// DiaKGCN 09-02-2012 - OpenCL kernel by Diapolo // // Parts and / or ideas for this kernel are based upon the public-domain poclbm project, the phatk kernel by Phateus and the DiabloMiner kernel by DiabloD3. // The kernel was rewritten by me (Diapolo) and is still public-domain! #ifdef VECTORS8 typedef uint8 u; #elif defined VECTORS4 typedef uint4 u; #elif defined VECTORS2 typedef uint2 u; #else typedef uint u; #endif #ifdef BITALIGN #pragma OPENCL EXTENSION cl_amd_media_ops : enable #ifdef BFI_INT #define Ch(x, y, z) amd_bytealign(x, y, z) #define Ma(x, y, z) amd_bytealign(z ^ x, y, x) #else #define Ch(x, y, z) bitselect(z, y, x) #if defined(VECTORS2) || defined(VECTORS4) || defined(VECTORS8) // GCN - VEC2 or VEC4 #define Ma(z, x, y) bitselect(z, y, z ^ x) #else // GCN - no VEC #define Ma(z, x, y) Ch(z ^ x, y, x) #endif #endif #else //BITALIGN #define Ch(x, y, z) (z ^ (x & (y ^ z))) #define Ma(x, y, z) ((x & z) | (y & (x | z))) #endif #ifdef GOFFSET // make sure kernel parameter "base" is not used, if GOFFSET is defined #define BASE #else // make sure kernel parameter "base" is used, if GOFFSET is not defined #define BASE const u base, #endif #define ch(n) Ch(V[(4 + 128 - n) % 8], V[(5 + 128 - n) % 8], V[(6 + 128 - n) % 8]) #define ma(n) Ma(V[(1 + 128 - n) % 8], V[(2 + 128 - n) % 8], V[(0 + 128 - n) % 8]) #define rotr15(n) (rotate(n, 15U) ^ rotate(n, 13U) ^ (n >> 10U)) #define rotr25(n) (rotate(n, 25U) ^ rotate(n, 14U) ^ (n >> 3U)) #define rotr26(n) (rotate(n, 26U) ^ rotate(n, 21U) ^ rotate(n, 7U)) #define rotr30(n) (rotate(n, 30U) ^ rotate(n, 19U) ^ rotate(n, 10U)) __kernel __attribute__((reqd_work_group_size(WORKSIZE, 1, 1))) void search( BASE const uint PreVal4, const uint H1, const uint D1A, const uint PreVal0, const uint B1, const uint C1, const uint F1, const uint G1, const uint C1addK5, const uint B1addK6, const uint PreVal0addK7, const uint W16addK16, const uint W17addK17, const uint PreW18, const uint PreW19, const uint W16, const uint W17, const uint PreW31, const uint PreW32, const uint state0, const uint state1, const uint state2, const uint state3, const uint state4, const uint state5, const uint state6, const uint state7, const uint state0A, const uint state0B, __global uint * output) { u W[17]; u V[8]; #ifdef VECTORS8 #ifdef GOFFSET u nonce = ((uint)get_global_id(0) << 3) + (u)(0, 1, 2, 3, 4, 5, 6, 7); #else u nonce = ((uint)get_group_id(0) * (uint)get_local_size(0) << 3) + ((uint)get_local_id(0) << 3) + base; #endif #elif defined VECTORS4 #ifdef GOFFSET u nonce = ((uint)get_global_id(0) << 2) + (u)(0, 1, 2, 3); #else u nonce = ((uint)get_group_id(0) * (uint)get_local_size(0) << 2) + ((uint)get_local_id(0) << 2) + base; #endif #elif defined VECTORS2 #ifdef GOFFSET u nonce = ((uint)get_global_id(0) << 1) + (u)(0, 1); #else u nonce = ((uint)get_group_id(0) * (uint)get_local_size(0) << 1) + ((uint)get_local_id(0) << 1) + base; #endif #else #ifdef GOFFSET u nonce = (uint)get_global_id(0); #else u nonce = ((uint)get_group_id(0) * (uint)get_local_size(0)) + (uint)get_local_id(0) + base; #endif #endif V[4] = PreVal4 + nonce; V[7] = H1 + (V[3] = D1A + Ch((PreVal0 + nonce), B1, C1) + rotr26(PreVal0 + nonce)); V[3] += rotr30(V[4]) + Ma(F1, G1, V[4]); V[6] = G1 + (V[2] = C1addK5 + Ch(V[7], (PreVal0 + nonce), B1) + rotr26(V[7])); V[2] += rotr30(V[3]) + Ma(V[4], F1, V[3]); V[5] = F1 + (V[1] = B1addK6 + Ch(V[6], V[7], (PreVal0 + nonce)) + rotr26(V[6])); V[1] += rotr30(V[2]) + Ma(V[3], V[4], V[2]); V[4] += nonce + PreVal0addK7 + Ch(V[5], V[6], V[7]) + rotr26(V[5]); V[0] = nonce + PreVal0addK7 + Ch(V[5], V[6], V[7]) + rotr26(V[5]) +rotr30(V[1]) + Ma(V[2], V[3], V[1]); V[3] += 0xd807aa98 + V[7] + Ch(V[4], V[5], V[6]) + rotr26(V[4]); V[7] = 0xd807aa98 + V[7] + Ch(V[4], V[5], V[6]) + rotr26(V[4]) + rotr30(V[0]) + Ma(V[1], V[2], V[0]); V[2] += 0x12835b01 + V[6] + Ch(V[3], V[4], V[5]) + rotr26(V[3]); V[6] = 0x12835b01 + V[6] + Ch(V[3], V[4], V[5]) + rotr26(V[3]) + rotr30(V[7]) + Ma(V[0], V[1], V[7]); V[1] += 0x243185be + V[5] + Ch(V[2], V[3], V[4]) + rotr26(V[2]); V[5] = 0x243185be + V[5] + Ch(V[2], V[3], V[4]) + rotr26(V[2]) + rotr30(V[6]) + Ma(V[7], V[0], V[6]); V[0] += 0x550c7dc3 + V[4] + Ch(V[1], V[2], V[3]) + rotr26(V[1]); V[4] = 0x550c7dc3 + V[4] + Ch(V[1], V[2], V[3]) + rotr26(V[1]) + rotr30(V[5]) + Ma(V[6], V[7], V[5]); //--------------- ch() + ma() replaced above --------------- V[7] += 0x72be5d74 + V[3] + ch(12) + rotr26(V[0]); V[3] = 0x72be5d74 + V[3] + ch(12) + rotr26(V[0]) + rotr30(V[4]) + ma(12); V[6] += 0x80deb1fe + V[2] + ch(13) + rotr26(V[7]); V[2] = 0x80deb1fe + V[2] + ch(13) + rotr26(V[7]) + rotr30(V[3]) + ma(13); V[5] += 0x9bdc06a7 + V[1] + ch(14) + rotr26(V[6]); V[1] = 0x9bdc06a7 + V[1] + ch(14) + rotr26(V[6]) + rotr30(V[2]) + ma(14); V[4] += 0xc19bf3f4 + V[0] + ch(15) + rotr26(V[5]); V[0] = 0xc19bf3f4 + V[0] + ch(15) + rotr26(V[5]) + rotr30(V[1]) + ma(15); V[3] += W16addK16 + V[7] + ch(16) + rotr26(V[4]); V[7] = W16addK16 + V[7] + ch(16) + rotr26(V[4]) + rotr30(V[0]) + ma(16); V[2] += W17addK17 + V[6] + ch(17) + rotr26(V[3]); V[6] = W17addK17 + V[6] + ch(17) + rotr26(V[3]) + rotr30(V[7]) + ma(17); //---------------------------------------------------------------------------------- #ifdef VECTORS8 W[0] = PreW18 + (u)( rotr25(nonce.s0), rotr25(nonce.s0) ^ 0x2004000, rotr25(nonce.s0) ^ 0x4008000, rotr25(nonce.s0) ^ 0x600C000, rotr25(nonce.s0) ^ 0x8010000, rotr25(nonce.s0) ^ 0xa014000, rotr25(nonce.s0) ^ 0xc018000, rotr25(nonce.s0) ^ 0xe01c000); #elif defined VECTORS4 W[0] = PreW18 + (u)(rotr25(nonce.x), rotr25(nonce.x) ^ 0x2004000, rotr25(nonce.x) ^ 0x4008000, rotr25(nonce.x) ^ 0x600C000); #elif defined VECTORS2 W[0] = PreW18 + (u)(rotr25(nonce.x), rotr25(nonce.x) ^ 0x2004000); #else W[0] = PreW18 + rotr25(nonce); #endif W[1] = PreW19 + nonce; W[2] = 0x80000000 + rotr15(W[0]); W[3] = rotr15(W[1]); W[4] = 0x00000280 + rotr15(W[2]); W[5] = W16 + rotr15(W[3]); W[6] = W17 + rotr15(W[4]); W[7] = W[0] + rotr15(W[5]); W[8] = W[1] + rotr15(W[6]); W[9] = W[2] + rotr15(W[7]); W[10] = W[3] + rotr15(W[8]); W[11] = W[4] + rotr15(W[9]); W[12] = 0x00a00055 + W[5] + rotr15(W[10]); W[13] = PreW31 + W[6] + rotr15(W[11]); W[14] = PreW32 + W[7] + rotr15(W[12]); W[15] = W17 + W[8] + rotr15(W[13]) + rotr25(W[0]); W[16] = W[0] + W[9] + rotr15(W[14]) + rotr25(W[1]); V[1] += 0x0fc19dc6 + V[5] + W[0] + ch(18) + rotr26(V[2]); V[5] = 0x0fc19dc6 + V[5] + W[0] + ch(18) + rotr26(V[2]) + rotr30(V[6]) + ma(18); V[0] += 0x240ca1cc + V[4] + W[1] + ch(19) + rotr26(V[1]); V[4] = 0x240ca1cc + V[4] + W[1] + ch(19) + rotr26(V[1]) + rotr30(V[5]) + ma(19); V[7] += 0x2de92c6f + V[3] + W[2] + ch(20) + rotr26(V[0]); V[3] = 0x2de92c6f + V[3] + W[2] + ch(20) + rotr26(V[0]) + rotr30(V[4]) + ma(20); V[6] += 0x4a7484aa + V[2] + W[3] + ch(21) + rotr26(V[7]); V[2] = 0x4a7484aa + V[2] + W[3] + ch(21) + rotr26(V[7]) + rotr30(V[3]) + ma(21); V[5] += 0x5cb0a9dc + V[1] + W[4] + ch(22) + rotr26(V[6]); V[1] = 0x5cb0a9dc + V[1] + W[4] + ch(22) + rotr26(V[6]) + rotr30(V[2]) + ma(22); V[4] += 0x76f988da + V[0] + W[5] + ch(23) + rotr26(V[5]); V[0] = 0x76f988da + V[0] + W[5] + ch(23) + rotr26(V[5]) + rotr30(V[1]) + ma(23); V[3] += 0x983e5152 + V[7] + W[6] + ch(24) + rotr26(V[4]); V[7] = 0x983e5152 + V[7] + W[6] + ch(24) + rotr26(V[4]) + rotr30(V[0]) + ma(24); V[2] += 0xa831c66d + V[6] + W[7] + ch(25) + rotr26(V[3]); V[6] = 0xa831c66d + V[6] + W[7] + ch(25) + rotr26(V[3]) + rotr30(V[7]) + ma(25); V[1] += 0xb00327c8 + V[5] + W[8] + ch(26) + rotr26(V[2]); V[5] = 0xb00327c8 + V[5] + W[8] + ch(26) + rotr26(V[2]) + rotr30(V[6]) + ma(26); V[0] += 0xbf597fc7 + V[4] + W[9] + ch(27) + rotr26(V[1]); V[4] = 0xbf597fc7 + V[4] + W[9] + ch(27) + rotr26(V[1]) + rotr30(V[5]) + ma(27); V[7] += 0xc6e00bf3 + V[3] + W[10] + ch(28) + rotr26(V[0]); V[3] = 0xc6e00bf3 + V[3] + W[10] + ch(28) + rotr26(V[0]) + rotr30(V[4]) + ma(28); V[6] += 0xd5a79147 + V[2] + W[11] + ch(29) + rotr26(V[7]); V[2] = 0xd5a79147 + V[2] + W[11] + ch(29) + rotr26(V[7]) + rotr30(V[3]) + ma(29); V[5] += 0x06ca6351 + V[1] + W[12] + ch(30) + rotr26(V[6]); V[1] = 0x06ca6351 + V[1] + W[12] + ch(30) + rotr26(V[6]) + rotr30(V[2]) + ma(30); V[4] += 0x14292967 + V[0] + W[13] + ch(31) + rotr26(V[5]); V[0] = 0x14292967 + V[0] + W[13] + ch(31) + rotr26(V[5]) + rotr30(V[1]) + ma(31); V[3] += 0x27b70a85 + V[7] + W[14] + ch(32) + rotr26(V[4]); V[7] = 0x27b70a85 + V[7] + W[14] + ch(32) + rotr26(V[4]) + rotr30(V[0]) + ma(32); V[2] += 0x2e1b2138 + V[6] + W[15] + ch(33) + rotr26(V[3]); V[6] = 0x2e1b2138 + V[6] + W[15] + ch(33) + rotr26(V[3]) + rotr30(V[7]) + ma(33); V[1] += 0x4d2c6dfc + V[5] + W[16] + ch(34) + rotr26(V[2]); V[5] = 0x4d2c6dfc + V[5] + W[16] + ch(34) + rotr26(V[2]) + rotr30(V[6]) + ma(34); //---------------------------------------------------------------------------------- W[0] = W[1] + W[10] + rotr15(W[15]) + rotr25( W[2]); W[1] = W[2] + W[11] + rotr15(W[16]) + rotr25( W[3]); W[2] = W[3] + W[12] + rotr15( W[0]) + rotr25( W[4]); W[3] = W[4] + W[13] + rotr15( W[1]) + rotr25( W[5]); W[4] = W[5] + W[14] + rotr15( W[2]) + rotr25( W[6]); W[5] = W[6] + W[15] + rotr15( W[3]) + rotr25( W[7]); W[6] = W[7] + W[16] + rotr15( W[4]) + rotr25( W[8]); W[7] = W[8] + W[0] + rotr15( W[5]) + rotr25( W[9]); W[8] = W[9] + W[1] + rotr15( W[6]) + rotr25(W[10]); W[9] = W[10] + W[2] + rotr15( W[7]) + rotr25(W[11]); W[10] = W[11] + W[3] + rotr15( W[8]) + rotr25(W[12]); W[11] = W[12] + W[4] + rotr15( W[9]) + rotr25(W[13]); W[12] = W[13] + W[5] + rotr15(W[10]) + rotr25(W[14]); W[13] = W[14] + W[6] + rotr15(W[11]) + rotr25(W[15]); W[14] = W[15] + W[7] + rotr15(W[12]) + rotr25(W[16]); W[15] = W[16] + W[8] + rotr15(W[13]) + rotr25( W[0]); W[16] = W[0] + W[9] + rotr15(W[14]) + rotr25( W[1]); V[0] += 0x53380d13 + V[4] + W[0] + ch(35) + rotr26(V[1]); V[4] = 0x53380d13 + V[4] + W[0] + ch(35) + rotr26(V[1]) + rotr30(V[5]) + ma(35); V[7] += 0x650a7354 + V[3] + W[1] + ch(36) + rotr26(V[0]); V[3] = 0x650a7354 + V[3] + W[1] + ch(36) + rotr26(V[0]) + rotr30(V[4]) + ma(36); V[6] += 0x766a0abb + V[2] + W[2] + ch(37) + rotr26(V[7]); V[2] = 0x766a0abb + V[2] + W[2] + ch(37) + rotr26(V[7]) + rotr30(V[3]) + ma(37); V[5] += 0x81c2c92e + V[1] + W[3] + ch(38) + rotr26(V[6]); V[1] = 0x81c2c92e + V[1] + W[3] + ch(38) + rotr26(V[6]) + rotr30(V[2]) + ma(38); V[4] += 0x92722c85 + V[0] + W[4] + ch(39) + rotr26(V[5]); V[0] = 0x92722c85 + V[0] + W[4] + ch(39) + rotr26(V[5]) + rotr30(V[1]) + ma(39); V[3] += 0xa2bfe8a1 + V[7] + W[5] + ch(40) + rotr26(V[4]); V[7] = 0xa2bfe8a1 + V[7] + W[5] + ch(40) + rotr26(V[4]) + rotr30(V[0]) + ma(40); V[2] += 0xa81a664b + V[6] + W[6] + ch(41) + rotr26(V[3]); V[6] = 0xa81a664b + V[6] + W[6] + ch(41) + rotr26(V[3]) + rotr30(V[7]) + ma(41); V[1] += 0xc24b8b70 + V[5] + W[7] + ch(42) + rotr26(V[2]); V[5] = 0xc24b8b70 + V[5] + W[7] + ch(42) + rotr26(V[2]) + rotr30(V[6]) + ma(42); V[0] += 0xc76c51a3 + V[4] + W[8] + ch(43) + rotr26(V[1]); V[4] = 0xc76c51a3 + V[4] + W[8] + ch(43) + rotr26(V[1]) + rotr30(V[5]) + ma(43); V[7] += 0xd192e819 + V[3] + W[9] + ch(44) + rotr26(V[0]); V[3] = 0xd192e819 + V[3] + W[9] + ch(44) + rotr26(V[0]) + rotr30(V[4]) + ma(44); V[6] += 0xd6990624 + V[2] + W[10] + ch(45) + rotr26(V[7]); V[2] = 0xd6990624 + V[2] + W[10] + ch(45) + rotr26(V[7]) + rotr30(V[3]) + ma(45); V[5] += 0xf40e3585 + V[1] + W[11] + ch(46) + rotr26(V[6]); V[1] = 0xf40e3585 + V[1] + W[11] + ch(46) + rotr26(V[6]) + rotr30(V[2]) + ma(46); V[4] += 0x106aa070 + V[0] + W[12] + ch(47) + rotr26(V[5]); V[0] = 0x106aa070 + V[0] + W[12] + ch(47) + rotr26(V[5]) + rotr30(V[1]) + ma(47); V[3] += 0x19a4c116 + V[7] + W[13] + ch(48) + rotr26(V[4]); V[7] = 0x19a4c116 + V[7] + W[13] + ch(48) + rotr26(V[4]) + rotr30(V[0]) + ma(48); V[2] += 0x1e376c08 + V[6] + W[14] + ch(49) + rotr26(V[3]); V[6] = 0x1e376c08 + V[6] + W[14] + ch(49) + rotr26(V[3]) + rotr30(V[7]) + ma(49); V[1] += 0x2748774c + V[5] + W[15] + ch(50) + rotr26(V[2]); V[5] = 0x2748774c + V[5] + W[15] + ch(50) + rotr26(V[2]) + rotr30(V[6]) + ma(50); V[0] += 0x34b0bcb5 + V[4] + W[16] + ch(51) + rotr26(V[1]); V[4] = 0x34b0bcb5 + V[4] + W[16] + ch(51) + rotr26(V[1]) + rotr30(V[5]) + ma(51); //---------------------------------------------------------------------------------- W[0] = W[1] + W[10] + rotr15(W[15]) + rotr25( W[2]); W[1] = W[2] + W[11] + rotr15(W[16]) + rotr25( W[3]); W[2] = W[3] + W[12] + rotr15( W[0]) + rotr25( W[4]); W[3] = W[4] + W[13] + rotr15( W[1]) + rotr25( W[5]); W[4] = W[5] + W[14] + rotr15( W[2]) + rotr25( W[6]); W[5] = W[6] + W[15] + rotr15( W[3]) + rotr25( W[7]); W[6] = W[7] + W[16] + rotr15( W[4]) + rotr25( W[8]); W[7] = W[8] + W[0] + rotr15( W[5]) + rotr25( W[9]); W[8] = W[9] + W[1] + rotr15( W[6]) + rotr25(W[10]); W[9] = W[10] + W[2] + rotr15( W[7]) + rotr25(W[11]); W[10] = W[11] + W[3] + rotr15( W[8]) + rotr25(W[12]); W[11] = W[12] + W[4] + rotr15( W[9]) + rotr25(W[13]); V[7] += 0x391c0cb3 + V[3] + W[0] + ch(52) + rotr26(V[0]); V[3] = 0x391c0cb3 + V[3] + W[0] + ch(52) + rotr26(V[0]) + rotr30(V[4]) + ma(52); V[6] += 0x4ed8aa4a + V[2] + W[1] + ch(53) + rotr26(V[7]); V[2] = 0x4ed8aa4a + V[2] + W[1] + ch(53) + rotr26(V[7]) + rotr30(V[3]) + ma(53); V[5] += 0x5b9cca4f + V[1] + W[2] + ch(54) + rotr26(V[6]); V[1] = 0x5b9cca4f + V[1] + W[2] + ch(54) + rotr26(V[6]) + rotr30(V[2]) + ma(54); V[4] += 0x682e6ff3 + V[0] + W[3] + ch(55) + rotr26(V[5]); V[0] = 0x682e6ff3 + V[0] + W[3] + ch(55) + rotr26(V[5]) + rotr30(V[1]) + ma(55); V[3] += 0x748f82ee + V[7] + W[4] + ch(56) + rotr26(V[4]); V[7] = 0x748f82ee + V[7] + W[4] + ch(56) + rotr26(V[4]) + rotr30(V[0]) + ma(56); V[2] += 0x78a5636f + V[6] + W[5] + ch(57) + rotr26(V[3]); V[6] = 0x78a5636f + V[6] + W[5] + ch(57) + rotr26(V[3]) + rotr30(V[7]) + ma(57); V[1] += 0x84c87814 + V[5] + W[6] + ch(58) + rotr26(V[2]); V[5] = 0x84c87814 + V[5] + W[6] + ch(58) + rotr26(V[2]) + rotr30(V[6]) + ma(58); V[0] += 0x8cc70208 + V[4] + W[7] + ch(59) + rotr26(V[1]); V[4] = 0x8cc70208 + V[4] + W[7] + ch(59) + rotr26(V[1]) + rotr30(V[5]) + ma(59); V[7] += 0x90befffa + V[3] + W[8] + ch(60) + rotr26(V[0]); V[3] = 0x90befffa + V[3] + W[8] + ch(60) + rotr26(V[0]) + rotr30(V[4]) + ma(60); V[6] += 0xa4506ceb + V[2] + W[9] + ch(61) + rotr26(V[7]); V[2] = 0xa4506ceb + V[2] + W[9] + ch(61) + rotr26(V[7]) + rotr30(V[3]) + ma(61); V[5] += 0xbef9a3f7 + V[1] + W[10] + ch(62) + rotr26(V[6]); V[1] = 0xbef9a3f7 + V[1] + W[10] + ch(62) + rotr26(V[6]) + rotr30(V[2]) + ma(62); V[4] += 0xc67178f2 + V[0] + W[11] + ch(63) + rotr26(V[5]); V[0] = 0xc67178f2 + V[0] + W[11] + ch(63) + rotr26(V[5]) + rotr30(V[1]) + ma(63); //---------------------------------------------------------------------------------- W[0] = state0 + V[0]; W[1] = state1 + V[1]; W[2] = state2 + V[2]; W[3] = state3 + V[3]; W[4] = state4 + V[4]; W[5] = state5 + V[5]; W[6] = state6 + V[6]; W[7] = state7 + V[7]; // 0x98c7e2a2 + W[0] u state0AaddV0 = state0A + V[0]; // 0xfc08884d + W[0] u state0BaddV0 = state0B + V[0]; V[2] = 0x3c6ef372 + (V[6] = 0x90bb1e3c + W[1] + Ch(state0AaddV0, 0x510e527fU, 0x9b05688cU) + rotr26(state0AaddV0)); V[6] += rotr30(state0BaddV0) + Ma(0x6a09e667U, 0xbb67ae85U, state0BaddV0); V[1] = 0xbb67ae85 + (V[5] = 0x50c6645b + W[2] + Ch(V[2], state0AaddV0, 0x510e527fU) + rotr26(V[2])); V[5] += rotr30(V[6]) + Ma(state0BaddV0, 0x6a09e667U, V[6]); V[0] = 0x6a09e667 + (V[4] = 0x3ac42e24 + W[3] + Ch(V[1], V[2], state0AaddV0) + rotr26(V[1])); V[4] += rotr30(V[5]) + Ma(V[6], state0BaddV0, V[5]); V[7] = (state0BaddV0) + (V[3] = 0x3956c25b + state0AaddV0 + W[4] + Ch(V[0], V[1], V[2]) + rotr26(V[0])); V[3] += rotr30(V[4]) + Ma(V[5], V[6], V[4]); //--------------- ch() + ma() replaced above --------------- V[6] += 0x59f111f1 + V[2] + W[5] + ch(69) + rotr26(V[7]); V[2] = 0x59f111f1 + V[2] + W[5] + ch(69) + rotr26(V[7]) + rotr30(V[3]) + ma(69); V[5] += 0x923f82a4 + V[1] + W[6] + ch(70) + rotr26(V[6]); V[1] = 0x923f82a4 + V[1] + W[6] + ch(70) + rotr26(V[6]) + rotr30(V[2]) + ma(70); V[4] += 0xab1c5ed5 + V[0] + W[7] + ch(71) + rotr26(V[5]); V[0] = 0xab1c5ed5 + V[0] + W[7] + ch(71) + rotr26(V[5]) + rotr30(V[1]) + ma(71); V[3] += 0x5807aa98 + V[7] + ch(72) + rotr26(V[4]); V[7] = 0x5807aa98 + V[7] + ch(72) + rotr26(V[4]) + rotr30(V[0]) + ma(72); V[2] += 0x12835b01 + V[6] + ch(73) + rotr26(V[3]); V[6] = 0x12835b01 + V[6] + ch(73) + rotr26(V[3]) + rotr30(V[7]) + ma(73); V[1] += 0x243185be + V[5] + ch(74) + rotr26(V[2]); V[5] = 0x243185be + V[5] + ch(74) + rotr26(V[2]) + rotr30(V[6]) + ma(74); V[0] += 0x550c7dc3 + V[4] + ch(75) + rotr26(V[1]); V[4] = 0x550c7dc3 + V[4] + ch(75) + rotr26(V[1]) + rotr30(V[5]) + ma(75); V[7] += 0x72be5d74 + V[3] + ch(76) + rotr26(V[0]); V[3] = 0x72be5d74 + V[3] + ch(76) + rotr26(V[0]) + rotr30(V[4]) + ma(76); V[6] += 0x80deb1fe + V[2] + ch(77) + rotr26(V[7]); V[2] = 0x80deb1fe + V[2] + ch(77) + rotr26(V[7]) + rotr30(V[3]) + ma(77); V[5] += 0x9bdc06a7 + V[1] + ch(78) + rotr26(V[6]); V[1] = 0x9bdc06a7 + V[1] + ch(78) + rotr26(V[6]) + rotr30(V[2]) + ma(78); V[4] += 0xc19bf274 + V[0] + ch(79) + rotr26(V[5]); V[0] = 0xc19bf274 + V[0] + ch(79) + rotr26(V[5]) + rotr30(V[1]) + ma(79); //---------------------------------------------------------------------------------- W[0] = W[0] + rotr25(W[1]); W[1] = 0x00a00000 + W[1] + rotr25(W[2]); W[2] = W[2] + rotr15(W[0]) + rotr25(W[3]); W[3] = W[3] + rotr15(W[1]) + rotr25(W[4]); W[4] = W[4] + rotr15(W[2]) + rotr25(W[5]); W[5] = W[5] + rotr15(W[3]) + rotr25(W[6]); W[6] = 0x00000100 + W[6] + rotr15(W[4]) + rotr25(W[7]); W[7] = 0x11002000 + W[7] + W[0] + rotr15(W[5]); W[8] = 0x80000000 + W[1] + rotr15(W[6]); W[9] = W[2] + rotr15(W[7]); W[10] = W[3] + rotr15(W[8]); W[11] = W[4] + rotr15(W[9]); W[12] = W[5] + rotr15(W[10]); W[13] = W[6] + rotr15(W[11]); W[14] = 0x00400022 + W[7] + rotr15( W[12]); W[15] = 0x00000100 + W[8] + rotr15( W[13]) + rotr25(W[0]); W[16] = W[0] + W[9] + rotr15( W[14]) + rotr25(W[1]); V[3] += 0xe49b69c1 + V[7] + W[0] + ch(80) + rotr26(V[4]); V[7] = 0xe49b69c1 + V[7] + W[0] + ch(80) + rotr26(V[4]) + rotr30(V[0]) + ma(80); V[2] += 0xefbe4786 + V[6] + W[1] + ch(81) + rotr26(V[3]); V[6] = 0xefbe4786 + V[6] + W[1] + ch(81) + rotr26(V[3]) + rotr30(V[7]) + ma(81); V[1] += 0x0fc19dc6 + V[5] + W[2] + ch(82) + rotr26(V[2]); V[5] = 0x0fc19dc6 + V[5] + W[2] + ch(82) + rotr26(V[2]) + rotr30(V[6]) + ma(82); V[0] += 0x240ca1cc + V[4] + W[3] + ch(83) + rotr26(V[1]); V[4] = 0x240ca1cc + V[4] + W[3] + ch(83) + rotr26(V[1]) + rotr30(V[5]) + ma(83); V[7] += 0x2de92c6f + V[3] + W[4] + ch(84) + rotr26(V[0]); V[3] = 0x2de92c6f + V[3] + W[4] + ch(84) + rotr26(V[0]) + rotr30(V[4]) + ma(84); V[6] += 0x4a7484aa + V[2] + W[5] + ch(85) + rotr26(V[7]); V[2] = 0x4a7484aa + V[2] + W[5] + ch(85) + rotr26(V[7]) + rotr30(V[3]) + ma(85); V[5] += 0x5cb0a9dc + V[1] + W[6] + ch(86) + rotr26(V[6]); V[1] = 0x5cb0a9dc + V[1] + W[6] + ch(86) + rotr26(V[6]) + rotr30(V[2]) + ma(86); V[4] += 0x76f988da + V[0] + W[7] + ch(87) + rotr26(V[5]); V[0] = 0x76f988da + V[0] + W[7] + ch(87) + rotr26(V[5]) + rotr30(V[1]) + ma(87); V[3] += 0x983e5152 + V[7] + W[8] + ch(88) + rotr26(V[4]); V[7] = 0x983e5152 + V[7] + W[8] + ch(88) + rotr26(V[4]) + rotr30(V[0]) + ma(88); V[2] += 0xa831c66d + V[6] + W[9] + ch(89) + rotr26(V[3]); V[6] = 0xa831c66d + V[6] + W[9] + ch(89) + rotr26(V[3]) + rotr30(V[7]) + ma(89); V[1] += 0xb00327c8 + V[5] + W[10] + ch(90) + rotr26(V[2]); V[5] = 0xb00327c8 + V[5] + W[10] + ch(90) + rotr26(V[2]) + rotr30(V[6]) + ma(90); V[0] += 0xbf597fc7 + V[4] + W[11] + ch(91) + rotr26(V[1]); V[4] = 0xbf597fc7 + V[4] + W[11] + ch(91) + rotr26(V[1]) + rotr30(V[5]) + ma(91); V[7] += 0xc6e00bf3 + V[3] + W[12] + ch(92) + rotr26(V[0]); V[3] = 0xc6e00bf3 + V[3] + W[12] + ch(92) + rotr26(V[0]) + rotr30(V[4]) + ma(92); V[6] += 0xd5a79147 + V[2] + W[13] + ch(93) + rotr26(V[7]); V[2] = 0xd5a79147 + V[2] + W[13] + ch(93) + rotr26(V[7]) + rotr30(V[3]) + ma(93); V[5] += 0x06ca6351 + V[1] + W[14] + ch(94) + rotr26(V[6]); V[1] = 0x06ca6351 + V[1] + W[14] + ch(94) + rotr26(V[6]) + rotr30(V[2]) + ma(94); V[4] += 0x14292967 + V[0] + W[15] + ch(95) + rotr26(V[5]); V[0] = 0x14292967 + V[0] + W[15] + ch(95) + rotr26(V[5]) + rotr30(V[1]) + ma(95); V[3] += 0x27b70a85 + V[7] + W[16] + ch(96) + rotr26(V[4]); V[7] = 0x27b70a85 + V[7] + W[16] + ch(96) + rotr26(V[4]) + rotr30(V[0]) + ma(96); //---------------------------------------------------------------------------------- W[0] = W[1] + W[10] + rotr15(W[15]) + rotr25( W[2]); W[1] = W[2] + W[11] + rotr15(W[16]) + rotr25( W[3]); W[2] = W[3] + W[12] + rotr15( W[0]) + rotr25( W[4]); W[3] = W[4] + W[13] + rotr15( W[1]) + rotr25( W[5]); W[4] = W[5] + W[14] + rotr15( W[2]) + rotr25( W[6]); W[5] = W[6] + W[15] + rotr15( W[3]) + rotr25( W[7]); W[6] = W[7] + W[16] + rotr15( W[4]) + rotr25( W[8]); W[7] = W[8] + W[0] + rotr15( W[5]) + rotr25( W[9]); W[8] = W[9] + W[1] + rotr15( W[6]) + rotr25(W[10]); W[9] = W[10] + W[2] + rotr15( W[7]) + rotr25(W[11]); W[10] = W[11] + W[3] + rotr15( W[8]) + rotr25(W[12]); W[11] = W[12] + W[4] + rotr15( W[9]) + rotr25(W[13]); W[12] = W[13] + W[5] + rotr15(W[10]) + rotr25(W[14]); W[13] = W[14] + W[6] + rotr15(W[11]) + rotr25(W[15]); W[14] = W[15] + W[7] + rotr15(W[12]) + rotr25(W[16]); W[15] = W[16] + W[8] + rotr15(W[13]) + rotr25( W[0]); W[16] = W[0] + W[9] + rotr15(W[14]) + rotr25( W[1]); V[2] += 0x2e1b2138 + V[6] + W[0] + ch(97) + rotr26(V[3]); V[6] = 0x2e1b2138 + V[6] + W[0] + ch(97) + rotr26(V[3]) + rotr30(V[7]) + ma(97); V[1] += 0x4d2c6dfc + V[5] + W[1] + ch(98) + rotr26(V[2]); V[5] = 0x4d2c6dfc + V[5] + W[1] + ch(98) + rotr26(V[2]) + rotr30(V[6]) + ma(98); V[0] += 0x53380d13 + V[4] + W[2] + ch(99) + rotr26(V[1]); V[4] = 0x53380d13 + V[4] + W[2] + ch(99) + rotr26(V[1]) + rotr30(V[5]) + ma(99); V[7] += 0x650a7354 + V[3] + W[3] + ch(100) + rotr26(V[0]); V[3] = 0x650a7354 + V[3] + W[3] + ch(100) + rotr26(V[0]) + rotr30(V[4]) + ma(100); V[6] += 0x766a0abb + V[2] + W[4] + ch(101) + rotr26(V[7]); V[2] = 0x766a0abb + V[2] + W[4] + ch(101) + rotr26(V[7]) + rotr30(V[3]) + ma(101); V[5] += 0x81c2c92e + V[1] + W[5] + ch(102) + rotr26(V[6]); V[1] = 0x81c2c92e + V[1] + W[5] + ch(102) + rotr26(V[6]) + rotr30(V[2]) + ma(102); V[4] += 0x92722c85 + V[0] + W[6] + ch(103) + rotr26(V[5]); V[0] = 0x92722c85 + V[0] + W[6] + ch(103) + rotr26(V[5]) + rotr30(V[1]) + ma(103); V[3] += 0xa2bfe8a1 + V[7] + W[7] + ch(104) + rotr26(V[4]); V[7] = 0xa2bfe8a1 + V[7] + W[7] + ch(104) + rotr26(V[4]) + rotr30(V[0]) + ma(104); V[2] += 0xa81a664b + V[6] + W[8] + ch(105) + rotr26(V[3]); V[6] = 0xa81a664b + V[6] + W[8] + ch(105) + rotr26(V[3]) + rotr30(V[7]) + ma(105); V[1] += 0xc24b8b70 + V[5] + W[9] + ch(106) + rotr26(V[2]); V[5] = 0xc24b8b70 + V[5] + W[9] + ch(106) + rotr26(V[2]) + rotr30(V[6]) + ma(106); V[0] += 0xc76c51a3 + V[4] + W[10] + ch(107) + rotr26(V[1]); V[4] = 0xc76c51a3 + V[4] + W[10] + ch(107) + rotr26(V[1]) + rotr30(V[5]) + ma(107); V[7] += 0xd192e819 + V[3] + W[11] + ch(108) + rotr26(V[0]); V[3] = 0xd192e819 + V[3] + W[11] + ch(108) + rotr26(V[0]) + rotr30(V[4]) + ma(108); V[6] += 0xd6990624 + V[2] + W[12] + ch(109) + rotr26(V[7]); V[2] = 0xd6990624 + V[2] + W[12] + ch(109) + rotr26(V[7]) + rotr30(V[3]) + ma(109); V[5] += 0xf40e3585 + V[1] + W[13] + ch(110) + rotr26(V[6]); V[1] = 0xf40e3585 + V[1] + W[13] + ch(110) + rotr26(V[6]) + rotr30(V[2]) + ma(110); V[4] += 0x106aa070 + V[0] + W[14] + ch(111) + rotr26(V[5]); V[0] = 0x106aa070 + V[0] + W[14] + ch(111) + rotr26(V[5]) + rotr30(V[1]) + ma(111); V[3] += 0x19a4c116 + V[7] + W[15] + ch(112) + rotr26(V[4]); V[7] = 0x19a4c116 + V[7] + W[15] + ch(112) + rotr26(V[4]) + rotr30(V[0]) + ma(112); V[2] += 0x1e376c08 + V[6] + W[16] + ch(113) + rotr26(V[3]); V[6] = 0x1e376c08 + V[6] + W[16] + ch(113) + rotr26(V[3]) + rotr30(V[7]) + ma(113); //---------------------------------------------------------------------------------- W[0] = W[1] + W[10] + rotr15(W[15]) + rotr25( W[2]); W[1] = W[2] + W[11] + rotr15(W[16]) + rotr25( W[3]); W[2] = W[3] + W[12] + rotr15( W[0]) + rotr25( W[4]); W[3] = W[4] + W[13] + rotr15( W[1]) + rotr25( W[5]); W[4] = W[5] + W[14] + rotr15( W[2]) + rotr25( W[6]); W[5] = W[6] + W[15] + rotr15( W[3]) + rotr25( W[7]); W[6] = W[7] + W[16] + rotr15( W[4]) + rotr25( W[8]); W[7] = W[8] + W[0] + rotr15( W[5]) + rotr25( W[9]); W[8] = W[9] + W[1] + rotr15( W[6]) + rotr25(W[10]); W[9] = W[10] + W[2] + rotr15( W[7]) + rotr25(W[11]); W[10] = W[11] + W[3] + rotr15( W[8]) + rotr25(W[12]); V[1] += 0x2748774c + V[5] + W[0] + ch(114) + rotr26(V[2]); V[5] = 0x2748774c + V[5] + W[0] + ch(114) + rotr26(V[2]) + rotr30(V[6]) + ma(114); V[0] += 0x34b0bcb5 + V[4] + W[1] + ch(115) + rotr26(V[1]); V[4] = 0x34b0bcb5 + V[4] + W[1] + ch(115) + rotr26(V[1]) + rotr30(V[5]) + ma(115); V[7] += 0x391c0cb3 + V[3] + W[2] + ch(116) + rotr26(V[0]); V[3] = 0x391c0cb3 + V[3] + W[2] + ch(116) + rotr26(V[0]) + rotr30(V[4]) + ma(116); V[6] += 0x4ed8aa4a + V[2] + W[3] + ch(117) + rotr26(V[7]); V[2] = 0x4ed8aa4a + V[2] + W[3] + ch(117) + rotr26(V[7]) + rotr30(V[3]) + ma(117); V[5] += 0x5b9cca4f + V[1] + W[4] + ch(118) + rotr26(V[6]); V[1] = 0x5b9cca4f + V[1] + W[4] + ch(118) + rotr26(V[6]) + rotr30(V[2]) + ma(118); V[4] += 0x682e6ff3 + V[0] + W[5] + ch(119) + rotr26(V[5]); V[0] = 0x682e6ff3 + V[0] + W[5] + ch(119) + rotr26(V[5]) + rotr30(V[1]) + ma(119); V[3] += 0x748f82ee + V[7] + W[6] + ch(120) + rotr26(V[4]); V[7] = 0x748f82ee + V[7] + W[6] + ch(120) + rotr26(V[4]) + rotr30(V[0]) + ma(120); V[2] += 0x78a5636f + V[6] + W[7] + ch(121) + rotr26(V[3]); V[1] += 0x84c87814 + V[5] + W[8] + ch(122) + rotr26(V[2]); V[0] += 0x8cc70208 + V[4] + W[9] + ch(123) + rotr26(V[1]); V[7] += V[3] + W[10] + ch(124) + rotr26(V[0]); #define FOUND (0x80) #define NFLAG (0x7F) #ifdef VECTORS4 V[7] ^= 0x136032ed; bool result = V[7].x & V[7].y & V[7].z & V[7].w; if (!result) { if (!V[7].x) output[FOUND] = output[NFLAG & nonce.x] = nonce.x; if (!V[7].y) output[FOUND] = output[NFLAG & nonce.y] = nonce.y; if (!V[7].z) output[FOUND] = output[NFLAG & nonce.z] = nonce.z; if (!V[7].w) output[FOUND] = output[NFLAG & nonce.w] = nonce.w; } #else #ifdef VECTORS2 V[7] ^= 0x136032ed; bool result = V[7].x & V[7].y; if (!result) { if (!V[7].x) output[FOUND] = output[NFLAG & nonce.x] = nonce.x; if (!V[7].y) output[FOUND] = output[NFLAG & nonce.y] = nonce.y; } #else if (V[7] == 0x136032ed) output[FOUND] = output[NFLAG & nonce] = nonce; #endif #endif }