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/*
* SHACAL-2 using x86 SHA extensions
* (C) 2017 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/shacal2.h>
#include <immintrin.h>
namespace Botan {
/*
Only encryption is supported since the inverse round function would
require a different instruction
*/
BOTAN_FUNC_ISA("sha,ssse3")
void SHACAL2::x86_encrypt_blocks(const uint8_t in[], uint8_t out[], size_t blocks) const
{
const __m128i MASK1 = _mm_set_epi8(8,9,10,11,12,13,14,15,0,1,2,3,4,5,6,7);
const __m128i MASK2 = _mm_set_epi8(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15);
const __m128i* RK_mm = reinterpret_cast<const __m128i*>(m_RK.data());
const __m128i* in_mm = reinterpret_cast<const __m128i*>(in);
__m128i* out_mm = reinterpret_cast<__m128i*>(out);
while(blocks >= 2)
{
__m128i B0_0 = _mm_loadu_si128(in_mm);
__m128i B0_1 = _mm_loadu_si128(in_mm+1);
__m128i B1_0 = _mm_loadu_si128(in_mm+2);
__m128i B1_1 = _mm_loadu_si128(in_mm+3);
__m128i TMP = _mm_shuffle_epi8(_mm_unpacklo_epi64(B0_0, B0_1), MASK2);
B0_1 = _mm_shuffle_epi8(_mm_unpackhi_epi64(B0_0, B0_1), MASK2);
B0_0 = TMP;
TMP = _mm_shuffle_epi8(_mm_unpacklo_epi64(B1_0, B1_1), MASK2);
B1_1 = _mm_shuffle_epi8(_mm_unpackhi_epi64(B1_0, B1_1), MASK2);
B1_0 = TMP;
for(size_t i = 0; i != 8; ++i)
{
const __m128i RK0 = _mm_loadu_si128(RK_mm + 2*i);
const __m128i RK2 = _mm_loadu_si128(RK_mm + 2*i+1);
const __m128i RK1 = _mm_srli_si128(RK0, 8);
const __m128i RK3 = _mm_srli_si128(RK2, 8);
B0_1 = _mm_sha256rnds2_epu32(B0_1, B0_0, RK0);
B1_1 = _mm_sha256rnds2_epu32(B1_1, B1_0, RK0);
B0_0 = _mm_sha256rnds2_epu32(B0_0, B0_1, RK1);
B1_0 = _mm_sha256rnds2_epu32(B1_0, B1_1, RK1);
B0_1 = _mm_sha256rnds2_epu32(B0_1, B0_0, RK2);
B1_1 = _mm_sha256rnds2_epu32(B1_1, B1_0, RK2);
B0_0 = _mm_sha256rnds2_epu32(B0_0, B0_1, RK3);
B1_0 = _mm_sha256rnds2_epu32(B1_0, B1_1, RK3);
}
TMP = _mm_shuffle_epi8(_mm_unpackhi_epi64(B0_0, B0_1), MASK1);
B0_1 = _mm_shuffle_epi8(_mm_unpacklo_epi64(B0_0, B0_1), MASK1);
B0_0 = TMP;
TMP = _mm_shuffle_epi8(_mm_unpackhi_epi64(B1_0, B1_1), MASK1);
B1_1 = _mm_shuffle_epi8(_mm_unpacklo_epi64(B1_0, B1_1), MASK1);
B1_0 = TMP;
// Save state
_mm_storeu_si128(out_mm + 0, B0_0);
_mm_storeu_si128(out_mm + 1, B0_1);
_mm_storeu_si128(out_mm + 2, B1_0);
_mm_storeu_si128(out_mm + 3, B1_1);
blocks -= 2;
in_mm += 4;
out_mm += 4;
}
while(blocks)
{
__m128i B0 = _mm_loadu_si128(in_mm);
__m128i B1 = _mm_loadu_si128(in_mm+1);
__m128i TMP = _mm_shuffle_epi8(_mm_unpacklo_epi64(B0, B1), MASK2);
B1 = _mm_shuffle_epi8(_mm_unpackhi_epi64(B0, B1), MASK2);
B0 = TMP;
for(size_t i = 0; i != 8; ++i)
{
const __m128i RK0 = _mm_loadu_si128(RK_mm + 2*i);
const __m128i RK2 = _mm_loadu_si128(RK_mm + 2*i+1);
const __m128i RK1 = _mm_srli_si128(RK0, 8);
const __m128i RK3 = _mm_srli_si128(RK2, 8);
B1 = _mm_sha256rnds2_epu32(B1, B0, RK0);
B0 = _mm_sha256rnds2_epu32(B0, B1, RK1);
B1 = _mm_sha256rnds2_epu32(B1, B0, RK2);
B0 = _mm_sha256rnds2_epu32(B0, B1, RK3);
}
TMP = _mm_shuffle_epi8(_mm_unpackhi_epi64(B0, B1), MASK1);
B1 = _mm_shuffle_epi8(_mm_unpacklo_epi64(B0, B1), MASK1);
B0 = TMP;
// Save state
_mm_storeu_si128(out_mm, B0);
_mm_storeu_si128(out_mm + 1, B1);
blocks--;
in_mm += 2;
out_mm += 2;
}
}
}