Thilo added a good answer for your first question "How is this possible?". I wish to elaborate a bit on the second asked question: Why is this behavior allowed?
For starters, let's just be perfectly clear that this behavior is not limited to inner classes, which by definition are non-static nested types. This behavior is allowed for all nested types, including nested enums and interfaces which must be static and cannot have an enclosing instance. Basically, the model is a simplification down to the following statement: Nested code have full access to enclosing code - and vice versa.
So, why then? I think an example illustrate the point better.
Think of your body and your brain. If you inject heroin into your arm, your brain gets high. If the amygdala region of your brain see what he believe is a threat to your personally safety, say a wasp for example, he'll make your body turn the other way around and run for the hills without You "thinking" twice about it.
So, the brain is an intrinsic part of the body - and strangely enough, the other way around too. Using access control between such closely related entities forfeit their claim of relationship. If you do need access control, then you need to separate the classes more into truly distinct units. Until then, they are the same unit. A driving example for further studies would be to look at how a Java
Iterator usually is implemented.
Unlimited access from enclosing code to nested code makes it, for the most part, rather useless to add access modifiers to fields and methods of a nested type. Doing so is adding clutter and might provide a false sense of safety for new comers of the Java programming language.