The way I think about it to answer questions like this is to think about a COM call that crosses machines. Then it's obvious for an [out] param; I the caller own and have to free the memory because the remote marshaling layer can't do it. For [in] parameters, it's obvious the marshaling layer must copy my data and again the remote marshaling layer can't free what I passed in.
A core tenet in COM is location neutrality, the rules when calling in the same apartment are the rules when using DCOM across machines.
You're responsible to free - you don't pass ownership when you call the next fnc because it could be remote and getting a copy, not your original data.
No - as the callee, you don't have to free it. If it's intra-apartment, it's the memory the caller provided and the caller has to free it. If it's a remote call, the server stub allocates it and will free it when the method returns.
Yes, you free it - no, it's not always copied (it might be), which is why the answer to 2 is no. If it's copied, there's a stub that allocated and the stub will free it.
Note my answers to your questions didn't cover the case of [in,out] parameters - see the so question Who owns returned BSTR? for some more details on this case.
Com allocation rules are complicated but rational. Get the book "essential com" by Don Box if you want to understand/see examples of all the cases. Still you're going to make mistakes so you should have a strategy for detecting them. I use gflags (part of Windbg) and its heap checking flags to catch when a double free occurs (a debug message is displayed and execution halted at the call with an INT 3). Vstudio's debugger used to turn them on for you when it launched the executable (it likely still does) but you can force them on with gflags under the image options tab.
You should also know how to use UMDH (also part of windbg) to detect leaks. DebugDiag is the newer tool for this and seems easier to use, but sadly, you can only have the 32 bit or 64 bit version installed, but not both.
The problem then are BSTRs, which are cached, make detecting double frees and leaks tricky because interacting with the heap is delayed. You can shut off the ole string cache by setting the environment variable OANOCACHE to 1 or calling the function SetOaNoCache. The function's not defined in a header file so see this SO question where is SetOaNoCache defined?. Note the accepted answer shows the hard way to call it through GetProcAddress(). The answer below the accepted one shows all you need is an extern "C" as it's in the oleaut32 export lib. Finally, see this Larry Osterman blog post for a more detailed description of the difficulties caused by the cache when hunting leaks.