In kernel-space, you're using the same stack that interrupts use. When an interrupt happens, the CPU pushes a return address and RFLAGS. This clobbers 16 bytes below
rsp. Even if you wanted to write an interrupt-handler that assumed the full 128 bytes of the red-zone were valuable, it would be impossible.
You could maybe have a kernel-internal ABI that had a small red-zone from
rsp-48 or something. (Small because kernel stack is valuable, and most functions don't need very much red-zone anyway.)
Interrupt handlers would have to
sub rsp, 32 before pushing any registers. (and restore it before
This idea won't work if an interrupt handler can itself be interrupted before it runs
sub rsp, 32, or after it restores
rsp before an
iret. There would be a window of vulnerability where valuable data is at
rsp .. rsp-16.
Another practical problem with this scheme is that AFAIK gcc doesn't have configurable red-zone parameters. It's either on or off. So you'd have to add support for a kernel flavour of red-zone to gcc / clang if you wanted to take advantage of it.
Even if it was safe from nested interrupts, the benefits are pretty small. The difficulty of proving it's safe in a kernel might make it not worth it. (And as I said, I'm not at all sure it can be implemented safely, because I think nested interrupts are possible.)
(BTW, see the x86 tag wiki for links to the ABI documenting the red-zone, and other stuff.)