I agree with both Marc and Stephen (Cleary).
(BTW, I started to write this as a comment to Stephen's answer, but it turned out to be too long; let me know if it is OK to write this as an answer or not, and feel free to take bits from it and add it to Stephen's answer, in the spirit of "providing the one best answer").
It really "depends": like Marc said, it is important to know how DoSomethingAsync is asynchronous. We all agree that there is no point in having a the "sync" method call the "async" method and "wait": this can be done in user code. The only advantage of having a separate method is to have actual performance gains, to have an implementation which is, under the hood, different and tailored to the synchronous scenario. This is especially true if the "async" method is creating a thread (or taking it from a threadpool): you end up with something that underneath uses two "control flows", while "promising" with its synchronous looks to be executed in the callers' context. This may even have concurrency issues, depending on the implementation.
Also in other cases, like the intensive I/O that the OP is mentioning, it may be worth having two different implementation. Most operating systems (Windows for sure) have for I/O different mechanisms tailored to the two scenarios: for example, async execution of and I/O operation takes great advantages from OS level mechanisms like I/O completion ports, which add a little overhead (not significant, but not null) in the kernel (after all, they have to do bookkeeping, dispatch, etc.), and more direct implementation for synchronous operations.
Code complexity also varies a lot, especially in functions where multiple operations are done/coordinated.
What I would do is:
- have some examples/test for typical usage and scenarios
- see which API variant is used, where, and measure. Measure also difference in performance between a "pure sync" variant and "sync". (not for the whole API, but for selected few typical cases)
- based on measurement, decide if the added cost is worth it.
This mainly because two goals are somehow in contrast with one another. If you want maintainable code, the obvious choice is implementing sync in terms of async/wait (or the other way around) (or, even better, provide only the async variant and let the user do "wait"); if you want performance you should implement the two functions differently, to exploit different underlying mechanisms (from the framework or from the OS). I think that it should not make difference from a unit-testing point of view how you actually implement your API.