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defines.h
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defines.h
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#include <iostream>
#include <iomanip>
#include <sstream>
#include <fstream>
#include <string>
#include <stdio.h>
#include <stdint.h>
#include <immintrin.h>
#include <array>
#include <tuple>
#include <vector>
#include <map>
#include <iterator>
#include <algorithm>
#include <cmath>
#include <csetjmp>
#include <string.h>
#include <assert.h>
#include <time.h>
#include "omp.h"
using namespace std;
// Cipher Parameters
#define ROW_N (4)
#define COL_N (4)
#define STATE_N (ROW_N * COL_N)
#define SB_n (8U)
#define SB_a (1U << (SB_n))
// Attack configurations
#define k4_CONST_SAMPLE_N (1U << (3 * 8))
#define MC3_CONST_SAMPLE_N (1U << (12 * 8))
#define MC2_CONST_SAMPLE_N (1U << (3 * 8))
#define AK5_CONST_SAMPLE_N (1U << (2 * 8))
#define AK4_CONST_COL_SAMPLE_N (1U << (3 * 8))
#ifndef DoFF
#define DoFF 8
#endif
#if (DoFF == 16)
#define INIT_k3_col0_N (SB_a)
#define INIT_k3_col1_N (SB_a)
#define INIT_k3_col2_N (SB_a)
#define INIT_k3_col3_N (SB_a)
#define INIT_SB4_cell00_N (SB_a)
#define INIT_SB4_cell05_N (SB_a)
#define INIT_SB4_cell10_N (SB_a)
#define INIT_SB4_cell15_N (SB_a)
#elif (DoFF == 8)
#define INIT_k3_col0_N (SB_a)
#define INIT_k3_col1_N (SB_a)
#define INIT_k3_col2_N (SB_a)
#define INIT_k3_col3_N (SB_a)
#define INIT_SB4_cell00_N (SB_a / (1U << 2))
#define INIT_SB4_cell05_N (SB_a / (1U << 2))
#define INIT_SB4_cell10_N (SB_a / (1U << 2))
#define INIT_SB4_cell15_N (SB_a / (1U << 2))
#else // (DoFF == 4)
#define INIT_k3_col0_N (SB_a)
#define INIT_k3_col1_N (SB_a)
#define INIT_k3_col2_N (SB_a)
#define INIT_k3_col3_N (SB_a)
#define INIT_SB4_cell00_N (SB_a / (1U << 3))
#define INIT_SB4_cell05_N (SB_a / (1U << 3))
#define INIT_SB4_cell10_N (SB_a / (1U << 3))
#define INIT_SB4_cell15_N (SB_a / (1U << 3))
#endif
#define INIT_k3_col0_SB4_cell00_N ((INIT_k3_col0_N) * (INIT_SB4_cell00_N))
#define INIT_k3_col1_SB4_cell05_N ((INIT_k3_col1_N) * (INIT_SB4_cell05_N))
#define INIT_k3_col2_SB4_cell10_N ((INIT_k3_col2_N) * (INIT_SB4_cell10_N))
#define INIT_k3_col3_SB4_cell15_N ((INIT_k3_col3_N) * (INIT_SB4_cell15_N))
const __m128i one_128 = _mm_set_epi64x(0xffffffffffffffffULL, 0xffffffffffffffffULL);
#ifndef State_to_Parameter_Order
// 00, 04, 08, 12,
// 01, 05, 09, 13,
// 02, 06, 10, 14,
// 03, 07, 11, 15,
#define State_to_Parameter_Order( \
x00, x04, x08, x12, \
x01, x05, x09, x13, \
x02, x06, x10, x14, \
x03, x07, x11, x15) \
x15, x14, x13, x12, x11, x10, x09, x08, x07, x06, x05, x04, x03, x02, x01, x00
#endif
#ifndef _
#define _ (0x00)
#endif
#ifndef PARTIAL
#define PARTIAL 32
#endif
#if (PARTIAL == 64)
const __m128i PARTIAL_MATCH_TARGET_MASK = _mm_set_epi8(State_to_Parameter_Order(
0xFF, _ , 0xFF, _ ,
0xFF, 0xFF, _ , _ ,
0xFF, _ , 0xFF, _ ,
0xFF, _ , _ , 0xFF
));
#elif (PARTIAL == 56)
const __m128i PARTIAL_MATCH_TARGET_MASK = _mm_set_epi8(State_to_Parameter_Order(
0xFF, _ , _ , _ ,
0xFF, 0xFF, _ , _ ,
0xFF, _ , 0xFF, _ ,
0xFF, _ , _ , 0xFF
));
#elif (PARTIAL == 48)
const __m128i PARTIAL_MATCH_TARGET_MASK = _mm_set_epi8(State_to_Parameter_Order(
0xFF, _ , _ , _ ,
0xFF, 0xFF, _ , _ ,
0xFF, _ , 0xFF, _ ,
0xFF, _ , _ , _
));
#elif (PARTIAL == 40)
const __m128i PARTIAL_MATCH_TARGET_MASK = _mm_set_epi8(State_to_Parameter_Order(
0xFF, _ , _ , _ ,
0xFF, 0xFF, _ , _ ,
0xFF, _ , _ , _ ,
0xFF, _ , _ , _
));
#else //(PARTIAL == 32)
const __m128i PARTIAL_MATCH_TARGET_MASK = _mm_set_epi8(State_to_Parameter_Order(
0xFF, _ , _ , _ ,
0xFF, _ , _ , _ ,
0xFF, _ , _ , _ ,
0xFF, _ , _ , _
));
#endif
#define PRINT_COUNT 0
#define DEBUG 0
#ifndef omp_nb_threads
#define omp_nb_threads (4)
#endif
typedef uint8_t cell_t;
typedef array<cell_t, ROW_N> column_t;
typedef __m128i state_t;
typedef struct
{
column_t k3_col;
cell_t MC3_W;
cell_t SB4_B;
} colcell_t;
template<typename T>
inline T operator ^ (const T& lhs, const T& rhs)
{
T tmp;
for (size_t i = 0; i < lhs.size(); i++)
{
tmp[i] = lhs[i] ^ rhs[i];
}
return tmp;
}
#define EQU(w, u) (_mm_testz_si128(one_128, _mm_xor_si128(w, u)) == 1)
#define GE(w, u) (EQU(one_128, _mm_cmpgt_epi32(w, u)))
struct cmpState_t {
bool operator()(const state_t& a, const state_t& b) const {
return GE(a, b);
}
};
struct cmpColcell_t {
bool operator()(const colcell_t& a, const colcell_t& b) const {
return (memcmp(&a, &b, sizeof(colcell_t)) > 0);
}
};
inline void printstate(state_t &state)
{
cell_t * state_pt = (cell_t *)&state;
cout << hex << setfill('0');
for (size_t ri = 0; ri < ROW_N; ri++)
{
for (size_t ci = 0; ci < COL_N; ci++)
{
cout << setw(sizeof(cell_t) * 2) << state_pt[ci * ROW_N + ri] + '\0' << " ";
}
cout << endl;
}
cout << endl;
cout << dec << setfill(' ');
}