#define shl(x, n) ((x) << (n)) #define shr(x, n) ((x) >> (n)) //#define SHR(x, n) SHR2(x, n) //#define SHL(x, n) SHL2(x, n) #define SPH_ROTL32(x,n) rotate(x,(uint)n) #define ss0(x) (shr((x), 1) ^ shl((x), 3) ^ SPH_ROTL32((x), 4) ^ SPH_ROTL32((x), 19)) #define ss1(x) (shr((x), 1) ^ shl((x), 2) ^ SPH_ROTL32((x), 8) ^ SPH_ROTL32((x), 23)) #define ss2(x) (shr((x), 2) ^ shl((x), 1) ^ SPH_ROTL32((x), 12) ^ SPH_ROTL32((x), 25)) #define ss3(x) (shr((x), 2) ^ shl((x), 2) ^ SPH_ROTL32((x), 15) ^ SPH_ROTL32((x), 29)) #define ss4(x) (shr((x), 1) ^ (x)) #define ss5(x) (shr((x), 2) ^ (x)) #define rs1(x) SPH_ROTL32((x), 3) #define rs2(x) SPH_ROTL32((x), 7) #define rs3(x) SPH_ROTL32((x), 13) #define rs4(x) SPH_ROTL32((x), 16) #define rs5(x) SPH_ROTL32((x), 19) #define rs6(x) SPH_ROTL32((x), 23) #define rs7(x) SPH_ROTL32((x), 27) /* Message expansion function 1 */ static uint expand32_1(int i, uint *M32, uint *H, uint *Q) { return (ss1(Q[i - 16]) + ss2(Q[i - 15]) + ss3(Q[i - 14]) + ss0(Q[i - 13]) + ss1(Q[i - 12]) + ss2(Q[i - 11]) + ss3(Q[i - 10]) + ss0(Q[i - 9]) + ss1(Q[i - 8]) + ss2(Q[i - 7]) + ss3(Q[i - 6]) + ss0(Q[i - 5]) + ss1(Q[i - 4]) + ss2(Q[i - 3]) + ss3(Q[i - 2]) + ss0(Q[i - 1]) + ((i*(0x05555555ul) + SPH_ROTL32(M32[(i - 16) % 16], ((i - 16) % 16) + 1) + SPH_ROTL32(M32[(i - 13) % 16], ((i - 13) % 16) + 1) - SPH_ROTL32(M32[(i - 6) % 16], ((i - 6) % 16) + 1)) ^ H[(i - 16 + 7) % 16])); } /* Message expansion function 2 */ static uint expand32_2(int i, uint *M32, uint *H, uint *Q) { return (Q[i - 16] + rs1(Q[i - 15]) + Q[i - 14] + rs2(Q[i - 13]) + Q[i - 12] + rs3(Q[i - 11]) + Q[i - 10] + rs4(Q[i - 9]) + Q[i - 8] + rs5(Q[i - 7]) + Q[i - 6] + rs6(Q[i - 5]) + Q[i - 4] + rs7(Q[i - 3]) + ss4(Q[i - 2]) + ss5(Q[i - 1]) + ((i*(0x05555555ul) + SPH_ROTL32(M32[(i - 16) % 16], ((i - 16) % 16) + 1) + SPH_ROTL32(M32[(i - 13) % 16], ((i - 13) % 16) + 1) - SPH_ROTL32(M32[(i - 6) % 16], ((i - 6) % 16) + 1)) ^ H[(i - 16 + 7) % 16])); } static void Compression256(uint *M32, uint *H) { int i; uint XL32, XH32, Q[32]; Q[0] = (M32[5] ^ H[5]) - (M32[7] ^ H[7]) + (M32[10] ^ H[10]) + (M32[13] ^ H[13]) + (M32[14] ^ H[14]); Q[1] = (M32[6] ^ H[6]) - (M32[8] ^ H[8]) + (M32[11] ^ H[11]) + (M32[14] ^ H[14]) - (M32[15] ^ H[15]); Q[2] = (M32[0] ^ H[0]) + (M32[7] ^ H[7]) + (M32[9] ^ H[9]) - (M32[12] ^ H[12]) + (M32[15] ^ H[15]); Q[3] = (M32[0] ^ H[0]) - (M32[1] ^ H[1]) + (M32[8] ^ H[8]) - (M32[10] ^ H[10]) + (M32[13] ^ H[13]); Q[4] = (M32[1] ^ H[1]) + (M32[2] ^ H[2]) + (M32[9] ^ H[9]) - (M32[11] ^ H[11]) - (M32[14] ^ H[14]); Q[5] = (M32[3] ^ H[3]) - (M32[2] ^ H[2]) + (M32[10] ^ H[10]) - (M32[12] ^ H[12]) + (M32[15] ^ H[15]); Q[6] = (M32[4] ^ H[4]) - (M32[0] ^ H[0]) - (M32[3] ^ H[3]) - (M32[11] ^ H[11]) + (M32[13] ^ H[13]); Q[7] = (M32[1] ^ H[1]) - (M32[4] ^ H[4]) - (M32[5] ^ H[5]) - (M32[12] ^ H[12]) - (M32[14] ^ H[14]); Q[8] = (M32[2] ^ H[2]) - (M32[5] ^ H[5]) - (M32[6] ^ H[6]) + (M32[13] ^ H[13]) - (M32[15] ^ H[15]); Q[9] = (M32[0] ^ H[0]) - (M32[3] ^ H[3]) + (M32[6] ^ H[6]) - (M32[7] ^ H[7]) + (M32[14] ^ H[14]); Q[10] = (M32[8] ^ H[8]) - (M32[1] ^ H[1]) - (M32[4] ^ H[4]) - (M32[7] ^ H[7]) + (M32[15] ^ H[15]); Q[11] = (M32[8] ^ H[8]) - (M32[0] ^ H[0]) - (M32[2] ^ H[2]) - (M32[5] ^ H[5]) + (M32[9] ^ H[9]); Q[12] = (M32[1] ^ H[1]) + (M32[3] ^ H[3]) - (M32[6] ^ H[6]) - (M32[9] ^ H[9]) + (M32[10] ^ H[10]); Q[13] = (M32[2] ^ H[2]) + (M32[4] ^ H[4]) + (M32[7] ^ H[7]) + (M32[10] ^ H[10]) + (M32[11] ^ H[11]); Q[14] = (M32[3] ^ H[3]) - (M32[5] ^ H[5]) + (M32[8] ^ H[8]) - (M32[11] ^ H[11]) - (M32[12] ^ H[12]); Q[15] = (M32[12] ^ H[12]) - (M32[4] ^ H[4]) - (M32[6] ^ H[6]) - (M32[9] ^ H[9]) + (M32[13] ^ H[13]); /* Diffuse the differences in every word in a bijective manner with ssi, and then add the values of the previous double pipe.*/ Q[0] = ss0(Q[0]) + H[1]; Q[1] = ss1(Q[1]) + H[2]; Q[2] = ss2(Q[2]) + H[3]; Q[3] = ss3(Q[3]) + H[4]; Q[4] = ss4(Q[4]) + H[5]; Q[5] = ss0(Q[5]) + H[6]; Q[6] = ss1(Q[6]) + H[7]; Q[7] = ss2(Q[7]) + H[8]; Q[8] = ss3(Q[8]) + H[9]; Q[9] = ss4(Q[9]) + H[10]; Q[10] = ss0(Q[10]) + H[11]; Q[11] = ss1(Q[11]) + H[12]; Q[12] = ss2(Q[12]) + H[13]; Q[13] = ss3(Q[13]) + H[14]; Q[14] = ss4(Q[14]) + H[15]; Q[15] = ss0(Q[15]) + H[0]; /* This is the Message expansion or f_1 in the documentation. */ /* It has 16 rounds. */ /* Blue Midnight Wish has two tunable security parameters. */ /* The parameters are named EXPAND_1_ROUNDS and EXPAND_2_ROUNDS. */ /* The following relation for these parameters should is satisfied: */ /* EXPAND_1_ROUNDS + EXPAND_2_ROUNDS = 16 */ for (i = 0; i<2; i++) Q[i + 16] = expand32_1(i + 16, M32, H, Q); for (i = 2; i<16; i++) Q[i + 16] = expand32_2(i + 16, M32, H, Q); /* Blue Midnight Wish has two temporary cummulative variables that accumulate via XORing */ /* 16 new variables that are prooduced in the Message Expansion part. */ XL32 = Q[16] ^ Q[17] ^ Q[18] ^ Q[19] ^ Q[20] ^ Q[21] ^ Q[22] ^ Q[23]; XH32 = XL32^Q[24] ^ Q[25] ^ Q[26] ^ Q[27] ^ Q[28] ^ Q[29] ^ Q[30] ^ Q[31]; /* This part is the function f_2 - in the documentation */ /* Compute the double chaining pipe for the next message block. */ H[0] = (shl(XH32, 5) ^ shr(Q[16], 5) ^ M32[0]) + (XL32 ^ Q[24] ^ Q[0]); H[1] = (shr(XH32, 7) ^ shl(Q[17], 8) ^ M32[1]) + (XL32 ^ Q[25] ^ Q[1]); H[2] = (shr(XH32, 5) ^ shl(Q[18], 5) ^ M32[2]) + (XL32 ^ Q[26] ^ Q[2]); H[3] = (shr(XH32, 1) ^ shl(Q[19], 5) ^ M32[3]) + (XL32 ^ Q[27] ^ Q[3]); H[4] = (shr(XH32, 3) ^ Q[20] ^ M32[4]) + (XL32 ^ Q[28] ^ Q[4]); H[5] = (shl(XH32, 6) ^ shr(Q[21], 6) ^ M32[5]) + (XL32 ^ Q[29] ^ Q[5]); H[6] = (shr(XH32, 4) ^ shl(Q[22], 6) ^ M32[6]) + (XL32 ^ Q[30] ^ Q[6]); H[7] = (shr(XH32, 11) ^ shl(Q[23], 2) ^ M32[7]) + (XL32 ^ Q[31] ^ Q[7]); H[8] = SPH_ROTL32(H[4], 9) + (XH32 ^ Q[24] ^ M32[8]) + (shl(XL32, 8) ^ Q[23] ^ Q[8]); H[9] = SPH_ROTL32(H[5], 10) + (XH32 ^ Q[25] ^ M32[9]) + (shr(XL32, 6) ^ Q[16] ^ Q[9]); H[10] = SPH_ROTL32(H[6], 11) + (XH32 ^ Q[26] ^ M32[10]) + (shl(XL32, 6) ^ Q[17] ^ Q[10]); H[11] = SPH_ROTL32(H[7], 12) + (XH32 ^ Q[27] ^ M32[11]) + (shl(XL32, 4) ^ Q[18] ^ Q[11]); H[12] = SPH_ROTL32(H[0], 13) + (XH32 ^ Q[28] ^ M32[12]) + (shr(XL32, 3) ^ Q[19] ^ Q[12]); H[13] = SPH_ROTL32(H[1], 14) + (XH32 ^ Q[29] ^ M32[13]) + (shr(XL32, 4) ^ Q[20] ^ Q[13]); H[14] = SPH_ROTL32(H[2], 15) + (XH32 ^ Q[30] ^ M32[14]) + (shr(XL32, 7) ^ Q[21] ^ Q[14]); H[15] = SPH_ROTL32(H[3], 16) + (XH32 ^ Q[31] ^ M32[15]) + (shr(XL32, 2) ^ Q[22] ^ Q[15]); }