[PATCHv2 00/18] arm64: mm: rework page table creation

Tue Jan 5 11:17:55 PST 2016

On 01/05/2016 10:58 AM, Mark Rutland wrote:
>>>> This series points out that my attempt to allow set_memory_* to
>>>> work on regular kernel memory[1] is broken right now because it breaks down
>>>> the larger block sizes.
>>>
>>> What's the rationale for set_memory_* on kernel mappings? I see
>>> "security", but I couldn't figure out a concrete use-case. Is there any
>>> example of a subsystem that wants to use this?
>>
>>  From the description, it sounded like this was possibly new work but
>> the eBPF interpreter currently supports setting a page read only via
>> set_memory_ro (see 60a3b2253c413cf601783b070507d7dd6620c954
>> "net: bpf: make eBPF interpreter images read-only") so it's not
>> unheard of.
>
> Oh. For some reason I thought that used the vmalloc area, but evidently
> I was mistaken.
>
> That is unfortunate, it would be good to protect the JITed code.
>
>>> For statically-allocated data, an alternative approach would be for such
>>> memory to be mapped with minimal permissions from the outset (e.g. being
>>> placed in .rodata), and when elevated permissions are required a
>>> (temporary) memremap'd alias could be used, like what patch_map does to
>>> modify ROX kernel/module text.
>>>
>>> For dynamically-allocated data, we could create (minimal permission)
>>> mappings in the vmalloc region and pass those around. The linear map
>>> alias would still be writeable, but as the offset between the two isn't
>>> linear (and the owner of that allocation doesn't have to know/care about
>>> the linear map address), it would be much harder to find the linear map
>>> address to attack. An alias with elevated permissions could be used as
>>> required, or if it's a one-time RW->RO switch, the mapping could me
>>> modified in-place as the granularity wouldn't change.
>>
>> This would work for new features but probably not for existing features
>> such as the eBPF interpreter.
>
> Sure.
>
> For eBPF it might be possible to rework the code to support using
> separate aliases, but that's probably not going to be easy and that
> probably works against some performance requirement. :/

Ah no, you are correct, I misread how the code was working. The eBPF code
does use vmalloc so that can easily be fixed up. I think your suggestion
of either using vmalloc or a special static section is the best
recommendation. If anyone really thinks they need to change any other
memory they can make a proposal.

Sorry for the confusion.

Thanks,
Laura