I think your idea that "many" functions in POSIX return pointers this way is mistaken. Your example,
inet_ntoa is not in POSIX and was deliberately excluded because it's deprecated and broken.
The number of standard functions which return pointers to allocated memory is actually rather small, and most of the ones that do so provide a special complementary function you're required to use for freeing the memory (for instance,
regfree). Simply calling
free on the pointer returned would be very bad; at best you'd end up with serious memory leaks, and at worst it could lead to unexpected crashes (for instance if the library was keeping the objects it allocated in a linked list).
Whether a function is part of the system library or a third-party library, it should document the expected usage of any pointers it returns (and whether/how it's necessary to free them). For standard functions, the best reference on this matter is POSIX itself. You could also check the man pages for your particular system. If the code is part of a third-party library, it should come with documentation (perhaps in man pages, in the header files, or in a comprehensive document on library usage). A well-written library will provide special functions to free objects it allocates, so as to avoid introducing dependencies on the way it's (currently) implemented to code that uses the library.
As far as the nonstandard
inet_ntoa and similar legacy functions go, they return pointers to internal static buffers. This makes them unsuitable for use with threads or in library code (which must take care not to destroy the caller's state unless it'd documented as doing so). Often the documentation for such functions will say that they are not required to be thread-safe, that they are not reentrant, or that they may return a pointer to an internal static buffer which may be overwritten by subsequent calls to the function. Many people, myself included, believe that such functions should not be used at all in modern code.