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faster_func.hpp
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faster_func.hpp
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/**
* PEIGEN: a Platform for Evaluation, Implementation, and Generation of S-boxes
*
* Copyright 2019 by
* Zhenzhen Bao <baozhenzhen10[at]gmail.com>
* Jian Guo <guojian[at]ntu.edu.sg>
* San Ling <lingsan[at]ntu.edu.sg>
* Yu Sasaki <yu[dot]sasaki[dot]sk@hco.ntt.co.jp>
*
* This platform is developed based on the open source application
* <http://jeremy.jean.free.fr/pub/fse2018_layer_implementations.tar.gz>
* Optimizing Implementations of Lightweight Building Blocks
*
* Copyright 2017 by
* Jade Tourteaux <Jade[dot]Tourteaux[at]gmail.com>
* Jérémy Jean <Jean[dot]Jeremy[at]gmail.com>
*
* We follow the same copyright policy.
*
* This file is part of some open source application.
*
* Some open source application 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.
*
* Some open source application 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 Foobar. If not, see <http://www.gnu.org/licenses/>.
*
* @license GPL-3.0+ <http://spdx.org/licenses/GPL-3.0+>
*/
#ifndef FASTER_FUNC_H__
#define FASTER_FUNC_H__
#include "constants.hpp"
using namespace std;
using namespace Peigen::depth;
#define FOUND_ALL ((1<<N) - 1)
#define NOP 0
#define NOT1 1
#define AND2 2
#define NAND2 3
#define OR2 4
#define NOR2 5
#define XOR2 6
#define XNOR2 7
#define MOAI1 8
#define MAOI1 9
#define NAND3 10
#define NOR3 11
#define OR3 12
#define AND3 13
#define ANDN2 14
#define ORN2 15
#define MAX_COST (numeric_limits<int>::max())
template<int N>
struct Peigen::depth::bool_function_t
{
/*
the bit-sliced representation of the function
*/
bit_slice_l_t<N> bit_slice{ {} };
/*
identifier for last boolean operator
*/
uint8_t info_op = NOP;
int area = 0;
const bool_function_t<N> * operands[3];
bool_function_t()
{
info_op = NOP;
area = 0;
operands[0] = NULL;
operands[1] = NULL;
operands[2] = NULL;
};
bool_function_t(const bit_slice_l_t<N> a)
{
bit_slice = a;
info_op = NOP;
area = 0;
operands[0] = NULL;
operands[1] = NULL;
operands[2] = NULL;
}
bool_function_t(const bool_function_t& f)
{
bit_slice = f.bit_slice;
info_op = f.info_op;
area = f.area;
operands[0] = f.operands[0];
operands[1] = f.operands[1];
operands[2] = f.operands[2];
}
bool operator < (const bool_function_t& f) const
{
return (bit_slice < f.bit_slice) || ((bit_slice == f.bit_slice) && (area < f.area));
}
bool operator == (const bool_function_t& f) const
{
return (bit_slice == f.bit_slice) && (area == f.area);
}
string to_bitstring() const
{
string str = "";
for (int j = 0; j < UNIT_N ; j++)
{
bitset<UNIT_BIT_N> tmp(bit_slice[j]);
str += tmp.to_string();
}
return str;
}
string to_string() const
{
stringstream ss;
ss << hex << setfill('0');
for (int j = UNIT_N - 1; j >= 0; j--)
{
ss << setw(UNIT_NIBBLE_N) << bit_slice[j] + '\0';
}
string res = ss.str();
return res;
}
bool is_balanced() const
{
uint64_t sum = 0;
uint64_t * pt = bit_slice.data();
for (int j = 0; j < (BIT_SLICE_BITS_N>>6) - 1; j++)
{
sum += _mm_popcnt_u64((uint64_t)(pt[j]));
}
sum += _mm_popcnt_u64(
(uint64_t)(pt[BIT_SLICE_BITS_N >> 6]) &
((1ULL << (BIT_SLICE_BITS_N & 0x3fULL)) - 1ULL));
return (sum == (BIT_SLICE_BITS_N >> 1ULL));
}
};
template<int N>
using coordinates_t = std::array<Peigen::depth::bool_function_t<N>, N>;
template<int N>
struct Peigen::depth::function_t
{
coordinates_t<N> coordinates;
array<int, N> depth = { };
function_t()
{
for (int i = 0; i < N; i++)
{
depth[i] = MAX_COST;
}
};
function_t(const bit_slice_t<N>& a)
{
for (int i = 0; i < N; i++)
{
coordinates[i].bit_slice = a[i];
coordinates[i].area = 0;
depth[i] = MAX_COST;
}
}
function_t(const coordinates_t<N>& a)
{
coordinates = a;
for (int i = 0; i < N; i++)
{
depth[i] = MAX_COST;
}
}
function_t(const function_t& f)
{
coordinates = f.coordinates;
depth = f.depth;
}
function_t(const string str)
{
parse_function(str);
for (int i = 0; i < N; i++)
{
depth[i] = MAX_COST;
}
}
static function_t INPUT_DEFAULT()
{
function_t I;
uint8_t LUT[LUT_UNIT_N];
for (int i = 0; i < LUT_UNIT_N; i++)
{
LUT[i] = i & 0xff;
}
I.LUT_to_bit_slice(LUT);
return I;
}
void parse_function(const string str)
{
if(str.size() == (BIT_SLICE_NIBBLES_N * N) + (N - 1))
{
string_to_bit_slice(str);
}
else if(str.size() == (BIT_SLICE_BITS_N<<1))
{
uint8_t LUT[LUT_UNIT_N];
string_to_LUT(str, LUT);
LUT_to_bit_slice(LUT);
}
else
{
cout << "Error: Length of the string representing the function should be either "
<< (BIT_SLICE_NIBBLES_N * N) + (N - 1) << " or "
<< (BIT_SLICE_BITS_N<<1) << endl;
}
for (int i = 0; i < N; i++)
{
coordinates[i].area = 0;
depth[i] = MAX_COST;
}
}
void string_to_bit_slice(const string& str)
{
if(str.size() == (BIT_SLICE_NIBBLES_N * N) + (N - 1))
{
stringstream ss(str);
string number;
int i = N - 1;
while(getline(ss, number, '_') && i >= 0)
{
if(number.length() != BIT_SLICE_NIBBLES_N)
{
cout << "Length of each substring error.";
exit(1);
}
for (int j = UNIT_N - 1; j >= 0; j--)
{
coordinates[i].bit_slice[j] = stoul(number.substr((UNIT_N - 1 - j)*UNIT_NIBBLE_N, UNIT_NIBBLE_N), nullptr, 16);
}
i--;
}
}
else
{
cout << "Error: Length of the string representing the function in bitsliced form should be "
<< (BIT_SLICE_NIBBLES_N * N) + (N - 1) << endl;
exit(1);
}
}
// !!! Only applicable for N = 3, 4, 5, 6, 7, 8
void string_to_LUT(const string& str, uint8_t LUT[])
{
if(str.size() == (BIT_SLICE_BITS_N<<1))
{
string tmp;
for (int i = 0; i < LUT_BYTE_N; i++)
{
tmp = str.substr(i * 2, 2);
LUT[i] = (uint8_t) stoul(tmp, nullptr, 16);
}
}
else
{
cout << "Error: Length of the string representing the function in LUT form should be "
<< (BIT_SLICE_BITS_N<<1) << endl;
exit(1);
}
}
// !!! Only applicable for N = 3, 4, 5, 6, 7, 8
void LUT_to_bit_slice(uint8_t x[])
{
__m128i LUT[LUT_XMM_N];
for (int i = 0; i < LUT_XMM_N; i++)
{
LUT[i] = _mm_loadu_si128((__m128i *)(x + i * 16));
}
bit_slice_t<N> bit_slice{{}};
if (N == 3)
{
const __m128i mask = _mm_set_epi64x(0x0, 0xffffffffffffffffULL);
LUT[0] = _mm_and_si128(LUT[0], mask);
bit_slice[2][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 5));
bit_slice[1][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 6));
bit_slice[0][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 7));
}
else if (N == 4)
{
bit_slice[3][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 4));
bit_slice[2][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 5));
bit_slice[1][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 6));
bit_slice[0][0] = _mm_movemask_epi8(_mm_slli_epi16(LUT[0], 7));
}
else if (N <= 8)
{
__m128i xmm[LUT_XMM_N];
for (int i = 0; i < LUT_XMM_N; i++)
{
xmm[i] = _mm_slli_epi16(LUT[i], 8 - N);
}
for (int i = N - 1; i >= 0; i--)
{
for (int j = LUT_XMM_N - 1; j >= 0; j--)
{
bit_slice[i][(j*16)/UNIT_BIT_N] <<= 16;
bit_slice[i][(j*16)/UNIT_BIT_N] |= (unsigned short)_mm_movemask_epi8(xmm[j]);
xmm[j] = _mm_slli_epi16(xmm[j], 1);
}
}
}
for (int i = 0; i < N; i++)
{
coordinates[i].bit_slice = bit_slice[i];
coordinates[i].area = 0;
}
}
bool operator < (const function_t& f) const
{
return coordinates < f.coordinates;
}
bool operator == (const function_t& f) const
{
return coordinates == f.coordinates;
}
string to_bitstring() const
{
string str = "";
for (int i = N - 1; i >= 0; i--)
{
for (int j = UNIT_N - 1; j >= 0; j--)
{
bitset<UNIT_BIT_N> tmp(coordinates[i].bit_slice[j]);
str += tmp.to_string();
}
str += "_";
}
str.pop_back();
return str;
}
string to_string() const
{
stringstream ss;
ss << hex << setfill('0');
for (int i = N - 1; i >= 0; i--)
{
for (int j = UNIT_N - 1; j >= 0; j--)
{
ss << setw(UNIT_NIBBLE_N) << coordinates[i].bit_slice[j] + '\0';
}
ss << "_";
}
string res = ss.str();
res.pop_back();
return res;
}
/*
Sort the lines of the function matrix
Ascending order
Ex :
0101010101010101
0011001100110011
0000111100001111
0000000000000000
*/
void sort()
{
StaticSort<N> staticSort;
staticSort(coordinates);
}
};
struct Peigen::depth::bool_op_t
{
int op_id;
int op_cost;
bool operator < (const bool_op_t& b) const
{
return op_cost < b.op_cost;
}
bool operator == (const bool_op_t& b) const
{
return op_cost == b.op_cost;
}
};
#endif // #ifndef FASTER_FUNC_H__