#ifndef CONFIG_TARGET_ESP01 #include #endif #include #include "temphum.h" namespace homekit::temphum { void Sensor::setup() const { #ifndef CONFIG_TARGET_ESP01 pinMode(CONFIG_SDA_GPIO, OUTPUT); pinMode(CONFIG_SCL_GPIO, OUTPUT); Wire.begin(CONFIG_SDA_GPIO, CONFIG_SCL_GPIO); #else Wire.begin(); #endif } void Sensor::writeCommand(int reg) const { Wire.beginTransmission(dev_addr); Wire.write(reg); Wire.endTransmission(); delay(500); // wait for the measurement to be ready } SensorData Si7021::read() { uint8_t error = 0; writeCommand(0xf3); // command to measure temperature Wire.requestFrom(dev_addr, 2); if (Wire.available() < 2) { PRINTLN("Si7021: 0xf3: could not read 2 bytes"); error = 1; } uint16_t temp_raw = Wire.read() << 8 | Wire.read(); double temperature = ((175.72 * temp_raw) / 65536.0) - 46.85; writeCommand(0xf5); // command to measure humidity Wire.requestFrom(dev_addr, 2); if (Wire.available() < 2) { PRINTLN("Si7021: 0xf5: could not read 2 bytes"); error = 1; } uint16_t hum_raw = Wire.read() << 8 | Wire.read(); double humidity = ((125.0 * hum_raw) / 65536.0) - 6.0; return { .error = error, .temp = temperature, .rh = humidity }; } SensorData DHT12::read() { SensorData sd; byte raw[5]; sd.error = 1; writeCommand(0); Wire.requestFrom(dev_addr, 5); if (Wire.available() < 5) { PRINTLN("DHT12: could not read 5 bytes"); goto end; } // Parse the received data for (uint8_t i = 0; i < 5; i++) raw[i] = Wire.read(); if (((raw[0] + raw[1] + raw[2] + raw[3]) & 0xff) != raw[4]) { PRINTLN("DHT12: checksum error"); goto end; } // Calculate temperature and humidity values sd.temp = raw[2] + (raw[3] & 0x7f) * 0.1; if (raw[3] & 0x80) sd.temp *= -1; sd.rh = raw[0] + raw[1] * 0.1; sd.error = 0; end: return sd; } }