There is nothing wrong with this design and it is fully testable. If we focus on the single responsibilty of the factory -- it is responsible for assembling the object graph -- the tests for this are straight forward:
- Set up the factory with its prerequisites.
- Invoke the factory method.
- Assert that the object was constructed to your requirements: default values are set, etc.
In the example above, foo, bar, and foobar are the result of the test and do not need to be mocked.
If the assembly of the object graph is more complex, and you need additional services to fetch data and check application settings, guess what happens? These dependencies are passed into the factory through its constructor. You should mock these dependencies to isolate the factory from its dependencies' dependencies. Consumers of your factory would receive a fully wired factory through their constructor; or the factory is assembled at application start-up and made available as a singleton, etc.
This is how DI works. It sounds peculiar because now you have to worry how the factory is created (and who created that object,etc, turtles all the way down) and this is a perfectly natural reaction.
That's why we have DI frameworks to assemble complex object graphs. In a well designed DI application, nothing should know how the graph was assembled. Akin to this design, nothing should know about the DI framework.
The only exception to that rule, is... (drum-roll)... a factory object!
Most DI frameworks will inject the DI container into an object if the object being resolved takes a DI in it's constructor. This greatly simplifies the factory's plumbing, and satisfies our design principles: no one knows how to construct our object except our factory and we've encapsulated knowledge of the DI container to key areas of the application that are responsible for object assembly.
Whew. Now, if you're still following along, how does this change our test? It shouldn't, at least not too much: step #1 changes slightly, where you fill the DI container with mock objects, and then construct the factory with the DI container.
As a matter of taste, some like to use auto-mocking DI containers during testing that will automatically generate mock dependencies when an item is requested. This can remove most of the set up pain.