TrackableEntities.EF.Core 1.0.0-beta

Trackable Entities for EF Core

Provides an ApplyChanges extension method for DbContext that sets EntityState on trackable entities, so they can be saved by a service in a single transaction.

This is a prerelease version of TrackableEntities.EF.Core.
Install-Package TrackableEntities.EF.Core -Version 1.0.0-beta
dotnet add package TrackableEntities.EF.Core --version 1.0.0-beta
paket add TrackableEntities.EF.Core --version 1.0.0-beta
The NuGet Team does not provide support for this client. Please contact its maintainers for support.

Trackable Entities for Entity Framework Core

Change-tracking across service boundaries with ASP.NET Core Web API and Entity Framework Core.

What is Trackable Entities?

Trackable Entities allows you to mark client-side entities as Added, Modified or Deleted, so that entire object graphs can be sent to a service where changes can be saved with a single round trip to the server and within a single transaction.

Installation

Trackable Entities for EF Core is available as a NuGet package that can be installed in an ASP.NET Core Web API project that uses Entity Framework Core.

You can use the Package Manager UI or Console in Visual Studio to install the TE package.

Note: Use the -Pre argument to install pre-release versions of TE for EF Core.

install-package TrackableEntities.EF.Core -Pre

You can also use the .NET Core CLI to install the TE package.

Note: Append -* to the -v argument to install pre-release versions of TE for EF Core.

dotnet add package TrackableEntities.EF.Core -v 1.0.0-*

Trackable Entities Interfaces

The way Trackable Entities allows change-tracking across service boundaries is by adding a TrackingState property to each entity. TrackingState is a simple enum with values for Unchanged, Added, Modified and Deleted. The TE library will traverse objects graphs to read this property and inform EF Core of each entity state, so that you can save all the changes at once, wrapping them in a single transaction that will roll back if any individual update fails.

TrackingState is a member of the ITrackable interface, which also includes a ModifiedProperties with the names of all entity properties that have been modified, so that EF Core can perform partial entity updates.

In order for clients to merge changed entities back into client-side object graphs, TE includes an IMergeable interface that has an EntityIdentifier property for correlating updated entities with original entities on the client. The reason for returning updated entities to the client is to transmit database-generated values for things like primary keys or concurrency tokens.

Each tracked entity needs to implement ITrackable, as well as IMergeable, either directly or in a base class. In addition, properties of these interfaces should be decorated with a [NotMapped] attribute so that EF Core will not attempt to save these to the database. For example, a Product entity might look like this:

public class Product : ITrackable, IMergeable
{
    public int ProductId { get; set; }
    public string ProductName { get; set; }
    public decimal? UnitPrice { get; set; }

    [NotMapped]
    public TrackingState TrackingState { get; set; }

    [NotMapped]
    public ICollection<string> ModifiedProperties { get; set; }

    [NotMapped]
    public Guid EntityIdentifier { get; set; }
}

Server-side trackable entities can either be writen by hand or generated from an existing database using code-generation techniques. Trackable Entities provides CodeTemplates NuGet packages which add T4 templates to a traditional .NET class library for generating trackable entities using the Visual Studio wizard for adding an ADO.NET Entity Data Model. You can then add a NetStandard class library which links to the generated entities. See the TE Core Sample project for an example of how to do this.

Note: The reason for the extra project with generated entities is that EF Core does not yet support customizing scaffolded models for server-side entities. We will provide code generation packages for Trackable Entities as soon as EF Core tooling is updated to support customization.

Usage

For an example of how to use Trackable Entities for EF Core in an ASP.NET Core Web API, have a look at OrderContoller in the sample app, which includes GET, POST, PUT and DELETE actions. GET actions don't inlude any code that uses Trackable Entities, but the other actions set TrackingState before calling ApplyChanges on the DbContext class and then saving changes.

// Set state to added
order.TrackingState = TrackingState.Added;

// Apply changes to context
_context.ApplyChanges(order);

// Persist changes
await _context.SaveChangesAsync();

After saving changes, LoadRelatedEntitiesAsync is called in order to populate reference properties for foreign keys that have been set. This is required, for example, in order to set the Customer property of an Order that has been added with a specified CustomerId. This way the client can create a new Order without populating the Customer property, which results in a smaller payload when sending the a new order to the Web API. Loading related entities then populates the Customer property before returning the added order to the client.

// Populate reference properties
await _context.LoadRelatedEntitiesAsync(order);

Lastly, you should call AcceptChanges to reset TrackingState on each entity in the object graph before returning it to the client, so that the client can then make changes to the object and send it back to the Web API for persisting those changes.

// Reset tracking state to unchanged
_context.AcceptChanges(order);

Questions and Feedback

If you have any questions about Trackable Entities, would like to request features, or discover any bugs, please create an issue on the GitHub repository. If you wish to contribute to Trackable Entities, pull requests are welcome!

Trackable Entities for Entity Framework Core

Change-tracking across service boundaries with ASP.NET Core Web API and Entity Framework Core.

What is Trackable Entities?

Trackable Entities allows you to mark client-side entities as Added, Modified or Deleted, so that entire object graphs can be sent to a service where changes can be saved with a single round trip to the server and within a single transaction.

Installation

Trackable Entities for EF Core is available as a NuGet package that can be installed in an ASP.NET Core Web API project that uses Entity Framework Core.

You can use the Package Manager UI or Console in Visual Studio to install the TE package.

Note: Use the -Pre argument to install pre-release versions of TE for EF Core.

install-package TrackableEntities.EF.Core -Pre

You can also use the .NET Core CLI to install the TE package.

Note: Append -* to the -v argument to install pre-release versions of TE for EF Core.

dotnet add package TrackableEntities.EF.Core -v 1.0.0-*

Trackable Entities Interfaces

The way Trackable Entities allows change-tracking across service boundaries is by adding a TrackingState property to each entity. TrackingState is a simple enum with values for Unchanged, Added, Modified and Deleted. The TE library will traverse objects graphs to read this property and inform EF Core of each entity state, so that you can save all the changes at once, wrapping them in a single transaction that will roll back if any individual update fails.

TrackingState is a member of the ITrackable interface, which also includes a ModifiedProperties with the names of all entity properties that have been modified, so that EF Core can perform partial entity updates.

In order for clients to merge changed entities back into client-side object graphs, TE includes an IMergeable interface that has an EntityIdentifier property for correlating updated entities with original entities on the client. The reason for returning updated entities to the client is to transmit database-generated values for things like primary keys or concurrency tokens.

Each tracked entity needs to implement ITrackable, as well as IMergeable, either directly or in a base class. In addition, properties of these interfaces should be decorated with a [NotMapped] attribute so that EF Core will not attempt to save these to the database. For example, a Product entity might look like this:

public class Product : ITrackable, IMergeable
{
    public int ProductId { get; set; }
    public string ProductName { get; set; }
    public decimal? UnitPrice { get; set; }

    [NotMapped]
    public TrackingState TrackingState { get; set; }

    [NotMapped]
    public ICollection<string> ModifiedProperties { get; set; }

    [NotMapped]
    public Guid EntityIdentifier { get; set; }
}

Server-side trackable entities can either be writen by hand or generated from an existing database using code-generation techniques. Trackable Entities provides CodeTemplates NuGet packages which add T4 templates to a traditional .NET class library for generating trackable entities using the Visual Studio wizard for adding an ADO.NET Entity Data Model. You can then add a NetStandard class library which links to the generated entities. See the TE Core Sample project for an example of how to do this.

Note: The reason for the extra project with generated entities is that EF Core does not yet support customizing scaffolded models for server-side entities. We will provide code generation packages for Trackable Entities as soon as EF Core tooling is updated to support customization.

Usage

For an example of how to use Trackable Entities for EF Core in an ASP.NET Core Web API, have a look at OrderContoller in the sample app, which includes GET, POST, PUT and DELETE actions. GET actions don't inlude any code that uses Trackable Entities, but the other actions set TrackingState before calling ApplyChanges on the DbContext class and then saving changes.

// Set state to added
order.TrackingState = TrackingState.Added;

// Apply changes to context
_context.ApplyChanges(order);

// Persist changes
await _context.SaveChangesAsync();

After saving changes, LoadRelatedEntitiesAsync is called in order to populate reference properties for foreign keys that have been set. This is required, for example, in order to set the Customer property of an Order that has been added with a specified CustomerId. This way the client can create a new Order without populating the Customer property, which results in a smaller payload when sending the a new order to the Web API. Loading related entities then populates the Customer property before returning the added order to the client.

// Populate reference properties
await _context.LoadRelatedEntitiesAsync(order);

Lastly, you should call AcceptChanges to reset TrackingState on each entity in the object graph before returning it to the client, so that the client can then make changes to the object and send it back to the Web API for persisting those changes.

// Reset tracking state to unchanged
_context.AcceptChanges(order);

Questions and Feedback

If you have any questions about Trackable Entities, would like to request features, or discover any bugs, please create an issue on the GitHub repository. If you wish to contribute to Trackable Entities, pull requests are welcome!

Release Notes

See: https://github.com/TrackableEntities/TrackableEntities.Core/releases/tag/v1.0.0-beta1

Version History

Version Downloads Last updated
1.0.0-beta (current version) 109 9/27/2017
1.0.0-alpha 43 9/27/2017