GCC 5.3 has added a new option: -fno-semantic-interposition
A new -fno-semantic-interposition option can be used to improve code quality of shared libraries where interposition of exported symbols is not allowed.
This sounds like this is something useful for C++ projects where interposition can't be used for whatever reason, but where latency is a concern.
However, the description is fairly vague. Is anyone able to clarify how this option works exactly?
-fno-semantic-interposition can significantly improve performance of code in shared libraries but may change semantics in some cases.
By default GCC respects the ELF symbol interposition semantics. In short, any exported library function (i.e. any library function if compiled with default compiler flags) can be replaced at runtime via LD_PRELOAD or simply by function with the same name in another shared library which happens to be loaded earlier by dynamic linker. This prevents compiler from doing a lot of useful analyses and optimizations (most notably inlining and cloning) because they may break interposition.
-fno-semantic-interposition gives compiler permission to ignore potential interposition and optimize much more aggressively.
As I said, there are some caveats in using -fno-semantic-interposition:
-fvisibility=hidden and explicitly annotate all exported symbols with __attribute__((visibility("default"))))The first item prevents wide deployment of -fno-semantic-interposition. E.g. to my knowledge no Linux distro uses it at wide scale (it would be a great project btw).
BTW note that Clang compiler has -fno-semantic-interposition enabled by default, presumably for the sake of performance. They have an inverse -fsemantic-interposition flag to enable GCC-compatible ELF interposition semantics.