating the page (its a page's code-behind class) to use a container? Or is it the way I'm registering the interceptors? I want to be able to use the interceptors on any class going forward and not have to tell the container about each and every class that I have in my application.
Short answer: it's not possible.
Long answer: due to the way ASP.NET Web Forms works, it doesn't let anyone interfere with the page instantiation. Some claim that using a custom PageHandlerFactory lets you do IoC, but this only lets you set properties after the page has been instantiated, which is simply not enough for proxying.
So runtime proxy libraries such as DynamicProxy or LinFu can't do anything about this. But you may be able to use compile-time aspect weavers, such as PostSharp.
Alternatively, make your code-behind as slim as possible, deferring actual logic to Windsor-managed components.
Related
How can I access some ViewBag properties across all my views? I want to have some information like current user name, etc accessible everywhere, but without having to to specifically define the properties in each ActionResult method on my project
The best and straight forward way to accomplish your requirement is to make a Custom Base Controller and inherit your Controller from this Base Controller.
public class MyBaseController : Controller
{
protected override void OnActionExecuting(ActionExecutingContext filterContext)
{
ViewBag.someThing = "someThing"; //Add whatever
base.OnActionExecuting(filterContext);
}
}
Now instead of inheriting Controller class,inherit MyBaseController in your Controller as shown :-
public class MyOtherController : MyBaseController
{
public ActionResult MyOtherAction()
{
//Your Stuff
return View();
}
//Other ActionResults
}
You can achieve what you want in a number of ways, each one with their pros and cons.
1. With a Base Class
public class BaseController : Controller
{
protected override ViewResult View(IView view, object model)
{
this.ViewBag.MyProperty = "value";
return base.View(view, model);
}
}
PROS: Quite simple to implement, few lines of code, highly reusable, can be opted-out at will (see comments below).
CONS: Being forced to derive all your controllers from a base class might have some impact, especially if you have a lot of controllers already in place and/or you need to derive them from other base classes.
2. With a Module
public class ViewBagPropertyModule: Module
{
protected override void AttachToComponentRegistration(IComponentRegistry cr,
IComponentRegistration reg)
{
Type limitType = reg.Activator.LimitType;
if (typeof(Controller).IsAssignableFrom(limitType))
{
registration.Activated += (s, e) =>
{
dynamic viewBag = ((Controller)e.Instance).ViewBag;
viewBag.MyProperty= "value";
};
}
}
}
PROS: None I’m aware of.
CONS: None I’m aware of (except being a bit counterintuitive).
3. With a RegisterController Hook
builder.RegisterControllers(asm)
.OnActivated(e => {
dynamic viewBag = ((Controller)e.Instance).ViewBag;
viewBag.MyProperty = "value";
});
PROS: Fast, secure, reusable: ideal for any IoC design pattern.
CONS: Not always suited for small project and/or simple websites: if you’re not using IoC you’re often not using RegisterController at all.
4. With an ActionFilter attribute
public class MyPropertyActionFilter : ActionFilterAttribute
{
public override void OnResultExecuting(ResultExecutingContext filterContext)
{
filterContext.Controller.ViewBag.MyProperty = "value";
}
}
and then in your Global.asax.cs file:
protected void Application_Start()
{
AreaRegistration.RegisterAllAreas();
GlobalFilters.Filters.Add(new MyPropertyActionFilter(), 0);
}
PROS: Easily the less-obtrusive method amongst those mentioned.
CONS: None I’m aware of.
I also wrote this article on my blog explaining all the above methods.
One way: Create a custom attribute, then you can apply it globally in the FilterConfig. Then you don't have to do anything in your controllers.
public class MyCustomViewActionFilter : ActionFilterAttribute
{
public override void OnActionExecuting(ActionExecutingContext filterContext)
{
dynamic ViewBag = filterContext.Controller.ViewBag;
ViewBag.Id = "123";
ViewBag.Name = "Bob";
}
}
In App_Start/FilterConfig.cs:
public static void RegisterGlobalFilters(GlobalFilterCollection filters)
{
filters.Add(new MyCustomViewActionFilter());
}
Another way if all you need is the User information. You can add the following to the top of your view:
#using Microsoft.AspNet.Identity
Then access your User Name using the following syntax:
#User.Identity.GetUserName()
You can also override the IPrincipal implementation and provide your own properties and methods to add more information you need to render.
UPDATE: looking at MVC 6 in Asp.Net vNext this is actually baked into the framework. http://www.asp.net/vnext/overview/aspnet-vnext/vc#inj
My current solution:
Create a base controller with all needed properties (very useful and advisable).
public abstract class BaseController : Controller {
public string MyProperty { get; set; }
}
Inherits all your controllers, from the base controller.
public class MyController : BaseController {
//you can read your property here
}
In your views, add this line just after the "#model" sentence:
#{ BaseController ctr = ViewContext.Controller as BaseController; }
Now, you can use the property in your view, without populate the ViewBag, without the need of check and cast the ViewBag values, etc.
In the view, you can use an simple inline expression:
#(ctr.MyProperty)
Or do some magic logic...
#{
if(ctr.MyProperty == "whatelse") {
//do ...
}
}
Easy, fast and comfortable.
For Net Core 5 Mvc app:
Create a ActionFilter class first:
public class GlobalSettingFilter : IActionFilter
{
private IConfiguration configuration;
//For example will get data from the configuration object
public GlobalSettingFilter(IConfiguration configuration)
{
this.configuration = configuration;
}
public void OnActionExecuting(ActionExecutingContext context)
{
//Populate the ViewData or ViewBag from your data source
(context.Controller as Controller).ViewData["helpUrl"] = configuration.GetValue<String>("helpUrl");
}
public void OnActionExecuted(ActionExecutedContext context){}
}
Then, on Startup add:
public void ConfigureServices(IServiceCollection services)
{
...
services.AddControllersWithViews(options =>
{
options.Filters.Add(new GlobalSettingFilter(Configuration));
});
}
Just for the sake of completeness, to get the configuration object use:
public class Startup
{
public Startup(IConfiguration configuration)
{
Configuration = configuration;
}
public IConfiguration Configuration { get; }
...
}
You can create a base controller that is inherited by all of your controllers, and in this controller (the base one) add:
protected override void OnActionExecuting(ActionExecutingContext filterContext)
{
// Fill your global viewbag variables here
}
In my application i configured structuremap like
public class DefaultRegistry : Registry {
#region Constructors and Destructors
public DefaultRegistry() {
Scan(
scan => {
scan.Assembly("Eterp.Data.ErpCore");
scan.Assembly("Eterp.Data.Seed");
scan.Assembly("Eterp.Application.ErpCore");
scan.TheCallingAssembly();
scan.WithDefaultConventions();
});
ForConcreteType<AclAuthorizationManager>().Configure.Ctor<IResourceOperationAppService>()
}
#endregion
}
And i have class
public class AclAuthorizationManager : ClaimsAuthorizationManager
{
private readonly IResourceOperationAppService _resourceOperationAppService;
public AclAuthorizationManager(IResourceOperationAppService resourceOperationAppService)
{
_resourceOperationAppService = resourceOperationAppService;
}
public override bool CheckAccess(AuthorizationContext context)
{
var isCurrentUserAuthorized = context.Principal.Identity.IsAuthenticated;
return isCurrentUserAuthorized && _resourceOperationAppService.CanAccessResource(context.Action.FirstOrDefault().Value, context.Principal.Claims);
}
}
This class is custom claim authorization class using in my application, but when i exceuting the application,i am getting an error which related to lack of parameter required by the constructor, ( This class has constructor with parameter type IResourceOperation). but i already configured all the details in structureMap . i am sure that my structuremap configuration is working 100% well expect the creation of this AclAuthorizationManager class.because i am able to to apply DI in other classes.
What is wrong part in my code?
in my experience when you specify the type constructor must say that inherits from the interface.
Therefore, you should replace this line:
ForConcreteType<AclAuthorizationManager>().Configure.Ctor<IResourceOperationAppService>()
By:
ForConcreteType<AclAuthorizationManager>().Configure.Ctor<IResourceOperationAppService>().Is<ResourceOperationAppService>()
Where is the implementation ResourceOperationAppService IResourceOperationAppService.
In an effort to make my entities persistent ignorant and make my repositories testable, I've implemented a repository pattern like so:
public interface IJobRepository : IRepository<Job>
{
Job GetJobById(int jobId); //Special case where I'm eager loading other entities
void SaveJob(Job job, Job originalJob);
}
public class JobRepository : IJobRepository
{
private readonly IContext _context;
public JobRepository()
{
_context = new CustomObjectContext();
}
public JobRepository(UnitOfWork unitOfWork)
{
_context = unitOfWork.Context;
}
//Basic GetAll, GetById, Add and Delete methods from IRepository<T> Interface here
//omitted for brevity
public Job GetJobById(int jobId)
{
var job = _context.Jobs.Include("Company").Include("Location").
Include("PlantInfo").Where(j => j.Jobid == jobId).SingleOrDefault();
_context.DisposeContext();
return job;
}
public void SaveJob(Job job, Job originalJob)
{
if (job.Jobid > 0)
{
// Update
_context.Jobs.Attach(originalJob);
_context.PlantInfoes.Attach(originalJob.PlantInfo);
_context.Jobs.ApplyCurrentValues(job);
_context.PlantInfoes.ApplyCurrentValues(job.PlantInfo);
Note: ApplyCurrentValues is an extension method I'm using on the ObjectSet
}
else
{
// Create
_context.Jobs.AddObject(job);
}
_context.Save();
}
}
public class UnitOfWork
{
private readonly IContext _context;
public UnitOfWork()
{
_context = new CustomObjectContext();
}
public UnitOfWork(IContext context)
{
_context = context;
}
public string Save()
{
return _context.Save();
}
internal IContext Context
{
get { return _context; }
}
}
public interface IContext
{
IObjectSet<Job> Jobs { get; }
IObjectSet<Company> Companies { get; }
IObjectSet<Location> Locations { get; }
IObjectSet<PlantInfo> PlantInfoes { get; }
string Save();
}
My ObjectContext inherits from IContext...So my understanding is that I will only use the overloaded constructor on the repository to facilitate unit tests or to use it in the case that I want to use the same context (not desirable based on this post I found on SO "Entity Framework and Connection Pooling" -- Is this right?
Also, assuming the context only gets disposed when the repository is garbage collected, I have to dispose the context explicitly to avoid the "An entity object cannot be referenced by multiple instances of IEntityChangeTracker." exception when attaching the entity prior to a save.
That said, what is the best practice for managing the DataContext in a manner that keeps your entities persistent ignorant and repositories testable?
Note: This is an asp.net webapplication; UnitOfWork and IContext implementation was based on examples from "Programming Entity Framework", Second Edition by Julia Lerman Ch24.
Thanks in advance!
Firstly, I would ensure that whatever my "consumable" object is (either repository or unit of work, depending on your setup) implements IDisposable. When your consumbed object is disposed of, then you would dispose your underlying context.
For instance, if you're using your UnitOfWork as the consumable object (the one that gets created and called in your application), it would look something like:
public class UnitOfWork : IDisposable
{
// All the other stuff you had before plus:
public void Dispose ()
{
if (_context != null)
{
_context.Dispose ();
}
}
}
(Note: This can also be done on your repositories if they're the ones being consumed directly)
And then, you have a few options in your application. If you are going to use the UnitOfWork directly, you can use it like:
public void SomeMethodThatAccessesYourData ()
{
using (var unitOfWork = new UnitOfWork (/*Load in the context*/))
{
// Access your data here.
}
}
Or, in your Web Forms or MVC object you can use constructor injection and dispose of it when the Web Forms or MVC object is disposed of:
// If you're using MVC:
public class MyController : Controller
{
private UnitOfWork _unitOfWork;
public MyController (UnitOfWork unitOfWork)
{
_unitOfWork = unitOfWork;
}
public override Dispose (bool Disposing)
{
if (Disposing && _unitOfWork != null)
{
_unitOfWork.Dispose ();
}
}
}
The same idea stands for a web forms Page.
The main reason for using the constructor overload is for Inversion of Control (IOC). It helps with both unit testing and with production code when used with an IoC Container. WebForms doesn't lend itself well to IoC, but it is really easy with MVC.
Edit
I don't really see the connection with your repositories and the unit of work. Usually you access the repositories from a unit of work or, in other implementations, you request a unit of work from your target repository. In your implementation (which I understand is not your own) there seems to be no need for both.
Edit 2
If the UoW is overkill for your application, and you know you can use IoC to inject your IContext, and you don't have very many repositories, you can do something like:
public IRepository<T> : IDisposable { }
public IJobRepository : IRepository<Job> { /* All the stuff you put here */ }
public JobRepository : IJobRepository
{
private IContext _context;
...
public void Dispose ()
{
if (_context != null)
{
_context.Dispose ();
}
}
public JobRepository (IContext context)
{
_context = context;
}
}
Then, how you use it depends on your specific task. I'm not a fan of this direct use of IRepository, but this answer is getting too long.
I am using unity, entity framework 4 with POCO classes, repository pattern for DAL and services for Business Logic control.
I also want to use Unit of Work so I can package together CRUD operations which I perform on different services and then commit them all together.
My question is what would be the proper way to inject the Unit Of Work mechanism into my application using Microsoft Unity?
I understand that I can put the IUnitOfWork together with the repository on the constructor of the proper service and then if Unity mapping is specified it would auto initiate the proper instances, but this way I do not pass the global unit of work but rather create a new instance on each level, which can't be a smart way to do it (actually the repository is initiated even before the service).
What am I missing? (Attached is constructor code as I wrote it now of service and its repository).
U also understand that I can use Unity's ParameterOverrides method to take some global instance of Unit of Work (lets say from my aspx.cs file) and pass it into the service and then into the repository. But it seems a bit lame. Is this my only option?
Thanks
public class GenericRepository<T> : IUnitOfWorkRepository, IGenericRepository<T> where T : BaseEntity, IAggregateRoot
{
private IUnitOfWork _uow;
/// <summary>
/// Returns the active object context
/// </summary>
private ObjectContext ObjectContext
{
get
{
return ObjectContextManager.GetObjectContext();
}
}
public GenericRepository(IUnitOfWork uow)
{
_uow = uow;
}
//blahhhh...
public void Add(T entity)
{
_uow.RegisterNew(entity, this);
}
public void Delete(T entity)
{
_uow.RegisterRemoved(entity, this);
}
//.....blah blah....
public void PersistCreationOf(IAggregateRoot entity)
{
this.ObjectContext.AddObject(GetEntitySetName(), entity);
}
public void PersistUpdateOf(IAggregateRoot entity)
{
// Do nothing as EF tracks changes
}
public void PersistDeletionOf(IAggregateRoot entity)
{
this.ObjectContext.DeleteObject(entity);
}
}
public class CategoryRepository : GenericRepository<XComSolutions.FB.Domain.Model.Entities.Category>, ICategoryRepository
{
public CategoryRepository(IUnitOfWork uow)
: base(uow)
{ }
}
public class CategoryService : ICategoryService
{
public int myID {get; set;}
private ICategoryRepository _categoryRepository;
private IUnitOfWork _uow;
public CategoryService(ICategoryRepository categoryRepository,
IUnitOfWork uow)
{
_categoryRepository = categoryRepository;
_uow = uow;
}
public List<Category> GetAll()
{
return _categoryRepository.GetAll();
}
}
Define an IUnitOfWorkFactory and inject that in your services:
public class Service
{
private readonly IUnitOfWorkFactory factory;
public Service(IUnitOfWorkFactory factory)
{
this.factory = factory;
}
public void DoOperation()
{
using (UnitOfWork context = this.factory.CreateNew())
{
this.DoSomeStuff(context);
this.DoMoreStuff(context);
context.SubmitChanges();
}
}
}
What I think you need to do is to define unit of work factory. You register this factory with your DI container and you resolve for this factory every time you need your unit of work. Then you get unit of work from the factory, work with it and let it go. You often will see that you need your unit of work within a scope of single method or single class. This article discuss Unit of Work pattern in connection with Entity Framework: http://msdn.microsoft.com/en-us/magazine/dd882510.aspx
This is my first try using DI, I've chosen ninject for it's reportedly easy learning curve, and have this question.
I'm creating objects like this:
var registrants = JsonConvert.DeserializeObject<List<Registrant>>(input);
I currently have this constructor for Registrant
[Inject]
public Registrant(IMemberRepository memberRepository)
{
_memberRepository = memberRepository;
}
What is the best way to have the repository dependency be injected into the deserialized object(s) using Ninject?
You can't use constructor injection with objects that are not created by Ninject (e.g. deserialized objects). But you can use property injection. Just call kernel.Inject(obj)
One question that remains is why you want to inject those objects. Normally, you don't want to use depedency injection on data container objects. In a proper design they don't have any dependency on services. The operations that need to be done on the services are done by the owner of the data container objects. I recommend to consider a refactoring of your design.
Assuming you're using Ninject V2, and you're using it in the context of an ASP.NET app, you should be using Ninject.Web to do the hookups.
Then you set up a Global class with the Factory Method support hooked in:
public class Global : NinjectHttpApplication
{
protected override Ninject.IKernel CreateKernel()
{
var kernel = new StandardKernel( new Module() );
kernel.Components.Add( new FuncModule( ) );
return kernel;
}
}
that registers the module that will Bind IMemberRepository to something:
public class Module : NinjectModule
{
public override void Load()
{
Bind<IMemberRepository>().To<MemberRepository>();
}
}
and the page wires up like this:
public class ThePage : PageBase
{
readonly Func<Registrant> _createRegistrant;
public ThePage( Func<Registrant> createRegistrant )
{
_createRegistrant = createRegistrant;
}
private void OnCreateRegistrant()
{
var newRegistrant = _createRegistrant();
}
}
NB not 100% sure if constructor injection is supported for Web Forms pages or wheter the above needs to drop to property injection... anyone?
(assuming the classes you have are as follows:)
public class MemberRepository : IMemberRepository
{
}
public interface IMemberRepository
{
}
public class Registrant
{
private readonly IMemberRepository _memberRepository;
public Registrant( IMemberRepository memberRepository )
{
_memberRepository = memberRepository;
}
}