#pragma once #ifndef MANGOHUD_CPU_H #define MANGOHUD_CPU_H #include #include #include #include #include #ifdef WIN32 #include #endif #include "timing.hpp" typedef struct CPUData_ { unsigned long long int totalTime; unsigned long long int userTime; unsigned long long int systemTime; unsigned long long int systemAllTime; unsigned long long int idleAllTime; unsigned long long int idleTime; unsigned long long int niceTime; unsigned long long int ioWaitTime; unsigned long long int irqTime; unsigned long long int softIrqTime; unsigned long long int stealTime; unsigned long long int guestTime; unsigned long long int totalPeriod; unsigned long long int userPeriod; unsigned long long int systemPeriod; unsigned long long int systemAllPeriod; unsigned long long int idleAllPeriod; unsigned long long int idlePeriod; unsigned long long int nicePeriod; unsigned long long int ioWaitPeriod; unsigned long long int irqPeriod; unsigned long long int softIrqPeriod; unsigned long long int stealPeriod; unsigned long long int guestPeriod; int cpu_id; float percent; int mhz; int temp; int cpu_mhz; float power; } CPUData; enum { CPU_POWER_K10TEMP, CPU_POWER_ZENPOWER, CPU_POWER_ZENERGY, CPU_POWER_RAPL, CPU_POWER_AMDGPU }; struct CPUPowerData { int source; }; struct CPUPowerData_k10temp : public CPUPowerData { CPUPowerData_k10temp() { this->source = CPU_POWER_K10TEMP; }; ~CPUPowerData_k10temp() { if(this->coreVoltageFile) fclose(this->coreVoltageFile); if(this->coreCurrentFile) fclose(this->coreCurrentFile); if(this->socVoltageFile) fclose(this->socVoltageFile); if(this->socCurrentFile) fclose(this->socCurrentFile); if(this->corePowerFile) fclose(this->corePowerFile); if(this->socPowerFile) fclose(this->socPowerFile); }; FILE* coreVoltageFile {nullptr}; FILE* coreCurrentFile {nullptr}; FILE* socVoltageFile {nullptr}; FILE* socCurrentFile {nullptr}; FILE* corePowerFile {nullptr}; FILE* socPowerFile {nullptr}; }; struct CPUPowerData_zenpower : public CPUPowerData { CPUPowerData_zenpower() { this->source = CPU_POWER_ZENPOWER; }; ~CPUPowerData_zenpower() { if(this->corePowerFile) fclose(this->corePowerFile); if(this->socPowerFile) fclose(this->socPowerFile); }; FILE* corePowerFile {nullptr}; FILE* socPowerFile {nullptr}; }; struct CPUPowerData_zenergy : public CPUPowerData { CPUPowerData_zenergy() { this->source = CPU_POWER_ZENERGY; this->lastCounterValue = 0; this->lastCounterValueTime = Clock::now(); }; ~CPUPowerData_zenergy() { if(this->energyCounterFile) fclose(this->energyCounterFile); }; FILE* energyCounterFile {nullptr}; uint64_t lastCounterValue; Clock::time_point lastCounterValueTime; }; struct CPUPowerData_rapl : public CPUPowerData { CPUPowerData_rapl() { this->source = CPU_POWER_RAPL; this->lastCounterValue = 0; this->lastCounterValueTime = Clock::now(); }; ~CPUPowerData_rapl() { if(this->energyCounterFile) fclose(this->energyCounterFile); }; FILE* energyCounterFile {nullptr}; uint64_t lastCounterValue; Clock::time_point lastCounterValueTime; }; struct CPUPowerData_amdgpu : public CPUPowerData { CPUPowerData_amdgpu() { this->source = CPU_POWER_AMDGPU; }; }; class CPUStats { public: CPUStats(); ~CPUStats(); bool Init(); bool Reinit(); bool Updated() { return m_updatedCPUs; } bool UpdateCPUData(); bool UpdateCoreMhz(); bool UpdateCpuTemp(); bool UpdateCpuPower(); bool ReadcpuTempFile(int& temp); bool GetCpuFile(); bool InitCpuPowerData(); double GetCPUPeriod() { return m_cpuPeriod; } const std::vector& GetCPUData() const { return m_cpuData; } const CPUData& GetCPUDataTotal() const { return m_cpuDataTotal; } std::string cpu_type = "CPU"; private: unsigned long long int m_boottime = 0; std::vector m_cpuData; CPUData m_cpuDataTotal {}; std::vector m_coreMhz; double m_cpuPeriod = 0; bool m_updatedCPUs = false; // TODO use caching or just update? bool m_inited = false; FILE *m_cpuTempFile = nullptr; std::unique_ptr m_cpuPowerData; }; extern CPUStats cpuStats; #ifdef WIN32 uint64_t FileTimeToInt64( const FILETIME& ft ); #endif #endif //MANGOHUD_CPU_H