239 lines
7.0 KiB
C++
239 lines
7.0 KiB
C++
/***
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Copyright (C) 2022 J Reece Wilson (a/k/a "Reece"). All rights reserved.
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File: CpuId.Nt.cpp
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Date: 2022-1-25
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Author: Reece
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***/
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#include <Source/RuntimeInternal.hpp>
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#include "HWInfo.hpp"
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#include "CpuInfo.hpp"
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#include "CpuInfo.NT.hpp"
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#if defined(AURORA_IS_MODERNNT_DERIVED)
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#include <VersionHelpers.h>
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#endif
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namespace Aurora::HWInfo
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{
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static bool TrySetNtCpuSetInfoSlowExtended()
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{
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SYSTEM_CPU_SET_INFORMATION cpuSetInfo[128];
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SYSTEM_LOGICAL_PROCESSOR_INFORMATION sysinfo[128];
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DWORD length = {};
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if (!GetSystemCpuSetInformation(cpuSetInfo, sizeof(cpuSetInfo), &length, 0, 0))
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{
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return false;
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}
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struct CpuInfo
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{
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AuList<AuUInt8> low;
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AuList<CpuBitId> server;
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CpuBitId mask;
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};
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AuBST<AuUInt8, CpuInfo> cpuThreads;
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AuUInt8 cpuCount;
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cpuCount = length / sizeof(decltype(*cpuSetInfo));
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for (int i = 0; i < cpuCount; i++)
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{
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auto &idx = cpuThreads[cpuSetInfo[i].CpuSet.CoreIndex];
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// Win7 KAFFINITY = u64 affinity masks
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// Windows 10 + seems to be ((this->group + 1ul) * 0x100ul) + index
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// Windows internals says...
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// ULONG sets[] = { 0x100, 0x101, 0x102, 0x103 };
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// ::SetProcessDefaultCpuSets/SetThreadSelectedCpuSets(::GetCurrentProcess(), sets, _countof(sets));
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// (useless)
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// People generally isolate group and keep logical processors in a different set, kinda worthless for bitwise math
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SysAssert(cpuSetInfo[i].CpuSet.LogicalProcessorIndex < 64);
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#if defined(_AU_MASSIVE_CPUID)
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SysAssert(cpuSetInfo[i].CpuSet.Group < 4);
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#else
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SysAssert(cpuSetInfo[i].CpuSet.Group < 2);
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#endif
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AuUInt8 id = AuUInt8(cpuSetInfo[i].CpuSet.LogicalProcessorIndex /*no greater than 64*/ + (cpuSetInfo[i].CpuSet.Group * 64));
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auto cpuId = CpuBitId(id);
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auto sets = cpuId.ToCpuSets();
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SysAssert(sets.size() == 1);
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SysAssert(sets[0] == cpuSetInfo[i].CpuSet.Id);
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idx.server.push_back(cpuId);
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idx.low.push_back(id);
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idx.mask.Add(cpuId);
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gCpuInfo.maskAllCores.Add(cpuId);
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}
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for (const auto &[cpuId, coreIds] : cpuThreads)
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{
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AuUInt64 shortMask {};
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for (const auto &id : coreIds.server)
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{
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// TODO (scar):
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if (false)
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{
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gCpuInfo.maskECores.Add(id);
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}
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else
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{
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gCpuInfo.maskPCores.Add(id);
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gCpuInfo.pCoreTopology.push_back(id);
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}
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}
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for (const auto &id : coreIds.low)
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{
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shortMask |= AuUInt64(1) << AuUInt64(id);
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}
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gCpuInfo.coreTopology.push_back(coreIds.mask);
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gCpuInfo.threadTopology.push_back(shortMask);
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}
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gCpuInfo.uSocket = 1;
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gCpuInfo.uThreads = cpuCount;
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gCpuInfo.uCores = cpuThreads.size();
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if (!GetLogicalProcessorInformation(sysinfo, &length))
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{
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return true;
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}
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gCpuInfo.uSocket = 0;
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length /= sizeof(*sysinfo);
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for (auto i = 0; i < length; i++)
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{
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if (sysinfo[i].Relationship == RelationProcessorPackage)
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{
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gCpuInfo.uSocket++;
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}
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if (sysinfo[i].Relationship == RelationCache)
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{
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switch (sysinfo[i].Cache.Level)
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{
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case 0:
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break;
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case 1:
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gCpuInfo.dwCacheLine = sysinfo[i].Cache.LineSize;
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gCpuInfo.dwCacheL1 = sysinfo[i].Cache.Size;
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break;
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case 2:
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gCpuInfo.dwCacheL2 = sysinfo[i].Cache.Size;
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break;
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case 3:
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gCpuInfo.dwCacheL3 = sysinfo[i].Cache.Size;
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break;
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}
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}
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}
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return true;
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}
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void SetCpuTopologyNT()
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{
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SYSTEM_LOGICAL_PROCESSOR_INFORMATION sysinfo[128];
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DWORD length = AuArraySize(sysinfo) * sizeof(*sysinfo);
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if (/*SWInfo::IsWindows10OrGreater() || IsWindowsServer() */ true)
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{
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if (TrySetNtCpuSetInfoSlowExtended())
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{
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return;
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}
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}
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if (!GetLogicalProcessorInformation(sysinfo, &length))
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{
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SYSTEM_INFO sysinfo;
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GetSystemInfo(&sysinfo);
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gCpuInfo.uSocket = 1;
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gCpuInfo.uCores = 1;
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gCpuInfo.uThreads = sysinfo.dwNumberOfProcessors;
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return;
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}
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length /= sizeof(*sysinfo);
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gCpuInfo.uSocket = 0;
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gCpuInfo.uCores = 0;
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gCpuInfo.uThreads = 0;
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bool sparse = false;
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bool hasHTCores = false;
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for (auto i = 0; i < length; i++)
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{
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if (sysinfo[i].Relationship == RelationProcessorCore)
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{
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auto mask = sysinfo[i].ProcessorMask;
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gCpuInfo.uCores++;
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gCpuInfo.threadTopology.push_back(mask);
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CpuBitId serverId;
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serverId.lower = mask;
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gCpuInfo.coreTopology.push_back(mask);
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int counter {};
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unsigned long offset {}, tmp;
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#if 0
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while (offset != (sizeof(offset) * 8))
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{
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// Count the index to a 1
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if (BitScanForward(&tmp, mask >> offset) == 0) break; // mask was zero, end of scan
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offset += tmp;
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// Count the 1's by inverting the bitmap and counting to 1
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BitScanForward(&tmp, ~(mask >> offset));
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offset += tmp;
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if (counter++) sparse = true;
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// Increment threads by the bits set in
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gCpuInfo.uThreads += tmp;
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}
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#else
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tmp = AuPopCnt(mask);
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gCpuInfo.uThreads += tmp;
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#endif
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hasHTCores |= (tmp == 2);
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if (hasHTCores && (tmp == 1))
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{
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AuUInt8 idx {};
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if (serverId.CpuBitScanForward(idx, 0))
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{
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gCpuInfo.maskECores.Add(idx);
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}
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}
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else
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{
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AuUInt8 idx {};
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if (serverId.CpuBitScanForward(idx, 0))
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{
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gCpuInfo.maskPCores.Add(idx);
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}
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gCpuInfo.pCoreTopology.push_back(mask);
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}
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}
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else if (sysinfo[i].Relationship == RelationProcessorPackage)
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{
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gCpuInfo.uSocket++;
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}
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}
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gCpuInfo.bMaskMTContig = !sparse;
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gCpuInfo.bMaskMTHalf = sparse;
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}
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} |