tag/1.1.0/lib/hal/HalPowerManager.cpp

#include "HalPowerManager.h"

#include <Logging.h>
#include <WiFi.h>
#include <esp_sleep.h>

#include <cassert>

#include "HalGPIO.h"

HalPowerManager powerManager;  // Singleton instance

void HalPowerManager::begin() {
  pinMode(BAT_GPIO0, INPUT);
  normalFreq = getCpuFrequencyMhz();
  modeMutex = xSemaphoreCreateMutex();
  assert(modeMutex != nullptr);
}

void HalPowerManager::setPowerSaving(bool enabled) {
  if (normalFreq <= 0) {
    return;  // invalid state
  }

  auto wifiMode = WiFi.getMode();
  if (wifiMode != WIFI_MODE_NULL) {
    // Wifi is active, force disabling power saving
    enabled = false;
  }

  // Note: We don't use mutex here to avoid too much overhead,
  // it's not very important if we read a slightly stale value for currentLockMode
  const LockMode mode = currentLockMode;

  if (mode == None && enabled && !isLowPower) {
    LOG_DBG("PWR", "Going to low-power mode");
    if (!setCpuFrequencyMhz(LOW_POWER_FREQ)) {
      LOG_DBG("PWR", "Failed to set CPU frequency = %d MHz", LOW_POWER_FREQ);
      return;
    }
    isLowPower = true;

  } else if ((!enabled || mode != None) && isLowPower) {
    LOG_DBG("PWR", "Restoring normal CPU frequency");
    if (!setCpuFrequencyMhz(normalFreq)) {
      LOG_DBG("PWR", "Failed to set CPU frequency = %d MHz", normalFreq);
      return;
    }
    isLowPower = false;
  }

  // Otherwise, no change needed
}

void HalPowerManager::startDeepSleep(HalGPIO& gpio) const {
  // Ensure that the power button has been released to avoid immediately turning back on if you're holding it
  while (gpio.isPressed(HalGPIO::BTN_POWER)) {
    delay(50);
    gpio.update();
  }
  // Arm the wakeup trigger *after* the button is released
  esp_deep_sleep_enable_gpio_wakeup(1ULL << InputManager::POWER_BUTTON_PIN, ESP_GPIO_WAKEUP_GPIO_LOW);
  // Enter Deep Sleep
  esp_deep_sleep_start();
}

int HalPowerManager::getBatteryPercentage() const {
  static const BatteryMonitor battery = BatteryMonitor(BAT_GPIO0);
  return battery.readPercentage();
}

HalPowerManager::Lock::Lock() {
  xSemaphoreTake(powerManager.modeMutex, portMAX_DELAY);
  // Current limitation: only one lock at a time
  if (powerManager.currentLockMode != None) {
    LOG_ERR("PWR", "Lock already held, ignore");
    valid = false;
  } else {
    powerManager.currentLockMode = NormalSpeed;
    valid = true;
  }
  xSemaphoreGive(powerManager.modeMutex);
  if (valid) {
    // Immediately restore normal CPU frequency if currently in low-power mode
    powerManager.setPowerSaving(false);
  }
}

HalPowerManager::Lock::~Lock() {
  xSemaphoreTake(powerManager.modeMutex, portMAX_DELAY);
  if (valid) {
    powerManager.currentLockMode = None;
  }
  xSemaphoreGive(powerManager.modeMutex);
}
feat: lower CPU freq on idle, add HalPowerManager (#852 ) 2026-02-18 15:12:29 +01:00			`#include "HalPowerManager.h"`

			`#include <Logging.h>`
			`#include <WiFi.h>`
			`#include <esp_sleep.h>`

			`#include <cassert>`

			`#include "HalGPIO.h"`

			`HalPowerManager powerManager; // Singleton instance`

			`void HalPowerManager::begin() {`
			`pinMode(BAT_GPIO0, INPUT);`
			`normalFreq = getCpuFrequencyMhz();`
			`modeMutex = xSemaphoreCreateMutex();`
			`assert(modeMutex != nullptr);`
			`}`

			`void HalPowerManager::setPowerSaving(bool enabled) {`
			`if (normalFreq <= 0) {`
			`return; // invalid state`
			`}`

			`auto wifiMode = WiFi.getMode();`
			`if (wifiMode != WIFI_MODE_NULL) {`
			`// Wifi is active, force disabling power saving`
			`enabled = false;`
			`}`

			`// Note: We don't use mutex here to avoid too much overhead,`
			`// it's not very important if we read a slightly stale value for currentLockMode`
			`const LockMode mode = currentLockMode;`

			`if (mode == None && enabled && !isLowPower) {`
			`LOG_DBG("PWR", "Going to low-power mode");`
			`if (!setCpuFrequencyMhz(LOW_POWER_FREQ)) {`
			`LOG_DBG("PWR", "Failed to set CPU frequency = %d MHz", LOW_POWER_FREQ);`
			`return;`
			`}`
			`isLowPower = true;`

			`} else if ((!enabled \|\| mode != None) && isLowPower) {`
			`LOG_DBG("PWR", "Restoring normal CPU frequency");`
			`if (!setCpuFrequencyMhz(normalFreq)) {`
			`LOG_DBG("PWR", "Failed to set CPU frequency = %d MHz", normalFreq);`
			`return;`
			`}`
			`isLowPower = false;`
			`}`

			`// Otherwise, no change needed`
			`}`

			`void HalPowerManager::startDeepSleep(HalGPIO& gpio) const {`
			`// Ensure that the power button has been released to avoid immediately turning back on if you're holding it`
			`while (gpio.isPressed(HalGPIO::BTN_POWER)) {`
			`delay(50);`
			`gpio.update();`
			`}`
			`// Arm the wakeup trigger after the button is released`
			`esp_deep_sleep_enable_gpio_wakeup(1ULL << InputManager::POWER_BUTTON_PIN, ESP_GPIO_WAKEUP_GPIO_LOW);`
			`// Enter Deep Sleep`
			`esp_deep_sleep_start();`
			`}`

			`int HalPowerManager::getBatteryPercentage() const {`
			`static const BatteryMonitor battery = BatteryMonitor(BAT_GPIO0);`
			`return battery.readPercentage();`
			`}`

			`HalPowerManager::Lock::Lock() {`
			`xSemaphoreTake(powerManager.modeMutex, portMAX_DELAY);`
			`// Current limitation: only one lock at a time`
			`if (powerManager.currentLockMode != None) {`
			`LOG_ERR("PWR", "Lock already held, ignore");`
			`valid = false;`
			`} else {`
			`powerManager.currentLockMode = NormalSpeed;`
			`valid = true;`
			`}`
			`xSemaphoreGive(powerManager.modeMutex);`
			`if (valid) {`
			`// Immediately restore normal CPU frequency if currently in low-power mode`
			`powerManager.setPowerSaving(false);`
			`}`
			`}`

			`HalPowerManager::Lock::~Lock() {`
			`xSemaphoreTake(powerManager.modeMutex, portMAX_DELAY);`
			`if (valid) {`
			`powerManager.currentLockMode = None;`
			`}`
			`xSemaphoreGive(powerManager.modeMutex);`
			`}`