[RFC PATCH v12 07/33] KVM: Add KVM_EXIT_MEMORY_FAULT exit to report faults to userspace

Sean Christopherson seanjc at google.com
Fri Sep 22 07:30:38 PDT 2023


On Fri, Sep 22, 2023, Xiaoyao Li wrote:
> On 9/14/2023 9:55 AM, Sean Christopherson wrote:
> > From: Chao Peng <chao.p.peng at linux.intel.com>
> > 
> > Add a new KVM exit type to allow userspace to handle memory faults that
> > KVM cannot resolve, but that userspace *may* be able to handle (without
> > terminating the guest).
> > 
> > KVM will initially use KVM_EXIT_MEMORY_FAULT to report implicit
> > conversions between private and shared memory.  With guest private memory,
> > there will be  two kind of memory conversions:
> > 
> >    - explicit conversion: happens when the guest explicitly calls into KVM
> >      to map a range (as private or shared)
> > 
> >    - implicit conversion: happens when the guest attempts to access a gfn
> >      that is configured in the "wrong" state (private vs. shared)
> > 
> > On x86 (first architecture to support guest private memory), explicit
> > conversions will be reported via KVM_EXIT_HYPERCALL+KVM_HC_MAP_GPA_RANGE,
> 
> side topic.
> 
> Do we expect to integrate TDVMCALL(MAPGPA) of TDX into KVM_HC_MAP_GPA_RANGE?

Yes, that's my expectation.

> > but reporting KVM_EXIT_HYPERCALL for implicit conversions is undesriable
> > as there is (obviously) no hypercall, and there is no guarantee that the
> > guest actually intends to convert between private and shared, i.e. what
> > KVM thinks is an implicit conversion "request" could actually be the
> > result of a guest code bug.
> > 
> > KVM_EXIT_MEMORY_FAULT will be used to report memory faults that appear to
> > be implicit conversions.
> > 
> > Place "struct memory_fault" in a second anonymous union so that filling
> > memory_fault doesn't clobber state from other yet-to-be-fulfilled exits,
> > and to provide additional information if KVM does NOT ultimately exit to
> > userspace with KVM_EXIT_MEMORY_FAULT, e.g. if KVM suppresses (or worse,
> > loses) the exit, as KVM often suppresses exits for memory failures that
> > occur when accessing paravirt data structures.  The initial usage for
> > private memory will be all-or-nothing, but other features such as the
> > proposed "userfault on missing mappings" support will use
> > KVM_EXIT_MEMORY_FAULT for potentially _all_ guest memory accesses, i.e.
> > will run afoul of KVM's various quirks.
> 
> So when exit reason is KVM_EXIT_MEMORY_FAULT, how can we tell which field in
> the first union is valid?
> 
> When exit reason is not KVM_EXIT_MEMORY_FAULT, how can we know the info in
> the second union run.memory is valid without a run.memory.valid field?

I'll respond to this separately with a trimmed Cc list.  I suspect this will be
a rather lengthy conversation, and it has almost nothing to do with guest_memfd.

> > +Note!  KVM_EXIT_MEMORY_FAULT is unique among all KVM exit reasons in that it
> > +accompanies a return code of '-1', not '0'!  errno will always be set to EFAULT
> > +or EHWPOISON when KVM exits with KVM_EXIT_MEMORY_FAULT, userspace should assume
> > +kvm_run.exit_reason is stale/undefined for all other error numbers.
> > +
> 
> Initially, this section is the copy of struct kvm_run and had comments for
> each field accordingly. Unfortunately, the consistence has not been well
> maintained during the new filed being added.
> 
> Do we expect to fix it?

AFAIK, no one is working on cleaning up this section of the docs, but as always,
patches are welcome :-)



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