I am about to implement an Entity Framework 6 design with a repository and unit of work.

There are so many articles around and I'm not sure what the best advice is: For example I realy like the pattern implemented here: for the reasons suggested in the article here

However, Tom Dykstra (Senior Programming Writer on Microsoft's Web Platform & Tools Content Team) suggests it should be done in another article: here

I subscribe to Pluralsight, and it is implemented in a slightly different way pretty much every time it is used in a course so choosing a design is difficult.

Some people seem to suggest that unit of work is already implemented by DbContext as in this post, so we shouldn't need to implement it at all.

I realise that this type of question has been asked before and this may be subjective but my question is direct:

I like the approach in the first (Code Fizzle) article and wanted to know if it is perhaps more maintainable and as easily testable as other approaches and safe to go ahead with?

Any other views are more than welcome.

  • 3
    I'm exactly on the same situation use Repo/UOF or not to use and I have read so many blogs and I'm more confused then ever :), I'm going to go what MS articles asp.net/mvc/tutorials/getting-started-with-ef-5-using-mvc-4/… I have already spent enough time finding out and best practice and I guess there is no right answer.
    – Nick Kahn
    Commented Jul 23, 2014 at 17:19

7 Answers 7


@Chris Hardie is correct, EF implements UoW out of the box. However many people overlook the fact that EF also implements a generic repository pattern out of the box too:

var repos1 = _dbContext.Set<Widget1>();
var repos2 = _dbContext.Set<Widget2>();
var reposN = _dbContext.Set<WidgetN>();

...and this is a pretty good generic repository implementation that is built into the tool itself.

Why go through the trouble of creating a ton of other interfaces and properties, when DbContext gives you everything you need? If you want to abstract the DbContext behind application-level interfaces, and you want to apply command query segregation, you could do something as simple as this:

public interface IReadEntities
    IQueryable<TEntity> Query<TEntity>();

public interface IWriteEntities : IReadEntities, IUnitOfWork
    IQueryable<TEntity> Load<TEntity>();
    void Create<TEntity>(TEntity entity);
    void Update<TEntity>(TEntity entity);
    void Delete<TEntity>(TEntity entity);

public interface IUnitOfWork
    int SaveChanges();

You could use these 3 interfaces for all of your entity access, and not have to worry about injecting 3 or more different repositories into business code that works with 3 or more entity sets. Of course you would still use IoC to ensure that there is only 1 DbContext instance per web request, but all 3 of your interfaces are implemented by the same class, which makes it easier.

public class MyDbContext : DbContext, IWriteEntities
    public IQueryable<TEntity> Query<TEntity>()
        return Set<TEntity>().AsNoTracking(); // detach results from context

    public IQueryable<TEntity> Load<TEntity>()
        return Set<TEntity>();

    public void Create<TEntity>(TEntity entity)
        if (Entry(entity).State == EntityState.Detached)


You now only need to inject a single interface into your dependency, regardless of how many different entities it needs to work with:

// NOTE: In reality I would never inject IWriteEntities into an MVC Controller.
// Instead I would inject my CQRS business layer, which consumes IWriteEntities.
// See @MikeSW's answer for more info as to why you shouldn't consume a
// generic repository like this directly by your web application layer.
// See http://www.cuttingedge.it/blogs/steven/pivot/entry.php?id=91 and
// http://www.cuttingedge.it/blogs/steven/pivot/entry.php?id=92 for more info
// on what a CQRS business layer that consumes IWriteEntities / IReadEntities
// (and is consumed by an MVC Controller) might look like.
public class RecipeController : Controller
    private readonly IWriteEntities _entities;

    //Using Dependency Injection 
    public RecipeController(IWriteEntities entities)
        _entities = entities;

    public ActionResult Create(CreateEditRecipeViewModel model)
        Mapper.CreateMap<CreateEditRecipeViewModel, Recipe>()
            .ForMember(r => r.IngredientAmounts, opt => opt.Ignore());

        Recipe recipe = Mapper.Map<CreateEditRecipeViewModel, Recipe>(model);
        foreach(Tag t in model.Tags) {
        return RedirectToAction("CreateRecipeSuccess");

One of my favorite things about this design is that it minimizes the entity storage dependencies on the consumer. In this example the RecipeController is the consumer, but in a real application the consumer would be a command handler. (For a query handler, you would typically consume IReadEntities only because you just want to return data, not mutate any state.) But for this example, let's just use RecipeController as the consumer to examine the dependency implications:

Say you have a set of unit tests written for the above action. In each of these unit tests, you new up the Controller, passing a mock into the constructor. Then, say your customer decides they want to allow people to create a new Cookbook or add to an existing one when creating a new recipe.

With a repository-per-entity or repository-per-aggregate interface pattern, you would have to inject a new repository instance IRepository<Cookbook> into your controller constructor (or using @Chris Hardie's answer, write code to attach yet another repository to the UoW instance). This would immediately make all of your other unit tests break, and you would have to go back to modify the construction code in all of them, passing yet another mock instance, and widening your dependency array. However with the above, all of your other unit tests will still at least compile. All you have to do is write additional test(s) to cover the new cookbook functionality.

  • 2
    Your solution sounds very interesting. Wish you could publish a sample application as it's difficult with just code snippets. Commented Feb 19, 2014 at 7:20
  • @SamanthaJ I am working on one, just have not published it to GH yet. This isn't really that structurally different from the repository-per-entity or repository-per-aggregate pattern that you are used to. You are still defining interfaces that get implemented by EF. The difference is the interface signatures, and where you draw the seams / boundaries for the methods. The solution I am proposing here uses generics in the method calls rather than in the repository interfaces & implementations. This way, you end up with a repository-per-model (where model includes all aggregates & entities).
    – danludwig
    Commented Feb 25, 2014 at 4:14
  • 2
    Interesting approach, any news on the update with code samples? :-) Commented Mar 15, 2014 at 11:49
  • @meep, have a look at my github account. I was going to mail you, but wanted to polish some things first. They are still not polished, but you can look.
    – danludwig
    Commented Mar 15, 2014 at 20:28
  • When I tried same concept its giving error like The entity type Receipe is not part of the model for the current context. Commented Apr 23, 2014 at 8:39

I'm (not) sorry to say that the codefizzle, Dyksta's article and the previous answers are wrong. For the simple fact that they use the EF entities as domain (business) objects, which is a big WTF.

Update: For a less technical explanation (in plain words) read Repository Pattern for Dummies

In a nutshell, ANY repository interface should not be coupled to ANY persistence (ORM) detail. The repo interface deals ONLY with objects that makes sense for the rest of the app (domain, maybe UI as in presentation). A LOT of people (with MS leading the pack, with intent I suspect) make the mistake of believing that they can reuse their EF entities or that can be business object on top of them.

While it can happen, it's quite rare. In practice, you'll have a lot of domain objects 'designed' after database rules i.e bad modelling. The repository purpose is to decouple the rest of the app (mainly the business layer) from its persistence form.

How do you decouple it when your repo deals with EF entities (persistence detail) or its methods return IQueryable, a leaking abstraction with wrong semantics for this purpose (IQueryable allows you to build a query, thus implying that you need to know persistence details thus negating the repository's purpose and functionality)?

A domin object should never know about persistence, EF, joins etc. It shouldn't know what db engine you're using or if you're using one. Same with the rest of the app, if you want it to be decoupled from the persistence details.

The repository interface know only about what the higher layer know. This means, that a generic domain repository interface looks like this

public interface IStore<TDomainObject> //where TDomainObject != Ef (ORM) entity
   void Save(TDomainObject entity);
   TDomainObject Get(Guid id);
   void Delete(Guid id);

The implementation will reside in the DAL and will use EF to work with the db. However the implementation looks like this

public class UsersRepository:IStore<User>
   public UsersRepository(DbContext db) {}

    public void Save(User entity)
       //map entity to one or more ORM entities
       //use EF to save it
           //.. other methods implementation ...


You don't really have a concrete generic repository. The only usage of a concrete generic repository is when ANY domain object is stored in serialized form in a key-value like table. It isn't the case with an ORM.

What about querying?

 public interface IQueryUsers
       PagedResult<UserData> GetAll(int skip, int take);
       PagedResult<UserData> Get(CriteriaObject criteria,int skip, int take); 

The UserData is the read/view model fit for the query context usage.

You can use directly EF for querying in a query handler if you don't mind that your DAL knows about view models and in that case you won't be needing any query repo.


  • Your business object shouldn't know about EF entities.
  • The repository will use an ORM, but it never exposes the ORM to the rest of the app, so the repo interface will use only domain objects or view models (or any other app context object that isn't a persistence detail)
  • You do not tell the repo how to do its work i.e NEVER use IQueryable with a repo interface
  • If you just want to use the db in a easier/cool way and you're dealing with a simple CRUD app where you don't need (be sure about it) to maintain separation of concerns then skip the repository all together, use directly EF for everything data. The app will be tightly coupled to EF but at least you'll cut the middle man and it will be on purpose not by mistake.

Note that using the repository in the wrong way, will invalidate its use and your app will still be tightly coupled to the persistence (ORM).

In case you believe the ORM is there to magically store your domain objects, it's not. The ORM purpose is to simulate an OOP storage on top of relational tables. It has everything to do with persistence and nothing to do with domain, so don't use the ORM outside persistence.

  • 3
    @MikeSW when you say "NEVER use IQueryable with a repo interface", are you implying that I should bring all data over the wire and when it is mapped to my domain objects then select the records that I need? That does not sound right... am I missing something?
    – Miguel
    Commented May 13, 2014 at 20:01
  • 4
    All the required code is already in the answer. Is nothing mystical about it, it's that simple.
    – MikeSW
    Commented May 14, 2014 at 20:32
  • 2
    Does this mean that when EF pulls entities out of the database they should then be mapped to domain objects for use in controllers and domain layer ? Also when saving/updating all viewmodels used by action/api methods will first have to be mapped to domain objects and then passed to the repo ?
    – LaserBeak
    Commented May 29, 2014 at 0:59
  • 2
    While you point out interesting things, saying that it is a big WTF to use EF entities as business objects means that you really don't understand EF. This is the sole purpose of EF. It abstracts away the mapping of your business entities to a database engine structures. It is true that you might need to add some additional properties or classes (that don't really have meaning in business processes) to satisfy the structure of your database, still I am happier with that, rather than having to create mirror classes of my business objects that only leave in the data access layer. Commented Sep 9, 2014 at 23:13
  • 3
    The point of ANY ORM is to map objects to tables and back. That's it. Not all objects are easily mapped and when dealing with domain objects (rich in behaviour not simple data structures). And when things get complicated you have to choose who drives who. And most devs choose persistence (EF) driving the domain instead of the opposite. So DDD becomes Database driven development.
    – MikeSW
    Commented Sep 21, 2014 at 16:20

DbContext is indeed built with the Unit of Work pattern. It allows all of its entities to share the same context as we work with them. This implementation is internal to the DbContext.

However, it should be noted that if you instantiate two DbContext objects, neither of them will see the other's entities that they are each tracking. They are insulated from one another, which can be problematic.

When I build an MVC application, I want to ensure that during the course of the request, all my data access code works off of a single DbContext. To achieve that, I apply the Unit of Work as a pattern external to DbContext.

Here is my Unit of Work object from a barbecue recipe app I'm building:

public class UnitOfWork : IUnitOfWork
    private BarbecurianContext _context = new BarbecurianContext();
    private IRepository<Recipe> _recipeRepository;
    private IRepository<Category> _categoryRepository;
    private IRepository<Tag> _tagRepository;

    public IRepository<Recipe> RecipeRepository
            if (_recipeRepository == null)
                _recipeRepository = new RecipeRepository(_context);
            return _recipeRepository;

    public void Save()

I attach all my repositories, which are all injected with the same DbContext, to my Unit of Work object. So long as any repositories are requested from the Unit of Work object, we can be assured that all our data access code will be managed with the same DbContext - awesome sauce!

If I were to use this in an MVC app, I would ensure the Unit of Work is used throughout the request by instantiating it in the controller, and using it throughout its actions:

public class RecipeController : Controller
    private IUnitOfWork _unitOfWork;
    private IRepository<Recipe> _recipeService;
    private IRepository<Category> _categoryService;
    private IRepository<Tag> _tagService;

    //Using Dependency Injection 
    public RecipeController(IUnitOfWork unitOfWork)
        _unitOfWork = unitOfWork;
        _categoryRepository = _unitOfWork.CategoryRepository;
        _recipeRepository = _unitOfWork.RecipeRepository;
        _tagRepository = _unitOfWork.TagRepository;

Now in our action, we can be assured that all our data access code will use the same DbContext:

    public ActionResult Create(CreateEditRecipeViewModel model)
        Mapper.CreateMap<CreateEditRecipeViewModel, Recipe>().ForMember(r => r.IngredientAmounts, opt => opt.Ignore());

        Recipe recipe = Mapper.Map<CreateEditRecipeViewModel, Recipe>(model);
        foreach(Tag t in model.Tags){
             _tagRepository.Create(tag); //I'm using the same DbContext as the recipe repo!
  • The DbContext of the Entity Framework is already an implementation of unit of work pattern. Why abstract an abstraction?
    – Pascal
    Commented Jun 17, 2014 at 20:57
  • Let's say your controller action needs to work with multiple repositories. If each of your repositories instantiates its own DbContext, you won't get transactional behaviour. By using the Unit of Work pattern in your controller, you can ensure that you pass the same instance to all of your repositories so that your operations will form part of the same transaction. Unit of Work isn't about abstraction, it is about ensuring that objects use the same context. Commented Jun 18, 2014 at 11:48
  • I do not agree to this "By using the Unit of Work pattern in your controller, you can ensure that you pass the same instance to all of your repositories so that your operations will form part of the same transaction." The MyContext is injected into the Controller Per Api Request so every code within a controller action has access to the same MyContext. Let the IOC tool create the Context NOT the not needed IUnitOfWork implementation. There is no benefit.
    – Pascal
    Commented Jun 18, 2014 at 16:05
  • 2
    How do you do unit tests? Each repository is DbContext based and I don't see how to inject a moq into that. Now, at the UoW level, you can change to another DbContext but it is still defined as a specific context. Commented Sep 9, 2014 at 20:43
  • 1
    @KeithBarrows In the words of someone more capable than I: "don't bother faking contexts" stackoverflow.com/questions/6904139/… If you attempted to unit test with a fake for your context, you would be in the realm of Linq-To-Objects, not Linq-To-Entities. Your tests wouldn't be representative of what you would expect your production environment to be. The only way to really test code with EF is with integration tests. Commented Jan 19, 2015 at 17:52

Searching around the internet I found this http://www.thereformedprogrammer.net/is-the-repository-pattern-useful-with-entity-framework/ it's a 2 part article about the usefulness of the repository pattern by Jon Smith. The second part focuses on a solution. Hope it helps!

  • +1 for the link, it is really useful. I did follow the John Smith article to build our new project, and it is excellent. It is the way to go. Everyone should look at it if you are using EF. Accepted answer is outdated.
    – Dush
    Commented Oct 3, 2015 at 3:17

Repository with unit of work pattern implementation is a bad one to answer your question.

The DbContext of the entity framework is implemented by Microsoft according to the unit of work pattern. That means the context.SaveChanges is transactionally saving your changes in one go.

The DbSet is also an implementation of the Repository pattern. Do not build repositories that you can just do:

void Add(Customer c)

Create a one-liner method for what you can do inside the service anyway ???

There is no benefit and nobody is changing EF ORM to another ORM nowadays...

You do not need that freedom...

Chris Hardie is argumenting that there could be instantiated multiple context objects but already doing this you do it wrong...

Just use an IOC tool you like and setup the MyContext per Http Request and your are fine.

Take ninject for example:

kernel.Bind<ITeststepService>().To<TeststepService>().InRequestScope().WithConstructorArgument("context", c => new ITMSContext());

The service running the business logic gets the context injected.

Just keep it simple stupid :-)

  • Your example is OK for a CRUD application where your Domain Object is the same as your Data Object. Repositories are Database ignorant. They only care about Business operations. Commented Jul 15, 2014 at 19:29
  • 2
    While most people tend to argue for separating data object from domain objects and always do the mapping (albeit automatic) I must agree with you Pascal. I have done so many mvc website projects using the n-tier design, repositories, services, etc. And you really don't need all that cumbersome logic. Now I've switched to using just 'Manager's or Service's which have the DBContext injected using Ninject from the controller and do their db operations. Works like a charm and provides more than enough freedom. I think the point here is that sometimes systems are so complex this no longer applies.
    – Peter
    Commented Jan 23, 2015 at 14:51

You should consider "command/query objects" as an alternative, you can find a bunch of interesting articles around this area, but here is a good one:


When you need a transaction over multiple DB objects, use one command object per command to avoid the complexity of the UOW pattern.

A query object per query is likely unnecessary for most projects. Instead you might choose to start with a 'FooQueries' object ...by which I mean you can start with a Repository pattern for READS but name it as "Queries" to be explicit that it does not and should not do any inserts/updates.

Later, you might find splitting out individual query objects worthwhile if you want to add things like authorization and logging, you could feed a query object into a pipeline.


I always use UoW with EF code first. I find it more performant and easier tot manage your contexts, to prevent memory leaking and such. You can find an example of my workaround on my github: http://www.github.com/stefchri in the RADAR project.

If you have any questions about it feel free to ask them.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.