I'm writing a non-invasive conservative GC in C and I'm having some concerns about the correctness of its stack scanning phase.
Specifically, with no compiler optimizations enabled, it works fine because every local variable (which points to an object) is "predictably" allocated on the stack. In
-O3, the GC misses some valid references, which I believe is due to the fact that the compiler opts to use registers (instead of the stack, which the GC scans) for some variables and function argument passing and the GC isn't (yet) programmed to handle that. (If you suspect that this still shouldn't be happening and that I'm misreading the source of the problem, please let me know.)
Apart from some rudimentary requirements (having to use a
GC_malloc instead of
malloc for GC objects, not pointing to the GC heap from the non-GC heap and, of course, not explicitly calling
free), the GC shouldn't have any more requirements from the client code or the compiler. Therefore, requiring any additional special patterns from the client code is not an option. Similarly, forcing programs that use this GC to be compiled with special compiler flags (that suppress stack optimizations) should be a last resort option, at best. With these two out of the way, here's the build-up to my question.
I'm trying to find a way to make the GC handle the
-O3 case (with the stack optimizations) seamlessly. Here's my train of thoughts (assumptions, more precisely):
- No matter how far GCC (or any valid compiler) goes with the optimizations, it wouldn't go so far that it would compromise the correctness of the program.
- If  holds, I believe that (at least in practical implementations of C) if a reachable (allocated as local at any call level) variable is going to remain accessible at all, it has to be either on the stack or in the current register set, but not really anywhere else.
- If  holds, it should mean that simply dumping all the registers to the stack when the GC cycle starts would guarantee that a subsequent stack scanning would now find the previously missed references as well.
- Additionally, if  and  hold, then if the compiler lets any variables be overwritten (in the case of register-based ones, mostly), it means that it has performed some level of code analysis and it has proved that that variable isn't used anywhere else in that function. So, in that sense, if we don't see a variable in the stack or in the register dump, even though it's still in scope (theoretically), this shouldn't be a cause for alarm (for me) because the compiler has simply sort of helped out the GC by getting rid of a dead reference.
Question #1: Are all 4 of my assumptions correct?
Question #2: What is the most portable way to force a register dump? I've found some sources claiming that a simple
setjmp call will have this effect. Is this correct?