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/*
* SM3
* (C) 2017 Ribose Inc.
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/sm3.h>
namespace Botan {
std::unique_ptr<HashFunction> SM3::copy_state() const
{
return std::unique_ptr<HashFunction>(new SM3(*this));
}
namespace {
const uint32_t SM3_IV[] = {
0x7380166fUL, 0x4914b2b9UL, 0x172442d7UL, 0xda8a0600UL,
0xa96f30bcUL, 0x163138aaUL, 0xe38dee4dUL, 0xb0fb0e4eUL
};
const uint32_t SM3_TJ[64] = {
0x79CC4519, 0xF3988A32, 0xE7311465, 0xCE6228CB, 0x9CC45197,
0x3988A32F, 0x7311465E, 0xE6228CBC, 0xCC451979, 0x988A32F3,
0x311465E7, 0x6228CBCE, 0xC451979C, 0x88A32F39, 0x11465E73,
0x228CBCE6, 0x9D8A7A87, 0x3B14F50F, 0x7629EA1E, 0xEC53D43C,
0xD8A7A879, 0xB14F50F3, 0x629EA1E7, 0xC53D43CE, 0x8A7A879D,
0x14F50F3B, 0x29EA1E76, 0x53D43CEC, 0xA7A879D8, 0x4F50F3B1,
0x9EA1E762, 0x3D43CEC5, 0x7A879D8A, 0xF50F3B14, 0xEA1E7629,
0xD43CEC53, 0xA879D8A7, 0x50F3B14F, 0xA1E7629E, 0x43CEC53D,
0x879D8A7A, 0x0F3B14F5, 0x1E7629EA, 0x3CEC53D4, 0x79D8A7A8,
0xF3B14F50, 0xE7629EA1, 0xCEC53D43, 0x9D8A7A87, 0x3B14F50F,
0x7629EA1E, 0xEC53D43C, 0xD8A7A879, 0xB14F50F3, 0x629EA1E7,
0xC53D43CE, 0x8A7A879D, 0x14F50F3B, 0x29EA1E76, 0x53D43CEC,
0xA7A879D8, 0x4F50F3B1, 0x9EA1E762, 0x3D43CEC5 };
inline uint32_t P0(uint32_t X)
{
return X ^ rotate_left(X, 9) ^ rotate_left(X, 17);
}
inline uint32_t P1(uint32_t X)
{
return X ^ rotate_left(X, 15) ^ rotate_left(X, 23);
}
inline uint32_t FF0(uint32_t X, uint32_t Y, uint32_t Z)
{
return X ^ Y ^ Z;
}
inline uint32_t FF1(uint32_t X, uint32_t Y, uint32_t Z)
{
return (X & Y) | (X & Z) | (Y & Z);
}
inline uint32_t GG0(uint32_t X, uint32_t Y, uint32_t Z)
{
return X ^ Y ^ Z;
}
inline uint32_t GG1(uint32_t X, uint32_t Y, uint32_t Z)
{
return (X & Y) | (~X & Z);
}
}
/*
* SM3 Compression Function
*/
void SM3::compress_n(const uint8_t input[], size_t blocks)
{
uint32_t A = m_digest[0], B = m_digest[1], C = m_digest[2], D = m_digest[3],
E = m_digest[4], F = m_digest[5], G = m_digest[6], H = m_digest[7];
uint32_t W[68];
for(size_t i = 0; i != blocks; ++i)
{
// Message Extension (a)
W[ 0] = load_be<uint32_t>(input, 0);
W[ 1] = load_be<uint32_t>(input, 1);
W[ 2] = load_be<uint32_t>(input, 2);
W[ 3] = load_be<uint32_t>(input, 3);
W[ 4] = load_be<uint32_t>(input, 4);
W[ 5] = load_be<uint32_t>(input, 5);
W[ 6] = load_be<uint32_t>(input, 6);
W[ 7] = load_be<uint32_t>(input, 7);
W[ 8] = load_be<uint32_t>(input, 8);
W[ 9] = load_be<uint32_t>(input, 9);
W[10] = load_be<uint32_t>(input, 10);
W[11] = load_be<uint32_t>(input, 11);
W[12] = load_be<uint32_t>(input, 12);
W[13] = load_be<uint32_t>(input, 13);
W[14] = load_be<uint32_t>(input, 14);
W[15] = load_be<uint32_t>(input, 15);
// Message Extension (b)
W[16] = P1(W[ 0] ^ W[ 7] ^ rotate_left(W[13], 15)) ^ rotate_left(W[ 3], 7) ^ W[10];
W[17] = P1(W[ 1] ^ W[ 8] ^ rotate_left(W[14], 15)) ^ rotate_left(W[ 4], 7) ^ W[11];
W[18] = P1(W[ 2] ^ W[ 9] ^ rotate_left(W[15], 15)) ^ rotate_left(W[ 5], 7) ^ W[12];
W[19] = P1(W[ 3] ^ W[10] ^ rotate_left(W[16], 15)) ^ rotate_left(W[ 6], 7) ^ W[13];
W[20] = P1(W[ 4] ^ W[11] ^ rotate_left(W[17], 15)) ^ rotate_left(W[ 7], 7) ^ W[14];
W[21] = P1(W[ 5] ^ W[12] ^ rotate_left(W[18], 15)) ^ rotate_left(W[ 8], 7) ^ W[15];
W[22] = P1(W[ 6] ^ W[13] ^ rotate_left(W[19], 15)) ^ rotate_left(W[ 9], 7) ^ W[16];
W[23] = P1(W[ 7] ^ W[14] ^ rotate_left(W[20], 15)) ^ rotate_left(W[10], 7) ^ W[17];
W[24] = P1(W[ 8] ^ W[15] ^ rotate_left(W[21], 15)) ^ rotate_left(W[11], 7) ^ W[18];
W[25] = P1(W[ 9] ^ W[16] ^ rotate_left(W[22], 15)) ^ rotate_left(W[12], 7) ^ W[19];
W[26] = P1(W[10] ^ W[17] ^ rotate_left(W[23], 15)) ^ rotate_left(W[13], 7) ^ W[20];
W[27] = P1(W[11] ^ W[18] ^ rotate_left(W[24], 15)) ^ rotate_left(W[14], 7) ^ W[21];
W[28] = P1(W[12] ^ W[19] ^ rotate_left(W[25], 15)) ^ rotate_left(W[15], 7) ^ W[22];
W[29] = P1(W[13] ^ W[20] ^ rotate_left(W[26], 15)) ^ rotate_left(W[16], 7) ^ W[23];
W[30] = P1(W[14] ^ W[21] ^ rotate_left(W[27], 15)) ^ rotate_left(W[17], 7) ^ W[24];
W[31] = P1(W[15] ^ W[22] ^ rotate_left(W[28], 15)) ^ rotate_left(W[18], 7) ^ W[25];
W[32] = P1(W[16] ^ W[23] ^ rotate_left(W[29], 15)) ^ rotate_left(W[19], 7) ^ W[26];
W[33] = P1(W[17] ^ W[24] ^ rotate_left(W[30], 15)) ^ rotate_left(W[20], 7) ^ W[27];
W[34] = P1(W[18] ^ W[25] ^ rotate_left(W[31], 15)) ^ rotate_left(W[21], 7) ^ W[28];
W[35] = P1(W[19] ^ W[26] ^ rotate_left(W[32], 15)) ^ rotate_left(W[22], 7) ^ W[29];
W[36] = P1(W[20] ^ W[27] ^ rotate_left(W[33], 15)) ^ rotate_left(W[23], 7) ^ W[30];
W[37] = P1(W[21] ^ W[28] ^ rotate_left(W[34], 15)) ^ rotate_left(W[24], 7) ^ W[31];
W[38] = P1(W[22] ^ W[29] ^ rotate_left(W[35], 15)) ^ rotate_left(W[25], 7) ^ W[32];
W[39] = P1(W[23] ^ W[30] ^ rotate_left(W[36], 15)) ^ rotate_left(W[26], 7) ^ W[33];
W[40] = P1(W[24] ^ W[31] ^ rotate_left(W[37], 15)) ^ rotate_left(W[27], 7) ^ W[34];
W[41] = P1(W[25] ^ W[32] ^ rotate_left(W[38], 15)) ^ rotate_left(W[28], 7) ^ W[35];
W[42] = P1(W[26] ^ W[33] ^ rotate_left(W[39], 15)) ^ rotate_left(W[29], 7) ^ W[36];
W[43] = P1(W[27] ^ W[34] ^ rotate_left(W[40], 15)) ^ rotate_left(W[30], 7) ^ W[37];
W[44] = P1(W[28] ^ W[35] ^ rotate_left(W[41], 15)) ^ rotate_left(W[31], 7) ^ W[38];
W[45] = P1(W[29] ^ W[36] ^ rotate_left(W[42], 15)) ^ rotate_left(W[32], 7) ^ W[39];
W[46] = P1(W[30] ^ W[37] ^ rotate_left(W[43], 15)) ^ rotate_left(W[33], 7) ^ W[40];
W[47] = P1(W[31] ^ W[38] ^ rotate_left(W[44], 15)) ^ rotate_left(W[34], 7) ^ W[41];
W[48] = P1(W[32] ^ W[39] ^ rotate_left(W[45], 15)) ^ rotate_left(W[35], 7) ^ W[42];
W[49] = P1(W[33] ^ W[40] ^ rotate_left(W[46], 15)) ^ rotate_left(W[36], 7) ^ W[43];
W[50] = P1(W[34] ^ W[41] ^ rotate_left(W[47], 15)) ^ rotate_left(W[37], 7) ^ W[44];
W[51] = P1(W[35] ^ W[42] ^ rotate_left(W[48], 15)) ^ rotate_left(W[38], 7) ^ W[45];
W[52] = P1(W[36] ^ W[43] ^ rotate_left(W[49], 15)) ^ rotate_left(W[39], 7) ^ W[46];
W[53] = P1(W[37] ^ W[44] ^ rotate_left(W[50], 15)) ^ rotate_left(W[40], 7) ^ W[47];
W[54] = P1(W[38] ^ W[45] ^ rotate_left(W[51], 15)) ^ rotate_left(W[41], 7) ^ W[48];
W[55] = P1(W[39] ^ W[46] ^ rotate_left(W[52], 15)) ^ rotate_left(W[42], 7) ^ W[49];
W[56] = P1(W[40] ^ W[47] ^ rotate_left(W[53], 15)) ^ rotate_left(W[43], 7) ^ W[50];
W[57] = P1(W[41] ^ W[48] ^ rotate_left(W[54], 15)) ^ rotate_left(W[44], 7) ^ W[51];
W[58] = P1(W[42] ^ W[49] ^ rotate_left(W[55], 15)) ^ rotate_left(W[45], 7) ^ W[52];
W[59] = P1(W[43] ^ W[50] ^ rotate_left(W[56], 15)) ^ rotate_left(W[46], 7) ^ W[53];
W[60] = P1(W[44] ^ W[51] ^ rotate_left(W[57], 15)) ^ rotate_left(W[47], 7) ^ W[54];
W[61] = P1(W[45] ^ W[52] ^ rotate_left(W[58], 15)) ^ rotate_left(W[48], 7) ^ W[55];
W[62] = P1(W[46] ^ W[53] ^ rotate_left(W[59], 15)) ^ rotate_left(W[49], 7) ^ W[56];
W[63] = P1(W[47] ^ W[54] ^ rotate_left(W[60], 15)) ^ rotate_left(W[50], 7) ^ W[57];
W[64] = P1(W[48] ^ W[55] ^ rotate_left(W[61], 15)) ^ rotate_left(W[51], 7) ^ W[58];
W[65] = P1(W[49] ^ W[56] ^ rotate_left(W[62], 15)) ^ rotate_left(W[52], 7) ^ W[59];
W[66] = P1(W[50] ^ W[57] ^ rotate_left(W[63], 15)) ^ rotate_left(W[53], 7) ^ W[60];
W[67] = P1(W[51] ^ W[58] ^ rotate_left(W[64], 15)) ^ rotate_left(W[54], 7) ^ W[61];
for (size_t j = 0; j < 16; j++)
{
const uint32_t A12 = rotate_left(A, 12);
const uint32_t SS1 = rotate_left(A12 + E + SM3_TJ[j], 7);
const uint32_t SS2 = SS1 ^ A12;
const uint32_t TT1 = FF0(A, B, C) + D + SS2 + (W[j] ^ W[j+4]);
const uint32_t TT2 = GG0(E, F, G) + H + SS1 + W[j];
D = C;
C = rotate_left(B, 9);
B = A;
A = TT1;
H = G;
G = rotate_left(F, 19);
F = E;
E = P0(TT2);
}
for (size_t j = 16; j < 64; j++)
{
const uint32_t A12 = rotate_left(A, 12);
const uint32_t SS1 = rotate_left(A12 + E + SM3_TJ[j], 7);
const uint32_t SS2 = SS1 ^ A12;
const uint32_t TT1 = FF1(A, B, C) + D + SS2 + (W[j] ^ W[j+4]);
const uint32_t TT2 = GG1(E, F, G) + H + SS1 + W[j];
D = C;
C = rotate_left(B, 9);
B = A;
A = TT1;
H = G;
G = rotate_left(F, 19);
F = E;
E = P0(TT2);
}
A = (m_digest[0] ^= A);
B = (m_digest[1] ^= B);
C = (m_digest[2] ^= C);
D = (m_digest[3] ^= D);
E = (m_digest[4] ^= E);
F = (m_digest[5] ^= F);
G = (m_digest[6] ^= G);
H = (m_digest[7] ^= H);
input += hash_block_size();
}
}
/*
* Copy out the digest
*/
void SM3::copy_out(uint8_t output[])
{
copy_out_vec_be(output, output_length(), m_digest);
}
/*
* Clear memory of sensitive data
*/
void SM3::clear()
{
MDx_HashFunction::clear();
std::copy(std::begin(SM3_IV), std::end(SM3_IV), m_digest.begin());
}
}
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