28

Currently, I am trying to use Dapper ORM with Unit Of Work + Repository Pattern.

I want to use Unit of Work as opposed to a simple dapper Repository due to the fact that my insert and updates require a degree of transaction processing. I have been unable to find any useful examples as most seem to use Entity Framework and have leakage issue within the Unit of Work.

Could someone please point me in the right direction?

  • 1
    Dapper is not an ORM. The UoW is the db transaction. The repository will use dapper to work with the db. – MikeSW Jul 9 '15 at 13:40
  • 5
    Dapper is a micro ORM, I undserstand that the UOW is the transaction, but I am looking for a good example of Dapper utilising the UOW pattern. – Stig Jul 10 '15 at 7:32
  • 1
    The micro ORM is a misnomer, it's basically a data mapper. A good example of dapper using uow pattern is any db transaction. And don't use patterns you don't understand yet, you'll only complicate your life. Understand what the repository is, understand what the Uow is (read the actual definitions) and then use them if you have those specific problems. Many devs are using the UoW/repository combo in a very wrong way. Don't be like them. – MikeSW Jul 10 '15 at 13:17
  • That is exactly why I want to use UOW pattern as my Inserts and updates do require transaction processing. Looking my current implementation of the UOW the pattern requires the closing of the db connection when the UOW is disposed. This just doesn’t feel quite right. – Stig Jul 10 '15 at 14:21
  • 1
    It feels right to me. Actually you should close it as son as you've finished the transaction – MikeSW Jul 10 '15 at 15:51
25

This Git project is very helpful. I started from the same and did some changes as per my need.

public sealed class DalSession : IDisposable
{
    public DalSession()
    {
        _connection = new OleDbConnection(DalCommon.ConnectionString);
        _connection.Open();
        _unitOfWork = new UnitOfWork(_connection);
    }

    IDbConnection _connection = null;
    UnitOfWork _unitOfWork = null;

    public UnitOfWork UnitOfWork
    {
        get { return _unitOfWork; }
    }

    public void Dispose()
    {
        _unitOfWork.Dispose();
        _connection.Dispose();
    }
}

public sealed class UnitOfWork : IUnitOfWork
{
    internal UnitOfWork(IDbConnection connection)
    {
        _id = Guid.NewGuid();
        _connection = connection;
    }

    IDbConnection _connection = null;
    IDbTransaction _transaction = null;
    Guid _id = Guid.Empty;

    IDbConnection IUnitOfWork.Connection
    {
        get { return _connection; }
    }
    IDbTransaction IUnitOfWork.Transaction
    {
        get { return _transaction; }
    }
    Guid IUnitOfWork.Id
    {
        get { return _id; }
    }

    public void Begin()
    {
        _transaction = _connection.BeginTransaction();
    }

    public void Commit()
    {
        _transaction.Commit();
        Dispose();
    }

    public void Rollback()
    {
        _transaction.Rollback();
        Dispose();
    }

    public void Dispose()
    {
        if(_transaction != null)
            _transaction.Dispose();
        _transaction = null;
    }
}

interface IUnitOfWork : IDisposable
{
    Guid Id { get; }
    IDbConnection Connection { get; }
    IDbTransaction Transaction { get; }
    void Begin();
    void Commit();
    void Rollback();
}

Now, your repositories should accept this UnitOfWork in some way. I choose Dependency Injection with Constructor.

public sealed class MyRepository
{
    public MyRepository(IUnitOfWork unitOfWork) 
    {
        this.unitOfWork = unitOfWork;
    }

    IUnitOfWork unitOfWork = null;

    //You also need to handle other parameters like 'sql', 'param' ect. This is out of scope of this answer.
    public MyPoco Get()
    {
        return unitOfWork.Connection.Query(sql, param, unitOfWork.Transaction, .......);
    }

    public void Insert(MyPoco poco)
    {
        return unitOfWork.Connection.Execute(sql, param, unitOfWork.Transaction, .........);
    }
}

And then you call it like this:

With transaction:

using(DalSession dalSession = new DalSession())
{
    UnitOfWork unitOfWork = dalSession.UnitOfWork;
    unitOfWork.Begin();
    try
    {
        //Your database code here
        MyRepository myRepository = new MyRepository(unitOfWork);
        myRepository.Insert(myPoco);
        //You may create other repositories in similar way in same scope of UoW.

        unitOfWork.Commit();
    }
    catch
    {
        unitOfWork.Rollback();
        throw;
    }
}

Without Transaction:

using(DalSession dalSession = new DalSession())
{
    //Your database code here
    MyRepository myRepository = new MyRepository(dalSession.UnitOfWork);//UoW have no effect here as Begin() is not called.
    myRepository.Insert(myPoco);
}

Please note that, UnitOfWork is more than DBTransaction.

More details about Repository in above code could be found here.

I have already post this code here. But this question looks more relevant to me for this code; so I am posting again instead of just link to original answer.

  • This is the opposite of this dapper unitofwork https://github.com/timschreiber/DapperUnitOfWork/blob/master/DapperUnitOfWork.Console/Program.cs sample. Here a uow instance has two or more repositories within: – Junior M Mar 3 '18 at 14:20
  • @JuniorM: Code in my answer achieves the same with Dependency Injection through Constructor. As I said at the start of this answer, I made some changes in original architecture. Thanks for noting though. – Amit Joshi Mar 5 '18 at 5:46
  • If we are going to unit test the class UnitOfWork, how would that work? Do we have to mock Connection and Transaction? How would we mock unitOfWork.Connection.Execute() for example? – kkuilla Mar 14 '18 at 14:23
  • 1
    @kkuilla: I perform Integration Tests on classes related to Data Access Layer. Those tests work on actual Connection; I do not need to mock it. Performing DB operations is primary purpose of DAL. Unit testing it by mocking the dependencies does not serve primary purpose. Have a look at this post. – Amit Joshi Mar 14 '18 at 14:40
  • My repositories are injected into my service constructors which I don't think will work with this as you're new'ing up your repositories inside the using statement and passing the unit of work. I'd also rather only have my repositories taking a dbconnection as that's all it needs. Any ideas of a way around this? – Andy Furniss Apr 3 '18 at 15:36
11

Edit 2018-08-03: Amit's comment really got me thinking, and made me realize that the repository's don't in fact NEED to be properties on the context itself. But rather, repositories could have a dependency on the context. Rather than continue to make incremental changes to the code samples below. I will simply reference a git repo I've put together to contain this concept.

Standing on the shoulders of others here.

Considering this answer is top in most Google searches pertaining to "dapper" and "unit of work". I wanted to provide my approach, which I've used to great effect several times now.

Using a ficitious (and overly simplified) example:

public interface IUnitOfWorkFactory
{
    UnitOfWork Create();
}

public interface IDbContext 
{
    IProductRepository Product { get; set; }

    void Commit();
    void Rollback();
}

public interface IUnitOfWork
{
    IDbTransaction Transaction { get;set; }

    void Commit();
    void Rollback();
}


public interface IProductRepository 
{
    Product Read(int id);
}

Note how neither IDbContext or IUnitOfWorkFactory implements IDisposable. This is purposefully done to avoid a leaky abstraction. Instead the reliance is on Commit()/Rollback() to take care of cleanup and disposal.

A couple of points before sharing implementations.

  • IUnitOfWorkFactory is responsible for instantiating the UnitOfWork and brokering the database connection.
  • IDbContext is the repository backbone.
  • IUnitOfWork is an encapsulation of IDbTransaction, and ensures that when working with multiple repositories, they share a single database context.

Implementation of IUnitOfWorkFactory

public class UnitOfWorkFactory<TConnection> : IUnitOfWorkFactory where TConnection : IDbConnection, new()
{
    private string connectionString;

    public UnitOfWorkFactory(string connectionString)
    {
        if (string.IsNullOrWhiteSpace(connectionString))
        {
            throw new ArgumentNullException("connectionString cannot be null");
        }

        this.connectionString = connectionString;
    }

    public UnitOfWork Create()
    {
        return new UnitOfWork(CreateOpenConnection());
    }

    private IDbConnection CreateOpenConnection()
    {
        var conn = new TConnection();
        conn.ConnectionString = connectionString;

        try
        {
            if (conn.State != ConnectionState.Open)
            {
                conn.Open();
            }
        }
        catch (Exception exception)
        {
            throw new Exception("An error occured while connecting to the database. See innerException for details.", exception);
        }

        return conn;
    }
}

Implementation of IDbContext

public class DbContext : IDbContext
{
    private IUnitOfWorkFactory unitOfWorkFactory;

    private UnitOfWork unitOfWork;

    private IProductRepository product;

    public DbContext(IUnitOfWorkFactory unitOfWorkFactory)
    {
        this.unitOfWorkFactory = unitOfWorkFactory;
    }

    public ProductRepository Product =>
        product ?? (product = new ProductRepository(UnitOfWork));

    protected UnitOfWork UnitOfWork =>
        unitOfWork ?? (unitOfWork = unitOfWorkFactory.Create());

    public void Commit()
    {
        try
        {
            UnitOfWork.Commit();
        }
        finally
        {
            Reset();
        }
    }

    public void Rollback()
    {
        try
        {
            UnitOfWork.Rollback();
        }
        finally
        {
            Reset();
        }
    }

    private void Reset()
    {
        unitOfWork = null;
        product = null;
    }
}

Implementation of IUnitOfWork

public class UnitOfWork : IUnitOfWork
{
    private IDbTransaction transaction;

    public UnitOfWork(IDbConnection connection)
    {
        transaction = connection.BeginTransaction();
    }

    public IDbTransaction Transaction =>
        transaction;

    public void Commit()
    {
        try
        {
            transaction.Commit();
            transaction.Connection?.Close();
        }
        catch
        {
            transaction.Rollback();
            throw;
        }
        finally
        {
            transaction?.Dispose();
            transaction.Connection?.Dispose();
            transaction = null;
        }
    }

    public void Rollback()
    {
        try
        {
            transaction.Rollback();
            transaction.Connection?.Close();
        }
        catch
        {
            throw;
        }
        finally
        {
            transaction?.Dispose();
            transaction.Connection?.Dispose();
            transaction = null;
        }
    }
}

Implementation of IProductRepository

public class ProductRepository : IProductRepository
{
    protected readonly IDbConnection connection;
    protected readonly IDbTransaction transaction;

    public ProductRepository(UnitOfWork unitOfWork)
    {
      connection = unitOfWork.Transaction.Connection;
      transaction = unitOfWork.Transaction;
    }

    public Product Read(int id)
    {
        return connection.QuerySingleOrDefault<Product>("select * from dbo.Product where Id = @id", new { id }, transaction: Transaction);
    }
}

To access the database, simply instantiate DbContext or inject using the IoC container of your choice (I personnally use the IoC container provided by .NET Core).

var unitOfWorkFactory = new UnitOfWorkFactory<SqlConnection>("your connection string");
var db = new DbContext(unitOfWorkFactory);

Product product = null;

try 
{
    product = db.Product.Read(1);
    db.Commit();
}
catch (SqlException ex)
{
    //log exception
    db.Rollback();
}

The explicit need for Commit() for this simple read-only operation seems excessive, but pays dividends as the system grows. And apparently, offers a minor performance benefit according to Sam Saffron. You "can" also omit the db.Commit() on simple read operations, by doing this though you leaving the connection hanging open and put the onus of cleaning things up onto the garbage collector. So this isn't recommended.

I typically bring the DbContext into the fold at the service-tier, where it works in unison with other services to form the "ServiceContext". I then reference this ServiceContext in the actual MVC layer. As another point of mention, it's recommended to use async throughout the stack if you can. It is omitted here for simplicity.

  • 1
    Do I need to instantiate all my repositories in DbContext class? If it is so, it violates SRP then. I have to change this class every time new repository is introduced. – Amit Joshi Jun 1 '18 at 8:13
  • There’s nothing stoppng you from injecting IServiceProvider (for .net core) into the class and maintaining a hashtable of repos. But you still need to update something when you add a new repository, in this case the IoC container. Ive done it both ways. I did the former here for simplicity. You could also use reflection. But that may not scale well. – pim Jun 1 '18 at 10:29
  • @pimbrouwers how to use async and await here? – Hameed Syed Oct 27 '18 at 12:14
  • @pimbrouwers thank you for the code. It is very well structured. Can you please provide a usage sample for MVC5 and Unity IoC. – user1770849 Nov 7 '18 at 21:28

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