In the x86-64 System V ABI it is specified that the space behind the
$rsp - 128 is the so-called red zone which is not touched by any signal handlers. On my machine
$ ulimit -s 8192
I expected there is only 2 pages in the stack. So I wrote the following program to test till which size red zone can expand:
PAGE_SIZE equ 0x1000 SYS_exit equ 0x3C section .text global _start _start: lea rcx, [rsp - 0x1f * PAGE_SIZE] mov rax, rsp loop: sub rax, PAGE_SIZE mov qword [rax], -1 cmp rax, rcx jne loop mov rax, SYS_exit mov rdi, 0x20
So I expected the program always fails. But the program sometimes fails with
SEGV, sometimes finishes fine.
The behavior is exactly as what
This flag is used for stacks. It indicates to the kernel virtual memory system that the mapping should extend downward in memory. The return address is one page lower than the memory area that is actually created in the process's virtual address space. Touching an address in the "guard" page below the mapping will cause the mapping to grow by a page. This growth can be repeated until the mapping grows to within a page of the high end of the next lower mapping, at which point touching the "guard" page will result in a
As discussed in this question mappings created with
PROT_GROWSDOWN does not grow that way:
volatile char *mapped_ptr = mmap(NULL, 4096, PROT_READ | PROT_WRITE | PROT_GROWSDOWN, MAP_GROWSDOWN | MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); mapped_ptr = 'a'; //OK! mapped_ptr = 'b'; //OK! mapped_ptr[-1] = 'c'; //SEGV
QUESTION: Combining the reasoning above is it true that the only mapping that uses
MAP_GROWSDOWN is the main thread's
[stack] mapping ?