In this document

Introduction

Connection and transaction management is one of the most important concepts in an application that uses a database. When to open a connection, when to start a transaction, how to dispose the connection and so on.. ASP.NET Boilerplate manages database connection and transactions by it's unit of work system.

Connection & Transaction Management in ASP.NET Boilerplate

ASP.NET Boilerplate opens a database connection (it may not be opened immediately, but opened in first database usage, based on ORM provider implementation) and begins a transaction when entering a unit of work method. So, you can use connection safely in this method. At the end of the method, the transaction is commited and the connection is disposed. If the method throws any exception, transaction is rolled back and the connection is disposed. In this way, a unit of work method is atomic (a unit of work). ASP.NET Boilerplate does all of these automatically.

If a unit of work method calls another unit of work method, both uses same connection & transaction. The first entering method manages connection & transaction, others use it.

Conventional Unit Of Work Methods

Some methods are unit of work methods by default:

 Assume that we have an application service method like below:

public class PersonAppService : IPersonAppService
{
    private readonly IPersonRepository _personRepository;
    private readonly IStatisticsRepository _statisticsRepository;

    public PersonAppService(IPersonRepository personRepository, IStatisticsRepository statisticsRepository)
    {
        _personRepository = personRepository;
        _statisticsRepository = statisticsRepository;
    }

    public void CreatePerson(CreatePersonInput input)
    {
        var person = new Person { Name = input.Name, EmailAddress = input.EmailAddress };
        _personRepository.Insert(person);
        _statisticsRepository.IncrementPeopleCount();
    }
}

In the CreatePerson method, we're inserting a person using person repository and incrementing total people count using statistics repository. Both of repositories shares same connection and transaction in this example since application service method is unit of work by default. ASP.NET Boilerplate opens a database connection and starts a transaction when entering CreatePerson method and commit the transaction at end of the method if no exception is thrown, rolls back if any exception occurs. In that way, all database operations in CreatePerson method becomes atomic (unit of work). 

Controlling Unit Of Work

Unit of work implicitly works for the methods defined above. In most cases you don't have to control unit of work manually for web applications. You can explicitly use it if you want to control unit of work somewhere else. There are two approaches for it. 

UnitOfWork Attribute

First and preferred approach is using UnitOfWork attribute. Example:

[UnitOfWork]
public void CreatePerson(CreatePersonInput input)
{
    var person = new Person { Name = input.Name, EmailAddress = input.EmailAddress };
    _personRepository.Insert(person);
    _statisticsRepository.IncrementPeopleCount();
}

Thus, CreatePerson methods becomes unit of work and manages database connection and transaction, both repositories use same unit of work. Note that no need to UnitOfWork attribute if this is an application service method. Also see 'unit of work method restrictions' section.

There are some options of the UnitOfWork attribute. See 'unit of work in detail' section.

IUnitOfWorkManager

Second appropaches is using the IUnitOfWorkManager.Begin(...) method as shown below:

public class MyService
{
    private readonly IUnitOfWorkManager _unitOfWorkManager;
    private readonly IPersonRepository _personRepository;
    private readonly IStatisticsRepository _statisticsRepository;

    public MyService(IUnitOfWorkManager unitOfWorkManager, IPersonRepository personRepository, IStatisticsRepository statisticsRepository)
    {
        _unitOfWorkManager = unitOfWorkManager;
        _personRepository = personRepository;
        _statisticsRepository = statisticsRepository;
    }

    public void CreatePerson(CreatePersonInput input)
    {
        var person = new Person { Name = input.Name, EmailAddress = input.EmailAddress };

        using (var unitOfWork = _unitOfWorkManager.Begin())
        {
            _personRepository.Insert(person);
            _statisticsRepository.IncrementPeopleCount();

            unitOfWork.Complete();
        }
    }
}

You can inject and use IUnitOfWorkManager as shown here (Some base classes have already UnitOfWorkManager injected by default: MVC Controllers, application services, domain services...). Thus, you can create more limited scope unit of works. In this approach, you should call Complete method manually. If you don't call, transaction is rolled back and changes are not saved.

Begin method has overloads to set unit of work options. It's better and shorter to use UnitOfWork attribute if you don't have a good reason.

Unit Of Work in Detail

Disabling Unit Of Work

You may want to disable unit of work for conventional unit of work methods . To do that, use UnitOfWorkAttribute's IsDisabled property. Example usage:

[UnitOfWork(IsDisabled = true)]
public virtual void RemoveFriendship(RemoveFriendshipInput input)
{
    _friendshipRepository.Delete(input.Id);
}

Normally, you don't want to do that, but in some situations you may want to disable unit of work:

  • You may want to use unit of work in a limited scope with UnitOfWorkScope class described above.

Note that if a unit of work method calls this RemoveFriendship method, disabling this method is ignored and it uses the same unit of work with the caller method. So, use disabling by carefully. Also, the code above works well since repository methods are unit of work by default.

Non-Transactional Unit Of Work

A unit of work is transactional as default (by it's nature). Thus, ASP.NET Boilerplate starts/commits/rollbacks an explicit database-level transaction. In some special cases, transaction may cause problems since it may lock some rows or tables in the database. In this situations, you may want to disable database-level transaction. UnitOfWork attribute can get a boolean value in it's constructor to work as non-transactional. Example usage:

[UnitOfWork(isTransactional: false)]
public GetTasksOutput GetTasks(GetTasksInput input)
{
    var tasks = _taskRepository.GetAllWithPeople(input.AssignedPersonId, input.State);
    return new GetTasksOutput
            {
                Tasks = Mapper.Map<List<TaskDto>>(tasks)
            };
}

I suggest to use this attribute as [UnitOfWork(isTransactional: false)]. I think it's more readable and explicit. But you can use as [UnitOfWork(false)].

Note that ORM frameworks (like NHibernate and EntityFramework) internally saves changes in a single command. Assume that you updated a few Entities in a non-transactional UOW. Even in this situation all updates are performed at end of the unit of work with a single database command. But if you execute an SQL query directly, it's performed immediately and not rolled back if your UOW is not transactional.

There is a restriction for non-transactional UOWs. If you're already in a transactional unit of work scope, setting isTransactional to false is ignored (use Transaction Scope Option to create a non-transactional unit of work in a transactional unit of work).

Use non-transactional unit of works carefully since most of the times it should be transactional for data integrity. If your method just reads data, not changes it, it can be safely non-transactional.

A Unit Of Work Method Calls Another

Unit of work is ambient. If a unit of work method calls another unit of work method, they share same connection and transaction. First method manages connection, others use it.

Unit Of Work Scope

You can create a different and isolated transaction in another transaction or can create a non-transactional scope in a transaction. .NET defines TransactionScopeOption for that. You can set Scope option of the unit of work to control it.

Automatically Saving Changes

If a method is unit of work, ASP.NET Boilerplate saves all changes at the end of the method automatically. Assume that we need method to update name of a person:

[UnitOfWork]
public void UpdateName(UpdateNameInput input)
{
    var person = _personRepository.Get(input.PersonId);
    person.Name = input.NewName;
}

That's all, name was changed! We did not even called _personRepository.Update method. O/RM framework keep track of all changes of entities in a unit of work and reflects changes to the database.

Note that no need to declare UnitOfWork for conventional unit of work methods.

IRepository.GetAll() Method

When you call GetAll() out of a repository method, there must be an open database connection since it returns IQueryable. This is needed because of deferred execution of IQueryable. It does not perform database query unless you call ToList() method or use the IQueryable in a foreach loop (or somehow access to queried items). So, when you call ToList() method, database connection must be alive.

Consider the example below:

[UnitOfWork]
public SearchPeopleOutput SearchPeople(SearchPeopleInput input)
{
    //Get IQueryable<Person>
    var query = _personRepository.GetAll();

    //Add some filters if selected
    if (!string.IsNullOrEmpty(input.SearchedName))
    {
        query = query.Where(person => person.Name.StartsWith(input.SearchedName));
    }

    if (input.IsActive.HasValue)
    {
        query = query.Where(person => person.IsActive == input.IsActive.Value);
    }

    //Get paged result list
    var people = query.Skip(input.SkipCount).Take(input.MaxResultCount).ToList();

    return new SearchPeopleOutput { People = Mapper.Map<List<PersonDto>>(people) };
}

Here, SearchPeople method must be unit of work since ToList() method of IQueryable is called in the method body, and database connection must be open when IQueryable.ToList() is executed.

In most cases you will use GetAll method safely in a web application, since all controller actions are unit of work by default and thus database connection is available in entire request.

UnitOfWork Attribute Restrictions

You can use UnitOfWork attribute for;

  • All public or public virtual methods for classes those are used over interface (Like an application service used over service interface).
  • All public virtual methods for self injected classes (Like MVC Controllers and Web API Controllers).
  • All protected virtual methods.

It's suggested to always make the method virtual. You can not use it for private methods. Because, ASP.NET Boilerplate uses dynamic proxying for that and private methods can not be seen by derived classes. UnitOfWork attribute (and any proxying) does not work if you don't use dependency injection and instantiate the class yourself.

Options

There are some options can be used to change behaviour of a unit of work.

First, we can change default values of all unit of works in the startup configuration. This is generally done in PreInitialize method of our module.

public class SimpleTaskSystemCoreModule : AbpModule
{
    public override void PreInitialize()
    {
        Configuration.UnitOfWork.IsolationLevel = IsolationLevel.ReadCommitted;
        Configuration.UnitOfWork.Timeout = TimeSpan.FromMinutes(30);
    }

    //...other module methods
}

Second, we can override defaults for a particular unit of work. For that, UnitOfWork attribute constructor and IUnitOfWorkManager.Begin method have overloads to get options.

And lastly, you can use startup configuration to configure default unit of work attributes for ASP.NET MVC, Web API and ASP.NET Core MVC Controllers (see their documentation).

Methods

UnitOfWork system works seamlessly and invisibly. But, in some special cases, you need to call it's methods.

You can access to current unit of work in one of two ways:

  • You can directly use CurrentUnitOfWork property if your class is derived from some specific base classes (ApplicationService, DomainService, AbpController, AbpApiController... etc.)
  • You can inject IUnitOfWorkManager into any class and use IUnitOfWorkManager.Current property.

SaveChanges

ASP.NET Boilerplate saves all changes at end of a unit of work, you don't have to do anything. But, sometimes, you may want to save changes to database in middle of a unit of work operation. An example usage may be saving changes to get Id of a new inserted Entity in EntityFramework.

You can use SaveChanges or SaveChangesAsync method of current unit of work.

 Note that: if current unit of work is transactional, all changes in the transaction are rolled back if an exception occurs, even saved changes.

Events

A unit of work has Completed, Failed and Disposed events. You can register to these events and perform needed operations. For example,yYou may want to run some code when current unit of work successfully completed. Example:

public void CreateTask(CreateTaskInput input)
{
    var task = new Task { Description = input.Description };

    if (input.AssignedPersonId.HasValue)
    {
        task.AssignedPersonId = input.AssignedPersonId.Value;
        _unitOfWorkManager.Current.Completed += (sender, args) => { /* TODO: Send email to assigned person */ };
    }

    _taskRepository.Insert(task);
}