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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [PATCH 4/4] x86: use POPCNT for hweight<N>() when available
>>> On 31.05.19 at 22:43, <andrew.cooper3@xxxxxxxxxx> wrote:
> On 31/05/2019 02:54, Jan Beulich wrote:
>> This is faster than using the software implementation, and the insn is
>> available on all half-way recent hardware. Therefore convert
>> generic_hweight<N>() to out-of-line functions (without affecting Arm)
>> and use alternatives patching to replace the function calls.
>>
>> Suggested-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
>> Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
>
> So, I trust you weren't expecting to just ack this and let it go in?
>
> The principle of the patch (use popcnt when available) is an improvement
> which I'm entirely in agreement with, but everything else is a problem.
>
> The long and the short of it is that I'm not going to accept any version
> of this which isn't the Linux version.
You're kidding. We want to move away from assembly wherever we
can, and you demand new assembly code?
>>From a microarchitectural standpoint, the tradeoff between fractional
> register scheduling flexibility (which in practice is largely bound
> anyway by real function calls in surrounding code) and increased icache
> pressure/coldness (from the redundant function copies) falls largely in
> favour of the Linux way of doing it, a cold icache line is
> disproportionally more expensive than requiring the compiler to order
> its registers differently (especially as all non-obsolete processors
> these days have zero-cost register renaming internally, for the purpose
> of superscalar execution).
I'm afraid I'm struggling heavily as to what you're wanting to tell
me here: Where's the difference (in this regard) between the
change here and the way how Linux does it? Both emit a CALL
insn with registers set up suitably for it, and both patch it with a
POPCNT insn using the registers as demanded by the CALL.
The difference to Linux is what gets called, not how the patching
works (afaict). I'm simply not buying the combination of arguments
and effects of the removal of the use of -ffixed-*.
>> @@ -245,6 +246,9 @@ boot/mkelf32: boot/mkelf32.c
>> efi/mkreloc: efi/mkreloc.c
>> $(HOSTCC) $(HOSTCFLAGS) -g -o $@ $<
>>
>> +nocov-y += hweight.o
>
> Irrespective of the exact specifics of how the patch ends up, I don't
> think the nocov restriction is a direction we want to take.
>
> Coverage may not be a thing used in production, but when it is used for
> development, it needs to not have random holes missing in the results data.
Sure, but then we can't avoid saving/restoring the callee clobbered
registers in the to be called functions. Which in turn means I see no
way of avoiding code duplications (be it in C or assembly) of the
generic_hweight<N>() implementations.
>> +hweight.o: CFLAGS += $(foreach reg,cx dx si 8 9 10 11,-ffixed-r$(reg))
>> +
>
> Does this work with Clang?
I have no idea.
>> --- /dev/null
>> +++ b/xen/arch/x86/hweight.c
>> @@ -0,0 +1,28 @@
>> +#define generic_hweight64 _hweight64
>> +#define generic_hweight32 _hweight32
>> +#define generic_hweight16 _hweight16
>> +#define generic_hweight8 _hweight8
>> +
>> +#include <xen/compiler.h>
>> +
>> +#undef inline
>> +#define inline always_inline
>> +
>> +#include <xen/bitops.h>
>> +
>> +#undef generic_hweight8
>> +#undef generic_hweight16
>> +#undef generic_hweight32
>> +#undef generic_hweight64
>> +
>> +#define HWEIGHT(n) \
>> +typeof(_hweight##n) generic_hweight##n; \
>> +unsigned int generic_hweight##n(typeof((uint##n##_t)0 + 0U) x) \
>
> A question to the rest of xen-devel. Is there anyone else who can
> actually work out what this construct is doing?
>
> I'd like to get a feel for how many people can even follow some of our C.
I know you don't like such constructs, but you likely also know
that I don't like the redundancy resulting when not using them.
You've vetoed a change by Roger in this direction recently.
While I did accept this (as the code we have is fine as is as
well), I don't think your personal taste should rule out such
uses. If anything, may I ask for clear guidelines (to be put into
./CODING_STYLE after having reached consensus) which parts
of the C language are fine to use, and which ones aren't?
>> --- a/xen/include/asm-x86/bitops.h
>> +++ b/xen/include/asm-x86/bitops.h
>> @@ -469,15 +469,35 @@ static inline int fls(unsigned int x)
>> return r + 1;
>> }
>>
>> +/* POPCNT encodings with %{r,e}di input and %{r,e}ax output: */
>> +#define POPCNT_64 ".byte 0xF3, 0x48, 0x0F, 0xB8, 0xC7"
>> +#define POPCNT_32 ".byte 0xF3, 0x0F, 0xB8, 0xC7"
>
> So (the dangers of false micro-optimsiation aside), POPCNT_32 will
> probably be better using a redundant %ds prefix.
For the use in hweight32() - perhaps. But not for the uses in
hweight{16,8}(), as there original code and replacement fully
match up in lengths.
> The reason is that the result needs padding to 5 bytes, as the original
> instruction is `call disp32`, meaning that a single byte nop needs
> inserting. The version with a single nop takes two decode ports as
> opposed to one, and single byte nops are forced to take an execution
> delay for backwards compatibility with DoS.
>
> OTOH, I also bet that noone could observe a difference without using
> perf counters and fetch/decode uarch events.
Plus this is then a more general problem to address, not something
to specifically worry about here. Would you have asked for an
explicit override if the insn was written using a proper mnemonic
(i.e. if we didn't need to cope with incapable binutils)?
Furthermore, if we were to follow Linux, we'd rather use an empty
REX prefix here.
Jan
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