Re: [RFC PATCH 11/13] x86/uintr: Introduce uintr_wait() syscall
From: Andy Lutomirski
Date: Fri Oct 01 2021 - 19:04:47 EST
> On Oct 1, 2021, at 2:29 PM, Thomas Gleixner <tglx@xxxxxxxxxxxxx> wrote:
>
> On Fri, Oct 01 2021 at 08:13, Andy Lutomirski wrote:
>
>>> On Fri, Oct 1, 2021, at 2:56 AM, Thomas Gleixner wrote:
>>> On Thu, Sep 30 2021 at 21:41, Andy Lutomirski wrote:
>>>>> On Thu, Sep 30, 2021, at 5:01 PM, Thomas Gleixner wrote:
>>>
>>>> Now that I read the docs some more, I'm seriously concerned about this
>>>> XSAVE design. XSAVES with UINTR is destructive -- it clears UINV. If
>>>> we actually use this, then the whole last_cpu "preserve the state in
>>>> registers" optimization goes out the window. So does anything that
>>>> happens to assume that merely saving the state doesn't destroy it on
>>>> respectable modern CPUs XRSTORS will #GP if you XRSTORS twice, which
>>>> makes me nervous and would need a serious audit of our XRSTORS paths.
>>>
>>> I have no idea what you are fantasizing about. You can XRSTORS five
>>> times in a row as long as your XSTATE memory image is correct.
>>
>> I'm just reading TFM, which is some kind of dystopian fantasy.
>>
>> 11.8.2.4 XRSTORS
>>
>> Before restoring the user-interrupt state component, XRSTORS verifies
>> that UINV is 0. If it is not, XRSTORS causes a general-protection
>> fault (#GP) before loading any part of the user-interrupt state
>> component. (UINV is IA32_UINTR_MISC[39:32]; XRSTORS does not check the
>> contents of the remainder of that MSR.)
>
> Duh. I was staring at the SDM and searching for a hint. Stupid me!
>
>> So if UINV is set in the memory image and you XRSTORS five times in a
>> row, the first one will work assuming UINV was zero. The second one
>> will #GP.
>
> Yes. I can see what you mean now :)
>
>> 11.8.2.3 XSAVES
>> After saving the user-interrupt state component, XSAVES clears UINV. (UINV is IA32_UINTR_MISC[39:32];
>> XSAVES does not modify the remainder of that MSR.)
>>
>> So if we're running a UPID-enabled user task and we switch to a kernel
>> thread, we do XSAVES and UINV is cleared. Then we switch back to the
>> same task and don't do XRSTORS (or otherwise write IA32_UINTR_MISC)
>> and UINV is still clear.
>
> Yes, that has to be mopped up on the way to user space.
>
>> And we had better clear UINV when running a kernel thread because the
>> UPID might get freed or the kernel thread might do some CPL3
>> shenanigans (via EFI, perhaps? I don't know if any firmwares actually
>> do this).
>
> Right. That's what happens already with the current pile.
>
>> So all this seems to put UINV into the "independent" category of
>> feature along with LBR. And the 512-byte wastes from extra copies of
>> the legacy area and the loss of the XMODIFIED optimization will just
>> be collateral damage.
>
> So we'd end up with two XSAVES on context switch. We can simply do:
>
> XSAVES();
> fpu.state.xtsate.uintr.uinv = 0;
Could work. As long as UINV is armed, RR can change at any time (maybe just when IF=1? The manual is unclear). But the first XSAVES disarms UINV, so maybe this won’t confuse any callers.
>
> which allows to do as many XRSTORS in a row as we want. Only the final
> one on the way to user space will have to restore the real vector if the
> register state is not valid:
>
> if (fpu_state_valid()) {
> if (needs_uinv(current)
> wrmsrl(UINV, vector);
> } else {
> if (needs_uinv(current)
> fpu.state.xtsate.uintr.uinv = vector;
> XRSTORS();
> }
>
> Hmm?
I like it better than anything else I’ve seen.
>
> Thanks,
>
> tglx