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/*
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* Copyright 2014 sgminer developers
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or (at
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* your option) any later version. See COPYING for more details.
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*/
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#include "algorithm.h"
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#include "sph/sph_sha2.h"
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#include "ocl.h"
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#include "ocl/build_kernel.h"
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#include "algorithm/scrypt.h"
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#include "algorithm/animecoin.h"
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#include "algorithm/inkcoin.h"
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#include "algorithm/quarkcoin.h"
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#include "algorithm/qubitcoin.h"
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#include "algorithm/sifcoin.h"
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#include "algorithm/darkcoin.h"
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#include "algorithm/myriadcoin-groestl.h"
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#include "algorithm/fuguecoin.h"
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#include "algorithm/groestlcoin.h"
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#include "algorithm/twecoin.h"
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#include "algorithm/marucoin.h"
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#include "algorithm/maxcoin.h"
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#include "algorithm/talkcoin.h"
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#include "compat.h"
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#include <inttypes.h>
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#include <string.h>
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void sha256(const unsigned char *message, unsigned int len, unsigned char *digest)
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{
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sph_sha256_context ctx_sha2;
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sph_sha256_init(&ctx_sha2);
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sph_sha256(&ctx_sha2, message, len);
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sph_sha256_close(&ctx_sha2, (void*)digest);
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}
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void gen_hash(const unsigned char *data, unsigned int len, unsigned char *hash)
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{
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unsigned char hash1[32];
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sph_sha256_context ctx_sha2;
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sph_sha256_init(&ctx_sha2);
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sph_sha256(&ctx_sha2, data, len);
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sph_sha256_close(&ctx_sha2, hash1);
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sph_sha256(&ctx_sha2, hash1, 32);
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sph_sha256_close(&ctx_sha2, hash);
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}
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#define CL_SET_BLKARG(blkvar) status |= clSetKernelArg(*kernel, num++, sizeof(uint), (void *)&blk->blkvar)
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#define CL_SET_VARG(args, var) status |= clSetKernelArg(*kernel, num++, args * sizeof(uint), (void *)var)
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#define CL_SET_ARG_N(n, var) do { status |= clSetKernelArg(*kernel, n, sizeof(var), (void *)&var); } while (0)
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#define CL_SET_ARG_0(var) CL_SET_ARG_N(0, var)
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#define CL_SET_ARG(var) CL_SET_ARG_N(num++, var)
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#define CL_NEXTKERNEL_SET_ARG_N(n, var) do { kernel++; CL_SET_ARG_N(n, var); } while (0)
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#define CL_NEXTKERNEL_SET_ARG_0(var) CL_NEXTKERNEL_SET_ARG_N(0, var)
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#define CL_NEXTKERNEL_SET_ARG(var) CL_NEXTKERNEL_SET_ARG_N(num++, var)
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static void append_scrypt_compiler_options(struct _build_kernel_data *data, struct cgpu_info *cgpu, struct _algorithm_t *algorithm)
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{
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char buf[255];
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sprintf(buf, " -D LOOKUP_GAP=%d -D CONCURRENT_THREADS=%u -D NFACTOR=%d",
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cgpu->lookup_gap, (unsigned int)cgpu->thread_concurrency, algorithm->nfactor);
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strcat(data->compiler_options, buf);
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sprintf(buf, "lg%utc%unf%u", cgpu->lookup_gap, (unsigned int)cgpu->thread_concurrency, algorithm->nfactor);
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strcat(data->binary_filename, buf);
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}
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static void append_hamsi_compiler_options(struct _build_kernel_data *data, struct cgpu_info *cgpu, struct _algorithm_t *algorithm)
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{
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char buf[255];
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sprintf(buf, " -D SPH_HAMSI_EXPAND_BIG=%d",
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opt_hamsi_expand_big);
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strcat(data->compiler_options, buf);
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sprintf(buf, "big%u", (unsigned int)opt_hamsi_expand_big);
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strcat(data->binary_filename, buf);
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}
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static cl_int queue_scrypt_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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unsigned char *midstate = blk->work->midstate;
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cl_kernel *kernel = &clState->kernel;
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unsigned int num = 0;
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cl_uint le_target;
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cl_int status = 0;
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le_target = *(cl_uint *)(blk->work->device_target + 28);
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memcpy(clState->cldata, blk->work->data, 80);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(clState->padbuffer8);
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CL_SET_VARG(4, &midstate[0]);
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CL_SET_VARG(4, &midstate[16]);
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CL_SET_ARG(le_target);
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return status;
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}
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static cl_int queue_maxcoin_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel = &clState->kernel;
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unsigned int num = 0;
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cl_int status = 0;
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->outputBuffer);
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return status;
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}
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static cl_int queue_sph_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel = &clState->kernel;
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unsigned int num = 0;
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cl_ulong le_target;
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cl_int status = 0;
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le_target = *(cl_ulong *)(blk->work->device_target + 24);
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(le_target);
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return status;
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}
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static cl_int queue_darkcoin_mod_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel;
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unsigned int num;
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cl_ulong le_target;
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cl_int status = 0;
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le_target = *(cl_ulong *)(blk->work->device_target + 24);
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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// blake - search
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kernel = &clState->kernel;
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num = 0;
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->padbuffer8);
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// bmw - search1
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kernel = clState->extra_kernels;
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CL_SET_ARG_0(clState->padbuffer8);
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// groestl - search2
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// skein - search3
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// jh - search4
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// keccak - search5
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// luffa - search6
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// cubehash - search7
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// shavite - search8
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// simd - search9
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// echo - search10
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num = 0;
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CL_NEXTKERNEL_SET_ARG(clState->padbuffer8);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(le_target);
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return status;
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}
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static cl_int queue_marucoin_mod_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel;
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unsigned int num;
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cl_ulong le_target;
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cl_int status = 0;
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le_target = *(cl_ulong *)(blk->work->device_target + 24);
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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// blake - search
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kernel = &clState->kernel;
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num = 0;
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->padbuffer8);
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// bmw - search1
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kernel = clState->extra_kernels;
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CL_SET_ARG_0(clState->padbuffer8);
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// groestl - search2
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// skein - search3
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// jh - search4
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// keccak - search5
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// luffa - search6
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// cubehash - search7
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// shavite - search8
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// simd - search9
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// echo - search10
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// hamsi - search11
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// fugue - search12
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num = 0;
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CL_NEXTKERNEL_SET_ARG(clState->padbuffer8);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(le_target);
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return status;
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}
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static cl_int queue_marucoin_mod_old_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel;
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unsigned int num;
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cl_ulong le_target;
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cl_int status = 0;
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le_target = *(cl_ulong *)(blk->work->device_target + 24);
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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// blake - search
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kernel = &clState->kernel;
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num = 0;
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->padbuffer8);
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// bmw - search1
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kernel = clState->extra_kernels;
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CL_SET_ARG_0(clState->padbuffer8);
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// groestl - search2
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// skein - search3
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// jh - search4
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// keccak - search5
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// luffa - search6
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// cubehash - search7
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// shavite - search8
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// simd - search9
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CL_NEXTKERNEL_SET_ARG_0(clState->padbuffer8);
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// combined echo, hamsi, fugue - search10
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num = 0;
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CL_NEXTKERNEL_SET_ARG(clState->padbuffer8);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(le_target);
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return status;
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}
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static cl_int queue_talkcoin_mod_kernel(struct __clState *clState, struct _dev_blk_ctx *blk, __maybe_unused cl_uint threads)
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{
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cl_kernel *kernel;
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unsigned int num;
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cl_ulong le_target;
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cl_int status = 0;
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le_target = *(cl_ulong *)(blk->work->device_target + 24);
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flip80(clState->cldata, blk->work->data);
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status = clEnqueueWriteBuffer(clState->commandQueue, clState->CLbuffer0, true, 0, 80, clState->cldata, 0, NULL,NULL);
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// blake - search
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kernel = &clState->kernel;
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num = 0;
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CL_SET_ARG(clState->CLbuffer0);
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CL_SET_ARG(clState->padbuffer8);
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// groestl - search1
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kernel = clState->extra_kernels;
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num = 0;
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CL_SET_ARG(clState->padbuffer8);
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// jh - search2
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kernel++;
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num = 0;
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CL_SET_ARG(clState->padbuffer8);
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// keccak - search3
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kernel++;
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num = 0;
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CL_SET_ARG(clState->padbuffer8);
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// skein - search4
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kernel++;
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num = 0;
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CL_SET_ARG(clState->padbuffer8);
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CL_SET_ARG(clState->outputBuffer);
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CL_SET_ARG(le_target);
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return status;
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}
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typedef struct _algorithm_settings_t {
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const char *name; /* Human-readable identifier */
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double diff_multiplier1;
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double diff_multiplier2;
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double share_diff_multiplier;
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uint32_t xintensity_shift;
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uint32_t intensity_shift;
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uint32_t found_idx;
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unsigned long long diff_nonce;
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unsigned long long diff_numerator;
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uint32_t diff1targ;
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size_t n_extra_kernels;
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long rw_buffer_size;
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cl_command_queue_properties cq_properties;
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void (*regenhash)(struct work *);
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cl_int (*queue_kernel)(struct __clState *, struct _dev_blk_ctx *, cl_uint);
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void (*gen_hash)(const unsigned char *, unsigned int, unsigned char *);
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void (*set_compile_options)(build_kernel_data *, struct cgpu_info *, algorithm_t *);
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} algorithm_settings_t;
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static algorithm_settings_t algos[] = {
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// kernels starting from this will have difficulty calculated by using litecoin algorithm
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#define A_SCRYPT(a) \
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{ a, 1, 65536, 65536, 0, 0, 0xFF, 0x0000ffff00000000ULL, 0xFFFFFFFFULL, 0x0000ffffUL, 0, -1, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, scrypt_regenhash, queue_scrypt_kernel, gen_hash, append_scrypt_compiler_options}
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A_SCRYPT( "ckolivas" ),
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A_SCRYPT( "alexkarnew" ),
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A_SCRYPT( "alexkarnold" ),
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A_SCRYPT( "bufius" ),
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A_SCRYPT( "psw" ),
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A_SCRYPT( "zuikkis" ),
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#undef A_SCRYPT
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// kernels starting from this will have difficulty calculated by using quarkcoin algorithm
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#define A_QUARK(a, b) \
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{ a, 256, 256, 256, 0, 0, 0xFF, 0x000000ffff000000ULL, 0xFFFFFFULL, 0x0000ffffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, b, queue_sph_kernel, gen_hash, NULL}
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A_QUARK( "quarkcoin", quarkcoin_regenhash),
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A_QUARK( "qubitcoin", qubitcoin_regenhash),
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A_QUARK( "animecoin", animecoin_regenhash),
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A_QUARK( "sifcoin", sifcoin_regenhash),
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#undef A_QUARK
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// kernels starting from this will have difficulty calculated by using bitcoin algorithm
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#define A_DARK(a, b) \
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{ a, 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, b, queue_sph_kernel, gen_hash, NULL}
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A_DARK( "darkcoin", darkcoin_regenhash),
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A_DARK( "inkcoin", inkcoin_regenhash),
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A_DARK( "myriadcoin-groestl", myriadcoin_groestl_regenhash),
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#undef A_DARK
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{ "twecoin", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, twecoin_regenhash, queue_sph_kernel, sha256, NULL},
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{ "maxcoin", 1, 256, 1, 4, 15, 0x0F, 0x00000000ffff0000ULL, 0xFFFFULL, 0x000000ffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, maxcoin_regenhash, queue_maxcoin_kernel, sha256, NULL},
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{ "darkcoin-mod", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 10, 8 * 16 * 4194304, 0, darkcoin_regenhash, queue_darkcoin_mod_kernel, gen_hash, NULL},
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{ "marucoin", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, marucoin_regenhash, queue_sph_kernel, gen_hash, append_hamsi_compiler_options},
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{ "marucoin-mod", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 12, 8 * 16 * 4194304, 0, marucoin_regenhash, queue_marucoin_mod_kernel, gen_hash, append_hamsi_compiler_options},
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{ "marucoin-modold", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 10, 8 * 16 * 4194304, 0, marucoin_regenhash, queue_marucoin_mod_old_kernel, gen_hash, append_hamsi_compiler_options},
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{ "talkcoin-mod", 1, 1, 1, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 4, 8 * 16 * 4194304, 0, talkcoin_regenhash, queue_talkcoin_mod_kernel, gen_hash, NULL},
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// kernels starting from this will have difficulty calculated by using fuguecoin algorithm
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#define A_FUGUE(a, b) \
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{ a, 1, 256, 256, 0, 0, 0xFF, 0x00000000ffff0000ULL, 0xFFFFULL, 0x0000ffffUL, 0, 0, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE, b, queue_sph_kernel, sha256, NULL}
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A_FUGUE( "fuguecoin", fuguecoin_regenhash),
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A_FUGUE( "groestlcoin", groestlcoin_regenhash),
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#undef A_FUGUE
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// Terminator (do not remove)
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{ NULL, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, NULL, NULL, NULL}
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};
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void copy_algorithm_settings(algorithm_t* dest, const char* algo)
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{
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algorithm_settings_t* src;
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// Find algorithm settings and copy
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for (src = algos; src->name; src++) {
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if (strcmp(src->name, algo) == 0) {
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strcpy(dest->name, src->name);
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dest->diff_multiplier1 = src->diff_multiplier1;
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dest->diff_multiplier2 = src->diff_multiplier2;
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dest->share_diff_multiplier = src->share_diff_multiplier;
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dest->xintensity_shift = src->xintensity_shift;
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dest->intensity_shift = src->intensity_shift;
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dest->found_idx = src->found_idx;
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dest->diff_nonce = src->diff_nonce;
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dest->diff_numerator = src->diff_numerator;
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dest->diff1targ = src->diff1targ;
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dest->n_extra_kernels = src->n_extra_kernels;
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dest->rw_buffer_size = src->rw_buffer_size;
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dest->cq_properties = src->cq_properties;
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dest->regenhash = src->regenhash;
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dest->queue_kernel = src->queue_kernel;
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dest->gen_hash = src->gen_hash;
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dest->set_compile_options = src->set_compile_options;
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break;
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}
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}
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// if not found
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if (src->name == NULL) {
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applog(LOG_WARNING, "Algorithm %s not found, using %s.", algo, algos->name);
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copy_algorithm_settings(dest, algos->name);
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}
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}
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void set_algorithm(algorithm_t* algo, const char* newname_alias)
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{
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const char* newname;
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uint8_t nfactor = 10;
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// scrypt is default ckolivas kernel
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if (strcmp(newname_alias, "scrypt") == 0) {
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newname = "ckolivas";
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}
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// Adaptive N-factor Scrypt is default ckolivas kernel with nfactor 11
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else if ((strcmp(newname_alias, "adaptive-n-factor") == 0) ||
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(strcmp(newname_alias, "adaptive-nfactor") == 0) ||
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(strcmp(newname_alias, "nscrypt") == 0) ||
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(strcmp(newname_alias, "adaptive-nscrypt") == 0) ||
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(strcmp(newname_alias, "adaptive-n-scrypt") == 0)) {
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newname = "ckolivas";
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nfactor = 11;
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// Not an alias
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}
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else {
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newname = newname_alias;
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}
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copy_algorithm_settings(algo, newname);
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// Doesn't matter for non-scrypt algorithms
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set_algorithm_nfactor(algo, nfactor);
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}
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void set_algorithm_nfactor(algorithm_t* algo, const uint8_t nfactor)
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{
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algo->nfactor = nfactor;
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algo->n = (1 << nfactor);
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}
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bool cmp_algorithm(algorithm_t* algo1, algorithm_t* algo2)
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{
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return (strcmp(algo1->name, algo2->name) == 0) &&
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(algo1->nfactor == algo2->nfactor);
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}
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