/* XMRig * Copyright 2010 Jeff Garzik * Copyright 2012-2014 pooler * Copyright 2014 Lucas Jones * Copyright 2014-2016 Wolf9466 * Copyright 2016 Jay D Dee * Copyright 2017-2019 XMR-Stak , * Copyright 2018-2021 SChernykh * Copyright 2016-2021 XMRig * * This program 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. * * This program 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 this program. If not, see . */ #include #include #include #include "backend/cpu/Cpu.h" #include "base/io/log/Log.h" #include "base/net/stratum/Pool.h" #include "core/config/Config.h" #include "core/Controller.h" #include "crypto/common/Assembly.h" #include "crypto/common/VirtualMemory.h" #include "Summary.h" #include "version.h" #ifdef XMRIG_FEATURE_DMI # include "hw/dmi/DmiReader.h" #endif #ifdef XMRIG_ALGO_RANDOMX # include "crypto/rx/RxConfig.h" #endif namespace xmrig { #ifdef XMRIG_OS_WIN static constexpr const char *kHugepagesSupported = GREEN_BOLD("permission granted"); #else static constexpr const char *kHugepagesSupported = GREEN_BOLD("supported"); #endif #ifdef XMRIG_FEATURE_ASM static const char *coloredAsmNames[] = { RED_BOLD("none"), "auto", GREEN_BOLD("intel"), GREEN_BOLD("ryzen"), GREEN_BOLD("bulldozer") }; inline static const char *asmName(Assembly::Id assembly) { return coloredAsmNames[assembly]; } #endif static void print_pages(const Config *config) { Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") "%s", "HUGE PAGES", config->cpu().isHugePages() ? (VirtualMemory::isHugepagesAvailable() ? kHugepagesSupported : RED_BOLD("unavailable")) : RED_BOLD("disabled")); # ifdef XMRIG_ALGO_RANDOMX # ifdef XMRIG_OS_LINUX Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") "%s", "1GB PAGES", (VirtualMemory::isOneGbPagesAvailable() ? (config->rx().isOneGbPages() ? kHugepagesSupported : YELLOW_BOLD("disabled")) : YELLOW_BOLD("unavailable"))); # else Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") "%s", "1GB PAGES", YELLOW_BOLD("unavailable")); # endif # endif } static void print_cpu(const Config *) { const auto info = Cpu::info(); Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s%s (%zu)") " %s %sAES%s", "CPU", info->brand(), info->packages(), ICpuInfo::is64bit() ? GREEN_BOLD("64-bit") : RED_BOLD("32-bit"), info->hasAES() ? GREEN_BOLD_S : RED_BOLD_S "-", info->isVM() ? RED_BOLD_S " VM" : "" ); # if defined(XMRIG_FEATURE_HWLOC) Log::print(WHITE_BOLD(" %-13s") BLACK_BOLD("L2:") WHITE_BOLD("%.1f MB") BLACK_BOLD(" L3:") WHITE_BOLD("%.1f MB") CYAN_BOLD(" %zu") "C" BLACK_BOLD("/") CYAN_BOLD("%zu") "T" BLACK_BOLD(" NUMA:") CYAN_BOLD("%zu"), "", info->L2() / 1048576.0, info->L3() / 1048576.0, info->cores(), info->threads(), info->nodes() ); # else Log::print(WHITE_BOLD(" %-13s") BLACK_BOLD("threads:") CYAN_BOLD("%zu"), "", info->threads()); # endif } static void print_memory(const Config *config) { constexpr size_t oneGiB = 1024U * 1024U * 1024U; const auto freeMem = static_cast(uv_get_free_memory()); const auto totalMem = static_cast(uv_get_total_memory()); const double percent = freeMem > 0 ? ((totalMem - freeMem) / totalMem * 100.0) : 100.0; Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") CYAN_BOLD("%.1f/%.1f") CYAN(" GB") BLACK_BOLD(" (%.0f%%)"), "MEMORY", (totalMem - freeMem) / oneGiB, totalMem / oneGiB, percent ); # ifdef XMRIG_FEATURE_DMI if (!config->isDMI()) { return; } DmiReader reader; if (!reader.read()) { return; } const bool printEmpty = reader.memory().size() <= 8; for (const auto &memory : reader.memory()) { if (!memory.isValid()) { continue; } if (memory.size()) { Log::print(WHITE_BOLD(" %-13s") "%s: " CYAN_BOLD("%" PRIu64) CYAN(" GB ") WHITE_BOLD("%s @ %" PRIu64 " MHz ") BLACK_BOLD("%s"), "", memory.id().data(), memory.size() / oneGiB, memory.type(), memory.speed() / 1000000ULL, memory.product().data()); } else if (printEmpty) { Log::print(WHITE_BOLD(" %-13s") "%s: " BLACK_BOLD(""), "", memory.slot().data()); } } const auto &board = Cpu::info()->isVM() ? reader.system() : reader.board(); if (board.isValid()) { Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") WHITE_BOLD("%s") " - " WHITE_BOLD("%s"), "MOTHERBOARD", board.vendor().data(), board.product().data()); } # endif } static void print_threads(const Config *config) { Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s") WHITE_BOLD("%s%d%%"), "DONATE", config->pools().donateLevel() == 0 ? RED_BOLD_S : "", config->pools().donateLevel() ); # ifdef XMRIG_FEATURE_ASM if (config->cpu().assembly() == Assembly::AUTO) { const Assembly assembly = Cpu::info()->assembly(); Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13sauto:%s"), "ASSEMBLY", asmName(assembly)); } else { Log::print(GREEN_BOLD(" * ") WHITE_BOLD("%-13s%s"), "ASSEMBLY", asmName(config->cpu().assembly())); } # endif } static void print_commands(Config *) { if (Log::isColors()) { Log::print(GREEN_BOLD(" * ") WHITE_BOLD("COMMANDS ") MAGENTA_BG_BOLD("h") WHITE_BOLD("ashrate, ") MAGENTA_BG_BOLD("p") WHITE_BOLD("ause, ") MAGENTA_BG_BOLD("r") WHITE_BOLD("esume, ") WHITE_BOLD("re") MAGENTA_BG(WHITE_BOLD_S "s") WHITE_BOLD("ults, ") MAGENTA_BG_BOLD("c") WHITE_BOLD("onnection") ); } else { Log::print(" * COMMANDS 'h' hashrate, 'p' pause, 'r' resume, 's' results, 'c' connection"); } } } // namespace xmrig void xmrig::Summary::print(Controller *controller) { const auto config = controller->config(); config->printVersions(); print_pages(config); print_cpu(config); print_memory(config); print_threads(config); config->pools().print(); print_commands(config); }