I've always been firmly in the 'let it crash' camp for bugs, the sooner and the closer to the offending piece of code you can generate a crash the better. Maybe it would be possible to embed Fil-C in a test-suite combined with a fuzzing like tool that varies input to try really hard to get a program to trigger an abend. As long as it is possible to fuzz your way to a crash in Fil-C that would be a sign that there is more work to do.
That way 'passes Fil-C' would be a bit like running code under valgrind and move the penalty to the development phase rather than the runtime. Is this feasible or am I woolgathering, and is Fil-C only ever going to work by using it to compile the production code?
From what I understand some things in Fil-C work "as expected" instead of crashing (e.g. dereferencing a pointer to an out of scope variable will give you the old value of that variable), so it won't work as a sanitizer.
Fil-C will crash on memory corruption too. In fact, its main advantage is crashing sooner.
All the quick fixes for C that don't require code rewrites boil down to crashing. They don't make your C code less reliable, they just make the unreliability more visible.
To me, Fil-C is most suited to be used during development and testing. In production you can use other sandboxing/hardening solutions that have lower overhead, after hopefully shaking out most of the bugs with Fil-C.
The great thing about such crashes is if you have coredumps enabled that you can just load the crashed binary into GDB and type 'where' and you most likely can immediately figure out from inspecting the call stack what the actual problem is. This was/is my go-to method to find really hard to reproduce bugs.
I think the issue with this approach is it’s perfectly reasonable in Fil-C to never call `free` because the GC will GC. So if you develop on Fil-C, you may be leaking memory if you run in production with Yolo-C.
Fil-C uses `free()` to mark memory as no longer valid, so it is important to keep using manual memory management to let Fil-C catch UAF bugs (which are likely symptoms of logic bugs, so you'd want to catch them anyway).
The whole point of Fil-C is having C compatibility. If you're going to treat it as a deployment target on its own, it's a waste: you get overhead of a GC language, but with clunkiness and tedium of C, instead of nicer language features that ground-up GC languages have.
I've always been firmly in the 'let it crash' camp for bugs, the sooner and the closer to the offending piece of code you can generate a crash the better. Maybe it would be possible to embed Fil-C in a test-suite combined with a fuzzing like tool that varies input to try really hard to get a program to trigger an abend. As long as it is possible to fuzz your way to a crash in Fil-C that would be a sign that there is more work to do.
That way 'passes Fil-C' would be a bit like running code under valgrind and move the penalty to the development phase rather than the runtime. Is this feasible or am I woolgathering, and is Fil-C only ever going to work by using it to compile the production code?