Re: [PATCH v2 0/8] x86/coco: Mark CoCo VM pages not present when changing encrypted state
From: kirill.shutemov@xxxxxxxxxxxxxxx
Date: Wed Nov 29 2023 - 10:11:36 EST
On Tue, Nov 28, 2023 at 07:12:33PM +0000, Michael Kelley wrote:
> From: kirill.shutemov@xxxxxxxxxxxxxxx <kirill.shutemov@xxxxxxxxxxxxxxx> Sent: Friday, November 24, 2023 2:06 AM
> >
> > On Tue, Nov 21, 2023 at 01:20:08PM -0800, mhkelley58@xxxxxxxxx wrote:
> > > From: Michael Kelley <mhklinux@xxxxxxxxxxx>
> > >
> > > In a CoCo VM when a page transitions from encrypted to decrypted, or vice
> > > versa, attributes in the PTE must be updated *and* the hypervisor must
> > > be notified of the change.
> >
> > Strictly speaking it is not true for TDX. Conversion to shared can be
> > implicit: set shared bit and touch the page will do the conversion. MapGPA
> > is optional.
>
> Interesting. Given that, is there a reason to use the explicit
> hypervisor callbacks in for private->shared transitions in
> __set_mem_enc_pgtable()? It probably doesn't have direct relevance
> to this patch series, but I'm just trying to understand the tradeoffs of
> the implicit vs. explicit approach. And am I correct that
> shared->private transitions must use the explicit approach?
It must be explicit in sense, that the memory has to be accepted before
use. MapGPA() is still optional.
I don't like this implicit tricks. I spent a lot of time debugging an
issue that was obscured by this semantics.
But I think it is going to say :/
> > > Because there are two separate steps, there's
> > > a window where the settings are inconsistent. Normally the code that
> > > initiates the transition (via set_memory_decrypted() or
> > > set_memory_encrypted()) ensures that the memory is not being accessed
> > > during a transition, so the window of inconsistency is not a problem.
> > > However, the load_unaligned_zeropad() function can read arbitrary memory
> > > pages at arbitrary times, which could read a transitioning page during
> > > the window. In such a case, CoCo VM specific exceptions are taken
> > > (depending on the CoCo architecture in use). Current code in those
> > > exception handlers recovers and does "fixup" on the result returned by
> > > load_unaligned_zeropad(). Unfortunately, this exception handling can't
> > > work in paravisor scenarios (TDX Paritioning and SEV-SNP in vTOM mode)
> > > if the exceptions are routed to the paravisor. The paravisor can't
> > > do load_unaligned_zeropad() fixup, so the exceptions would need to
> > > be forwarded from the paravisor to the Linux guest, but there are
> > > no architectural specs for how to do that.
> >
> > Hm. Can't we inject #PF (or #GP) into L2 if #VE/#VC handler in L1 sees
> > cross-page access to shared memory while no fixup entry for the page in
> > L1. It would give L2 chance to handle the situation in a transparent way.
> >
> > Maybe I miss something, I donno.
>
> I'm recounting what the Hyper-V paravisor folks say without knowing all the
> details. :-( But it seems like any kind of forwarding scheme needs to be a
> well-defined contract that would work for both TDX and SEV-SNP. The
> paravisor in L1 might or might not be Linux-based, so the contract must be OS
> independent. And the L2 guest might or might not be Linux, so there's
> potential for some other kind of error to be confused with a Linux
> load_unaligned_zeropad() reference.
Okay, fair enough. I have hard time reasoning if it is okay for L2 which
is not Linux.
--
Kiryl Shutsemau / Kirill A. Shutemov