Re: [PATCH 10/17] prmem: documentation

From: Igor Stoppa
Date: Wed Nov 21 2018 - 11:34:51 EST


Hi,

On 13/11/2018 20:36, Andy Lutomirski wrote:
On Tue, Nov 13, 2018 at 10:33 AM Igor Stoppa <igor.stoppa@xxxxxxxxxx> wrote:

I forgot one sentence :-(

On 13/11/2018 20:31, Igor Stoppa wrote:
On 13/11/2018 19:47, Andy Lutomirski wrote:

For general rare-writish stuff, I don't think we want IRQs running
with them mapped anywhere for write. For AVC and IMA, I'm less sure.

Why would these be less sensitive?

But I see a big difference between my initial implementation and this one.

In my case, by using a shared mapping, visible to all cores, freezing
the core that is performing the write would have exposed the writable
mapping to a potential attack run from another core.

If the mapping is private to the core performing the write, even if it
is frozen, it's much harder to figure out what it had mapped and where,
from another core.

To access that mapping, the attack should be performed from the ISR, I
think.

Unless the secondary mapping is also available to other cores, through
the shared mm_struct ?


I don't think this matters much. The other cores will only be able to
use that mapping when they're doing a rare write.


I'm still mulling over this.
There might be other reasons for replicating the mm_struct.

If I understand correctly how the text patching works, it happens sequentially, because of the text_mutex used by arch_jump_label_transform

Which might be fine for this specific case, but I think I shouldn't introduce a global mutex, when it comes to data.
Most likely, if two or more cores want to perform a write rare operation, there is no correlation between them, they could proceed in parallel. And if there really is, then the user of the API should introduce own locking, for that specific case.

A bit unrelated question, related to text patching: I see that each patching operation is validated, but wouldn't it be more robust to first validate all of then, and only after they are all found to be compliant, to proceed with the actual modifications?

And about the actual implementation of the write rare for the statically allocated variables, is it expected that I use Nadav's function?
Or that I refactor the code?

The name, referring to text would definitely not be ok for data.
And I would have to also generalize it, to deal with larger amounts of data.

I would find it easier, as first cut, to replicate its behavior and refactor only later, once it has stabilized and possibly Nadav's patches have been acked.

--
igor