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Clear lgtm findings 

We did some refactoring and added sse_simd.h. Over time more SSE functions will likely move into sse_simd.h
pull/853/head^2
Jeffrey Walton 2019-06-08 11:00:11 -04:00
parent afffba7b7b
commit 43b01973b1
No known key found for this signature in database
GPG Key ID: B36AB348921B1838
7 changed files with 149 additions and 67 deletions
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1
Filelist.txt
View File

@ -358,6 +358,7 @@ square.cpp
square.h
squaretb.cpp
sse_simd.cpp
sse_simd.h
stdcpp.h
strciphr.cpp
strciphr.h

16
asn.cpp
View File

@ -395,25 +395,25 @@ void EncodedObjectFilter::Put(const byte *inString, size_t length)
}
BERGeneralDecoder::BERGeneralDecoder(BufferedTransformation &inQueue)
: m_inQueue(inQueue), m_finished(false)
: m_inQueue(inQueue), m_length(0), m_finished(false)
{
Init(DefaultTag);
}
BERGeneralDecoder::BERGeneralDecoder(BufferedTransformation &inQueue, byte asnTag)
: m_inQueue(inQueue), m_finished(false)
: m_inQueue(inQueue), m_length(0), m_finished(false)
{
Init(asnTag);
}
BERGeneralDecoder::BERGeneralDecoder(BERGeneralDecoder &inQueue)
: m_inQueue(inQueue), m_finished(false)
: m_inQueue(inQueue), m_length(0), m_finished(false)
{
Init(DefaultTag);
}
BERGeneralDecoder::BERGeneralDecoder(BERGeneralDecoder &inQueue, byte asnTag)
: m_inQueue(inQueue), m_finished(false)
: m_inQueue(inQueue), m_length(0), m_finished(false)
{
Init(asnTag);
}
@ -514,22 +514,22 @@ lword BERGeneralDecoder::ReduceLength(lword delta)
}
DERGeneralEncoder::DERGeneralEncoder(BufferedTransformation &outQueue)
: ByteQueue(), m_outQueue(outQueue), m_asnTag(DefaultTag), m_finished(false)
: m_outQueue(outQueue), m_asnTag(DefaultTag), m_finished(false)
{
}
DERGeneralEncoder::DERGeneralEncoder(BufferedTransformation &outQueue, byte asnTag)
: ByteQueue(), m_outQueue(outQueue), m_asnTag(asnTag), m_finished(false)
: m_outQueue(outQueue), m_asnTag(asnTag), m_finished(false)
{
}
DERGeneralEncoder::DERGeneralEncoder(DERGeneralEncoder &outQueue)
: ByteQueue(), m_outQueue(outQueue), m_asnTag(DefaultTag), m_finished(false)
: m_outQueue(outQueue), m_asnTag(DefaultTag), m_finished(false)
{
}
DERGeneralEncoder::DERGeneralEncoder(DERGeneralEncoder &outQueue, byte asnTag)
: ByteQueue(), m_outQueue(outQueue), m_asnTag(asnTag), m_finished(false)
: m_outQueue(outQueue), m_asnTag(asnTag), m_finished(false)
{
}

85
chacha_avx.cpp
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@ -24,6 +24,7 @@
# include <xmmintrin.h>
# include <emmintrin.h>
# include <immintrin.h>
# include "sse_simd.h"
#endif
// Squash MS LNK4221 and libtool warnings
@ -91,14 +92,10 @@ NAMESPACE_BEGIN(CryptoPP)
void ChaCha_OperateKeystream_AVX2(const word32 *state, const byte* input, byte *output, unsigned int rounds)
{
MAYBE_CONST __m128i* state_mm = (MAYBE_CONST __m128i*)(state);
MAYBE_CONST __m256i* input_mm = (MAYBE_CONST __m256i*)(input);
__m256i* output_mm = reinterpret_cast<__m256i*>(output);
const __m256i state0 = _mm256_broadcastsi128_si256(_mm_loadu_si128(state_mm + 0));
const __m256i state1 = _mm256_broadcastsi128_si256(_mm_loadu_si128(state_mm + 1));
const __m256i state2 = _mm256_broadcastsi128_si256(_mm_loadu_si128(state_mm + 2));
const __m256i state3 = _mm256_broadcastsi128_si256(_mm_loadu_si128(state_mm + 3));
const __m256i state0 = _mm256_broadcastsi128_si256(load_m128i<0>(state));
const __m256i state1 = _mm256_broadcastsi128_si256(load_m128i<1>(state));
const __m256i state2 = _mm256_broadcastsi128_si256(load_m128i<2>(state));
const __m256i state3 = _mm256_broadcastsi128_si256(load_m128i<3>(state));
const __m256i CTR0 = _mm256_set_epi32(0, 0, 0, 0, 0, 0, 0, 4);
const __m256i CTR1 = _mm256_set_epi32(0, 0, 0, 1, 0, 0, 0, 5);
@ -304,80 +301,80 @@ void ChaCha_OperateKeystream_AVX2(const word32 *state, const byte* input, byte *
X3_3 = _mm256_add_epi32(X3_3, state3);
X3_3 = _mm256_add_epi64(X3_3, CTR3);
if (input_mm)
if (input)
{
_mm256_storeu_si256(output_mm + 0, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 0),
store_m256i<0>(output, _mm256_xor_si256(load_m256i<0>(input),
_mm256_permute2x128_si256(X0_0, X0_1, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 1, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 1),
store_m256i<1>(output, _mm256_xor_si256(load_m256i<1>(input),
_mm256_permute2x128_si256(X0_2, X0_3, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 2, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 2),
store_m256i<2>(output, _mm256_xor_si256(load_m256i<2>(input),
_mm256_permute2x128_si256(X1_0, X1_1, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 3, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 3),
store_m256i<3>(output, _mm256_xor_si256(load_m256i<3>(input),
_mm256_permute2x128_si256(X1_2, X1_3, 1 + (3 << 4))));
}
else
{
_mm256_storeu_si256(output_mm + 0, _mm256_permute2x128_si256(X0_0, X0_1, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 1, _mm256_permute2x128_si256(X0_2, X0_3, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 2, _mm256_permute2x128_si256(X1_0, X1_1, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 3, _mm256_permute2x128_si256(X1_2, X1_3, 1 + (3 << 4)));
store_m256i<0>(output, _mm256_permute2x128_si256(X0_0, X0_1, 1 + (3 << 4)));
store_m256i<1>(output, _mm256_permute2x128_si256(X0_2, X0_3, 1 + (3 << 4)));
store_m256i<2>(output, _mm256_permute2x128_si256(X1_0, X1_1, 1 + (3 << 4)));
store_m256i<3>(output, _mm256_permute2x128_si256(X1_2, X1_3, 1 + (3 << 4)));
}
if (input_mm)
if (input)
{
_mm256_storeu_si256(output_mm + 4, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 4),
store_m256i<4>(output, _mm256_xor_si256(load_m256i<4>(input),
_mm256_permute2x128_si256(X2_0, X2_1, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 5, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 5),
store_m256i<5>(output, _mm256_xor_si256(load_m256i<5>(input),
_mm256_permute2x128_si256(X2_2, X2_3, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 6, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 6),
store_m256i<6>(output, _mm256_xor_si256(load_m256i<6>(input),
_mm256_permute2x128_si256(X3_0, X3_1, 1 + (3 << 4))));
_mm256_storeu_si256(output_mm + 7, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 7),
store_m256i<7>(output, _mm256_xor_si256(load_m256i<7>(input),
_mm256_permute2x128_si256(X3_2, X3_3, 1 + (3 << 4))));
}
else
{
_mm256_storeu_si256(output_mm + 4, _mm256_permute2x128_si256(X2_0, X2_1, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 5, _mm256_permute2x128_si256(X2_2, X2_3, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 6, _mm256_permute2x128_si256(X3_0, X3_1, 1 + (3 << 4)));
_mm256_storeu_si256(output_mm + 7, _mm256_permute2x128_si256(X3_2, X3_3, 1 + (3 << 4)));
store_m256i<4>(output, _mm256_permute2x128_si256(X2_0, X2_1, 1 + (3 << 4)));
store_m256i<5>(output, _mm256_permute2x128_si256(X2_2, X2_3, 1 + (3 << 4)));
store_m256i<6>(output, _mm256_permute2x128_si256(X3_0, X3_1, 1 + (3 << 4)));
store_m256i<7>(output, _mm256_permute2x128_si256(X3_2, X3_3, 1 + (3 << 4)));
}
if (input_mm)
if (input)
{
_mm256_storeu_si256(output_mm + 8, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 8),
store_m256i<8>(output, _mm256_xor_si256(load_m256i<8>(input),
_mm256_permute2x128_si256(X0_0, X0_1, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 9, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 9),
store_m256i<9>(output, _mm256_xor_si256(load_m256i<9>(input),
_mm256_permute2x128_si256(X0_2, X0_3, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 10, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 10),
store_m256i<10>(output, _mm256_xor_si256(load_m256i<10>(input),
_mm256_permute2x128_si256(X1_0, X1_1, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 11, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 11),
store_m256i<11>(output, _mm256_xor_si256(load_m256i<11>(input),
_mm256_permute2x128_si256(X1_2, X1_3, 0 + (2 << 4))));
}
else
{
_mm256_storeu_si256(output_mm + 8, _mm256_permute2x128_si256(X0_0, X0_1, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 9, _mm256_permute2x128_si256(X0_2, X0_3, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 10, _mm256_permute2x128_si256(X1_0, X1_1, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 11, _mm256_permute2x128_si256(X1_2, X1_3, 0 + (2 << 4)));
store_m256i<8>(output, _mm256_permute2x128_si256(X0_0, X0_1, 0 + (2 << 4)));
store_m256i<9>(output, _mm256_permute2x128_si256(X0_2, X0_3, 0 + (2 << 4)));
store_m256i<10>(output, _mm256_permute2x128_si256(X1_0, X1_1, 0 + (2 << 4)));
store_m256i<11>(output, _mm256_permute2x128_si256(X1_2, X1_3, 0 + (2 << 4)));
}
if (input_mm)
if (input)
{
_mm256_storeu_si256(output_mm + 12, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 12),
store_m256i<12>(output, _mm256_xor_si256(load_m256i<12>(input),
_mm256_permute2x128_si256(X2_0, X2_1, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 13, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 13),
store_m256i<13>(output, _mm256_xor_si256(load_m256i<13>(input),
_mm256_permute2x128_si256(X2_2, X2_3, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 14, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 14),
store_m256i<14>(output, _mm256_xor_si256(load_m256i<14>(input),
_mm256_permute2x128_si256(X3_0, X3_1, 0 + (2 << 4))));
_mm256_storeu_si256(output_mm + 15, _mm256_xor_si256(_mm256_loadu_si256(input_mm + 15),
store_m256i<15>(output, _mm256_xor_si256(load_m256i<15>(input),
_mm256_permute2x128_si256(X3_2, X3_3, 0 + (2 << 4))));
}
else
{
_mm256_storeu_si256(output_mm + 12, _mm256_permute2x128_si256(X2_0, X2_1, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 13, _mm256_permute2x128_si256(X2_2, X2_3, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 14, _mm256_permute2x128_si256(X3_0, X3_1, 0 + (2 << 4)));
_mm256_storeu_si256(output_mm + 15, _mm256_permute2x128_si256(X3_2, X3_3, 0 + (2 << 4)));
store_m256i<12>(output, _mm256_permute2x128_si256(X2_0, X2_1, 0 + (2 << 4)));
store_m256i<13>(output, _mm256_permute2x128_si256(X2_2, X2_3, 0 + (2 << 4)));
store_m256i<14>(output, _mm256_permute2x128_si256(X3_0, X3_1, 0 + (2 << 4)));
store_m256i<15>(output, _mm256_permute2x128_si256(X3_2, X3_3, 0 + (2 << 4)));
}
// https://software.intel.com/en-us/articles/avoiding-avx-sse-transition-penalties

1
cryptlib.vcxproj
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@ -538,6 +538,7 @@
<ClInclude Include="sosemanuk.h" />
<ClInclude Include="speck.h" />
<ClInclude Include="square.h" />
<ClInclude Include="sse_simd.h" />
<ClInclude Include="stdcpp.h" />
<ClInclude Include="strciphr.h" />
<ClInclude Include="tea.h" />

3
cryptlib.vcxproj.filters
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@ -993,6 +993,9 @@
<ClInclude Include="square.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="sse_simd.h">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="stdcpp.h">
<Filter>Header Files</Filter>
</ClInclude>

26
gf2n_simd.cpp
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@ -28,6 +28,7 @@
#if (CRYPTOPP_CLMUL_AVAILABLE)
# include <emmintrin.h>
# include <wmmintrin.h>
# include "sse_simd.h"
#endif
#if (CRYPTOPP_ARM_PMULL_AVAILABLE)
@ -465,36 +466,31 @@ NAMESPACE_BEGIN(CryptoPP)
void
GF2NT_233_Multiply_Reduce_CLMUL(const word* pA, const word* pB, word* pC)
{
const __m128i* pAA = reinterpret_cast<const __m128i*>(pA);
const __m128i* pBB = reinterpret_cast<const __m128i*>(pB);
__m128i a0 = _mm_loadu_si128(pAA+0);
__m128i a1 = _mm_loadu_si128(pAA+1);
__m128i b0 = _mm_loadu_si128(pBB+0);
__m128i b1 = _mm_loadu_si128(pBB+1);
__m128i a0 = load_m128i<0>(pA);
__m128i a1 = load_m128i<1>(pA);
__m128i b0 = load_m128i<0>(pB);
__m128i b1 = load_m128i<1>(pB);
__m128i c0, c1, c2, c3;
F2N_Multiply_256x256_CLMUL(c3, c2, c1, c0, a1, a0, b1, b0);
GF2NT_233_Reduce_CLMUL(c3, c2, c1, c0);
__m128i* pCC = reinterpret_cast<__m128i*>(pC);
_mm_storeu_si128(pCC+0, c0);
_mm_storeu_si128(pCC+1, c1);
store_m128i<0>(pC, c0);
store_m128i<1>(pC, c1);
}
void
GF2NT_233_Square_Reduce_CLMUL(const word* pA, word* pC)
{
const __m128i* pAA = reinterpret_cast<const __m128i*>(pA);
__m128i a0 = _mm_loadu_si128(pAA+0);
__m128i a1 = _mm_loadu_si128(pAA+1);
__m128i a0 = load_m128i<0>(pA);
__m128i a1 = load_m128i<1>(pA);
__m128i c0, c1, c2, c3;
F2N_Square_256_CLMUL(c3, c2, c1, c0, a1, a0);
GF2NT_233_Reduce_CLMUL(c3, c2, c1, c0);
__m128i* pCC = reinterpret_cast<__m128i*>(pC);
_mm_storeu_si128(pCC+0, c0);
_mm_storeu_si128(pCC+1, c1);
store_m128i<0>(pC, c0);
store_m128i<1>(pC, c1);
}
#elif (CRYPTOPP_ARM_PMULL_AVAILABLE)

84
sse_simd.h Normal file
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@ -0,0 +1,84 @@
// sse_simd.h - written and placed in public domain by Jeffrey Walton
// Helper functions to work with SSE and above. The class file
// was added after a scan by lgtm.com. We caught some findings
// that were not problems, but we refactored to squash them.
#ifndef CRYPTOPP_SSE_CRYPTO_H
#define CRYPTOPP_SSE_CRYPTO_H
#include "config.h"
#if (CRYPTOPP_SSE2_INTRIN_AVAILABLE)
# include <emmintrin.h>
#endif
#if (CRYPTOPP_AVX2_AVAILABLE)
# include <immintrin.h>
#endif
NAMESPACE_BEGIN(CryptoPP)
#if (CRYPTOPP_SSE2_INTRIN_AVAILABLE)
// N specifies the nth 128-bit element
template <unsigned int N, class T>
inline __m128i load_m128i(T* ptr)
{
enum { SCALE=sizeof(__m128i)/sizeof(T) };
return _mm_loadu_si128(
reinterpret_cast<__m128i*>(ptr+SCALE*N));
}
// N specifies the nth 128-bit element
template <unsigned int N, class T>
inline __m128i load_m128i(const T* ptr)
{
enum { SCALE=sizeof(__m128i)/sizeof(T) };
return _mm_loadu_si128(
reinterpret_cast<const __m128i*>(ptr+SCALE*N));
}
// N specifies the nth 128-bit element
template <unsigned int N, class T>
inline void store_m128i(T* ptr, __m128i val)
{
enum { SCALE=sizeof(__m128i)/sizeof(T) };
return _mm_storeu_si128(
reinterpret_cast<__m128i*>(ptr+SCALE*N), val);
}
#endif
#if (CRYPTOPP_AVX2_AVAILABLE)
// N specifies the nth 256-bit element
template <unsigned int N, class T>
inline __m256i load_m256i(T* ptr)
{
enum { SCALE=sizeof(__m256i)/sizeof(T) };
return _mm256_loadu_si256(
reinterpret_cast<__m256i*>(ptr+SCALE*N));
}
// N specifies the nth 256-bit element
template <unsigned int N, class T>
inline __m256i load_m256i(const T* ptr)
{
enum { SCALE=sizeof(__m256i)/sizeof(T) };
return _mm256_loadu_si256(
reinterpret_cast<const __m256i*>(ptr+SCALE*N));
}
// N specifies the nth 256-bit element
template <unsigned int N, class T>
inline void store_m256i(T* ptr, __m256i val)
{
enum { SCALE=sizeof(__m256i)/sizeof(T) };
return _mm256_storeu_si256(
reinterpret_cast<__m256i*>(ptr+SCALE*N), val);
}
#endif
NAMESPACE_END
#endif // CRYPTOPP_SSE_CRYPTO_H