#include "atc_mithermometer.h" #include "esphome/core/log.h" #ifdef USE_ESP32 namespace esphome { namespace atc_mithermometer { static const char *const TAG = "atc_mithermometer"; void ATCMiThermometer::dump_config() { ESP_LOGCONFIG(TAG, "ATC MiThermometer"); LOG_SENSOR(" ", "Temperature", this->temperature_); LOG_SENSOR(" ", "Humidity", this->humidity_); LOG_SENSOR(" ", "Battery Level", this->battery_level_); LOG_SENSOR(" ", "Battery Voltage", this->battery_voltage_); } bool ATCMiThermometer::parse_device(const esp32_ble_tracker::ESPBTDevice &device) { if (device.address_uint64() != this->address_) { ESP_LOGVV(TAG, "parse_device(): unknown MAC address."); return false; } ESP_LOGVV(TAG, "parse_device(): MAC address %s found.", device.address_str().c_str()); bool success = false; for (auto &service_data : device.get_service_datas()) { auto res = parse_header_(service_data); if (!res.has_value()) { continue; } if (!(parse_message_(service_data.data, *res))) { continue; } if (!(report_results_(res, device.address_str()))) { continue; } if (res->temperature.has_value() && this->temperature_ != nullptr) this->temperature_->publish_state(*res->temperature); if (res->humidity.has_value() && this->humidity_ != nullptr) this->humidity_->publish_state(*res->humidity); if (res->battery_level.has_value() && this->battery_level_ != nullptr) this->battery_level_->publish_state(*res->battery_level); if (res->battery_voltage.has_value() && this->battery_voltage_ != nullptr) this->battery_voltage_->publish_state(*res->battery_voltage); success = true; } return success; } optional ATCMiThermometer::parse_header_(const esp32_ble_tracker::ServiceData &service_data) { ParseResult result; if (!service_data.uuid.contains(0x1A, 0x18)) { ESP_LOGVV(TAG, "parse_header(): no service data UUID magic bytes."); return {}; } auto raw = service_data.data; static uint8_t last_frame_count = 0; if (last_frame_count == raw[12]) { ESP_LOGVV(TAG, "parse_header(): duplicate data packet received (%hhu).", last_frame_count); return {}; } last_frame_count = raw[12]; return result; } bool ATCMiThermometer::parse_message_(const std::vector &message, ParseResult &result) { // Byte 0-5 mac in correct order // Byte 6-7 Temperature in uint16 // Byte 8 Humidity in percent // Byte 9 Battery in percent // Byte 10-11 Battery in mV uint16_t // Byte 12 frame packet counter const uint8_t *data = message.data(); const int data_length = 13; if (message.size() != data_length) { ESP_LOGVV(TAG, "parse_message(): payload has wrong size (%d)!", message.size()); return false; } // temperature, 2 bytes, 16-bit signed integer (LE), 0.1 °C const int16_t temperature = uint16_t(data[7]) | (uint16_t(data[6]) << 8); result.temperature = temperature / 10.0f; // humidity, 1 byte, 8-bit unsigned integer, 1.0 % result.humidity = data[8]; // battery, 1 byte, 8-bit unsigned integer, 1.0 % result.battery_level = data[9]; // battery, 2 bytes, 16-bit unsigned integer, 0.001 V const int16_t battery_voltage = uint16_t(data[11]) | (uint16_t(data[10]) << 8); result.battery_voltage = battery_voltage / 1.0e3f; return true; } bool ATCMiThermometer::report_results_(const optional &result, const std::string &address) { if (!result.has_value()) { ESP_LOGVV(TAG, "report_results(): no results available."); return false; } ESP_LOGD(TAG, "Got ATC MiThermometer (%s):", address.c_str()); if (result->temperature.has_value()) { ESP_LOGD(TAG, " Temperature: %.1f °C", *result->temperature); } if (result->humidity.has_value()) { ESP_LOGD(TAG, " Humidity: %.0f %%", *result->humidity); } if (result->battery_level.has_value()) { ESP_LOGD(TAG, " Battery Level: %.0f %%", *result->battery_level); } if (result->battery_voltage.has_value()) { ESP_LOGD(TAG, " Battery Voltage: %.3f V", *result->battery_voltage); } return true; } } // namespace atc_mithermometer } // namespace esphome #endif