https://gcc.gnu.org/bugzilla/show_bug.cgi?id=108968
Bug ID: 108968 Summary: fanalyzer false positive with the uninitalised-ness of the stack pointer Product: gcc Version: 13.0 Status: UNCONFIRMED Severity: normal Priority: P3 Component: c Assignee: unassigned at gcc dot gnu.org Reporter: andrew.cooper3 at citrix dot com Target Milestone: --- I experimented with -fanalyzer on Xen, given all the recent work on Linux. We're quite similar, but one area where we are very different is accessing per-cpu variables. For architectural reasons (i.e. because we were virtualising Linux, and Linux uses %gs for its per-cpu variables), Xen doesn't. In Xen, we have a block of metadata at the base of the stack, and the stack suitably aligned such that we can do something like this: static inline struct cpu_info *get_cpu_info(void) { register unsigned long sp asm("rsp"); return (struct cpu_info *)((sp | (STACK_SIZE - 1)) + 1) - 1; } Which turns into roughly: ptr = ((rsp | 0x7fff) + 1) - sizeof(struct cpu_info) which is correct and work suitably due to the alignment of the stack in the first place. Unfortunately, it triggers: ./arch/x86/include/asm/current.h:95:5: error: use of uninitialized value 'sp' [CWE-457] [-Werror=analyzer-use-of-uninitialized-value] reliably, every time macros such as `current` get expanded, which is everywhere. The reality is that the stack pointer is never uninitialised. It is unpredictable in the general case, but implementations can account for and remove that unpredictability. The normal trick to hide a variable from uninitialised handling (e.g. to asm("" : "+g"(var)); ) doesn't work, as it suffers from the same error. Is there any way to tell fanalyzer that this value really isn't uninitialised? I can't see anything obvious. I can work around the warning by doing: unsigned long sp; asm ( "mov %%rsp, %0" : "=r" (sp) ); but this impacts code generation quite substantially. This primitive is used all over the place, and the regular C form undergoes far better CSE than the explicit mov to retrieve the stack pointer.