[PATCH 12/13] x86/jitalloc: prepare to allocate exectuatble memory as ROX

Mike Rapoport rppt at kernel.org
Tue Jun 6 06:42:56 AEST 2023


On Mon, Jun 05, 2023 at 04:10:21PM +0000, Edgecombe, Rick P wrote:
> On Mon, 2023-06-05 at 11:11 +0300, Mike Rapoport wrote:
> > On Sun, Jun 04, 2023 at 10:52:44PM -0400, Steven Rostedt wrote:
> > > On Thu, 1 Jun 2023 16:54:36 -0700
> > > Nadav Amit <nadav.amit at gmail.com> wrote:
> > > 
> > > > > The way text_poke() is used here, it is creating a new writable
> > > > > alias
> > > > > and flushing it for *each* write to the module (like for each
> > > > > write of
> > > > > an individual relocation, etc). I was just thinking it might
> > > > > warrant
> > > > > some batching or something.  
> > 
> > > > I am not advocating to do so, but if you want to have many
> > > > efficient
> > > > writes, perhaps you can just disable CR0.WP. Just saying that if
> > > > you
> > > > are about to write all over the memory, text_poke() does not
> > > > provide
> > > > too much security for the poking thread.
> > 
> > Heh, this is definitely and easier hack to implement :)
> 
> I don't know the details, but previously there was some strong dislike
> of CR0.WP toggling. And now there is also the problem of CET. Setting
> CR0.WP=0 will #GP if CR4.CET is 1 (as it currently is for kernel IBT).
> I guess you might get away with toggling them both in some controlled
> situation, but it might be a lot easier to hack up then to be made
> fully acceptable. It does sound much more efficient though.
 
I don't think we'd really want that, especially looking at 

		WARN_ONCE(bits_missing, "CR0 WP bit went missing!?\n");

at native_write_cr0().
 
> > > Batching does exist, which is what the text_poke_queue() thing
> > > does.
> > 
> > For module loading text_poke_queue() will still be much slower than a
> > bunch
> > of memset()s for no good reason because we don't need all the
> > complexity of
> > text_poke_bp_batch() for module initialization because we are sure we
> > are
> > not patching live code.
> > 
> > What we'd need here is a new batching mode that will create a
> > writable
> > alias mapping at the beginning of apply_relocate_*() and
> > module_finalize(),
> > then it will use memcpy() to that writable alias and will tear the
> > mapping
> > down in the end.
> 
> It's probably only a tiny bit faster than keeping a separate writable
> allocation and text_poking it in at the end.

Right, but it still will be faster than text_poking every relocation.
 
> > Another option is to teach alternatives to update a writable copy
> > rather
> > than do in place changes like Song suggested. My feeling is that it
> > will be
> > more intrusive change though.
> 
> You mean keeping a separate RW allocation and then text_poking() the
> whole thing in when you are done? That is what I was trying to say at
> the beginning of this thread. The other benefit is you don't make the
> intermediate loading states of the module, executable.
> 
> I tried this technique previously [0], and I thought it was not too
> bad. In most of the callers it looks similar to what you have in
> do_text_poke(). Sometimes less, sometimes more. It might need
> enlightening of some of the stuff currently using text_poke() during
> module loading, like jump labels. So that bit is more intrusive, yea.
> But it sounds so much cleaner and well controlled. Did you have a
> particular trouble spot in mind?

Nothing in particular, except the intrusive part. Except the changes in
modules.c we'd need to teach alternatives to deal with a writable copy.
 
> [0]
> https://lore.kernel.org/lkml/20201120202426.18009-5-rick.p.edgecombe@intel.com/

-- 
Sincerely yours,
Mike.


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