Commit a476aae3 authored by Linus Torvalds's avatar Linus Torvalds

x86/csum: clean up `csum_partial' further

Commit 688eb819 ("x86/csum: Improve performance of `csum_partial`")
ended up improving the code generation for the IP csum calculations, and
in particular special-casing the 40-byte case that is a hot case for
IPv6 headers.

It then had _another_ special case for the 64-byte unrolled loop, which
did two chains of 32-byte blocks, which allows modern CPU's to improve
performance by doing the chains in parallel thanks to renaming the carry
flag.

This just unifies the special cases and combines them into just one
single helper the 40-byte csum case, and replaces the 64-byte case by a
80-byte case that just does that single helper twice.  It avoids having
all these different versions of inline assembly, and actually improved
performance further in my tests.

There was never anything magical about the 64-byte unrolled case, even
though it happens to be a common size (and typically is the cacheline
size).
Signed-off-by: default avatarLinus Torvalds <torvalds@linux-foundation.org>
parent 5d4acb62
...@@ -16,6 +16,20 @@ static inline __wsum csum_finalize_sum(u64 temp64) ...@@ -16,6 +16,20 @@ static inline __wsum csum_finalize_sum(u64 temp64)
return (__force __wsum)((temp64 + ror64(temp64, 32)) >> 32); return (__force __wsum)((temp64 + ror64(temp64, 32)) >> 32);
} }
static inline unsigned long update_csum_40b(unsigned long sum, const unsigned long m[5])
{
asm("addq %1,%0\n\t"
"adcq %2,%0\n\t"
"adcq %3,%0\n\t"
"adcq %4,%0\n\t"
"adcq %5,%0\n\t"
"adcq $0,%0"
:"+r" (sum)
:"m" (m[0]), "m" (m[1]), "m" (m[2]),
"m" (m[3]), "m" (m[4]));
return sum;
}
/* /*
* Do a checksum on an arbitrary memory area. * Do a checksum on an arbitrary memory area.
* Returns a 32bit checksum. * Returns a 32bit checksum.
...@@ -31,52 +45,31 @@ __wsum csum_partial(const void *buff, int len, __wsum sum) ...@@ -31,52 +45,31 @@ __wsum csum_partial(const void *buff, int len, __wsum sum)
{ {
u64 temp64 = (__force u64)sum; u64 temp64 = (__force u64)sum;
/* /* Do two 40-byte chunks in parallel to get better ILP */
* len == 40 is the hot case due to IPv6 headers, but annotating it likely() if (likely(len >= 80)) {
* has noticeable negative affect on codegen for all other cases with u64 temp64_2 = 0;
* minimal performance benefit here. do {
*/ temp64 = update_csum_40b(temp64, buff);
if (len == 40) { temp64_2 = update_csum_40b(temp64_2, buff + 40);
asm("addq 0*8(%[src]),%[res]\n\t" buff += 80;
"adcq 1*8(%[src]),%[res]\n\t" len -= 80;
"adcq 2*8(%[src]),%[res]\n\t" } while (len >= 80);
"adcq 3*8(%[src]),%[res]\n\t"
"adcq 4*8(%[src]),%[res]\n\t" asm("addq %1,%0\n\t"
"adcq $0,%[res]" "adcq $0,%0"
: [res] "+r"(temp64) :"+r" (temp64): "r" (temp64_2));
: [src] "r"(buff), "m"(*(const char(*)[40])buff));
return csum_finalize_sum(temp64);
} }
if (unlikely(len >= 64)) {
/* /*
* Extra accumulators for better ILP in the loop. * len == 40 is the hot case due to IPv6 headers, so return
* early for that exact case without checking the tail bytes.
*/ */
u64 tmp_accum, tmp_carries; if (len >= 40) {
temp64 = update_csum_40b(temp64, buff);
asm("xorl %k[tmp_accum],%k[tmp_accum]\n\t" len -= 40;
"xorl %k[tmp_carries],%k[tmp_carries]\n\t" if (!len)
"subl $64, %[len]\n\t" return csum_finalize_sum(temp64);
"1:\n\t" buff += 40;
"addq 0*8(%[src]),%[res]\n\t"
"adcq 1*8(%[src]),%[res]\n\t"
"adcq 2*8(%[src]),%[res]\n\t"
"adcq 3*8(%[src]),%[res]\n\t"
"adcl $0,%k[tmp_carries]\n\t"
"addq 4*8(%[src]),%[tmp_accum]\n\t"
"adcq 5*8(%[src]),%[tmp_accum]\n\t"
"adcq 6*8(%[src]),%[tmp_accum]\n\t"
"adcq 7*8(%[src]),%[tmp_accum]\n\t"
"adcl $0,%k[tmp_carries]\n\t"
"addq $64, %[src]\n\t"
"subl $64, %[len]\n\t"
"jge 1b\n\t"
"addq %[tmp_accum],%[res]\n\t"
"adcq %[tmp_carries],%[res]\n\t"
"adcq $0,%[res]"
: [tmp_accum] "=&r"(tmp_accum),
[tmp_carries] "=&r"(tmp_carries), [res] "+r"(temp64),
[len] "+r"(len), [src] "+r"(buff)
: "m"(*(const char *)buff));
} }
if (len & 32) { if (len & 32) {
......
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