On Fri, Jun 11, 2021 at 2:40 PM Eric W. Biederman <ebiederm@xxxxxxxxxxxx> wrote: > > Looking at copy_thread it looks like at least on alpha we are dealing > with a structure that defines all of the registers in copy_thread. On the target side, yes. On the _source_ side, the code does struct pt_regs *regs = current_pt_regs(); and that's the part that means that fork() and related functions need to have done that DO_SWITCH_STACK(), so that they have the full register set to be copied. Otherwise it would copy random contents from the source stack. But that if (unlikely(p->flags & (PF_KTHREAD | PF_IO_WORKER))) { ends up protecting us, and the code never uses that set of source registers for the io worker threads. So io_uring looks fine on alpha. I didn't check m68k and friends, but I think they have the same thing going. > It looks like we just need something like this to cover the userspace > side of exit. Looks correct to me. Except I think you could just use "fork_like()" instead of creating a new (and identical) "exit_like()" macro. > > But I really wish we had some way to test and trigger this so that we > > wouldn't get caught on this before. Something in task_pt_regs() that > > catches "this doesn't actually work" and does a WARN_ON_ONCE() on the > > affected architectures? > > I think that would require pushing an extra magic value in SWITCH_STACK > and not just popping it but deliberately changing that value in > UNDO_SWITCH_STACK. Basically stack canaries. > > I don't see how we could do it in an arch independent way though. No, I think you're right. There's no obvious generic solution to it, and once we look at arch-specific ones we're vback to "just alpha, m68k and nios needs this or cares" and tonce you're there you might as well just fix it. ia64 has soem "fast system call" model with limited registers too, but I think that's limited to just a few very special system calls (ie it does the reverse of what alpha does: alpha does the fast case by default, and then marks fork/vfork/clone as special). Linus