Code-based configuration


EF6 Onwards Only - The features, APIs, etc. discussed in this page were introduced in Entity Framework 6. If you are using an earlier version, some or all of the information does not apply.

Configuration for an Entity Framework application can be specified in a config file (app.config/web.config) or through code. The latter is known as code-based configuration.

Configuration in a config file is described in a separate article. The config file takes precedence over code-based configuration. In other words, if a configuration option is set in both code and in the config file, then the setting in the config file is used.

Using DbConfiguration

Code-based configuration in EF6 and above is achieved by creating a subclass of System.Data.Entity.Config.DbConfiguration. The following guidelines should be followed when subclassing DbConfiguration:

  • Create only one DbConfiguration class for your application. This class specifies app-domain wide settings.
  • Place your DbConfiguration class in the same assembly as your DbContext class. (See the Moving DbConfiguration section if you want to change this.)
  • Give your DbConfiguration class a public parameterless constructor.
  • Set configuration options by calling protected DbConfiguration methods from within this constructor.

Following these guidelines allows EF to discover and use your configuration automatically by both tooling that needs to access your model and when your application is run.


A class derived from DbConfiguration might look like this:

using System.Data.Entity;
using System.Data.Entity.Infrastructure;
using System.Data.Entity.SqlServer;

namespace MyNamespace
    public class MyConfiguration : DbConfiguration
        public MyConfiguration()
            SetExecutionStrategy("System.Data.SqlClient", () => new SqlAzureExecutionStrategy());
            SetDefaultConnectionFactory(new LocalDbConnectionFactory("mssqllocaldb"));

This class sets up EF to use the SQL Azure execution strategy - to automatically retry failed database operations - and to use Local DB for databases that are created by convention from Code First.

Moving DbConfiguration

There are cases where it is not possible to place your DbConfiguration class in the same assembly as your DbContext class. For example, you may have two DbContext classes each in different assemblies. There are two options for handling this.

The first option is to use the config file to specify the DbConfiguration instance to use. To do this, set the codeConfigurationType attribute of the entityFramework section. For example:

<entityFramework codeConfigurationType="MyNamespace.MyDbConfiguration, MyAssembly">
    ...Your EF config...

The value of codeConfigurationType must be the assembly and namespace qualified name of your DbConfiguration class.

The second option is to place DbConfigurationTypeAttribute on your context class. For example:

public class MyContextContext : DbContext

The value passed to the attribute can either be your DbConfiguration type - as shown above - or the assembly and namespace qualified type name string. For example:

[DbConfigurationType("MyNamespace.MyDbConfiguration, MyAssembly")]
public class MyContextContext : DbContext

Setting DbConfiguration explicitly

There are some situations where configuration may be needed before any DbContext type has been used. Examples of this include:

  • Using DbModelBuilder to build a model without a context
  • Using some other framework/utility code that utilizes a DbContext where that context is used before your application context is used

In such situations EF is unable to discover the configuration automatically and you must instead do one of the following:

  • Set the DbConfiguration type in the config file, as described in the Moving DbConfiguration section above
  • Call the static DbConfiguration.SetConfiguration method during application startup

Overriding DbConfiguration

There are some situations where you need to override the configuration set in the DbConfiguration. This is not typically done by application developers but rather by third party providers and plug-ins that cannot use a derived DbConfiguration class.

For this, EntityFramework allows an event handler to be registered that can modify existing configuration just before it is locked down. It also provides a sugar method specifically for replacing any service returned by the EF service locator. This is how it is intended to be used:

  • At app startup (before EF is used) the plug-in or provider should register the event handler method for this event. (Note that this must happen before the application uses EF.)
  • The event handler makes a call to ReplaceService for every service that needs to be replaced.

For example, to replace IDbConnectionFactory and DbProviderService you would register a handler something like this:

DbConfiguration.Loaded += (_, a) =>
       a.ReplaceService<DbProviderServices>((s, k) => new MyProviderServices(s));
       a.ReplaceService<IDbConnectionFactory>((s, k) => new MyConnectionFactory(s));

In the code above, MyProviderServices and MyConnectionFactory represent your implementations of the service.

You can also add additional dependency handlers to get the same effect.

Note that you could also wrap DbProviderFactory in this way, but doing so will only affect EF and not uses of the DbProviderFactory outside of EF. For this reason you’ll probably want to continue to wrap DbProviderFactory as you have before.

You should also keep in mind the services that you run externally to your application - for example, when running migrations from the Package Manager Console. When you run migrate from the console it will attempt to find your DbConfiguration. However, whether or not it will get the wrapped service depends on where the event handler it registered. If it is registered as part of the construction of your DbConfiguration then the code should execute and the service should get wrapped. Usually this won’t be the case and this means that tooling won’t get the wrapped service.