Re: [PATCH v3 0/6] Static calls
From: Nadav Amit
Date: Thu Jan 10 2019 - 14:45:35 EST
> On Jan 10, 2019, at 10:18 AM, Josh Poimboeuf <jpoimboe@xxxxxxxxxx> wrote:
>
> On Thu, Jan 10, 2019 at 05:32:08PM +0000, Nadav Amit wrote:
>>> On Jan 10, 2019, at 8:44 AM, Josh Poimboeuf <jpoimboe@xxxxxxxxxx> wrote:
>>>
>>> On Thu, Jan 10, 2019 at 01:21:00AM +0000, Nadav Amit wrote:
>>>>> On Jan 9, 2019, at 2:59 PM, Josh Poimboeuf <jpoimboe@xxxxxxxxxx> wrote:
>>>>>
>>>>> With this version, I stopped trying to use text_poke_bp(), and instead
>>>>> went with a different approach: if the call site destination doesn't
>>>>> cross a cacheline boundary, just do an atomic write. Otherwise, keep
>>>>> using the trampoline indefinitely.
>>>>>
>>>>> NOTE: At least experimentally, the call destination writes seem to be
>>>>> atomic with respect to instruction fetching. On Nehalem I can easily
>>>>> trigger crashes when writing a call destination across cachelines while
>>>>> reading the instruction on other CPU; but I get no such crashes when
>>>>> respecting cacheline boundaries.
>>>>>
>>>>> BUT, the SDM doesn't document this approach, so it would be great if any
>>>>> CPU people can confirm that it's safe!
>>>>
>>>> I (still) think that having a compiler plugin can make things much cleaner
>>>> (as done in [1]). The callers would not need to be changed, and the key can
>>>> be provided through an attribute.
>>>>
>>>> Using a plugin should also allow to use Stevenâs proposal for doing
>>>> text_poke() safely: by changing 'func()' into 'asm (âcall funcâ)', as done
>>>> by the plugin, you can be guaranteed that registers are clobbered. Then, you
>>>> can store in the assembly block the return address in one of these
>>>> registers.
>>>
>>> I'm no GCC expert (why do I find myself saying this a lot lately?), but
>>> this sounds to me like it could be tricky to get right.
>>>
>>> I suppose you'd have to do it in an early pass, to allow GCC to clobber
>>> the registers in a later pass. So it would necessarily have side
>>> effects, but I don't know what the risks are.
>>
>> Iâm not GCC expert either and writing this code was not making me full of
>> joy, etc.. Iâll be happy that my code would be reviewed, but it does work. I
>> donât think an early pass is needed, as long as hardware registers were not
>> allocated.
>>
>>> Would it work with more than 5 arguments, where args get passed on the
>>> stack?
>>
>> It does.
>>
>>> At the very least, it would (at least partially) defeat the point of the
>>> callee-saved paravirt ops.
>>
>> Actually, I think you can even deal with callee-saved functions and remove
>> all the (terrible) macros. You would need to tell the extension not to
>> clobber the registers through a new attribute.
>
> Ok, it does sound interesting then. I assume you'll be sharing the
> code?
Of course. If this what is going to convince, Iâll make a small version for
PV callee-saved first.
>>> What if we just used a plugin in a simpler fashion -- to do call site
>>> alignment, if necessary, to ensure the instruction doesn't cross
>>> cacheline boundaries. This could be done in a later pass, with no side
>>> effects other than code layout. And it would allow us to avoid
>>> breakpoints altogether -- again, assuming somebody can verify that
>>> intra-cacheline call destination writes are atomic with respect to
>>> instruction decoder reads.
>>
>> The plugin should not be able to do so. Layout of the bytecode is done by
>> the assembler, so I donât think a plugin would help you with this one.
>
> Actually I think we could use .bundle_align_mode for this purpose:
>
> https://na01.safelinks.protection.outlook.com/?url=https%3A%2F%2Fsourceware.org%2Fbinutils%2Fdocs-2.31%2Fas%2FBundle-directives.html&data=02%7C01%7Cnamit%40vmware.com%7Cfa29fb8be208498d039008d67727fe30%7Cb39138ca3cee4b4aa4d6cd83d9dd62f0%7C0%7C0%7C636827411004664549&sdata=elDuAVOsSlidG7pZSZfjbhrgnMOHeX6AWKs0hJM4cCE%3D&reserved=0
Hmâ I donât understand what you have in mind (i.e., when would this
assembly directives would be emitted).