314 lines
8.4 KiB
C++
314 lines
8.4 KiB
C++
/***
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Copyright (C) 2023 J Reece Wilson (a/k/a "Reece"). All rights reserved.
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File: AuCpuTimes.cpp
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Date: 2023-12-30
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Author: Reece
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***/
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#include <Source/RuntimeInternal.hpp>
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#include "AuCpuTimes.hpp"
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#if defined(__FreeBSD__)
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#include <errno.h>
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#include <sys/sysctl.h>
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#include <sys/resource.h>
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#elif defined(AURORA_IS_XNU_DERIVED)
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#include <sys/dkstat.h>
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#elif defined(AURORA_IS_LINUX_DERIVED)
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#if !defined(USER_HZ)
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#define USER_HZ 100
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#endif
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#endif
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namespace Aurora::HWInfo
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{
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static AuUInt64 ConvertTicks(AuUInt64 uTicks)
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{
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#if defined(AURORA_IS_MODERNNT_DERIVED)
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return uTicks * 100ull;
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#else
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static const auto kFreq =
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#if defined(AURORA_IS_LINUX_DERIVED)
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USER_HZ
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#else
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CLOCKS_PER_SEC
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#endif
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;
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if (kFreq == 10000000)
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{
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return uTicks * 100ull;
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}
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else if (kFreq == 1000000)
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{
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return uTicks * 1000ull;
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}
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else if (kFreq == 100000)
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{
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return uTicks * 10000ull;
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}
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else if (kFreq == 10000)
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{
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return uTicks * 100000ull;
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}
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else if (kFreq == 1000)
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{
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return uTicks * 1000000ull;
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}
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else if (kFreq == 100)
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{
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return uTicks * 10000000ull;
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}
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else if (kFreq == 100000000)
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{
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return uTicks * 10ull;
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}
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else if (kFreq == 1000000000ull)
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{
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return uTicks;
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}
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else
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{
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const long long uWhole = (uTicks / kFreq) * 1'000'000'000ull;
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const long long uPart = (uTicks % kFreq) * 1'000'000'000ull / kFreq;
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return uWhole + uPart;
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}
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#endif
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}
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#if defined(__FreeBSD__)
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static int CpuSysctl(const char *pName, void *pBuffer, size_t *pLength)
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{
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int error = sysctlbyname(pName, pBuffer, pLength, NULL, 0);
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if (error != 0 && errno != ENOMEM)
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{
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SysPushErrorGeneric(errno);
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return -1;
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}
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return (error);
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}
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static void PlatformGetCoreTimes(AuList<CpuCoreTime> ×)
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{
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auto uThreads = AuHwInfo::GetCPUInfo().uThreads;
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AuList<long> cpuStates;
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cpuStates.resize((uThreads + 1) * CPUSTATES);
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size_t len { cpuStates.size() * sizeof(long) };
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if (CpuSysctl("kern.cp_times", cpuStates.data(), &len) < 0)
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{
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return;
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}
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times.resize(uThreads);
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for (AU_ITERATE_N(uCore, uThreads))
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{
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auto &coreTimes = times[uCore];
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coreTimes.uKernelTime = cpuStates[(CPUSTATES * uCore) + CP_SYS];
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#if defined(CP_INTR)
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coreTimes.uInterruptTime = cpuStates[(CPUSTATES * uCore) + CP_INTR];
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#endif
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coreTimes.uUserTime = cpuStates[(CPUSTATES * uCore) + CP_USER];
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coreTimes.uIdleTime = cpuStates[(CPUSTATES * uCore) + CP_IDLE];
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coreTimes.uIdleTime = ConvertTicks(coreTimes.uIdleTime);
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coreTimes.uInterruptTime = ConvertTicks(coreTimes.uInterruptTime);
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coreTimes.uKernelTime = ConvertTicks(coreTimes.uKernelTime);
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coreTimes.uUserTime = ConvertTicks(coreTimes.uUserTime);
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coreTimes.uUptime = coreTimes.uKernelTime + coreTimes.uUserTime + coreTimes.uInterruptTime;
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coreTimes.uAllPowerUpTime = coreTimes.uIdleTime +
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coreTimes.uUptime;
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}
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}
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#elif defined(AURORA_IS_LINUX_DERIVED)
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static bool PlatformGetCoreTimes(AuList<CpuCoreTime> ×)
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{
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bool bStatus { true };
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AuString statFile {};
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if (!AuFS::ReadString("/proc/stat", statFile))
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{
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return false;
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}
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AuParse::SplitNewlines(statFile, [&](const AuString &line)
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{
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CpuCoreTime coreTimes;
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if (!AuStartsWith(line, "cpu"))
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{
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return;
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}
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auto line2 = line;
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auto intStrs = AuSplitString(line2, " ");
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intStrs.erase(intStrs.begin());
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if (intStrs.size() > 0)
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{
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if (auto result = AuParse::ParseUInt(intStrs[0]))
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{
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coreTimes.uUserTime = result.value();
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}
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}
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if (intStrs.size() > 1)
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{
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if (auto result = AuParse::ParseUInt(intStrs[1]))
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{
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coreTimes.uUserTime += result.value();
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}
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}
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if (intStrs.size() > 2)
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{
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if (auto result = AuParse::ParseUInt(intStrs[2]))
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{
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coreTimes.uKernelTime = result.value();
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}
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}
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if (intStrs.size() > 3)
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{
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if (auto result = AuParse::ParseUInt(intStrs[3]))
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{
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coreTimes.uIdleTime = result.value();
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}
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}
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if (intStrs.size() > 4)
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{
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if (auto result = AuParse::ParseUInt(intStrs[4]))
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{
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coreTimes.uKernelTime += result.value();
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}
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}
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if (intStrs.size() > 5)
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{
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if (auto result = AuParse::ParseUInt(intStrs[5]))
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{
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coreTimes.uInterruptTime += result.value();
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}
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}
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if (intStrs.size() > 6)
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{
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if (auto result = AuParse::ParseUInt(intStrs[6]))
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{
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coreTimes.uInterruptTime += result.value();
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}
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}
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for (AU_ITERATE_N_TO_X(i, 7, intStrs.size()))
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{
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if (auto result = AuParse::ParseUInt(intStrs[i]))
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{
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coreTimes.uKernelTime += result.value();
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}
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}
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coreTimes.uIdleTime = ConvertTicks(coreTimes.uIdleTime);
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coreTimes.uInterruptTime = ConvertTicks(coreTimes.uInterruptTime);
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coreTimes.uKernelTime = ConvertTicks(coreTimes.uKernelTime);
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coreTimes.uUserTime = ConvertTicks(coreTimes.uUserTime);
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coreTimes.uUptime = coreTimes.uKernelTime +
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coreTimes.uUserTime +
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coreTimes.uInterruptTime;
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coreTimes.uAllPowerUpTime = coreTimes.uIdleTime +
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coreTimes.uUptime;
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times.push_back(coreTimes);
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});
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return bStatus;
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}
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#elif defined(AURORA_IS_MODERNNT_DERIVED)
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static bool PlatformGetCoreTimes(AuList<CpuCoreTime> ×)
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{
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#if defined(_AU_MASSIVE_CPUID)
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SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION processorInfo[256];
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#else
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SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION processorInfo[128];
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#endif
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ULONG uOutLen {};
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if (FAILED(NtQuerySystemInformation(SystemProcessorPerformanceInformation,
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&processorInfo,
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sizeof(processorInfo),
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&uOutLen)))
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{
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return false;
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}
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auto uCount = uOutLen / sizeof(SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION);
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if (!AuTryResize(times, uCount))
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{
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return false;
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}
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for (AU_ITERATE_N(uCore, uCount))
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{
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auto &coreTimes = times[uCore];
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coreTimes.uIdleTime = ConvertTicks(processorInfo[uCore].IdleTime.QuadPart);
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coreTimes.uInterruptTime = 0;
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coreTimes.uKernelTime = ConvertTicks(processorInfo[uCore].KernelTime.QuadPart);
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coreTimes.uUserTime = ConvertTicks(processorInfo[uCore].UserTime.QuadPart);
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coreTimes.uKernelTime -= coreTimes.uIdleTime;
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coreTimes.uUptime = coreTimes.uKernelTime +
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coreTimes.uUserTime +
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coreTimes.uInterruptTime;
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coreTimes.uAllPowerUpTime = coreTimes.uIdleTime +
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coreTimes.uUptime;
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}
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return true;
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}
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#elif defined(AURORA_IS_POSIX_DERIVED)
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static bool PlatformGetCoreTimes(AuList<CpuCoreTime> ×)
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{
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return false;
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}
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#else
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static bool PlatformGetCoreTimes(AuList<CpuCoreTime> ×)
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{
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return false;
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}
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#endif
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AUKN_SYM bool GetPerCoreCPUTime(AuList<CpuCoreTime> ×)
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{
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return PlatformGetCoreTimes(times);
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}
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} |