GOSTcoin support for ccminer CUDA miner project, compatible with most nvidia cards
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#include <stdio.h>
#include <memory.h>
#include "cuda_helper.h"
// aus heavy.cu
extern cudaError_t MyStreamSynchronize(cudaStream_t stream, int situation, int thr_id);
__constant__ uint64_t c_State[25];
__constant__ uint32_t c_PaddedMessage[18];
#define U32TO64_LE(p) \
(((uint64_t)(*p)) | (((uint64_t)(*(p + 1))) << 32))
#define U64TO32_LE(p, v) \
*p = (uint32_t)((v)); *(p+1) = (uint32_t)((v) >> 32);
static const uint64_t host_keccak_round_constants[24] = {
0x0000000000000001ull, 0x0000000000008082ull,
0x800000000000808aull, 0x8000000080008000ull,
0x000000000000808bull, 0x0000000080000001ull,
0x8000000080008081ull, 0x8000000000008009ull,
0x000000000000008aull, 0x0000000000000088ull,
0x0000000080008009ull, 0x000000008000000aull,
0x000000008000808bull, 0x800000000000008bull,
0x8000000000008089ull, 0x8000000000008003ull,
0x8000000000008002ull, 0x8000000000000080ull,
0x000000000000800aull, 0x800000008000000aull,
0x8000000080008081ull, 0x8000000000008080ull,
0x0000000080000001ull, 0x8000000080008008ull
};
__constant__ uint64_t c_keccak_round_constants[24];
static __device__ __forceinline__ void
keccak_block(uint64_t *s, const uint32_t *in, const uint64_t *keccak_round_constants) {
size_t i;
uint64_t t[5], u[5], v, w;
/* absorb input */
#pragma unroll 9
for (i = 0; i < 72 / 8; i++, in += 2)
s[i] ^= U32TO64_LE(in);
for (i = 0; i < 24; i++) {
/* theta: c = a[0,i] ^ a[1,i] ^ .. a[4,i] */
t[0] = s[0] ^ s[5] ^ s[10] ^ s[15] ^ s[20];
t[1] = s[1] ^ s[6] ^ s[11] ^ s[16] ^ s[21];
t[2] = s[2] ^ s[7] ^ s[12] ^ s[17] ^ s[22];
t[3] = s[3] ^ s[8] ^ s[13] ^ s[18] ^ s[23];
t[4] = s[4] ^ s[9] ^ s[14] ^ s[19] ^ s[24];
/* theta: d[i] = c[i+4] ^ rotl(c[i+1],1) */
u[0] = t[4] ^ ROTL64(t[1], 1);
u[1] = t[0] ^ ROTL64(t[2], 1);
u[2] = t[1] ^ ROTL64(t[3], 1);
u[3] = t[2] ^ ROTL64(t[4], 1);
u[4] = t[3] ^ ROTL64(t[0], 1);
/* theta: a[0,i], a[1,i], .. a[4,i] ^= d[i] */
s[0] ^= u[0]; s[5] ^= u[0]; s[10] ^= u[0]; s[15] ^= u[0]; s[20] ^= u[0];
s[1] ^= u[1]; s[6] ^= u[1]; s[11] ^= u[1]; s[16] ^= u[1]; s[21] ^= u[1];
s[2] ^= u[2]; s[7] ^= u[2]; s[12] ^= u[2]; s[17] ^= u[2]; s[22] ^= u[2];
s[3] ^= u[3]; s[8] ^= u[3]; s[13] ^= u[3]; s[18] ^= u[3]; s[23] ^= u[3];
s[4] ^= u[4]; s[9] ^= u[4]; s[14] ^= u[4]; s[19] ^= u[4]; s[24] ^= u[4];
/* rho pi: b[..] = rotl(a[..], ..) */
v = s[ 1];
s[ 1] = ROTL64(s[ 6], 44);
s[ 6] = ROTL64(s[ 9], 20);
s[ 9] = ROTL64(s[22], 61);
s[22] = ROTL64(s[14], 39);
s[14] = ROTL64(s[20], 18);
s[20] = ROTL64(s[ 2], 62);
s[ 2] = ROTL64(s[12], 43);
s[12] = ROTL64(s[13], 25);
s[13] = ROTL64(s[19], 8);
s[19] = ROTL64(s[23], 56);
s[23] = ROTL64(s[15], 41);
s[15] = ROTL64(s[ 4], 27);
s[ 4] = ROTL64(s[24], 14);
s[24] = ROTL64(s[21], 2);
s[21] = ROTL64(s[ 8], 55);
s[ 8] = ROTL64(s[16], 45);
s[16] = ROTL64(s[ 5], 36);
s[ 5] = ROTL64(s[ 3], 28);
s[ 3] = ROTL64(s[18], 21);
s[18] = ROTL64(s[17], 15);
s[17] = ROTL64(s[11], 10);
s[11] = ROTL64(s[ 7], 6);
s[ 7] = ROTL64(s[10], 3);
s[10] = ROTL64( v, 1);
/* chi: a[i,j] ^= ~b[i,j+1] & b[i,j+2] */
v = s[ 0]; w = s[ 1]; s[ 0] ^= (~w) & s[ 2]; s[ 1] ^= (~s[ 2]) & s[ 3]; s[ 2] ^= (~s[ 3]) & s[ 4]; s[ 3] ^= (~s[ 4]) & v; s[ 4] ^= (~v) & w;
v = s[ 5]; w = s[ 6]; s[ 5] ^= (~w) & s[ 7]; s[ 6] ^= (~s[ 7]) & s[ 8]; s[ 7] ^= (~s[ 8]) & s[ 9]; s[ 8] ^= (~s[ 9]) & v; s[ 9] ^= (~v) & w;
v = s[10]; w = s[11]; s[10] ^= (~w) & s[12]; s[11] ^= (~s[12]) & s[13]; s[12] ^= (~s[13]) & s[14]; s[13] ^= (~s[14]) & v; s[14] ^= (~v) & w;
v = s[15]; w = s[16]; s[15] ^= (~w) & s[17]; s[16] ^= (~s[17]) & s[18]; s[17] ^= (~s[18]) & s[19]; s[18] ^= (~s[19]) & v; s[19] ^= (~v) & w;
v = s[20]; w = s[21]; s[20] ^= (~w) & s[22]; s[21] ^= (~s[22]) & s[23]; s[22] ^= (~s[23]) & s[24]; s[23] ^= (~s[24]) & v; s[24] ^= (~v) & w;
/* iota: a[0,0] ^= round constant */
s[0] ^= keccak_round_constants[i];
}
}
__global__ void jackpot_keccak512_gpu_hash(int threads, uint32_t startNounce, uint64_t *g_hash)
{
int thread = (blockDim.x * blockIdx.x + threadIdx.x);
if (thread < threads)
{
uint32_t nounce = startNounce + thread;
int hashPosition = nounce - startNounce;
// Nachricht kopieren
uint32_t message[18];
#pragma unroll 18
for(int i=0;i<18;i++)
message[i] = c_PaddedMessage[i];
// die individuelle Nounce einsetzen
message[1] = cuda_swab32(nounce);
// State initialisieren
uint64_t keccak_gpu_state[25];
#pragma unroll 25
for (int i=0; i<25; i++)
keccak_gpu_state[i] = c_State[i];
// den Block einmal gut durchsch<EFBFBD>tteln
keccak_block(keccak_gpu_state, message, c_keccak_round_constants);
// das Hash erzeugen
uint32_t hash[16];
#pragma unroll 8
for (size_t i = 0; i < 64; i += 8) {
U64TO32_LE((&hash[i/4]), keccak_gpu_state[i / 8]);
}
// fertig
uint32_t *outpHash = (uint32_t*)&g_hash[8 * hashPosition];
#pragma unroll 16
for(int i=0;i<16;i++)
outpHash[i] = hash[i];
}
}
// Setup-Funktionen
__host__ void jackpot_keccak512_cpu_init(int thr_id, int threads)
{
// Kopiere die Hash-Tabellen in den GPU-Speicher
cudaMemcpyToSymbol( c_keccak_round_constants,
host_keccak_round_constants,
sizeof(host_keccak_round_constants),
0, cudaMemcpyHostToDevice);
}
#define cKeccakB 1600
#define cKeccakR 576
#define cKeccakR_SizeInBytes (cKeccakR / 8)
#define crypto_hash_BYTES 64
#if (cKeccakB == 1600)
typedef unsigned long long UINT64;
typedef UINT64 tKeccakLane;
#define cKeccakNumberOfRounds 24
#endif
#define cKeccakLaneSizeInBits (sizeof(tKeccakLane) * 8)
#define ROL(a, offset) ((((tKeccakLane)a) << ((offset) % cKeccakLaneSizeInBits)) ^ (((tKeccakLane)a) >> (cKeccakLaneSizeInBits-((offset) % cKeccakLaneSizeInBits))))
#if ((cKeccakB/25) == 8)
#define ROL_mult8(a, offset) ((tKeccakLane)a)
#else
#define ROL_mult8(a, offset) ROL(a, offset)
#endif
void KeccakF( tKeccakLane * state, const tKeccakLane *in, int laneCount );
const tKeccakLane KeccakF_RoundConstants[cKeccakNumberOfRounds] =
{
(tKeccakLane)0x0000000000000001ULL,
(tKeccakLane)0x0000000000008082ULL,
(tKeccakLane)0x800000000000808aULL,
(tKeccakLane)0x8000000080008000ULL,
(tKeccakLane)0x000000000000808bULL,
(tKeccakLane)0x0000000080000001ULL,
(tKeccakLane)0x8000000080008081ULL,
(tKeccakLane)0x8000000000008009ULL,
(tKeccakLane)0x000000000000008aULL,
(tKeccakLane)0x0000000000000088ULL,
(tKeccakLane)0x0000000080008009ULL,
(tKeccakLane)0x000000008000000aULL,
(tKeccakLane)0x000000008000808bULL,
(tKeccakLane)0x800000000000008bULL,
(tKeccakLane)0x8000000000008089ULL,
(tKeccakLane)0x8000000000008003ULL,
(tKeccakLane)0x8000000000008002ULL,
(tKeccakLane)0x8000000000000080ULL
#if (cKeccakB >= 400)
, (tKeccakLane)0x000000000000800aULL,
(tKeccakLane)0x800000008000000aULL
#if (cKeccakB >= 800)
, (tKeccakLane)0x8000000080008081ULL,
(tKeccakLane)0x8000000000008080ULL
#if (cKeccakB == 1600)
, (tKeccakLane)0x0000000080000001ULL,
(tKeccakLane)0x8000000080008008ULL
#endif
#endif
#endif
};
void KeccakF( tKeccakLane * state, const tKeccakLane *in, int laneCount )
{
{
while ( --laneCount >= 0 )
{
state[laneCount] ^= in[laneCount];
}
}
{
tKeccakLane Aba, Abe, Abi, Abo, Abu;
tKeccakLane Aga, Age, Agi, Ago, Agu;
tKeccakLane Aka, Ake, Aki, Ako, Aku;
tKeccakLane Ama, Ame, Ami, Amo, Amu;
tKeccakLane Asa, Ase, Asi, Aso, Asu;
tKeccakLane BCa, BCe, BCi, BCo, BCu;
tKeccakLane Da, De, Di, Do, Du;
tKeccakLane Eba, Ebe, Ebi, Ebo, Ebu;
tKeccakLane Ega, Ege, Egi, Ego, Egu;
tKeccakLane Eka, Eke, Eki, Eko, Eku;
tKeccakLane Ema, Eme, Emi, Emo, Emu;
tKeccakLane Esa, Ese, Esi, Eso, Esu;
#define round laneCount
//copyFromState(A, state)
Aba = state[ 0];
Abe = state[ 1];
Abi = state[ 2];
Abo = state[ 3];
Abu = state[ 4];
Aga = state[ 5];
Age = state[ 6];
Agi = state[ 7];
Ago = state[ 8];
Agu = state[ 9];
Aka = state[10];
Ake = state[11];
Aki = state[12];
Ako = state[13];
Aku = state[14];
Ama = state[15];
Ame = state[16];
Ami = state[17];
Amo = state[18];
Amu = state[19];
Asa = state[20];
Ase = state[21];
Asi = state[22];
Aso = state[23];
Asu = state[24];
for( round = 0; round < cKeccakNumberOfRounds; round += 2 )
{
// prepareTheta
BCa = Aba^Aga^Aka^Ama^Asa;
BCe = Abe^Age^Ake^Ame^Ase;
BCi = Abi^Agi^Aki^Ami^Asi;
BCo = Abo^Ago^Ako^Amo^Aso;
BCu = Abu^Agu^Aku^Amu^Asu;
//thetaRhoPiChiIotaPrepareTheta(round , A, E)
Da = BCu^ROL(BCe, 1);
De = BCa^ROL(BCi, 1);
Di = BCe^ROL(BCo, 1);
Do = BCi^ROL(BCu, 1);
Du = BCo^ROL(BCa, 1);
Aba ^= Da;
BCa = Aba;
Age ^= De;
BCe = ROL(Age, 44);
Aki ^= Di;
BCi = ROL(Aki, 43);
Amo ^= Do;
BCo = ROL(Amo, 21);
Asu ^= Du;
BCu = ROL(Asu, 14);
Eba = BCa ^((~BCe)& BCi );
Eba ^= (tKeccakLane)KeccakF_RoundConstants[round];
Ebe = BCe ^((~BCi)& BCo );
Ebi = BCi ^((~BCo)& BCu );
Ebo = BCo ^((~BCu)& BCa );
Ebu = BCu ^((~BCa)& BCe );
Abo ^= Do;
BCa = ROL(Abo, 28);
Agu ^= Du;
BCe = ROL(Agu, 20);
Aka ^= Da;
BCi = ROL(Aka, 3);
Ame ^= De;
BCo = ROL(Ame, 45);
Asi ^= Di;
BCu = ROL(Asi, 61);
Ega = BCa ^((~BCe)& BCi );
Ege = BCe ^((~BCi)& BCo );
Egi = BCi ^((~BCo)& BCu );
Ego = BCo ^((~BCu)& BCa );
Egu = BCu ^((~BCa)& BCe );
Abe ^= De;
BCa = ROL(Abe, 1);
Agi ^= Di;
BCe = ROL(Agi, 6);
Ako ^= Do;
BCi = ROL(Ako, 25);
Amu ^= Du;
BCo = ROL_mult8(Amu, 8);
Asa ^= Da;
BCu = ROL(Asa, 18);
Eka = BCa ^((~BCe)& BCi );
Eke = BCe ^((~BCi)& BCo );
Eki = BCi ^((~BCo)& BCu );
Eko = BCo ^((~BCu)& BCa );
Eku = BCu ^((~BCa)& BCe );
Abu ^= Du;
BCa = ROL(Abu, 27);
Aga ^= Da;
BCe = ROL(Aga, 36);
Ake ^= De;
BCi = ROL(Ake, 10);
Ami ^= Di;
BCo = ROL(Ami, 15);
Aso ^= Do;
BCu = ROL_mult8(Aso, 56);
Ema = BCa ^((~BCe)& BCi );
Eme = BCe ^((~BCi)& BCo );
Emi = BCi ^((~BCo)& BCu );
Emo = BCo ^((~BCu)& BCa );
Emu = BCu ^((~BCa)& BCe );
Abi ^= Di;
BCa = ROL(Abi, 62);
Ago ^= Do;
BCe = ROL(Ago, 55);
Aku ^= Du;
BCi = ROL(Aku, 39);
Ama ^= Da;
BCo = ROL(Ama, 41);
Ase ^= De;
BCu = ROL(Ase, 2);
Esa = BCa ^((~BCe)& BCi );
Ese = BCe ^((~BCi)& BCo );
Esi = BCi ^((~BCo)& BCu );
Eso = BCo ^((~BCu)& BCa );
Esu = BCu ^((~BCa)& BCe );
// prepareTheta
BCa = Eba^Ega^Eka^Ema^Esa;
BCe = Ebe^Ege^Eke^Eme^Ese;
BCi = Ebi^Egi^Eki^Emi^Esi;
BCo = Ebo^Ego^Eko^Emo^Eso;
BCu = Ebu^Egu^Eku^Emu^Esu;
//thetaRhoPiChiIotaPrepareTheta(round+1, E, A)
Da = BCu^ROL(BCe, 1);
De = BCa^ROL(BCi, 1);
Di = BCe^ROL(BCo, 1);
Do = BCi^ROL(BCu, 1);
Du = BCo^ROL(BCa, 1);
Eba ^= Da;
BCa = Eba;
Ege ^= De;
BCe = ROL(Ege, 44);
Eki ^= Di;
BCi = ROL(Eki, 43);
Emo ^= Do;
BCo = ROL(Emo, 21);
Esu ^= Du;
BCu = ROL(Esu, 14);
Aba = BCa ^((~BCe)& BCi );
Aba ^= (tKeccakLane)KeccakF_RoundConstants[round+1];
Abe = BCe ^((~BCi)& BCo );
Abi = BCi ^((~BCo)& BCu );
Abo = BCo ^((~BCu)& BCa );
Abu = BCu ^((~BCa)& BCe );
Ebo ^= Do;
BCa = ROL(Ebo, 28);
Egu ^= Du;
BCe = ROL(Egu, 20);
Eka ^= Da;
BCi = ROL(Eka, 3);
Eme ^= De;
BCo = ROL(Eme, 45);
Esi ^= Di;
BCu = ROL(Esi, 61);
Aga = BCa ^((~BCe)& BCi );
Age = BCe ^((~BCi)& BCo );
Agi = BCi ^((~BCo)& BCu );
Ago = BCo ^((~BCu)& BCa );
Agu = BCu ^((~BCa)& BCe );
Ebe ^= De;
BCa = ROL(Ebe, 1);
Egi ^= Di;
BCe = ROL(Egi, 6);
Eko ^= Do;
BCi = ROL(Eko, 25);
Emu ^= Du;
BCo = ROL_mult8(Emu, 8);
Esa ^= Da;
BCu = ROL(Esa, 18);
Aka = BCa ^((~BCe)& BCi );
Ake = BCe ^((~BCi)& BCo );
Aki = BCi ^((~BCo)& BCu );
Ako = BCo ^((~BCu)& BCa );
Aku = BCu ^((~BCa)& BCe );
Ebu ^= Du;
BCa = ROL(Ebu, 27);
Ega ^= Da;
BCe = ROL(Ega, 36);
Eke ^= De;
BCi = ROL(Eke, 10);
Emi ^= Di;
BCo = ROL(Emi, 15);
Eso ^= Do;
BCu = ROL_mult8(Eso, 56);
Ama = BCa ^((~BCe)& BCi );
Ame = BCe ^((~BCi)& BCo );
Ami = BCi ^((~BCo)& BCu );
Amo = BCo ^((~BCu)& BCa );
Amu = BCu ^((~BCa)& BCe );
Ebi ^= Di;
BCa = ROL(Ebi, 62);
Ego ^= Do;
BCe = ROL(Ego, 55);
Eku ^= Du;
BCi = ROL(Eku, 39);
Ema ^= Da;
BCo = ROL(Ema, 41);
Ese ^= De;
BCu = ROL(Ese, 2);
Asa = BCa ^((~BCe)& BCi );
Ase = BCe ^((~BCi)& BCo );
Asi = BCi ^((~BCo)& BCu );
Aso = BCo ^((~BCu)& BCa );
Asu = BCu ^((~BCa)& BCe );
}
//copyToState(state, A)
state[ 0] = Aba;
state[ 1] = Abe;
state[ 2] = Abi;
state[ 3] = Abo;
state[ 4] = Abu;
state[ 5] = Aga;
state[ 6] = Age;
state[ 7] = Agi;
state[ 8] = Ago;
state[ 9] = Agu;
state[10] = Aka;
state[11] = Ake;
state[12] = Aki;
state[13] = Ako;
state[14] = Aku;
state[15] = Ama;
state[16] = Ame;
state[17] = Ami;
state[18] = Amo;
state[19] = Amu;
state[20] = Asa;
state[21] = Ase;
state[22] = Asi;
state[23] = Aso;
state[24] = Asu;
#undef round
}
}
// inlen kann 72...143 betragen
__host__ void jackpot_keccak512_cpu_setBlock(void *pdata, size_t inlen)
{
const unsigned char *in = (const unsigned char*)pdata;
tKeccakLane state[5 * 5];
unsigned char temp[cKeccakR_SizeInBytes];
memset( state, 0, sizeof(state) );
for ( /* empty */; inlen >= cKeccakR_SizeInBytes; inlen -= cKeccakR_SizeInBytes, in += cKeccakR_SizeInBytes )
{
KeccakF( state, (const tKeccakLane*)in, cKeccakR_SizeInBytes / sizeof(tKeccakLane) );
}
// Kopiere den state nach der ersten Runde (nach Absorption von 72 Bytes Inputdaten)
// ins Constant Memory
cudaMemcpyToSymbol( c_State,
state,
sizeof(state),
0, cudaMemcpyHostToDevice);
// padding
memcpy( temp, in, (size_t)inlen );
temp[inlen++] = 1;
memset( temp+inlen, 0, cKeccakR_SizeInBytes - (size_t)inlen );
temp[cKeccakR_SizeInBytes-1] |= 0x80;
// Kopiere den Rest der Message und das Padding ins Constant Memory
cudaMemcpyToSymbol( c_PaddedMessage,
temp,
cKeccakR_SizeInBytes,
0, cudaMemcpyHostToDevice);
}
__host__ void jackpot_keccak512_cpu_hash(int thr_id, int threads, uint32_t startNounce, uint32_t *d_hash, int order)
{
const int threadsperblock = 256;
// berechne wie viele Thread Blocks wir brauchen
dim3 grid((threads + threadsperblock-1)/threadsperblock);
dim3 block(threadsperblock);
// Gr<EFBFBD><EFBFBD>e des dynamischen Shared Memory Bereichs
size_t shared_size = 0;
jackpot_keccak512_gpu_hash<<<grid, block, shared_size>>>(threads, startNounce, (uint64_t*)d_hash);
MyStreamSynchronize(NULL, order, thr_id);
}