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SubjectRe: [RFC PATCH] mm: extend memfd with ability to create "secret" memory areas
On Fri, Aug 14, 2020 at 11:09 AM Dave Hansen <dave.hansen@intel.com> wrote:
>
> On 8/14/20 10:46 AM, Andy Lutomirski wrote:
> > I'm a little unconvinced about the security benefits. As far as I
> > know, UC memory will not end up in cache by any means (unless
> > aliased), but it's going to be tough to do much with UC data with
> > anything resembling reasonable performance without derived values
> > getting cached.
>
> I think this is much more in the category of raising the bar than
> providing any absolute security guarantees.

The problem here is that we're raising the bar in a way that is
weirdly architecture dependent, *extremely* nonperformant, and may not
even accomplish what it's trying to accomplish.

>
> Let's say you have a secret and you read it into some registers and then
> spill them on the stack. You've got two cached copies, one for the
> primary data and another for the stack copy. Secret areas don't get rid
> of the stack copy, but they do get rid of the other one. One cache copy
> is better than two. Bar raised. :)

If we have two bars right next to each other and we raise one of them,
did we really accomplish much? I admit that having a secret in its
own dedicated cache line seems like an easier target than a secret in
a cache line that may be quickly overwritten by something else. But
even user registers right now aren't specially protected -- pt_regs
lives is cached and probably has a predictable location, especially if
you execve() a setuid program.

>
> There are also some stronger protections, less in the bar-raising
> category. On x86 at least, uncached accesses also crush speculation.
> You can't, for instance, speculatively get wrong values if you're not
> speculating in the first place. I was thinking of things like Load
> Value Injection[1].

This seems genuinely useful, but it doesn't really address the fact
that requesting UC memory via PAT apparently has a good chance of
getting WB anyway.

>
> I _believe_ there are also things like AES-NI that can get strong
> protection from stuff like this. They load encryption keys into (AVX)
> registers and then can do encrypt/decrypt operations without the keys
> leaving the registers. If the key was loaded from a secret memory area
> right into the registers, I think the protection from cache attacks
> would be pretty strong.
>

Except for context switches :)
>
> 1.
> https://software.intel.com/security-software-guidance/insights/deep-dive-load-value-injection

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