On 09/01/2018 17:23, Arjan van de Ven wrote:
> On 1/9/2018 8:17 AM, Paolo Bonzini wrote:
>> On 09/01/2018 16:19, Arjan van de Ven wrote:
>>> On 1/9/2018 7:00 AM, Liran Alon wrote:
>>>>
>>>> ----- ar...@linux.intel.com wrote:
>>>>
>>>>> On 1/9/2018 3:41 AM, Paolo Bonzini wrote:
>>>>>> The above ("IBRS simply disables the indirect branch predictor")
>>>>>> was my
>>>>>> take-away message from private discussion with Intel. My guess is
>>>>>> that
>>>>>> the vendors are just handwaving a spec that doesn't match what
>>>>>> they have
>>>>>> implemented, because honestly a microcode update is unlikely to do
>>>>>> much
>>>>>> more than an old-fashioned chicken bit. Maybe on Skylake it does
>>>>>> though, since the performance characteristics of IBRS are so
>>>>>> different
>>>>>> from previous processors. Let's ask Arjan who might have more
>>>>>> information about it, and hope he actually can disclose it...
>>>>>
>>>>> IBRS will ensure that, when set after the ring transition, no earlier
>>>>> branch prediction data is used for indirect branches while IBRS is
>>>>> set
>>
>> Let me ask you my questions, which are independent of L0/L1/L2
>> terminology.
>>
>> 1) Is vmentry/vmexit considered a ring transition, even if the guest is
>> running in ring 0? If IBRS=1 in the guest and the host is using IBRS,
>> the host will not do a wrmsr on exit. Is this safe for the host kernel?
>
> I think the CPU folks would want us to write the msr again.
Want us, or need us---and if we don't do that, what happens? And if we
have to do it, how is IBRS=1 different from an IBPB?...
Since I am at it, what happens on *current generation* CPUs if you
always leave IBRS=1? Slow and safe, or fast and unsafe?
>> 2) How will the future processors work where IBRS should always be =1?
>
> IBRS=1 should be "fire and forget this ever happened".
> This is the only time anyone should use IBRS in practice
And IBPB too I hope? But besides that, I need to know exactly how that
is implemented to ensure that it's doing the right thing.
> (and then the host turns it on and makes sure to not expose it to the
> guests I hope)
That's not that easy, because guests might have support for SPEC_CTRL
but not for IA32_ARCH_CAPABILITIES.
You could disable the SPEC_CTRL bit, but then the guest might think it
is not secure. It might also actually *be* insecure, if you migrated to
an older CPU where IBRS is not fire-and-forget.
Paolo
