// Copyright (c) 2017-2021, Mudita Sp. z.o.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#include <log/log.hpp>
#include "PowerManager.hpp"
namespace sys
{
PowerManager::PowerManager()
{
lowPowerControl = bsp::LowPowerMode::Create().value_or(nullptr);
driverSEMC = drivers::DriverSEMC::Create("ExternalRAM");
cpuGovernor = std::make_unique<CpuGovernor>();
}
PowerManager::~PowerManager()
{}
int32_t PowerManager::PowerOff()
{
return lowPowerControl->PowerOff();
}
int32_t PowerManager::Reboot()
{
return lowPowerControl->Reboot();
}
void PowerManager::UpdateCpuFrequency(uint32_t cpuLoad)
{
const auto currentCpuFreq = lowPowerControl->GetCurrentFrequencyLevel();
const auto minFrequencyRequested = cpuGovernor->GetMinimumFrequencyRequested();
if (cpuLoad > frequencyShiftUpperThreshold && currentCpuFreq < bsp::CpuFrequencyHz::Level_6) {
aboveThresholdCounter++;
belowThresholdCounter = 0;
}
else if (cpuLoad < frequencyShiftLowerThreshold && currentCpuFreq > bsp::CpuFrequencyHz::Level_1) {
belowThresholdCounter++;
aboveThresholdCounter = 0;
}
else {
ResetFrequencyShiftCounter();
}
if (aboveThresholdCounter >= maxAboveThresholdCount || minFrequencyRequested > currentCpuFreq) {
ResetFrequencyShiftCounter();
IncreaseCpuFrequency();
}
else {
if (belowThresholdCounter >= maxBelowThresholdCount && currentCpuFreq > minFrequencyRequested) {
ResetFrequencyShiftCounter();
DecreaseCpuFrequency();
}
}
}
void PowerManager::IncreaseCpuFrequency() const
{
const auto freq = lowPowerControl->GetCurrentFrequencyLevel();
if (freq == bsp::CpuFrequencyHz::Level_1) {
// switch osc source first
lowPowerControl->SwitchOscillatorSource(bsp::LowPowerMode::OscillatorSource::External);
// then switch external RAM clock source
if (driverSEMC) {
driverSEMC->SwitchToPLL2ClockSource();
}
}
// and increase frequency
if (freq < bsp::CpuFrequencyHz::Level_6) {
SetCpuFrequency(bsp::CpuFrequencyHz::Level_6);
}
}
void PowerManager::DecreaseCpuFrequency() const
{
const auto freq = lowPowerControl->GetCurrentFrequencyLevel();
auto level = bsp::CpuFrequencyHz::Level_1;
switch (freq) {
case bsp::CpuFrequencyHz::Level_6:
level = bsp::CpuFrequencyHz::Level_5;
break;
case bsp::CpuFrequencyHz::Level_5:
level = bsp::CpuFrequencyHz::Level_4;
break;
case bsp::CpuFrequencyHz::Level_4:
level = bsp::CpuFrequencyHz::Level_3;
break;
case bsp::CpuFrequencyHz::Level_3:
level = bsp::CpuFrequencyHz::Level_2;
break;
case bsp::CpuFrequencyHz::Level_2:
level = bsp::CpuFrequencyHz::Level_1;
break;
case bsp::CpuFrequencyHz::Level_1:
break;
}
// decrease frequency first
if (level != freq) {
SetCpuFrequency(level);
}
if (level == bsp::CpuFrequencyHz::Level_1) {
// then switch osc source
lowPowerControl->SwitchOscillatorSource(bsp::LowPowerMode::OscillatorSource::Internal);
// and switch external RAM clock source
if (driverSEMC) {
driverSEMC->SwitchToPeripheralClockSource();
}
}
}
void PowerManager::RegisterNewSentinel(std::shared_ptr<CpuSentinel> newSentinel) const
{
cpuGovernor->RegisterNewSentinel(newSentinel);
}
void PowerManager::SetCpuFrequencyRequest(std::string sentinelName, bsp::CpuFrequencyHz request) const
{
cpuGovernor->SetCpuFrequencyRequest(sentinelName, request);
}
void PowerManager::SetCpuFrequency(bsp::CpuFrequencyHz freq) const
{
lowPowerControl->SetCpuFrequency(freq);
cpuGovernor->InformSentinelsAboutCpuFrequencyChange(freq);
}
void PowerManager::ResetFrequencyShiftCounter()
{
aboveThresholdCounter = 0;
belowThresholdCounter = 0;
}
[[nodiscard]] auto PowerManager::getExternalRamDevice() const noexcept -> std::shared_ptr<devices::Device>
{
return driverSEMC;
}
} // namespace sys