lkml.org 
[lkml]   [2021]   [Dec]   [20]   [last100]   RSS Feed
Views: [wrap][no wrap]   [headers]  [forward] 
 
Messages in this thread
/
SubjectRe: [PATCH 1/2] x86/sgx: Add accounting for tracking overcommit
From
Date
On Mon, 2021-12-20 at 22:11 +0100, Borislav Petkov wrote:
> Bah, that thread is not on lkml. Please always Cc lkml in the future.
>
> On Mon, Dec 20, 2021 at 12:39:19PM -0800, Kristen Carlson Accardi
> wrote:
> > If a malicious or just extra large enclave is loaded, or even just
> > a
> > lot of enclaves, it can eat up all the normal RAM on the system.
> > Normal
> > methods of finding out where all the memory on the system is being
> > used, wouldn't be able to find this usage since it is shared
> > memory. In
> > addition, the OOM killer wouldn't be able to kill any enclaves.
>
> So you need some sort of limiting against malicious enclaves anyways,
> regardless of this knob. IOW, you can set a percentage limit of
> per-enclave memory which cannot exceed a certain amount which won't
> prevent the system from its normal operation. For example.
>
> > I completely agree - so I'm trying to make sure I understand this
> > comment, as the value is currently set to default that would
> > automatically apply that is based on EPC memory present and not a
> > fixed
> > value. So I'd like to understand what you'd like to see done
> > differently. are you saying you'd like to eliminated the ability to
> > override the automatic default? Or just that you'd rather calculate
> > the
> > percentage based on total normal system RAM rather than EPC memory?
>
> So you say that there are cases where swapping to normal RAM can eat
> up all RAM.
>
> So the first heuristic should be: do not allow for *all* enclaves
> together to use up more than X percent of normal RAM during EPC
> reclaim.

So, in your proposal, you would first change the calculated number of
maximum available backing pages to be based on total system RAM rather
than EPC memory, got it.

>
> X percent being, say, 90% of all RAM. For example. I guess 10% should
> be enough for normal operation but someone who's more knowledgeable
> in
> system limits could chime in here.
>
> Then, define a per-enclave limit which says, an enclave can use Y %
> of
> memory for swapping when trying to reclaim EPC memory. And that can
> be
> something like:
>
> 90 % RAM
> --------
> total amount of enclaves currently on the system
>

This would require recalculating the max number of allowed backing
pages per enclave at run time whenever a new enclave is loaded - but
all the existing enclaves may have already used more than the new max
number of per-enclave allowable pages. How would you handle that
scenario? This would add a lot of complexity for sure - and it does
make me wonder whether any additional benefit of limiting per enclave
would be worth it.

> And you can obviously create scenarios where creating too many
> enclaves
> can bring the system into a situation where it doesn't do any forward
> progress.
>
> But you probably can cause the same with overcommitting with VMs so
> perhaps it would be a good idea to look how overcommitting VMs and
> limits there are handled.
>
> Bottom line is: the logic should be for the most common cases to
> function properly, out-of-the-box, without knobs. And then to keep
> the
> system operational by preventing enclaves from bringing it down to a
> halt just by doing EPC reclaim.
>
> Does that make more sense?
>

Thanks for your more detailed explanation - I will take a look at the
VM overcommit limits. Since obviously the original implementation did
have a default value set, I had still a remaining specific question
about your comments. Are you suggesting that there should not be a way
to override any overcommit limit at all? So drop the parameter all
together?

\
 
 \ /
  Last update: 2021-12-20 22:36    [W:1.407 / U:0.028 seconds]
©2003-2020 Jasper Spaans|hosted at Digital Ocean and TransIP|Read the blog|Advertise on this site