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SubjectRe: [RFC] security: replace indirect calls with static calls
On Mon, 24 Aug 2020 at 18:43, Casey Schaufler <casey@schaufler-ca.com> wrote:
>
> On 8/24/2020 8:20 AM, Brendan Jackman wrote:
> > On Fri, 21 Aug 2020 at 00:46, Casey Schaufler <casey@schaufler-ca.com> wrote:
> >> On 8/20/2020 9:47 AM, Brendan Jackman wrote:
> > [...]
> >> What does NOP really look like?
> > The NOP is the same as a regular function call but the CALL
> > instruction is replaced with a NOP instruction. The code that sets up
> > the call parameters is unchanged, and so is the code that expects to
> > get the return value in eax or whatever.
>
> Right. Are you saying that NOP is in-line assembler in your switch?

That's right - although it's behind the static_call API that the patch
depends on ([5] in the original mail).

> > That means we cannot actually
> > call the static_calls for NULL slots, we'd get undefined behaviour
> > (except for void hooks) - this is what Peter is talking about in the
> > sibling thread.
>
> Referring to the "sibling thread" is kinda confusing, and
> assumes everyone is one all the right mailing lists, and knows
> which other thread you're talking about.

Sure, sorry - here's the Lore link for future reference:

https://lore.kernel.org/lkml/20200820164753.3256899-1-jackmanb@chromium.org/T/#m5a6fb3f10141049ce43e18a41f154796090ae1d5

> >
> > For this reason, there are _no gaps_ in the callback table. For a
> > given LSM hook, all the slots after base_slot_idx are filled,
>
> Why go to all the trouble of maintaining the base_slot_idx
> if NOP is so cheap? Why not fill all unused slots with NOP?
> Worst case would be a hook with no users, in which case you
> have 11 NOPS in the void hook case and 11 "if (ret != DEFAULT_RET)"
> and 11 NOPS in the int case. No switch magic required. Even
> better, in the int case you have two calls/slot, the first is the
> module supplied function (or NOP) and the second is
> int isit(int ret) { return (ret != DEFAULT_RET) ? ret : 0; }
> (or NOP).
>
> The no security module case degenerates to 22 NOP instructions
> and no if checks of any sort. I'm not the performance guy, but
> that seems better than maintaining and checking base_slot_idx
> to me.

The switch trick is not really motivated by performance.

I think all the focus on the NOPs themselves is a bit misleading here
- we _can't_ execute the NOPs for the int hooks, because there are
instructions after them that expect a function to have just returned a
value, which NOP doesn't do. When there is a NOP in the slot instead
of a CALL, it would appear to "return" whatever value is leftover in
the return register. At the C level, this is why the static_call API
doesn't allow static_call_cond to return a value (which is what PeterZ
is referring to in the thread I linked above).

So, we could drop the switch trick for void hooks and just use
static_call_cond, but this doesn't work for int hooks. IMO that
variation between the two hook types would just add confusion.

> >>> +#define __UNROLL_MACRO_LOOP_20(MACRO, ...) \
> >>> + __UNROLL_MACRO_LOOP_19(MACRO, __VA_ARGS__) \
> >>> + MACRO(19, __VA_ARGS__)
> >>> +
> >> Where does "20" come from? Why are you unrolling beyond 11?
> > It's just an arbitrary limit on the unrolling macro implementation, we
> > aren't actually unrolling beyond 11 where the macro is used (N is set
> > to 11).
>
> I'm not a fan of including macros you can't use, especially
> when they're just obvious variants of other macros.

Not sure what you mean here - is there already a macro that does what
UNROLL_MACRO_LOOP does?

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