xmrig/src/crypto/CryptoNight_x86.h

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/* XMRig
* Copyright 2010 Jeff Garzik <jgarzik@pobox.com>
* Copyright 2012-2014 pooler <pooler@litecoinpool.org>
* Copyright 2014 Lucas Jones <https://github.com/lucasjones>
* Copyright 2014-2016 Wolf9466 <https://github.com/OhGodAPet>
* Copyright 2016 Jay D Dee <jayddee246@gmail.com>
* Copyright 2017-2018 XMR-Stak <https://github.com/fireice-uk>, <https://github.com/psychocrypt>
* Copyright 2018 Lee Clagett <https://github.com/vtnerd>
* Copyright 2016-2018 XMRig <https://github.com/xmrig>, <support@xmrig.com>
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*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
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#ifndef __CRYPTONIGHT_X86_H__
#define __CRYPTONIGHT_X86_H__
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#ifdef __GNUC__
# include <x86intrin.h>
#else
# include <intrin.h>
# define __restrict__ __restrict
#endif
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#include "common/crypto/keccak.h"
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#include "crypto/CryptoNight.h"
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#include "crypto/CryptoNight_constants.h"
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#include "crypto/CryptoNight_monero.h"
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#include "crypto/soft_aes.h"
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extern "C"
{
#include "crypto/c_groestl.h"
#include "crypto/c_blake256.h"
#include "crypto/c_jh.h"
#include "crypto/c_skein.h"
}
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static inline void do_blake_hash(const uint8_t *input, size_t len, uint8_t *output) {
blake256_hash(output, input, len);
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}
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static inline void do_groestl_hash(const uint8_t *input, size_t len, uint8_t *output) {
groestl(input, len * 8, output);
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}
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static inline void do_jh_hash(const uint8_t *input, size_t len, uint8_t *output) {
jh_hash(32 * 8, input, 8 * len, output);
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}
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static inline void do_skein_hash(const uint8_t *input, size_t len, uint8_t *output) {
xmr_skein(input, output);
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}
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void (* const extra_hashes[4])(const uint8_t *, size_t, uint8_t *) = {do_blake_hash, do_groestl_hash, do_jh_hash, do_skein_hash};
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#if defined(__x86_64__) || defined(_M_AMD64)
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# define EXTRACT64(X) _mm_cvtsi128_si64(X)
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# ifdef __GNUC__
static inline uint64_t __umul128(uint64_t a, uint64_t b, uint64_t* hi)
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{
unsigned __int128 r = (unsigned __int128) a * (unsigned __int128) b;
*hi = r >> 64;
return (uint64_t) r;
}
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# else
#define __umul128 _umul128
# endif
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#elif defined(__i386__) || defined(_M_IX86)
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# define HI32(X) \
_mm_srli_si128((X), 4)
# define EXTRACT64(X) \
((uint64_t)(uint32_t)_mm_cvtsi128_si32(X) | \
((uint64_t)(uint32_t)_mm_cvtsi128_si32(HI32(X)) << 32))
static inline uint64_t __umul128(uint64_t multiplier, uint64_t multiplicand, uint64_t *product_hi) {
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// multiplier = ab = a * 2^32 + b
// multiplicand = cd = c * 2^32 + d
// ab * cd = a * c * 2^64 + (a * d + b * c) * 2^32 + b * d
uint64_t a = multiplier >> 32;
uint64_t b = multiplier & 0xFFFFFFFF;
uint64_t c = multiplicand >> 32;
uint64_t d = multiplicand & 0xFFFFFFFF;
//uint64_t ac = a * c;
uint64_t ad = a * d;
//uint64_t bc = b * c;
uint64_t bd = b * d;
uint64_t adbc = ad + (b * c);
uint64_t adbc_carry = adbc < ad ? 1 : 0;
// multiplier * multiplicand = product_hi * 2^64 + product_lo
uint64_t product_lo = bd + (adbc << 32);
uint64_t product_lo_carry = product_lo < bd ? 1 : 0;
*product_hi = (a * c) + (adbc >> 32) + (adbc_carry << 32) + product_lo_carry;
return product_lo;
}
#endif
// This will shift and xor tmp1 into itself as 4 32-bit vals such as
// sl_xor(a1 a2 a3 a4) = a1 (a2^a1) (a3^a2^a1) (a4^a3^a2^a1)
static inline __m128i sl_xor(__m128i tmp1)
{
__m128i tmp4;
tmp4 = _mm_slli_si128(tmp1, 0x04);
tmp1 = _mm_xor_si128(tmp1, tmp4);
tmp4 = _mm_slli_si128(tmp4, 0x04);
tmp1 = _mm_xor_si128(tmp1, tmp4);
tmp4 = _mm_slli_si128(tmp4, 0x04);
tmp1 = _mm_xor_si128(tmp1, tmp4);
return tmp1;
}
template<uint8_t rcon>
static inline void aes_genkey_sub(__m128i* xout0, __m128i* xout2)
{
__m128i xout1 = _mm_aeskeygenassist_si128(*xout2, rcon);
xout1 = _mm_shuffle_epi32(xout1, 0xFF); // see PSHUFD, set all elems to 4th elem
*xout0 = sl_xor(*xout0);
*xout0 = _mm_xor_si128(*xout0, xout1);
xout1 = _mm_aeskeygenassist_si128(*xout0, 0x00);
xout1 = _mm_shuffle_epi32(xout1, 0xAA); // see PSHUFD, set all elems to 3rd elem
*xout2 = sl_xor(*xout2);
*xout2 = _mm_xor_si128(*xout2, xout1);
}
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template<uint8_t rcon>
static inline void soft_aes_genkey_sub(__m128i* xout0, __m128i* xout2)
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{
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__m128i xout1 = soft_aeskeygenassist<rcon>(*xout2);
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xout1 = _mm_shuffle_epi32(xout1, 0xFF); // see PSHUFD, set all elems to 4th elem
*xout0 = sl_xor(*xout0);
*xout0 = _mm_xor_si128(*xout0, xout1);
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xout1 = soft_aeskeygenassist<0x00>(*xout0);
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xout1 = _mm_shuffle_epi32(xout1, 0xAA); // see PSHUFD, set all elems to 3rd elem
*xout2 = sl_xor(*xout2);
*xout2 = _mm_xor_si128(*xout2, xout1);
}
template<bool SOFT_AES>
static inline void aes_genkey(const __m128i* memory, __m128i* k0, __m128i* k1, __m128i* k2, __m128i* k3, __m128i* k4, __m128i* k5, __m128i* k6, __m128i* k7, __m128i* k8, __m128i* k9)
{
__m128i xout0 = _mm_load_si128(memory);
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__m128i xout2 = _mm_load_si128(memory + 1);
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*k0 = xout0;
*k1 = xout2;
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SOFT_AES ? soft_aes_genkey_sub<0x01>(&xout0, &xout2) : aes_genkey_sub<0x01>(&xout0, &xout2);
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*k2 = xout0;
*k3 = xout2;
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SOFT_AES ? soft_aes_genkey_sub<0x02>(&xout0, &xout2) : aes_genkey_sub<0x02>(&xout0, &xout2);
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*k4 = xout0;
*k5 = xout2;
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SOFT_AES ? soft_aes_genkey_sub<0x04>(&xout0, &xout2) : aes_genkey_sub<0x04>(&xout0, &xout2);
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*k6 = xout0;
*k7 = xout2;
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SOFT_AES ? soft_aes_genkey_sub<0x08>(&xout0, &xout2) : aes_genkey_sub<0x08>(&xout0, &xout2);
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*k8 = xout0;
*k9 = xout2;
}
template<bool SOFT_AES>
static inline void aes_round(__m128i key, __m128i* x0, __m128i* x1, __m128i* x2, __m128i* x3, __m128i* x4, __m128i* x5, __m128i* x6, __m128i* x7)
{
if (SOFT_AES) {
*x0 = soft_aesenc((uint32_t*)x0, key);
*x1 = soft_aesenc((uint32_t*)x1, key);
*x2 = soft_aesenc((uint32_t*)x2, key);
*x3 = soft_aesenc((uint32_t*)x3, key);
*x4 = soft_aesenc((uint32_t*)x4, key);
*x5 = soft_aesenc((uint32_t*)x5, key);
*x6 = soft_aesenc((uint32_t*)x6, key);
*x7 = soft_aesenc((uint32_t*)x7, key);
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}
else {
*x0 = _mm_aesenc_si128(*x0, key);
*x1 = _mm_aesenc_si128(*x1, key);
*x2 = _mm_aesenc_si128(*x2, key);
*x3 = _mm_aesenc_si128(*x3, key);
*x4 = _mm_aesenc_si128(*x4, key);
*x5 = _mm_aesenc_si128(*x5, key);
*x6 = _mm_aesenc_si128(*x6, key);
*x7 = _mm_aesenc_si128(*x7, key);
}
}
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inline void mix_and_propagate(__m128i& x0, __m128i& x1, __m128i& x2, __m128i& x3, __m128i& x4, __m128i& x5, __m128i& x6, __m128i& x7)
{
__m128i tmp0 = x0;
x0 = _mm_xor_si128(x0, x1);
x1 = _mm_xor_si128(x1, x2);
x2 = _mm_xor_si128(x2, x3);
x3 = _mm_xor_si128(x3, x4);
x4 = _mm_xor_si128(x4, x5);
x5 = _mm_xor_si128(x5, x6);
x6 = _mm_xor_si128(x6, x7);
x7 = _mm_xor_si128(x7, tmp0);
}
template<xmrig::Algo ALGO, size_t MEM, bool SOFT_AES>
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static inline void cn_explode_scratchpad(const __m128i *input, __m128i *output)
{
__m128i xin0, xin1, xin2, xin3, xin4, xin5, xin6, xin7;
__m128i k0, k1, k2, k3, k4, k5, k6, k7, k8, k9;
aes_genkey<SOFT_AES>(input, &k0, &k1, &k2, &k3, &k4, &k5, &k6, &k7, &k8, &k9);
xin0 = _mm_load_si128(input + 4);
xin1 = _mm_load_si128(input + 5);
xin2 = _mm_load_si128(input + 6);
xin3 = _mm_load_si128(input + 7);
xin4 = _mm_load_si128(input + 8);
xin5 = _mm_load_si128(input + 9);
xin6 = _mm_load_si128(input + 10);
xin7 = _mm_load_si128(input + 11);
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if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
for (size_t i = 0; i < 16; i++) {
aes_round<SOFT_AES>(k0, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k1, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k2, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k3, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k4, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k5, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k6, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k7, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k8, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k9, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
mix_and_propagate(xin0, xin1, xin2, xin3, xin4, xin5, xin6, xin7);
}
}
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for (size_t i = 0; i < MEM / sizeof(__m128i); i += 8) {
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aes_round<SOFT_AES>(k0, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k1, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k2, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k3, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k4, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k5, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k6, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k7, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k8, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
aes_round<SOFT_AES>(k9, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);
_mm_store_si128(output + i + 0, xin0);
_mm_store_si128(output + i + 1, xin1);
_mm_store_si128(output + i + 2, xin2);
_mm_store_si128(output + i + 3, xin3);
_mm_store_si128(output + i + 4, xin4);
_mm_store_si128(output + i + 5, xin5);
_mm_store_si128(output + i + 6, xin6);
_mm_store_si128(output + i + 7, xin7);
}
}
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template<xmrig::Algo ALGO, size_t MEM, bool SOFT_AES>
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static inline void cn_implode_scratchpad(const __m128i *input, __m128i *output)
{
__m128i xout0, xout1, xout2, xout3, xout4, xout5, xout6, xout7;
__m128i k0, k1, k2, k3, k4, k5, k6, k7, k8, k9;
aes_genkey<SOFT_AES>(output + 2, &k0, &k1, &k2, &k3, &k4, &k5, &k6, &k7, &k8, &k9);
xout0 = _mm_load_si128(output + 4);
xout1 = _mm_load_si128(output + 5);
xout2 = _mm_load_si128(output + 6);
xout3 = _mm_load_si128(output + 7);
xout4 = _mm_load_si128(output + 8);
xout5 = _mm_load_si128(output + 9);
xout6 = _mm_load_si128(output + 10);
xout7 = _mm_load_si128(output + 11);
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for (size_t i = 0; i < MEM / sizeof(__m128i); i += 8)
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{
xout0 = _mm_xor_si128(_mm_load_si128(input + i + 0), xout0);
xout1 = _mm_xor_si128(_mm_load_si128(input + i + 1), xout1);
xout2 = _mm_xor_si128(_mm_load_si128(input + i + 2), xout2);
xout3 = _mm_xor_si128(_mm_load_si128(input + i + 3), xout3);
xout4 = _mm_xor_si128(_mm_load_si128(input + i + 4), xout4);
xout5 = _mm_xor_si128(_mm_load_si128(input + i + 5), xout5);
xout6 = _mm_xor_si128(_mm_load_si128(input + i + 6), xout6);
xout7 = _mm_xor_si128(_mm_load_si128(input + i + 7), xout7);
aes_round<SOFT_AES>(k0, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k1, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k2, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k3, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k4, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k5, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k6, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k7, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k8, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k9, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
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if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
mix_and_propagate(xout0, xout1, xout2, xout3, xout4, xout5, xout6, xout7);
}
}
if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
for (size_t i = 0; i < MEM / sizeof(__m128i); i += 8) {
xout0 = _mm_xor_si128(_mm_load_si128(input + i + 0), xout0);
xout1 = _mm_xor_si128(_mm_load_si128(input + i + 1), xout1);
xout2 = _mm_xor_si128(_mm_load_si128(input + i + 2), xout2);
xout3 = _mm_xor_si128(_mm_load_si128(input + i + 3), xout3);
xout4 = _mm_xor_si128(_mm_load_si128(input + i + 4), xout4);
xout5 = _mm_xor_si128(_mm_load_si128(input + i + 5), xout5);
xout6 = _mm_xor_si128(_mm_load_si128(input + i + 6), xout6);
xout7 = _mm_xor_si128(_mm_load_si128(input + i + 7), xout7);
aes_round<SOFT_AES>(k0, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k1, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k2, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k3, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k4, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k5, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k6, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k7, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k8, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k9, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
mix_and_propagate(xout0, xout1, xout2, xout3, xout4, xout5, xout6, xout7);
}
for (size_t i = 0; i < 16; i++) {
aes_round<SOFT_AES>(k0, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k1, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k2, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k3, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k4, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k5, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k6, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k7, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k8, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
aes_round<SOFT_AES>(k9, &xout0, &xout1, &xout2, &xout3, &xout4, &xout5, &xout6, &xout7);
mix_and_propagate(xout0, xout1, xout2, xout3, xout4, xout5, xout6, xout7);
}
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}
_mm_store_si128(output + 4, xout0);
_mm_store_si128(output + 5, xout1);
_mm_store_si128(output + 6, xout2);
_mm_store_si128(output + 7, xout3);
_mm_store_si128(output + 8, xout4);
_mm_store_si128(output + 9, xout5);
_mm_store_si128(output + 10, xout6);
_mm_store_si128(output + 11, xout7);
}
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template<int SHIFT>
static inline void cryptonight_monero_tweak(uint64_t* mem_out, __m128i tmp)
{
mem_out[0] = EXTRACT64(tmp);
tmp = _mm_castps_si128(_mm_movehl_ps(_mm_castsi128_ps(tmp), _mm_castsi128_ps(tmp)));
uint64_t vh = EXTRACT64(tmp);
uint8_t x = vh >> 24;
static const uint16_t table = 0x7531;
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const uint8_t index = (((x >> SHIFT) & 6) | (x & 1)) << 1;
vh ^= ((table >> index) & 0x3) << 28;
mem_out[1] = vh;
}
template<xmrig::Algo ALGO, bool SOFT_AES, xmrig::Variant VARIANT>
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inline void cryptonight_single_hash(const uint8_t *__restrict__ input, size_t size, uint8_t *__restrict__ output, cryptonight_ctx **__restrict__ ctx)
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{
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constexpr size_t MASK = xmrig::cn_select_mask<ALGO>();
constexpr size_t ITERATIONS = xmrig::cn_select_iter<ALGO, VARIANT>();
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constexpr size_t MEM = xmrig::cn_select_memory<ALGO>();
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constexpr bool IS_MONERO = xmrig::cn_is_monero<VARIANT>();
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if (IS_MONERO && size < 43) {
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memset(output, 0, 32);
return;
}
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xmrig::keccak(input, size, ctx[0]->state);
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VARIANT1_INIT(0)
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cn_explode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) ctx[0]->state, (__m128i*) ctx[0]->memory);
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const uint8_t* l0 = ctx[0]->memory;
uint64_t* h0 = reinterpret_cast<uint64_t*>(ctx[0]->state);
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uint64_t al0 = h0[0] ^ h0[4];
uint64_t ah0 = h0[1] ^ h0[5];
__m128i bx0 = _mm_set_epi64x(h0[3] ^ h0[7], h0[2] ^ h0[6]);
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uint64_t idx0 = al0;
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for (size_t i = 0; i < ITERATIONS; i++) {
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__m128i cx;
if (SOFT_AES) {
cx = soft_aesenc((uint32_t*)&l0[idx0 & MASK], _mm_set_epi64x(ah0, al0));
}
else {
cx = _mm_load_si128((__m128i *) &l0[idx0 & MASK]);
cx = _mm_aesenc_si128(cx, _mm_set_epi64x(ah0, al0));
}
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if (IS_MONERO) {
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cryptonight_monero_tweak<VARIANT == xmrig::VARIANT_XTL ? 4 : 3>((uint64_t*)&l0[idx0 & MASK], _mm_xor_si128(bx0, cx));
} else {
_mm_store_si128((__m128i *)&l0[idx0 & MASK], _mm_xor_si128(bx0, cx));
}
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idx0 = EXTRACT64(cx);
bx0 = cx;
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uint64_t hi, lo, cl, ch;
cl = ((uint64_t*) &l0[idx0 & MASK])[0];
ch = ((uint64_t*) &l0[idx0 & MASK])[1];
lo = __umul128(idx0, cl, &hi);
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al0 += hi;
ah0 += lo;
((uint64_t*)&l0[idx0 & MASK])[0] = al0;
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if (IS_MONERO) {
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if (VARIANT == xmrig::VARIANT_RTO) {
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((uint64_t*)&l0[idx0 & MASK])[1] = ah0 ^ tweak1_2_0 ^ al0;
}
else {
((uint64_t*)&l0[idx0 & MASK])[1] = ah0 ^ tweak1_2_0;
}
}
else {
((uint64_t*)&l0[idx0 & MASK])[1] = ah0;
}
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al0 ^= cl;
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ah0 ^= ch;
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idx0 = al0;
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if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
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int64_t n = ((int64_t*)&l0[idx0 & MASK])[0];
int32_t d = ((int32_t*)&l0[idx0 & MASK])[2];
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int64_t q = n / (d | 0x5);
((int64_t*)&l0[idx0 & MASK])[0] = n ^ q;
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if (VARIANT == xmrig::VARIANT_XHV) {
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d = ~d;
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}
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idx0 = d ^ q;
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}
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}
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cn_implode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) ctx[0]->memory, (__m128i*) ctx[0]->state);
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xmrig::keccakf(h0, 24);
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extra_hashes[ctx[0]->state[0] & 3](ctx[0]->state, 200, output);
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}
template<xmrig::Algo ALGO, bool SOFT_AES, xmrig::Variant VARIANT>
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inline void cryptonight_double_hash(const uint8_t *__restrict__ input, size_t size, uint8_t *__restrict__ output, cryptonight_ctx **__restrict__ ctx)
{
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constexpr size_t MASK = xmrig::cn_select_mask<ALGO>();
constexpr size_t ITERATIONS = xmrig::cn_select_iter<ALGO, VARIANT>();
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constexpr size_t MEM = xmrig::cn_select_memory<ALGO>();
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constexpr bool IS_MONERO = xmrig::cn_is_monero<VARIANT>();
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if (IS_MONERO && size < 43) {
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memset(output, 0, 64);
return;
}
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xmrig::keccak(input, size, ctx[0]->state);
xmrig::keccak(input + size, size, ctx[1]->state);
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VARIANT1_INIT(0);
VARIANT1_INIT(1);
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const uint8_t* l0 = ctx[0]->memory;
const uint8_t* l1 = ctx[1]->memory;
uint64_t* h0 = reinterpret_cast<uint64_t*>(ctx[0]->state);
uint64_t* h1 = reinterpret_cast<uint64_t*>(ctx[1]->state);
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cn_explode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) h0, (__m128i*) l0);
cn_explode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) h1, (__m128i*) l1);
uint64_t al0 = h0[0] ^ h0[4];
uint64_t al1 = h1[0] ^ h1[4];
uint64_t ah0 = h0[1] ^ h0[5];
uint64_t ah1 = h1[1] ^ h1[5];
__m128i bx0 = _mm_set_epi64x(h0[3] ^ h0[7], h0[2] ^ h0[6]);
__m128i bx1 = _mm_set_epi64x(h1[3] ^ h1[7], h1[2] ^ h1[6]);
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uint64_t idx0 = al0;
uint64_t idx1 = al1;
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for (size_t i = 0; i < ITERATIONS; i++) {
__m128i cx0, cx1;
if (SOFT_AES) {
cx0 = soft_aesenc((uint32_t*)&l0[idx0 & MASK], _mm_set_epi64x(ah0, al0));
cx1 = soft_aesenc((uint32_t*)&l1[idx1 & MASK], _mm_set_epi64x(ah1, al1));
}
else {
cx0 = _mm_load_si128((__m128i *) &l0[idx0 & MASK]);
cx1 = _mm_load_si128((__m128i *) &l1[idx1 & MASK]);
cx0 = _mm_aesenc_si128(cx0, _mm_set_epi64x(ah0, al0));
cx1 = _mm_aesenc_si128(cx1, _mm_set_epi64x(ah1, al1));
}
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if (IS_MONERO) {
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cryptonight_monero_tweak<VARIANT == xmrig::VARIANT_XTL ? 4 : 3>((uint64_t*)&l0[idx0 & MASK], _mm_xor_si128(bx0, cx0));
cryptonight_monero_tweak<VARIANT == xmrig::VARIANT_XTL ? 4 : 3>((uint64_t*)&l1[idx1 & MASK], _mm_xor_si128(bx1, cx1));
} else {
_mm_store_si128((__m128i *) &l0[idx0 & MASK], _mm_xor_si128(bx0, cx0));
_mm_store_si128((__m128i *) &l1[idx1 & MASK], _mm_xor_si128(bx1, cx1));
}
idx0 = EXTRACT64(cx0);
idx1 = EXTRACT64(cx1);
bx0 = cx0;
bx1 = cx1;
uint64_t hi, lo, cl, ch;
cl = ((uint64_t*) &l0[idx0 & MASK])[0];
ch = ((uint64_t*) &l0[idx0 & MASK])[1];
lo = __umul128(idx0, cl, &hi);
al0 += hi;
ah0 += lo;
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((uint64_t*)&l0[idx0 & MASK])[0] = al0;
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if (IS_MONERO) {
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if (VARIANT == xmrig::VARIANT_RTO) {
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((uint64_t*)&l0[idx0 & MASK])[1] = ah0 ^ tweak1_2_0 ^ al0;
}
else {
((uint64_t*)&l0[idx0 & MASK])[1] = ah0 ^ tweak1_2_0;
}
}
else {
((uint64_t*)&l0[idx0 & MASK])[1] = ah0;
}
al0 ^= cl;
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ah0 ^= ch;
idx0 = al0;
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if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
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int64_t n = ((int64_t*)&l0[idx0 & MASK])[0];
int32_t d = ((int32_t*)&l0[idx0 & MASK])[2];
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int64_t q = n / (d | 0x5);
((int64_t*)&l0[idx0 & MASK])[0] = n ^ q;
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if (VARIANT == xmrig::VARIANT_XHV) {
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d = ~d;
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}
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idx0 = d ^ q;
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}
cl = ((uint64_t*) &l1[idx1 & MASK])[0];
ch = ((uint64_t*) &l1[idx1 & MASK])[1];
lo = __umul128(idx1, cl, &hi);
al1 += hi;
ah1 += lo;
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((uint64_t*)&l1[idx1 & MASK])[0] = al1;
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if (IS_MONERO) {
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if (VARIANT == xmrig::VARIANT_RTO) {
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((uint64_t*)&l1[idx1 & MASK])[1] = ah1 ^ tweak1_2_1 ^ al1;
}
else {
((uint64_t*)&l1[idx1 & MASK])[1] = ah1 ^ tweak1_2_1;
}
}
else {
((uint64_t*)&l1[idx1 & MASK])[1] = ah1;
}
al1 ^= cl;
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ah1 ^= ch;
idx1 = al1;
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if (ALGO == xmrig::CRYPTONIGHT_HEAVY) {
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int64_t n = ((int64_t*)&l1[idx1 & MASK])[0];
int32_t d = ((int32_t*)&l1[idx1 & MASK])[2];
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int64_t q = n / (d | 0x5);
((int64_t*)&l1[idx1 & MASK])[0] = n ^ q;
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if (VARIANT == xmrig::VARIANT_XHV) {
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d = ~d;
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}
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idx1 = d ^ q;
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}
}
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cn_implode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) l0, (__m128i*) h0);
cn_implode_scratchpad<ALGO, MEM, SOFT_AES>((__m128i*) l1, (__m128i*) h1);
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xmrig::keccakf(h0, 24);
xmrig::keccakf(h1, 24);
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extra_hashes[ctx[0]->state[0] & 3](ctx[0]->state, 200, output);
extra_hashes[ctx[1]->state[0] & 3](ctx[1]->state, 200, output + 32);
}
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#define CN_STEP1(a, b, c, l, ptr, idx) \
ptr = reinterpret_cast<__m128i*>(&l[idx & MASK]); \
c = _mm_load_si128(ptr);
#define CN_STEP2(a, b, c, l, ptr, idx) \
if (SOFT_AES) { \
c = soft_aesenc(c, a); \
} else { \
c = _mm_aesenc_si128(c, a); \
} \
\
b = _mm_xor_si128(b, c); \
\
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if (IS_MONERO) { \
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cryptonight_monero_tweak<VARIANT == xmrig::VARIANT_XTL ? 4 : 3>(reinterpret_cast<uint64_t*>(ptr), b); \
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} else { \
_mm_store_si128(ptr, b); \
}
#define CN_STEP3(a, b, c, l, ptr, idx) \
idx = EXTRACT64(c); \
ptr = reinterpret_cast<__m128i*>(&l[idx & MASK]); \
b = _mm_load_si128(ptr);
#define CN_STEP4(a, b, c, l, mc, ptr, idx) \
lo = __umul128(idx, EXTRACT64(b), &hi); \
a = _mm_add_epi64(a, _mm_set_epi64x(lo, hi)); \
\
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if (IS_MONERO) { \
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_mm_store_si128(ptr, _mm_xor_si128(a, mc)); \
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\
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if (VARIANT == xmrig::VARIANT_RTO) { \
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((uint64_t*)ptr)[1] ^= ((uint64_t*)ptr)[0]; \
} \
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} else { \
_mm_store_si128(ptr, a); \
} \
\
a = _mm_xor_si128(a, b); \
idx = EXTRACT64(a); \
\
if (ALGO == xmrig::CRYPTONIGHT_HEAVY) { \
int64_t n = ((int64_t*)&l[idx & MASK])[0]; \
int32_t d = ((int32_t*)&l[idx & MASK])[2]; \
int64_t q = n / (d | 0x5); \
((int64_t*)&l[idx & MASK])[0] = n ^ q; \
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if (VARIANT == xmrig::VARIANT_XHV) { \
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d = ~d; \
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} \
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\
idx = d ^ q; \
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}
#define CONST_INIT(ctx, n) \
__m128i mc##n; \
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if (IS_MONERO) { \
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mc##n = _mm_set_epi64x(*reinterpret_cast<const uint64_t*>(input + n * size + 35) ^ \
*(reinterpret_cast<const uint64_t*>((ctx)->state) + 24), 0); \
}
template<xmrig::Algo ALGO, bool SOFT_AES, xmrig::Variant VARIANT>
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inline void cryptonight_triple_hash(const uint8_t *__restrict__ input, size_t size, uint8_t *__restrict__ output, cryptonight_ctx **__restrict__ ctx)
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{
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constexpr size_t MASK = xmrig::cn_select_mask<ALGO>();
constexpr size_t ITERATIONS = xmrig::cn_select_iter<ALGO, VARIANT>();
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constexpr size_t MEM = xmrig::cn_select_memory<ALGO>();
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constexpr bool IS_MONERO = xmrig::cn_is_monero<VARIANT>();
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if (IS_MONERO && size < 43) {
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memset(output, 0, 32 * 3);
return;
}
for (size_t i = 0; i < 3; i++) {
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xmrig::keccak(input + size * i, size, ctx[i]->state);
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cn_explode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->state), reinterpret_cast<__m128i*>(ctx[i]->memory));
}
CONST_INIT(ctx[0], 0);
CONST_INIT(ctx[1], 1);
CONST_INIT(ctx[2], 2);
uint8_t* l0 = ctx[0]->memory;
uint8_t* l1 = ctx[1]->memory;
uint8_t* l2 = ctx[2]->memory;
uint64_t* h0 = reinterpret_cast<uint64_t*>(ctx[0]->state);
uint64_t* h1 = reinterpret_cast<uint64_t*>(ctx[1]->state);
uint64_t* h2 = reinterpret_cast<uint64_t*>(ctx[2]->state);
__m128i ax0 = _mm_set_epi64x(h0[1] ^ h0[5], h0[0] ^ h0[4]);
__m128i bx0 = _mm_set_epi64x(h0[3] ^ h0[7], h0[2] ^ h0[6]);
__m128i ax1 = _mm_set_epi64x(h1[1] ^ h1[5], h1[0] ^ h1[4]);
__m128i bx1 = _mm_set_epi64x(h1[3] ^ h1[7], h1[2] ^ h1[6]);
__m128i ax2 = _mm_set_epi64x(h2[1] ^ h2[5], h2[0] ^ h2[4]);
__m128i bx2 = _mm_set_epi64x(h2[3] ^ h2[7], h2[2] ^ h2[6]);
__m128i cx0 = _mm_set_epi64x(0, 0);
__m128i cx1 = _mm_set_epi64x(0, 0);
__m128i cx2 = _mm_set_epi64x(0, 0);
uint64_t idx0, idx1, idx2;
idx0 = EXTRACT64(ax0);
idx1 = EXTRACT64(ax1);
idx2 = EXTRACT64(ax2);
for (size_t i = 0; i < ITERATIONS / 2; i++) {
uint64_t hi, lo;
__m128i *ptr0, *ptr1, *ptr2;
// EVEN ROUND
CN_STEP1(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP1(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP1(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP2(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP2(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP2(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP3(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP3(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP3(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP4(ax0, bx0, cx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, bx1, cx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, bx2, cx2, l2, mc2, ptr2, idx2);
// ODD ROUND
CN_STEP1(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP1(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP1(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP2(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP2(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP2(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP3(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP3(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP3(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP4(ax0, cx0, bx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, cx1, bx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, cx2, bx2, l2, mc2, ptr2, idx2);
}
for (size_t i = 0; i < 3; i++) {
cn_implode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->memory), reinterpret_cast<__m128i*>(ctx[i]->state));
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xmrig::keccakf(reinterpret_cast<uint64_t*>(ctx[i]->state), 24);
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extra_hashes[ctx[i]->state[0] & 3](ctx[i]->state, 200, output + 32 * i);
}
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}
template<xmrig::Algo ALGO, bool SOFT_AES, xmrig::Variant VARIANT>
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inline void cryptonight_quad_hash(const uint8_t *__restrict__ input, size_t size, uint8_t *__restrict__ output, cryptonight_ctx **__restrict__ ctx)
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{
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constexpr size_t MASK = xmrig::cn_select_mask<ALGO>();
constexpr size_t ITERATIONS = xmrig::cn_select_iter<ALGO, VARIANT>();
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constexpr size_t MEM = xmrig::cn_select_memory<ALGO>();
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constexpr bool IS_MONERO = xmrig::cn_is_monero<VARIANT>();
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if (IS_MONERO && size < 43) {
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memset(output, 0, 32 * 4);
return;
}
for (size_t i = 0; i < 4; i++) {
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xmrig::keccak(input + size * i, size, ctx[i]->state);
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cn_explode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->state), reinterpret_cast<__m128i*>(ctx[i]->memory));
}
CONST_INIT(ctx[0], 0);
CONST_INIT(ctx[1], 1);
CONST_INIT(ctx[2], 2);
CONST_INIT(ctx[3], 3);
uint8_t* l0 = ctx[0]->memory;
uint8_t* l1 = ctx[1]->memory;
uint8_t* l2 = ctx[2]->memory;
uint8_t* l3 = ctx[3]->memory;
uint64_t* h0 = reinterpret_cast<uint64_t*>(ctx[0]->state);
uint64_t* h1 = reinterpret_cast<uint64_t*>(ctx[1]->state);
uint64_t* h2 = reinterpret_cast<uint64_t*>(ctx[2]->state);
uint64_t* h3 = reinterpret_cast<uint64_t*>(ctx[3]->state);
__m128i ax0 = _mm_set_epi64x(h0[1] ^ h0[5], h0[0] ^ h0[4]);
__m128i bx0 = _mm_set_epi64x(h0[3] ^ h0[7], h0[2] ^ h0[6]);
__m128i ax1 = _mm_set_epi64x(h1[1] ^ h1[5], h1[0] ^ h1[4]);
__m128i bx1 = _mm_set_epi64x(h1[3] ^ h1[7], h1[2] ^ h1[6]);
__m128i ax2 = _mm_set_epi64x(h2[1] ^ h2[5], h2[0] ^ h2[4]);
__m128i bx2 = _mm_set_epi64x(h2[3] ^ h2[7], h2[2] ^ h2[6]);
__m128i ax3 = _mm_set_epi64x(h3[1] ^ h3[5], h3[0] ^ h3[4]);
__m128i bx3 = _mm_set_epi64x(h3[3] ^ h3[7], h3[2] ^ h3[6]);
__m128i cx0 = _mm_set_epi64x(0, 0);
__m128i cx1 = _mm_set_epi64x(0, 0);
__m128i cx2 = _mm_set_epi64x(0, 0);
__m128i cx3 = _mm_set_epi64x(0, 0);
uint64_t idx0, idx1, idx2, idx3;
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idx0 = EXTRACT64(ax0);
idx1 = EXTRACT64(ax1);
idx2 = EXTRACT64(ax2);
idx3 = EXTRACT64(ax3);
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for (size_t i = 0; i < ITERATIONS / 2; i++)
{
uint64_t hi, lo;
__m128i *ptr0, *ptr1, *ptr2, *ptr3;
// EVEN ROUND
CN_STEP1(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP1(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP1(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP1(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP2(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP2(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP2(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP2(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP3(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP3(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP3(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP3(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP4(ax0, bx0, cx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, bx1, cx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, bx2, cx2, l2, mc2, ptr2, idx2);
CN_STEP4(ax3, bx3, cx3, l3, mc3, ptr3, idx3);
// ODD ROUND
CN_STEP1(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP1(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP1(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP1(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP2(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP2(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP2(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP2(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP3(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP3(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP3(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP3(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP4(ax0, cx0, bx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, cx1, bx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, cx2, bx2, l2, mc2, ptr2, idx2);
CN_STEP4(ax3, cx3, bx3, l3, mc3, ptr3, idx3);
}
for (size_t i = 0; i < 4; i++) {
cn_implode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->memory), reinterpret_cast<__m128i*>(ctx[i]->state));
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xmrig::keccakf(reinterpret_cast<uint64_t*>(ctx[i]->state), 24);
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extra_hashes[ctx[i]->state[0] & 3](ctx[i]->state, 200, output + 32 * i);
}
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}
template<xmrig::Algo ALGO, bool SOFT_AES, xmrig::Variant VARIANT>
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inline void cryptonight_penta_hash(const uint8_t *__restrict__ input, size_t size, uint8_t *__restrict__ output, cryptonight_ctx **__restrict__ ctx)
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{
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constexpr size_t MASK = xmrig::cn_select_mask<ALGO>();
constexpr size_t ITERATIONS = xmrig::cn_select_iter<ALGO, VARIANT>();
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constexpr size_t MEM = xmrig::cn_select_memory<ALGO>();
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constexpr bool IS_MONERO = xmrig::cn_is_monero<VARIANT>();
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if (IS_MONERO && size < 43) {
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memset(output, 0, 32 * 5);
return;
}
for (size_t i = 0; i < 5; i++) {
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xmrig::keccak(input + size * i, size, ctx[i]->state);
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cn_explode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->state), reinterpret_cast<__m128i*>(ctx[i]->memory));
}
CONST_INIT(ctx[0], 0);
CONST_INIT(ctx[1], 1);
CONST_INIT(ctx[2], 2);
CONST_INIT(ctx[3], 3);
CONST_INIT(ctx[4], 4);
uint8_t* l0 = ctx[0]->memory;
uint8_t* l1 = ctx[1]->memory;
uint8_t* l2 = ctx[2]->memory;
uint8_t* l3 = ctx[3]->memory;
uint8_t* l4 = ctx[4]->memory;
uint64_t* h0 = reinterpret_cast<uint64_t*>(ctx[0]->state);
uint64_t* h1 = reinterpret_cast<uint64_t*>(ctx[1]->state);
uint64_t* h2 = reinterpret_cast<uint64_t*>(ctx[2]->state);
uint64_t* h3 = reinterpret_cast<uint64_t*>(ctx[3]->state);
uint64_t* h4 = reinterpret_cast<uint64_t*>(ctx[4]->state);
__m128i ax0 = _mm_set_epi64x(h0[1] ^ h0[5], h0[0] ^ h0[4]);
__m128i bx0 = _mm_set_epi64x(h0[3] ^ h0[7], h0[2] ^ h0[6]);
__m128i ax1 = _mm_set_epi64x(h1[1] ^ h1[5], h1[0] ^ h1[4]);
__m128i bx1 = _mm_set_epi64x(h1[3] ^ h1[7], h1[2] ^ h1[6]);
__m128i ax2 = _mm_set_epi64x(h2[1] ^ h2[5], h2[0] ^ h2[4]);
__m128i bx2 = _mm_set_epi64x(h2[3] ^ h2[7], h2[2] ^ h2[6]);
__m128i ax3 = _mm_set_epi64x(h3[1] ^ h3[5], h3[0] ^ h3[4]);
__m128i bx3 = _mm_set_epi64x(h3[3] ^ h3[7], h3[2] ^ h3[6]);
__m128i ax4 = _mm_set_epi64x(h4[1] ^ h4[5], h4[0] ^ h4[4]);
__m128i bx4 = _mm_set_epi64x(h4[3] ^ h4[7], h4[2] ^ h4[6]);
__m128i cx0 = _mm_set_epi64x(0, 0);
__m128i cx1 = _mm_set_epi64x(0, 0);
__m128i cx2 = _mm_set_epi64x(0, 0);
__m128i cx3 = _mm_set_epi64x(0, 0);
__m128i cx4 = _mm_set_epi64x(0, 0);
uint64_t idx0, idx1, idx2, idx3, idx4;
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idx0 = EXTRACT64(ax0);
idx1 = EXTRACT64(ax1);
idx2 = EXTRACT64(ax2);
idx3 = EXTRACT64(ax3);
idx4 = EXTRACT64(ax4);
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for (size_t i = 0; i < ITERATIONS / 2; i++)
{
uint64_t hi, lo;
__m128i *ptr0, *ptr1, *ptr2, *ptr3, *ptr4;
// EVEN ROUND
CN_STEP1(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP1(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP1(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP1(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP1(ax4, bx4, cx4, l4, ptr4, idx4);
CN_STEP2(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP2(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP2(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP2(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP2(ax4, bx4, cx4, l4, ptr4, idx4);
CN_STEP3(ax0, bx0, cx0, l0, ptr0, idx0);
CN_STEP3(ax1, bx1, cx1, l1, ptr1, idx1);
CN_STEP3(ax2, bx2, cx2, l2, ptr2, idx2);
CN_STEP3(ax3, bx3, cx3, l3, ptr3, idx3);
CN_STEP3(ax4, bx4, cx4, l4, ptr4, idx4);
CN_STEP4(ax0, bx0, cx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, bx1, cx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, bx2, cx2, l2, mc2, ptr2, idx2);
CN_STEP4(ax3, bx3, cx3, l3, mc3, ptr3, idx3);
CN_STEP4(ax4, bx4, cx4, l4, mc4, ptr4, idx4);
// ODD ROUND
CN_STEP1(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP1(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP1(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP1(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP1(ax4, cx4, bx4, l4, ptr4, idx4);
CN_STEP2(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP2(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP2(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP2(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP2(ax4, cx4, bx4, l4, ptr4, idx4);
CN_STEP3(ax0, cx0, bx0, l0, ptr0, idx0);
CN_STEP3(ax1, cx1, bx1, l1, ptr1, idx1);
CN_STEP3(ax2, cx2, bx2, l2, ptr2, idx2);
CN_STEP3(ax3, cx3, bx3, l3, ptr3, idx3);
CN_STEP3(ax4, cx4, bx4, l4, ptr4, idx4);
CN_STEP4(ax0, cx0, bx0, l0, mc0, ptr0, idx0);
CN_STEP4(ax1, cx1, bx1, l1, mc1, ptr1, idx1);
CN_STEP4(ax2, cx2, bx2, l2, mc2, ptr2, idx2);
CN_STEP4(ax3, cx3, bx3, l3, mc3, ptr3, idx3);
CN_STEP4(ax4, cx4, bx4, l4, mc4, ptr4, idx4);
}
for (size_t i = 0; i < 5; i++) {
cn_implode_scratchpad<ALGO, MEM, SOFT_AES>(reinterpret_cast<__m128i*>(ctx[i]->memory), reinterpret_cast<__m128i*>(ctx[i]->state));
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xmrig::keccakf(reinterpret_cast<uint64_t*>(ctx[i]->state), 24);
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extra_hashes[ctx[i]->state[0] & 3](ctx[i]->state, 200, output + 32 * i);
}
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}
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#endif /* __CRYPTONIGHT_X86_H__ */