/* This file is part of c-ethash. c-ethash is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. c-ethash is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file ethash_cl_miner.cpp * @author Tim Hughes * @date 2015 */ #define _CRT_SECURE_NO_WARNINGS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ethash_cl_miner.h" #include "ethash_cl_miner_kernel.h" #define ETHASH_BYTES 32 #define OPENCL_PLATFORM_UNKNOWN 0 #define OPENCL_PLATFORM_NVIDIA 1 #define OPENCL_PLATFORM_AMD 2 // workaround lame platforms #if !CL_VERSION_1_2 #define CL_MAP_WRITE_INVALIDATE_REGION CL_MAP_WRITE #define CL_MEM_HOST_READ_ONLY 0 #endif // apple fix #ifndef CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV #define CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV 0x4000 #endif #ifndef CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV #define CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV 0x4001 #endif #undef min #undef max using namespace std; unsigned const ethash_cl_miner::c_defaultLocalWorkSize = 64; unsigned const ethash_cl_miner::c_defaultGlobalWorkSizeMultiplier = 4096; // * CL_DEFAULT_LOCAL_WORK_SIZE // TODO: If at any point we can use libdevcore in here then we should switch to using a LogChannel #if defined(_WIN32) extern "C" __declspec(dllimport) void __stdcall OutputDebugStringA(const char* lpOutputString); static std::atomic_flag s_logSpin = ATOMIC_FLAG_INIT; #define ETHCL_LOG(_contents) \ do \ { \ std::stringstream ss; \ ss << _contents; \ while (s_logSpin.test_and_set(std::memory_order_acquire)) {} \ OutputDebugStringA(ss.str().c_str()); \ cerr << ss.str() << endl << flush; \ s_logSpin.clear(std::memory_order_release); \ } while (false) #else #define ETHCL_LOG(_contents) cout << "[OPENCL]:" << _contents << endl #endif // Types of OpenCL devices we are interested in #define ETHCL_QUERIED_DEVICE_TYPES (CL_DEVICE_TYPE_GPU | CL_DEVICE_TYPE_ACCELERATOR) static void addDefinition(string& _source, char const* _id, unsigned _value) { char buf[256]; sprintf(buf, "#define %s %uu\n", _id, _value); _source.insert(_source.begin(), buf, buf + strlen(buf)); } ethash_cl_miner::search_hook::~search_hook() {} ethash_cl_miner::ethash_cl_miner() : m_openclOnePointOne() { } ethash_cl_miner::~ethash_cl_miner() { finish(); } std::vector ethash_cl_miner::getPlatforms() { vector platforms; try { cl::Platform::get(&platforms); } catch(cl::Error const& err) { #if defined(CL_PLATFORM_NOT_FOUND_KHR) if (err.err() == CL_PLATFORM_NOT_FOUND_KHR) ETHCL_LOG("No OpenCL platforms found"); else #endif throw err; } return platforms; } string ethash_cl_miner::platform_info(unsigned _platformId, unsigned _deviceId) { vector platforms = getPlatforms(); if (platforms.empty()) return {}; // get GPU device of the selected platform unsigned platform_num = min(_platformId, platforms.size() - 1); vector devices = getDevices(platforms, _platformId); if (devices.empty()) { ETHCL_LOG("No OpenCL devices found."); return {}; } // use selected default device unsigned device_num = min(_deviceId, devices.size() - 1); cl::Device& device = devices[device_num]; string device_version = device.getInfo(); return "{ \"platform\": \"" + platforms[platform_num].getInfo() + "\", \"device\": \"" + device.getInfo() + "\", \"version\": \"" + device_version + "\" }"; } std::vector ethash_cl_miner::getDevices(std::vector const& _platforms, unsigned _platformId) { vector devices; unsigned platform_num = min(_platformId, _platforms.size() - 1); try { _platforms[platform_num].getDevices( s_allowCPU ? CL_DEVICE_TYPE_ALL : ETHCL_QUERIED_DEVICE_TYPES, &devices ); } catch (cl::Error const& err) { // if simply no devices found return empty vector if (err.err() != CL_DEVICE_NOT_FOUND) throw err; } return devices; } unsigned ethash_cl_miner::getNumPlatforms() { vector platforms = getPlatforms(); if (platforms.empty()) return 0; return platforms.size(); } unsigned ethash_cl_miner::getNumDevices(unsigned _platformId) { vector platforms = getPlatforms(); if (platforms.empty()) return 0; vector devices = getDevices(platforms, _platformId); if (devices.empty()) { ETHCL_LOG("No OpenCL devices found."); return 0; } return devices.size(); } bool ethash_cl_miner::configureGPU( unsigned _platformId, unsigned _localWorkSize, unsigned _globalWorkSize, bool _allowCPU, unsigned _extraGPUMemory, uint64_t _currentBlock ) { s_workgroupSize = _localWorkSize; s_initialGlobalWorkSize = _globalWorkSize; s_allowCPU = _allowCPU; s_extraRequiredGPUMem = _extraGPUMemory; // by default let's only consider the DAG of the first epoch uint64_t dagSize = ethash_get_datasize(_currentBlock); uint64_t requiredSize = dagSize + _extraGPUMemory; return searchForAllDevices(_platformId, [&requiredSize](cl::Device const& _device) -> bool { cl_ulong result; _device.getInfo(CL_DEVICE_GLOBAL_MEM_SIZE, &result); if (result >= requiredSize) { ETHCL_LOG( "Found suitable OpenCL device [" << _device.getInfo() << "] with " << result << " bytes of GPU memory" ); return true; } ETHCL_LOG( "OpenCL device " << _device.getInfo() << " has insufficient GPU memory." << result << " bytes of memory found < " << requiredSize << " bytes of memory required" ); return false; } ); } bool ethash_cl_miner::s_allowCPU = false; unsigned ethash_cl_miner::s_extraRequiredGPUMem; unsigned ethash_cl_miner::s_workgroupSize = ethash_cl_miner::c_defaultLocalWorkSize; unsigned ethash_cl_miner::s_initialGlobalWorkSize = ethash_cl_miner::c_defaultGlobalWorkSizeMultiplier * ethash_cl_miner::c_defaultLocalWorkSize; bool ethash_cl_miner::searchForAllDevices(function _callback) { vector platforms = getPlatforms(); if (platforms.empty()) return false; for (unsigned i = 0; i < platforms.size(); ++i) if (searchForAllDevices(i, _callback)) return true; return false; } bool ethash_cl_miner::searchForAllDevices(unsigned _platformId, function _callback) { vector platforms = getPlatforms(); if (platforms.empty()) return false; if (_platformId >= platforms.size()) return false; vector devices = getDevices(platforms, _platformId); for (cl::Device const& device: devices) if (_callback(device)) return true; return false; } void ethash_cl_miner::doForAllDevices(function _callback) { vector platforms = getPlatforms(); if (platforms.empty()) return; for (unsigned i = 0; i < platforms.size(); ++i) doForAllDevices(i, _callback); } void ethash_cl_miner::doForAllDevices(unsigned _platformId, function _callback) { vector platforms = getPlatforms(); if (platforms.empty()) return; if (_platformId >= platforms.size()) return; vector devices = getDevices(platforms, _platformId); for (cl::Device const& device: devices) _callback(device); } void ethash_cl_miner::listDevices() { string outString ="\nListing OpenCL devices.\nFORMAT: [deviceID] deviceName\n"; unsigned int i = 0; doForAllDevices([&outString, &i](cl::Device const _device) { outString += "[" + to_string(i) + "] " + _device.getInfo() + "\n"; outString += "\tCL_DEVICE_TYPE: "; switch (_device.getInfo()) { case CL_DEVICE_TYPE_CPU: outString += "CPU\n"; break; case CL_DEVICE_TYPE_GPU: outString += "GPU\n"; break; case CL_DEVICE_TYPE_ACCELERATOR: outString += "ACCELERATOR\n"; break; default: outString += "DEFAULT\n"; break; } outString += "\tCL_DEVICE_GLOBAL_MEM_SIZE: " + to_string(_device.getInfo()) + "\n"; outString += "\tCL_DEVICE_MAX_MEM_ALLOC_SIZE: " + to_string(_device.getInfo()) + "\n"; outString += "\tCL_DEVICE_MAX_WORK_GROUP_SIZE: " + to_string(_device.getInfo()) + "\n"; ++i; } ); ETHCL_LOG(outString); } void ethash_cl_miner::finish() { if (m_queue()) m_queue.finish(); } bool ethash_cl_miner::init( uint8_t const* _dag, uint64_t _dagSize, unsigned _platformId, unsigned _deviceId ) { // get all platforms try { vector platforms = getPlatforms(); if (platforms.empty()) return false; // use selected platform _platformId = min(_platformId, platforms.size() - 1); string platformName = platforms[_platformId].getInfo(); ETHCL_LOG("Using platform: " << platformName.c_str()); int platformId = OPENCL_PLATFORM_UNKNOWN; if (platformName == "NVIDIA CUDA") { platformId = OPENCL_PLATFORM_NVIDIA; } else if (platformName == "AMD Accelerated Parallel Processing") { platformId = OPENCL_PLATFORM_AMD; } // get GPU device of the default platform vector devices = getDevices(platforms, _platformId); if (devices.empty()) { ETHCL_LOG("No OpenCL devices found."); return false; } // use selected device cl::Device& device = devices[min(_deviceId, devices.size() - 1)]; string device_version = device.getInfo(); ETHCL_LOG("Using device: " << device.getInfo().c_str() << "(" << device_version.c_str() << ")"); if (strncmp("OpenCL 1.0", device_version.c_str(), 10) == 0) { ETHCL_LOG("OpenCL 1.0 is not supported."); return false; } if (strncmp("OpenCL 1.1", device_version.c_str(), 10) == 0) m_openclOnePointOne = true; char options[256]; int computeCapability = 0; if (platformId == OPENCL_PLATFORM_NVIDIA) { cl_uint computeCapabilityMajor; cl_uint computeCapabilityMinor; clGetDeviceInfo(device(), CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV, sizeof(cl_uint), &computeCapabilityMajor, NULL); clGetDeviceInfo(device(), CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV, sizeof(cl_uint), &computeCapabilityMinor, NULL); computeCapability = computeCapabilityMajor * 10 + computeCapabilityMinor; int maxregs = computeCapability >= 35 ? 72 : 63; sprintf(options, "-cl-nv-maxrregcount=%d", maxregs);// , computeCapability); } else { sprintf(options, "%s", ""); } // create context m_context = cl::Context(vector(&device, &device + 1)); m_queue = cl::CommandQueue(m_context, device); // make sure that global work size is evenly divisible by the local workgroup size m_globalWorkSize = s_initialGlobalWorkSize; if (m_globalWorkSize % s_workgroupSize != 0) m_globalWorkSize = ((m_globalWorkSize / s_workgroupSize) + 1) * s_workgroupSize; // patch source code // note: ETHASH_CL_MINER_KERNEL is simply ethash_cl_miner_kernel.cl compiled // into a byte array by bin2h.cmake. There is no need to load the file by hand in runtime string code(ETHASH_CL_MINER_KERNEL, ETHASH_CL_MINER_KERNEL + ETHASH_CL_MINER_KERNEL_SIZE); addDefinition(code, "GROUP_SIZE", s_workgroupSize); addDefinition(code, "DAG_SIZE", (unsigned)(_dagSize / ETHASH_MIX_BYTES)); addDefinition(code, "ACCESSES", ETHASH_ACCESSES); addDefinition(code, "MAX_OUTPUTS", c_maxSearchResults); addDefinition(code, "PLATFORM", platformId); addDefinition(code, "COMPUTE", computeCapability); // create miner OpenCL program cl::Program::Sources sources; sources.push_back({ code.c_str(), code.size() }); cl::Program program(m_context, sources); try { program.build({ device }, options); ETHCL_LOG("Printing program log"); ETHCL_LOG(program.getBuildInfo(device).c_str()); } catch (cl::Error const&) { ETHCL_LOG(program.getBuildInfo(device).c_str()); return false; } // create buffer for dag try { ETHCL_LOG("Creating one big buffer for the DAG"); m_dag = cl::Buffer(m_context, CL_MEM_READ_ONLY, _dagSize); ETHCL_LOG("Loading single big chunk kernels"); m_searchKernel = cl::Kernel(program, "ethash_search"); ETHCL_LOG("Mapping one big chunk."); m_queue.enqueueWriteBuffer(m_dag, CL_TRUE, 0, _dagSize, _dag); } catch (cl::Error const& err) { ETHCL_LOG("Allocating/mapping single buffer failed with: " << err.what() << "(" << err.err() << "). GPU can't allocate the DAG in a single chunk. Bailing."); return false; } // create buffer for header ETHCL_LOG("Creating buffer for header."); m_header = cl::Buffer(m_context, CL_MEM_READ_ONLY, 32); m_searchKernel.setArg(1, m_header); m_searchKernel.setArg(2, m_dag); m_searchKernel.setArg(5, ~0u); // create mining buffers for (unsigned i = 0; i != c_bufferCount; ++i) { ETHCL_LOG("Creating mining buffer " << i); m_searchBuffer[i] = cl::Buffer(m_context, CL_MEM_WRITE_ONLY, (c_maxSearchResults + 1) * sizeof(uint32_t)); } } catch (cl::Error const& err) { ETHCL_LOG(err.what() << "(" << err.err() << ")"); return false; } return true; } typedef struct { uint64_t start_nonce; unsigned buf; } pending_batch; void ethash_cl_miner::search(uint8_t const* header, uint64_t target, search_hook& hook) { try { queue pending; // this can't be a static because in MacOSX OpenCL implementation a segfault occurs when a static is passed to OpenCL functions uint32_t const c_zero = 0; // update header constant buffer m_queue.enqueueWriteBuffer(m_header, false, 0, 32, header); for (unsigned i = 0; i != c_bufferCount; ++i) m_queue.enqueueWriteBuffer(m_searchBuffer[i], false, 0, 4, &c_zero); #if CL_VERSION_1_2 && 0 cl::Event pre_return_event; if (!m_opencl_1_1) m_queue.enqueueBarrierWithWaitList(NULL, &pre_return_event); else #endif m_queue.finish(); // pass these to stop the compiler unrolling the loops m_searchKernel.setArg(4, target); unsigned buf = 0; random_device engine; uint64_t start_nonce = uniform_int_distribution()(engine); for (;; start_nonce += m_globalWorkSize) { // supply output buffer to kernel m_searchKernel.setArg(0, m_searchBuffer[buf]); m_searchKernel.setArg(3, start_nonce); // execute it! m_queue.enqueueNDRangeKernel(m_searchKernel, cl::NullRange, m_globalWorkSize, s_workgroupSize); pending.push({ start_nonce, buf }); buf = (buf + 1) % c_bufferCount; // read results if (pending.size() == c_bufferCount) { pending_batch const& batch = pending.front(); // could use pinned host pointer instead uint32_t* results = (uint32_t*)m_queue.enqueueMapBuffer(m_searchBuffer[batch.buf], true, CL_MAP_READ, 0, (1 + c_maxSearchResults) * sizeof(uint32_t)); unsigned num_found = min(results[0], c_maxSearchResults); uint64_t nonces[c_maxSearchResults]; for (unsigned i = 0; i != num_found; ++i) nonces[i] = batch.start_nonce + results[i + 1]; m_queue.enqueueUnmapMemObject(m_searchBuffer[batch.buf], results); bool exit = num_found && hook.found(nonces, num_found); exit |= hook.searched(batch.start_nonce, m_globalWorkSize); // always report searched before exit if (exit) break; // reset search buffer if we're still going if (num_found) m_queue.enqueueWriteBuffer(m_searchBuffer[batch.buf], true, 0, 4, &c_zero); pending.pop(); } } // not safe to return until this is ready #if CL_VERSION_1_2 && 0 if (!m_opencl_1_1) pre_return_event.wait(); #endif } catch (cl::Error const& err) { ETHCL_LOG(err.what() << "(" << err.err() << ")"); } }