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Tactiliest/Boards/M5stackCore2/Source/devices/Core2Power.cpp
Ken Van Hoeylandt 1627b9fa85
Merge develop into main (#316) 
- Updated all boards to use `hal::Configuration.createDevices`
- Updated all boards to use new directory structure and file naming convention
- Refactored `Xpt2046SoftSpi` driver.
- Created `Axp2101Power` device in `Drivers/AXP2101`
- Removed global static instances from some drivers (instances that kept a reference to the Device*)
- Improved `SystemInfoApp` UI: better memory labels, hide external memory bar when there's no PSRAM
- Fix for HAL: register touch devices after displays are registered
- Fix for Boot splash hanging on WiFi init: unlock file lock after using it
2025-09-03 22:05:28 +02:00

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#include "Core2Power.h"
#include <Tactility/TactilityCore.h>
#include "axp192/axp192.h"
constexpr auto TAG = "Core2Power";
extern axp192_t axpDevice;
bool Core2Power::supportsMetric(MetricType type) const {
switch (type) {
using enum MetricType;
case BatteryVoltage:
case ChargeLevel:
case IsCharging:
return true;
default:
return false;
}
}
bool Core2Power::getMetric(MetricType type, MetricData& data) {
switch (type) {
using enum MetricType;
case BatteryVoltage: {
float voltage;
if (axp192_read(&axpDevice, AXP192_BATTERY_VOLTAGE, &voltage) == ESP_OK) {
data.valueAsUint32 = (uint32_t)std::max((voltage * 1000.f), 0.0f);
return true;
} else {
return false;
}
}
case ChargeLevel: {
float vbat, charge_current;
if (
axp192_read(&axpDevice, AXP192_BATTERY_VOLTAGE, &vbat) == ESP_OK &&
axp192_read(&axpDevice, AXP192_CHARGE_CURRENT, &charge_current) == ESP_OK
) {
float max_voltage = 4.20f;
float min_voltage = 2.69f; // From M5Unified
float voltage_correction = (charge_current > 0.01f) ? -0.1f : 0.f; // Roughly 0.1V drop when ccharging
float corrected_voltage = vbat + voltage_correction;
if (corrected_voltage > 2.69f) {
float charge_factor = (corrected_voltage - min_voltage) / (max_voltage - min_voltage);
data.valueAsUint8 = (uint8_t)(charge_factor * 100.f);
} else {
data.valueAsUint8 = 0;
}
return true;
} else {
return false;
}
}
case IsCharging: {
float charge_current;
if (axp192_read(&axpDevice, AXP192_CHARGE_CURRENT, &charge_current) == ESP_OK) {
data.valueAsBool = charge_current > 0.001f;
return true;
} else {
return false;
}
}
case Current: {
float charge_current, discharge_current;
if (
axp192_read(&axpDevice, AXP192_CHARGE_CURRENT, &charge_current) == ESP_OK &&
axp192_read(&axpDevice, AXP192_DISCHARGE_CURRENT, &discharge_current) == ESP_OK
) {
if (charge_current > 0.0f) {
data.valueAsInt32 = (int32_t) (charge_current * 1000.0f);
} else {
data.valueAsInt32 = -(int32_t) (discharge_current * 1000.0f);
}
return true;
} else {
return false;
}
}
default:
return false;
}
}
bool Core2Power::isAllowedToCharge() const {
uint8_t buffer;
if (axp192_read(&axpDevice, AXP192_CHARGE_CONTROL_1, &buffer) == ESP_OK) {
return buffer & 0x80;
} else {
return false;
}
}
void Core2Power::setAllowedToCharge(bool canCharge) {
uint8_t buffer;
if (axp192_read(&axpDevice, AXP192_CHARGE_CONTROL_1, &buffer) == ESP_OK) {
buffer = (buffer & 0x7F) + (canCharge ? 0x80 : 0x00);
axp192_write(&axpDevice, AXP192_CHARGE_CONTROL_1, buffer);
}
}
static std::shared_ptr<PowerDevice> power;
std::shared_ptr<PowerDevice> createPower() {
if (power == nullptr) {
power = std::make_shared<Core2Power>();
}
return power;
}
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