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mirror_zfs/module/zcommon/zfs_fletcher_avx512.c
Gvozden Neskovic 5bf703b8f3 Fletcher4: save/reload implementation context 
Init, compute, and fini methods are changed to work on internal context object.
This is necessary because ABI does not guarantee that SIMD registers will be preserved
on function calls. This is technically the case in Linux kernel in between
`kfpu_begin()/kfpu_end()`, but it breaks user-space tests and some kernels that
don't require disabling preemption for using SIMD (osx).

Use scalar compute methods in-place for small buffers, and when the buffer size
does not meet SIMD size alignment.

Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
2016-10-05 16:41:46 +02:00

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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (C) 2016 Gvozden Nešković. All rights reserved.
*/
#if defined(__x86_64) && defined(HAVE_AVX512F)
#include <linux/simd_x86.h>
#include <sys/byteorder.h>
#include <sys/spa_checksum.h>
#include <zfs_fletcher.h>
#include <strings.h>
#define __asm __asm__ __volatile__
static void
fletcher_4_avx512f_init(fletcher_4_ctx_t *ctx)
{
bzero(ctx->avx512, 4 * sizeof (zfs_fletcher_avx512_t));
}
static void
fletcher_4_avx512f_fini(fletcher_4_ctx_t *ctx, zio_cksum_t *zcp)
{
static const uint64_t
CcA[] = { 0, 0, 1, 3, 6, 10, 15, 21 },
CcB[] = { 28, 36, 44, 52, 60, 68, 76, 84 },
DcA[] = { 0, 0, 0, 1, 4, 10, 20, 35 },
DcB[] = { 56, 84, 120, 164, 216, 276, 344, 420 },
DcC[] = { 448, 512, 576, 640, 704, 768, 832, 896 };
uint64_t A, B, C, D;
uint64_t i;
A = ctx->avx512[0].v[0];
B = 8 * ctx->avx512[1].v[0];
C = 64 * ctx->avx512[2].v[0] - CcB[0] * ctx->avx512[1].v[0];
D = 512 * ctx->avx512[3].v[0] - DcC[0] * ctx->avx512[2].v[0] +
DcB[0] * ctx->avx512[1].v[0];
for (i = 1; i < 8; i++) {
A += ctx->avx512[0].v[i];
B += 8 * ctx->avx512[1].v[i] - i * ctx->avx512[0].v[i];
C += 64 * ctx->avx512[2].v[i] - CcB[i] * ctx->avx512[1].v[i] +
CcA[i] * ctx->avx512[0].v[i];
D += 512 * ctx->avx512[3].v[i] - DcC[i] * ctx->avx512[2].v[i] +
DcB[i] * ctx->avx512[1].v[i] - DcA[i] * ctx->avx512[0].v[i];
}
ZIO_SET_CHECKSUM(zcp, A, B, C, D);
}
#define FLETCHER_4_AVX512_RESTORE_CTX(ctx) \
{ \
__asm("vmovdqu64 %0, %%zmm0" :: "m" ((ctx)->avx512[0])); \
__asm("vmovdqu64 %0, %%zmm1" :: "m" ((ctx)->avx512[1])); \
__asm("vmovdqu64 %0, %%zmm2" :: "m" ((ctx)->avx512[2])); \
__asm("vmovdqu64 %0, %%zmm3" :: "m" ((ctx)->avx512[3])); \
}
#define FLETCHER_4_AVX512_SAVE_CTX(ctx) \
{ \
__asm("vmovdqu64 %%zmm0, %0" : "=m" ((ctx)->avx512[0])); \
__asm("vmovdqu64 %%zmm1, %0" : "=m" ((ctx)->avx512[1])); \
__asm("vmovdqu64 %%zmm2, %0" : "=m" ((ctx)->avx512[2])); \
__asm("vmovdqu64 %%zmm3, %0" : "=m" ((ctx)->avx512[3])); \
}
static void
fletcher_4_avx512f_native(fletcher_4_ctx_t *ctx, const void *buf, uint64_t size)
{
const uint32_t *ip = buf;
const uint32_t *ipend = (uint32_t *)((uint8_t *)ip + size);
kfpu_begin();
FLETCHER_4_AVX512_RESTORE_CTX(ctx);
for (; ip < ipend; ip += 8) {
__asm("vpmovzxdq %0, %%zmm4"::"m" (*ip));
__asm("vpaddq %zmm4, %zmm0, %zmm0");
__asm("vpaddq %zmm0, %zmm1, %zmm1");
__asm("vpaddq %zmm1, %zmm2, %zmm2");
__asm("vpaddq %zmm2, %zmm3, %zmm3");
}
FLETCHER_4_AVX512_SAVE_CTX(ctx);
kfpu_end();
}
static void
fletcher_4_avx512f_byteswap(fletcher_4_ctx_t *ctx, const void *buf,
uint64_t size)
{
static const uint64_t byteswap_mask = 0xFFULL;
const uint32_t *ip = buf;
const uint32_t *ipend = (uint32_t *)((uint8_t *)ip + size);
kfpu_begin();
FLETCHER_4_AVX512_RESTORE_CTX(ctx);
__asm("vpbroadcastq %0, %%zmm8" :: "r" (byteswap_mask));
__asm("vpsllq $8, %zmm8, %zmm9");
__asm("vpsllq $16, %zmm8, %zmm10");
__asm("vpsllq $24, %zmm8, %zmm11");
for (; ip < ipend; ip += 8) {
__asm("vpmovzxdq %0, %%zmm5"::"m" (*ip));
__asm("vpsrlq $24, %zmm5, %zmm6");
__asm("vpandd %zmm8, %zmm6, %zmm6");
__asm("vpsrlq $8, %zmm5, %zmm7");
__asm("vpandd %zmm9, %zmm7, %zmm7");
__asm("vpord %zmm6, %zmm7, %zmm4");
__asm("vpsllq $8, %zmm5, %zmm6");
__asm("vpandd %zmm10, %zmm6, %zmm6");
__asm("vpord %zmm6, %zmm4, %zmm4");
__asm("vpsllq $24, %zmm5, %zmm5");
__asm("vpandd %zmm11, %zmm5, %zmm5");
__asm("vpord %zmm5, %zmm4, %zmm4");
__asm("vpaddq %zmm4, %zmm0, %zmm0");
__asm("vpaddq %zmm0, %zmm1, %zmm1");
__asm("vpaddq %zmm1, %zmm2, %zmm2");
__asm("vpaddq %zmm2, %zmm3, %zmm3");
}
FLETCHER_4_AVX512_SAVE_CTX(ctx)
kfpu_end();
}
static boolean_t
fletcher_4_avx512f_valid(void)
{
return (zfs_avx512f_available());
}
const fletcher_4_ops_t fletcher_4_avx512f_ops = {
.init_native = fletcher_4_avx512f_init,
.fini_native = fletcher_4_avx512f_fini,
.compute_native = fletcher_4_avx512f_native,
.init_byteswap = fletcher_4_avx512f_init,
.fini_byteswap = fletcher_4_avx512f_fini,
.compute_byteswap = fletcher_4_avx512f_byteswap,
.valid = fletcher_4_avx512f_valid,
.name = "avx512f"
};
#endif /* defined(__x86_64) && defined(HAVE_AVX512F) */
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