More than TDD
Start above TDD, and think in terms of stories or use cases, and the requirements they have. Define the requirements in terms of a test. Say you're working on a web site selling socks. The story might read: as a customer, I need to type in the quantity of items I'm buying so I can get package discounts. So you create a test that says "customer entered 24 pairs of socks, ensure a discount of 5% was added to the order." But that's really high level. You look at the code and say "hey, I don't even support quantity yet." So you think about line items on your order, and how they need to have quantity. You write a test for your LineItem object that says
LineItem lineItem = new LineItem();
Item item = new Item();
ASSERT(lineItem.getQuantity() == 7);
and you implement the code. You think harder about quantity at this time, and add a few more tests for things like negative quantities, quantities exceeding a maximum, etc. Then you figure out the line item's price is something impacted by quantity. You already have a Price on your item, but not a price extended by quantity. So you add one because you need one.
LineItem lineItem = new LineItem();
Currency price = 1.00;
Item item = new Item(price);
ASSERT(lineItem.getExtendedPrice() == 7.00);
So we've changed the interface on LineItem by defining a new requirement.
The most important lesson is that if we hadn't thought of ExtendedPrice when designing our LineItem interface, we'd have gotten stuck right here because our requirements desperately call for one. With TDD, you didn't have to design it in advance, because no matter what you thought during design, you were going to end up needing it when you got here anyway.
This methodology is called Emergent Design, and it's why TDD is often referred to as a design methodology, not a test methodology. You don't spend a big pile of time in advance, thinking of all the design elements, and what are all the interfaces and exactly what do they do, and what if we need a quantity discount, and what if this and what if that. That's the kind of Big Design Up Front methodology that leads to errors of omission. Another example might be that you forget to check for sales taxes on discounts if they use a coupon, or whatever. Instead, you defer those decisions to only when you need to make them - when you're working on the requirement.
Emergent Design is a different path to achieving results. It makes you think as you go, instead of thinking in advance, and it lets you react to exactly the facts you have in hand, instead of trying to imagine them all up front. It takes advantage of software being really flexible and changeable at this stage.
At this time, you also allow all the "what ifs" to enter in. What if we enter a negative quantity? Add another test!
In an Agile world, this approach has another big advantage: if your customer decides to delay a feature in favor of a more important feature, you wasted no time designing it. It's common for the customer to prioritize things differently. I hear this kind of decision a lot: "the discounts are not important today, I won't run those promotions till next year. Right now, I really need you to get the sales tax integration in place."
Unit Testing enables this flexibility. With unit tests, you can change anything and rerun the tests for free, confident that your change broke nothing else.
A Big Design Up Front doesn't protect you. On the contrary, it can inhibit you from doing the right thing at the right time. I've seen teams get stuck with a big design that completely forgot some detail, and instead of fixing the design to add the detail, they patch around the deficiency. "My project is behind schedule, we can't change the design now, we'll just do a workaround." That's where true spaghetti code comes from, and it's most often the fault of the process driving bad decisions.
Often, despite what you're creating internally, you're still dealing with the outside world. Services, fixed requirements, legacy database schema, all these are real world problems you have to deal with in TDD. So if you have an external interface to another system, how do you approach it? As you would any other requirement: with a test.
This is primarily where your mocks will come into play. You'd create a mock service that does shipping, implementing the existing Shipping interface. You'd use TDD to write your code to interact with that interface. You may find it advantageous to write a thin wrapper around it, then access the adapter in your code - that lets you write a mock wrapper instead of writing a whole mock service.