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/*
* Blue Midnight Wish 512 (Round 2 tweaked)
* (C) 2009 Jack Lloyd
*
* Distributed under the terms of the Botan license
*/
#include <botan/bmw_512.h>
#include <botan/loadstor.h>
#include <botan/rotate.h>
namespace Botan {
namespace {
inline u64bit S0(u64bit X)
{
return (X >> 1) ^ (X << 3) ^ rotate_left(X, 4) ^ rotate_left(X, 37);
}
inline u64bit S1(u64bit X)
{
return (X >> 1) ^ (X << 2) ^ rotate_left(X, 13) ^ rotate_left(X, 43);
}
inline u64bit S2(u64bit X)
{
return (X >> 2) ^ (X << 1) ^ rotate_left(X, 19) ^ rotate_left(X, 53);
}
inline u64bit S3(u64bit X)
{
return (X >> 2) ^ (X << 2) ^ rotate_left(X, 28) ^ rotate_left(X, 59);
}
inline u64bit S4(u64bit X)
{
return (X >> 1) ^ X;
}
/**
* Blue Midnight Wish 512 compression function
*/
void BMW_512_compress(u64bit H[16], const u64bit M[16], u64bit Q[32])
{
const u32bit EXPAND_1_ROUNDS = 2;
for(u32bit i = 0; i != 16; ++i)
Q[i] = H[i] ^ M[i];
Q[16] = Q[ 5] - Q[ 7] + Q[10] + Q[13] + Q[14];
Q[17] = Q[ 6] - Q[ 8] + Q[11] + Q[14] - Q[15];
Q[18] = Q[ 0] + Q[ 7] + Q[ 9] - Q[12] + Q[15];
Q[19] = Q[ 0] - Q[ 1] + Q[ 8] - Q[10] + Q[13];
Q[20] = Q[ 1] + Q[ 2] + Q[ 9] - Q[11] - Q[14];
Q[21] = Q[ 3] - Q[ 2] + Q[10] - Q[12] + Q[15];
Q[22] = Q[ 4] - Q[ 0] - Q[ 3] - Q[11] + Q[13];
Q[23] = Q[ 1] - Q[ 4] - Q[ 5] - Q[12] - Q[14];
Q[24] = Q[ 2] - Q[ 5] - Q[ 6] + Q[13] - Q[15];
Q[25] = Q[ 0] - Q[ 3] + Q[ 6] - Q[ 7] + Q[14];
Q[26] = Q[ 8] - Q[ 1] - Q[ 4] - Q[ 7] + Q[15];
Q[27] = Q[ 8] - Q[ 0] - Q[ 2] - Q[ 5] + Q[ 9];
Q[28] = Q[ 1] + Q[ 3] - Q[ 6] - Q[ 9] + Q[10];
Q[29] = Q[ 2] + Q[ 4] + Q[ 7] + Q[10] + Q[11];
Q[30] = Q[ 3] - Q[ 5] + Q[ 8] - Q[11] - Q[12];
Q[31] = Q[12] - Q[ 4] - Q[ 6] - Q[ 9] + Q[13];
Q[ 0] = S0(Q[16]) + H[ 1];
Q[ 1] = S1(Q[17]) + H[ 2];
Q[ 2] = S2(Q[18]) + H[ 3];
Q[ 3] = S3(Q[19]) + H[ 4];
Q[ 4] = S4(Q[20]) + H[ 5];
Q[ 5] = S0(Q[21]) + H[ 6];
Q[ 6] = S1(Q[22]) + H[ 7];
Q[ 7] = S2(Q[23]) + H[ 8];
Q[ 8] = S3(Q[24]) + H[ 9];
Q[ 9] = S4(Q[25]) + H[10];
Q[10] = S0(Q[26]) + H[11];
Q[11] = S1(Q[27]) + H[12];
Q[12] = S2(Q[28]) + H[13];
Q[13] = S3(Q[29]) + H[14];
Q[14] = S4(Q[30]) + H[15];
Q[15] = S0(Q[31]) + H[ 0];
for(u32bit i = 16; i != 16 + EXPAND_1_ROUNDS; ++i)
{
Q[i] = S1(Q[i-16]) + S2(Q[i-15]) + S3(Q[i-14]) + S0(Q[i-13]) +
S1(Q[i-12]) + S2(Q[i-11]) + S3(Q[i-10]) + S0(Q[i- 9]) +
S1(Q[i- 8]) + S2(Q[i- 7]) + S3(Q[i- 6]) + S0(Q[i- 5]) +
S1(Q[i- 4]) + S2(Q[i- 3]) + S3(Q[i- 2]) + S0(Q[i- 1]) +
((rotate_left(M[(i-16) % 16], ((i-16)%16) + 1) +
rotate_left(M[(i-13) % 16], ((i-13)%16) + 1) -
rotate_left(M[(i- 6) % 16], ((i-6)%16) + 1) +
(0x0555555555555555 * i)) ^ H[(i-16+7)%16]);
}
for(u32bit i = 16 + EXPAND_1_ROUNDS; i != 32; ++i)
{
Q[i] = Q[i-16] + rotate_left(Q[i-15], 5) +
Q[i-14] + rotate_left(Q[i-13], 11) +
Q[i-12] + rotate_left(Q[i-11], 27) +
Q[i-10] + rotate_left(Q[i- 9], 32) +
Q[i- 8] + rotate_left(Q[i- 7], 37) +
Q[i- 6] + rotate_left(Q[i- 5], 43) +
Q[i- 4] + rotate_left(Q[i- 3], 53) +
S4(Q[i - 2]) + ((Q[i-1] >> 2) ^ Q[i-1]) +
((rotate_left(M[(i-16) % 16], ((i-16)%16 + 1)) +
rotate_left(M[(i-13) % 16], ((i-13)%16 + 1)) -
rotate_left(M[(i- 6) % 16], ((i-6)%16 + 1)) +
(0x0555555555555555 * i)) ^ H[(i-16+7)%16]);
}
u64bit XL = Q[16] ^ Q[17] ^ Q[18] ^ Q[19] ^
Q[20] ^ Q[21] ^ Q[22] ^ Q[23];
u64bit XH = Q[24] ^ Q[25] ^ Q[26] ^ Q[27] ^
Q[28] ^ Q[29] ^ Q[30] ^ Q[31];
XH ^= XL;
H[ 0] = ((XH << 5) ^ (Q[16] >> 5) ^ M[0]) + (XL ^ Q[24] ^ Q[0]);
H[ 1] = ((XH >> 7) ^ (Q[17] << 8) ^ M[1]) + (XL ^ Q[25] ^ Q[1]);
H[ 2] = ((XH >> 5) ^ (Q[18] << 5) ^ M[2]) + (XL ^ Q[26] ^ Q[2]);
H[ 3] = ((XH >> 1) ^ (Q[19] << 5) ^ M[3]) + (XL ^ Q[27] ^ Q[3]);
H[ 4] = ((XH >> 3) ^ (Q[20] ) ^ M[4]) + (XL ^ Q[28] ^ Q[4]);
H[ 5] = ((XH << 6) ^ (Q[21] >> 6) ^ M[5]) + (XL ^ Q[29] ^ Q[5]);
H[ 6] = ((XH >> 4) ^ (Q[22] << 6) ^ M[6]) + (XL ^ Q[30] ^ Q[6]);
H[ 7] = ((XH >> 11) ^ (Q[23] << 2) ^ M[7]) + (XL ^ Q[31] ^ Q[7]);
H[ 8] = rotate_left(H[4], 9) + (XH ^ Q[24] ^ M[ 8]) + ((XL << 8) ^ Q[23] ^ Q[ 8]);
H[ 9] = rotate_left(H[5], 10) + (XH ^ Q[25] ^ M[ 9]) + ((XL >> 6) ^ Q[16] ^ Q[ 9]);
H[10] = rotate_left(H[6], 11) + (XH ^ Q[26] ^ M[10]) + ((XL << 6) ^ Q[17] ^ Q[10]);
H[11] = rotate_left(H[7], 12) + (XH ^ Q[27] ^ M[11]) + ((XL << 4) ^ Q[18] ^ Q[11]);
H[12] = rotate_left(H[0], 13) + (XH ^ Q[28] ^ M[12]) + ((XL >> 3) ^ Q[19] ^ Q[12]);
H[13] = rotate_left(H[1], 14) + (XH ^ Q[29] ^ M[13]) + ((XL >> 4) ^ Q[20] ^ Q[13]);
H[14] = rotate_left(H[2], 15) + (XH ^ Q[30] ^ M[14]) + ((XL >> 7) ^ Q[21] ^ Q[14]);
H[15] = rotate_left(H[3], 16) + (XH ^ Q[31] ^ M[15]) + ((XL >> 2) ^ Q[22] ^ Q[15]);
}
}
void BMW_512::compress_n(const byte input[], u32bit blocks)
{
for(u32bit i = 0; i != blocks; ++i)
{
load_le(M.begin(), input, M.size());
BMW_512_compress(H, M, Q);
input += HASH_BLOCK_SIZE;
}
}
/*
* Copy out the digest
*/
void BMW_512::copy_out(byte output[])
{
u64bit final[16] = {
0xAAAAAAAAAAAAAAA0, 0xAAAAAAAAAAAAAAA1,
0xAAAAAAAAAAAAAAA2, 0xAAAAAAAAAAAAAAA3,
0xAAAAAAAAAAAAAAA4, 0xAAAAAAAAAAAAAAA5,
0xAAAAAAAAAAAAAAA6, 0xAAAAAAAAAAAAAAA7,
0xAAAAAAAAAAAAAAA8, 0xAAAAAAAAAAAAAAA9,
0xAAAAAAAAAAAAAAAA, 0xAAAAAAAAAAAAAAAB,
0xAAAAAAAAAAAAAAAC, 0xAAAAAAAAAAAAAAAD,
0xAAAAAAAAAAAAAAAE, 0xAAAAAAAAAAAAAAAF };
BMW_512_compress(final, H, Q);
for(u32bit i = 0; i != OUTPUT_LENGTH; i += 8)
store_le(final[8 + i/8], output + i);
}
/*
* Clear memory of sensitive data
*/
void BMW_512::clear()
{
MDx_HashFunction::clear();
zeroise(M);
zeroise(Q);
H[ 0] = 0x8081828384858687;
H[ 1] = 0x88898A8B8C8D8E8F;
H[ 2] = 0x9091929394959697;
H[ 3] = 0x98999A9B9C9D9E9F;
H[ 4] = 0xA0A1A2A3A4A5A6A7;
H[ 5] = 0xA8A9AAABACADAEAF;
H[ 6] = 0xB0B1B2B3B4B5B6B7;
H[ 7] = 0xB8B9BABBBCBDBEBF;
H[ 8] = 0xC0C1C2C3C4C5C6C7;
H[ 9] = 0xC8C9CACBCCCDCECF;
H[10] = 0xD0D1D2D3D4D5D6D7;
H[11] = 0xD8D9DADBDCDDDEDF;
H[12] = 0xE0E1E2E3E4E5E6E7;
H[13] = 0xE8E9EAEBECEDEEEF;
H[14] = 0xF0F1F2F3F4F5F6F7;
H[15] = 0xF8F9FAFBFCFDFEFF;
}
}
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