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Worker.cpp
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Worker.cpp
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/*
* Copyright (c) Martin Kinkelin
*
* See the "License.txt" file in the root directory for infos
* about permitted and prohibited uses of this code.
*/
#include <algorithm>
#include <chrono>
#include <iostream>
#include <locale>
#include <thread>
#include "Worker.h"
#include "StringUtils.h"
#include "WinRing0.h"
using std::cerr;
using std::endl;
using std::min;
using std::max;
using std::string;
using std::tolower;
using std::vector;
static void SplitPair(string& left, string& right, const string& str, char delimiter)
{
const size_t i = str.find(delimiter);
left = str.substr(0, i);
if (i == string::npos)
right.clear();
else
right = str.substr(i + 1);
}
bool Worker::ParseParams(int argc, const char* argv[])
{
const Info& info = *_info;
PStateInfo psi;
psi.Multi = psi.VID = psi.NBVID = -1;
psi.NBPState = -1;
NBPStateInfo nbpsi;
nbpsi.Multi = 1.0;
nbpsi.VID = -1;
for (int i = 0; i < info.NumPStates; i++)
{
_pStates.push_back(psi);
_pStates.back().Index = i;
}
for (int i = 0; i < info.NumNBPStates; i++)
{
_nbPStates.push_back(nbpsi);
_nbPStates.back().Index = i;
}
for (int i = 1; i < argc; i++)
{
const string param(argv[i]);
string key, value;
SplitPair(key, value, param, '=');
if (value.empty())
{
if (param.length() >= 2 && tolower(param[0]) == 'p')
{
const int index = atoi(param.c_str() + 1);
if (index >= 0 && index < info.NumPStates)
{
_pState = index;
continue;
}
}
}
else
{
if (key.length() >= 2 && tolower(key[0]) == 'p')
{
const int index = atoi(key.c_str() + 1);
if (index >= 0 && index < info.NumPStates)
{
string multi, vid;
SplitPair(multi, vid, value, '@');
if (!multi.empty())
_pStates[index].Multi = info.multiScaleFactor * atof(multi.c_str());
if (!vid.empty())
_pStates[index].VID = info.EncodeVID(atof(vid.c_str()));
continue;
}
}
if (key.length() >= 5 && _strnicmp(key.c_str(), "NB_P", 4) == 0)
{
const int index = atoi(key.c_str() + 4);
if (index >= 0 && index < info.NumNBPStates)
{
string multi, vid;
SplitPair(multi, vid, value, '@');
if (!multi.empty())
_nbPStates[index].Multi = atof(multi.c_str());
if (!vid.empty())
_nbPStates[index].VID = info.EncodeVID(atof(vid.c_str()));
continue;
}
}
if (_stricmp(key.c_str(), "NB_low") == 0)
{
const int index = atoi(value.c_str());
int j = 0;
for (; j < min(index, info.NumPStates); j++)
_pStates[j].NBPState = 0;
for (; j < info.NumPStates; j++)
_pStates[j].NBPState = 1;
continue;
}
if (_stricmp(key.c_str(), "Turbo") == 0)
{
const int flag = atoi(value.c_str());
if (flag == 0 || flag == 1)
{
_turbo = flag;
continue;
}
}
if( _stricmp( key.c_str(), "BoostEnAllCores" ) == 0 )
{
const int flag = atoi( value.c_str() );
if( flag == 0 || flag == 1 )
{
_boostEnAllCores = flag;
continue;
}
}
if( _stricmp( key.c_str(), "IgnoreBoostThresh" ) == 0 )
{
const int flag = atoi( value.c_str() );
if( flag == 0 || flag == 1 )
{
_ignoreBoostThresh = flag;
continue;
}
}
if (_stricmp(key.c_str(), "APM") == 0)
{
const int flag = atoi(value.c_str());
if (flag == 0 || flag == 1)
{
_apm = flag;
continue;
}
}
if (_stricmp(key.c_str(), "NbPsi0Vid") == 0)
{
if (!value.empty())
_NbPsi0Vid_VID = info.EncodeVID(atof(value.c_str()));
continue;
}
}
cerr << "ERROR: invalid parameter " << param.c_str() << endl;
return false;
}
return true;
}
static bool ContainsChanges(const PStateInfo& info)
{
return (info.Multi >= 0 || info.VID >= 0 || info.NBVID >= 0 || info.NBPState >= 0);
}
static bool ContainsChanges(const NBPStateInfo& info)
{
return (info.Multi >= 0 || info.VID >= 0);
}
static void SwitchTo(int logicalCPUIndex)
{
const HANDLE hThread = GetCurrentThread();
SetThreadAffinityMask(hThread, (DWORD_PTR)1 << logicalCPUIndex);
}
void Worker::ApplyChanges()
{
const Info& info = *_info;
#ifdef _DEBUG
unsigned short sleepDelay = 0;
string sleepText = ", waiting for " + std::to_string(sleepDelay) + "seconds.";
#endif
// Apply NB P-states
#ifdef _DEBUG
cerr << "Applying NB P-states" << sleepText << endl;
std::this_thread::sleep_for(std::chrono::seconds(sleepDelay));
#endif
//Changing NB P-states causes system hang on Carrizo (Model == 0x60), disable for now
if (info.Family == 0x15 && info.Model != 0x60)
{
for (int i = 0; i < _nbPStates.size(); i++)
{
const NBPStateInfo& nbpsi = _nbPStates[i];
if (ContainsChanges(nbpsi))
info.WriteNBPState(nbpsi);
}
}
else if (info.Family == 0x10 && (_nbPStates[0].VID >= 0 || _nbPStates[1].VID >= 0))
{
for (int i = 0; i < _pStates.size(); i++)
{
PStateInfo& psi = _pStates[i];
const int nbPState = (psi.NBPState >= 0 ? psi.NBPState : info.ReadPState(i).NBPState);
const NBPStateInfo& nbpsi = _nbPStates[nbPState];
if (nbpsi.VID >= 0)
psi.NBVID = nbpsi.VID;
}
}
#ifdef _DEBUG
if (_nbPStates.size() > 0 && (info.Family == 0x15 && info.Model != 0x60))
{
cerr << "NB P-states successfully applied" << endl;
}
else if (info.Family == 0x15 && info.Model == 0x60)
{
cerr << "Modifying P-states on Carrizo is disabled for now (causes system hang)" << endl;
}
else
{
cerr << "No P-states applied (non were specified)" << endl;
}
#endif
// Applying turbo
#ifdef _DEBUG
cerr << "Configuring turbo and APM (if supported)" << sleepText << endl;
std::this_thread::sleep_for(std::chrono::seconds(sleepDelay));
#endif
if (_turbo >= 0 && info.IsBoostSupported)
{
info.SetBoostSource(_turbo == 1);
}
if (_boostEnAllCores >= 0 && info.BoostEnAllCores != -1)
{
info.SetBoostEnAllCores(_boostEnAllCores);
}
if (_ignoreBoostThresh >= 0 && info.IgnoreBoostThresh != -1)
{
info.SetIgnoreBoostThresh(_ignoreBoostThresh);
}
if (_apm >= 0 && info.Family == 0x15)
{
info.SetAPM(_apm == 1);
}
if (_NbPsi0Vid_VID >= 0 && info.Family == 0x15)
{
#ifdef _DEBUG
cerr << "Writing NbPsi0Vid" << sleepText << endl;
std::this_thread::sleep_for(std::chrono::seconds(sleepDelay));
#endif
info.WriteNbPsi0Vid(_NbPsi0Vid_VID);
}
SYSTEM_INFO sysInfo;
GetSystemInfo(&sysInfo);
const int numLogicalCPUs = sysInfo.dwNumberOfProcessors;
// switch to the highest thread priority (we do not want to get interrupted often)
const HANDLE hProcess = GetCurrentProcess();
const HANDLE hThread = GetCurrentThread();
SetPriorityClass(hProcess, REALTIME_PRIORITY_CLASS);
SetThreadPriority(hThread, THREAD_PRIORITY_HIGHEST);
// Write P-states, perform one iteration in each logical core
#ifdef _DEBUG
if (_pStates.size() > 0)
{
cerr << "Writing P-states" << sleepText << endl;
std::this_thread::sleep_for(std::chrono::seconds(sleepDelay));
}
#endif
for (int j = 0; j < numLogicalCPUs; j++)
{
SwitchTo(j);
for (int i = 0; i < _pStates.size(); i++)
{
const PStateInfo& psi = _pStates[i];
if (ContainsChanges(psi))
info.WritePState(psi);
}
if (_turbo >= 0 && info.IsBoostSupported)
info.SetCPBDis(_turbo == 1);
}
// Set P-states, perform one iteration in each logical core
#ifdef _DEBUG
if (ContainsChanges(_pStates[info.GetCurrentPState()]))
{
cerr << "Settings P-states" << sleepText << endl;
std::this_thread::sleep_for(std::chrono::seconds(sleepDelay));
}
#endif
for (int j = 0; j < numLogicalCPUs; j++)
{
SwitchTo(j);
const int currentPState = info.GetCurrentPState();
const int newPState = (_pState >= 0 ? _pState : currentPState);
if (newPState != currentPState)
info.SetCurrentPState(newPState);
else
{
if (ContainsChanges(_pStates[currentPState]))
{
const int tempPState = (currentPState == info.NumPStates - 1 ? 0 : info.NumPStates - 1);
info.SetCurrentPState(tempPState);
Sleep(1);
info.SetCurrentPState(currentPState);
}
}
}
SetThreadPriority(hThread, THREAD_PRIORITY_NORMAL);
SetPriorityClass(hProcess, NORMAL_PRIORITY_CLASS);
#ifdef _DEBUG
cerr << "Successfully executed all steps, exiting in 5 seconds" << endl;
std::this_thread::sleep_for(std::chrono::seconds(5));
#endif
}