First of all, as others have pointed out, your C++ is broken even before trying interop. You are returning a pointer to
stri's buffer. But because
stri is destroyed as soon as the function returns, the return value is not valid.
What's more, even if you fixed this, you need to do more. It won't work allocating memory in your C++ code which you would need the C# code to deallocate.
There are a few options to do it right.
Your C# code can ask the C++ code how long the string is. Then a C# StringBuilder is created and allocated to the appropriate size. Next the StringBuilder object is passed to the C++ code and its default marshalling is as a LPWSTR. In this approach the C# code allocates the string and your C++ code receives a C string to which it must copy the buffer.
Alternatively you can return a BSTR from the C++ which allows allocation in the native C++ code and deallocation in the C# code.
The BSTR approach is probably how I would do it. It looks like this:
return ::SysAllocString(L"Greetings from the native world!");
[DllImport(@"test.dll", CallingConvention = CallingConvention.Cdecl)]
private static extern string GetSomeText();
Hans Passant added a couple of useful observations in the comments. First of all, most P/Invoke interop is done against an existing interface which cannot be changed and you do not have the luxury of picking your preferred interop interfacing approach. It would appear that is not the case here, so which approach should be chosen?
Option 1 is to allocate the buffer in the managed code, after having first asked the native code how much space is needed. Perhaps it is enough to use a fixed size buffer that both parties agree on.
Where option 1 falls down is when assembling the string is expensive and you don't want to do it twice (e.g. once to return its length, and once again for the contents). This is where option 2, the
BSTR comes into play.
Hans pointed out one drawback of the
BSTR, namely that it carries a UTF-16 payload but your source data may well
char*, which is a "bit of a hassle".
To overcome the hassle you can wrap up the conversion from
BSTR like this:
BSTR ANSItoBSTR(char* input)
BSTR result = NULL;
int lenA = lstrlenA(input);
int lenW = ::MultiByteToWideChar(CP_ACP, 0, input, lenA, NULL, 0);
if (lenW > 0)
result = ::SysAllocStringLen(0, lenW);
::MultiByteToWideChar(CP_ACP, 0, input, lenA, result, lenW);
That's the hardest one out of the way, and now it's easy to add other wrappers to convert to