In Julie Lerman's example with Entity Framework (EF) she models a
Contact under two different bounded contexts -
Sales Order (being read only) and
Contact Management (being persistable)). As Eben suggests keeping these entities eventually consistent can be achieved using a messaging system - in Julie's example she uses the
ContactUpdatedEvent domain event which can be subscribed to by a service to enforce a model within a different bounded context to be reread from a data source (whether this is a database or the event itself contains the data in a DTO for example) when this event is published - this will help ensure eventual consistency of data.
Because your controller/view model/presenter/services should be interacting directly with an abstracted interface for persisting changes, i.e. the repository pattern rather than the EF db context directly, then in the example above one
Contact will come from one repository under one root aggregate and the other
Contact will come under another root aggregate - therefore the two
Contact entity implementations will support persistence of the root aggregates in different ways, in which the
Sales Order context will prevent the persistency of the
As you will represent the
Contact under two different bounded contexts they shouldn't share the same behaviour so you shouldn't really worry about any code duplication apart from the naming of properties for getting/setting data, but I'm sure this is something you can live with. For example, an action of "Asking a contact to review their order" COULD be represented with behaviour on the
Contact class under the
Contact Management context, but MAY have no relevance in the
Contact class on the
Sales Order context.
The EF doesn't force you to have associations between entities in both directions. The Fluent API mapping provides a lot of flexibility and can allow you to have these associations one way.
If the idea of your project is to follow DDD then I'd suggest you forget about the database and EF completely to start with and use in-memory repositories for reading and persisting your root aggregates. You can then focus on mapping your domain entities to your database using the EF Fluent API at a later date and this way you won't be forced to change your domain model to "fit" your database.