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SubjectRe: [PATCH v4 15/29] x86/mm/64: Enable vmapped stacks
On Mon, Jun 27, 2016 at 12:35 PM, Andy Lutomirski <luto@amacapital.net> wrote:
> On Mon, Jun 27, 2016 at 9:17 AM, Brian Gerst <brgerst@gmail.com> wrote:
>> On Mon, Jun 27, 2016 at 11:54 AM, Andy Lutomirski <luto@amacapital.net> wrote:
>>> On Mon, Jun 27, 2016 at 8:22 AM, Andy Lutomirski <luto@amacapital.net> wrote:
>>>> On Mon, Jun 27, 2016 at 8:12 AM, Brian Gerst <brgerst@gmail.com> wrote:
>>>>> On Mon, Jun 27, 2016 at 11:01 AM, Brian Gerst <brgerst@gmail.com> wrote:
>>>>>> On Sun, Jun 26, 2016 at 5:55 PM, Andy Lutomirski <luto@kernel.org> wrote:
>>>>>>> #ifdef CONFIG_X86_64
>>>>>>> /* Runs on IST stack */
>>>>>>> dotraplinkage void do_double_fault(struct pt_regs *regs, long error_code)
>>>>>>> {
>>>>>>> static const char str[] = "double fault";
>>>>>>> struct task_struct *tsk = current;
>>>>>>> +#ifdef CONFIG_VMAP_STACK
>>>>>>> + unsigned long cr2;
>>>>>>> +#endif
>>>>>>>
>>>>>>> #ifdef CONFIG_X86_ESPFIX64
>>>>>>> extern unsigned char native_irq_return_iret[];
>>>>>>> @@ -332,6 +350,20 @@ dotraplinkage void do_double_fault(struct pt_regs *regs, long error_code)
>>>>>>> tsk->thread.error_code = error_code;
>>>>>>> tsk->thread.trap_nr = X86_TRAP_DF;
>>>>>>>
>>>>>>> +#ifdef CONFIG_VMAP_STACK
>>>>>>> + /*
>>>>>>> + * If we overflow the stack into a guard page, the CPU will fail
>>>>>>> + * to deliver #PF and will send #DF instead. CR2 will contain
>>>>>>> + * the linear address of the second fault, which will be in the
>>>>>>> + * guard page below the bottom of the stack.
>>>>>>> + */
>>>>>>> + cr2 = read_cr2();
>>>>>>> + if ((unsigned long)tsk->stack - 1 - cr2 < PAGE_SIZE)
>>>>>>> + handle_stack_overflow(
>>>>>>> + "kernel stack overflow (double-fault)",
>>>>>>> + regs, cr2);
>>>>>>> +#endif
>>>>>>
>>>>>> Is there any other way to tell if this was from a page fault? If it
>>>>>> wasn't a page fault then CR2 is undefined.
>>>>>
>>>>> I guess it doesn't really matter, since the fault is fatal either way.
>>>>> The error message might be incorrect though.
>>>>>
>>>>
>>>> It's at least worth a comment, though. Maybe I should check if
>>>> regs->rsp is within 40 bytes of the bottom of the stack, too, such
>>>> that delivery of an inner fault would have double-faulted assuming the
>>>> inner fault didn't use an IST vector.
>>>>
>>>
>>> How about:
>>>
>>> /*
>>> * If we overflow the stack into a guard page, the CPU will fail
>>> * to deliver #PF and will send #DF instead. CR2 will contain
>>> * the linear address of the second fault, which will be in the
>>> * guard page below the bottom of the stack.
>>> *
>>> * We're limited to using heuristics here, since the CPU does
>>> * not tell us what type of fault failed and, if the first fault
>>> * wasn't a page fault, CR2 may contain stale garbage. To mostly
>>> * rule out garbage, we check if the saved RSP is close enough to
>>> * the bottom of the stack to cause exception delivery to fail.
>>> * The worst case is 7 stack slots: one for alignment, five for
>>> * SS..RIP, and one for the error code.
>>> */
>>> tsk_stack = (unsigned long)task_stack_page(tsk);
>>> if (regs->rsp <= tsk_stack + 7*8 && regs->rsp > tsk_stack - PAGE_SIZE) {
>>> /* A double-fault due to #PF delivery failure is plausible. */
>>> cr2 = read_cr2();
>>> if (tsk_stack - 1 - cr2 < PAGE_SIZE)
>>> handle_stack_overflow(
>>> "kernel stack overflow (double-fault)",
>>> regs, cr2);
>>> }
>>
>> I think RSP anywhere in the guard page would be best, since it could
>> have been decremented by a function prologue into the guard page
>> before an access that triggers the page fault.
>>
>
> I think that can miss some stack overflows. Suppose that RSP points
> very close to the bottom of the stack and we take an unrelated fault.
> The CPU can fail to deliver that fault and we get a double fault
> instead. But I counted wrong, too. Do you like this version and its
> explanation?
>
> /*
> * If we overflow the stack into a guard page, the CPU will fail
> * to deliver #PF and will send #DF instead. Similarly, if we
> * take any non-IST exception while too close to the bottom of
> * the stack, the processor will get a page fault while
> * delivering the exception and will generate a double fault.
> *
> * According to the SDM (footnote in 6.15 under "Interrupt 14 -
> * Page-Fault Exception (#PF):
> *
> * Processors update CR2 whenever a page fault is detected. If a
> * second page fault occurs while an earlier page fault is being
> * deliv- ered, the faulting linear address of the second fault will
> * overwrite the contents of CR2 (replacing the previous
> * address). These updates to CR2 occur even if the page fault
> * results in a double fault or occurs during the delivery of a
> * double fault.
> *
> * However, if we got here due to a non-page-fault exception while
> * delivering a non-page-fault exception, CR2 may contain a
> * stale value.
> *
> * As a heuristic: we consider this double fault to be a stack
> * overflow if CR2 points to the guard page and RSP is either
> * in the guard page or close enough to the bottom of the stack
> *
> * We're limited to using heuristics here, since the CPU does
> * not tell us what type of fault failed and, if the first fault
> * wasn't a page fault, CR2 may contain stale garbage. To
> * mostly rule out garbage, we check if the saved RSP is close
> * enough to the bottom of the stack to cause exception delivery
> * to fail. If RSP == tsk_stack + 48 and we take an exception,
> * the stack is already aligned and there will be enough room
> * SS, RSP, RFLAGS, CS, RIP, and a possible error code. With
> * any less space left, exception delivery could fail.
> */
> tsk_stack = (unsigned long)task_stack_page(tsk);
> if (regs->rsp < tsk_stack + 48 && regs->rsp > tsk_stack - PAGE_SIZE) {
> /* A double-fault due to #PF delivery failure is plausible. */
> cr2 = read_cr2();
> if (tsk_stack - 1 - cr2 < PAGE_SIZE)
> handle_stack_overflow(
> "kernel stack overflow (double-fault)",
> regs, cr2);
> }

Actually I think your quote from the SDM contradicts this. The second
#PF (when trying to invoke the page fault handler) would update CR2
with an address in the guard page.

--
Brian Gerst

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