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dbdb_ext_valve_board_pv1/usrc/base/hardware.cpp

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  1. #include "hardware.hpp"
  3. #include "adc.h"
  4. #include "tim.h"
  5. #include "zsdk/zcanreceiver/zcanreceiver.hpp"
  6. #define TAG "HARD"
  7. using namespace iflytop;
  9. /***********************************************************************************************************************
  10. * EXT *
  11. ***********************************************************************************************************************/
  13. static osThreadId H2O2CaptureThreadId;
  14. static osThreadId AlarmLightThreadId;
  16. /***********************************************************************************************************************
  17. * FUNC *
  18. ***********************************************************************************************************************/
  19. static void c_onH2O2CaptureThread(void const* argument) { Hardware::ins().onH2O2CaptureThread(); }
  20. static void c_onAlarmLightThread(void const* argument) { Hardware::ins().onAlarmLightThread(); }
  22. int32_t Hardware::readSwitchGroup() {
  23. int32_t id = 0;
  24. id |= m_switch_group0.read() << 0;
  25. id |= m_switch_group1.read() << 1;
  26. id |= m_switch_group2.read() << 2;
  27. id |= m_switch_group3.read() << 3;
  28. id |= m_switch_group4.read() << 4;
  29. }
  31. void Hardware::setAlarmLight(bool r, bool g, bool y) {
  32. m_alarmLightR.write(r);
  33. m_alarmLightG.write(g);
  34. m_alarmLightY.write(y);
  35. }
  37. void Hardware::setAlarmLight(light_state_t state) { m_alarmLightState = state; }
  39. void Hardware::init() {
  40. m_alarmLightR.initAsOutput(PD7, kxs_gpio_pullup, true, false);
  41. m_alarmLightG.initAsOutput(PD9, kxs_gpio_pullup, true, false);
  42. m_alarmLightY.initAsOutput(PD8, kxs_gpio_pullup, true, false);
  44. m_switch_group0.initAsInput(PE0, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  45. m_switch_group1.initAsInput(PE1, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  46. m_switch_group2.initAsInput(PE3, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  47. m_switch_group3.initAsInput(PE6, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  48. m_switch_group4.initAsInput(PE8, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  50. id_from_machine.initAsInput(PE8, kxs_gpio_nopull, kxs_gpio_no_irq, false);
  52. ZLOGI(TAG, "switch group:%d id_from_machine %d", readSwitchGroup(), id_from_machine.read());
  54. setAlarmLight(kdisconnected);
  55. /**
  56. * @brief HMP110
  57. */
  58. osDelay(2000); // 等待传感器上电
  60. #ifdef H2O2_SENSOR_TYPE_HMP110
  62. ZASSERT(huart2.Init.BaudRate == 19200);
  63. ZASSERT(huart2.Init.StopBits == UART_STOPBITS_2);
  64. m_H2o2Sensor_ModbusBlockHost.initialize(&huart2);
  65. m_H2o2Sensor_H2O2Adc.initialize(&hadc1, ADC_CHANNEL_10); //
  66. m_H2o2Sensor_HMP110.init(&m_H2o2Sensor_ModbusBlockHost);
  68. if (m_H2o2Sensor_HMP110.ping(1)) {
  69. m_h2o2sensor_detectId = 1;
  70. }
  71. if (m_H2o2Sensor_HMP110.ping(240)) {
  72. m_h2o2sensor_detectId = 240;
  73. }
  74. m_H2o2Sensor_HMP110.setid(m_h2o2sensor_detectId);
  75. ZLOGI(TAG, "H2O2 HMP110 Sensor detect id: %d", m_h2o2sensor_detectId);
  77. #endif
  79. #ifdef H2O2_SENSOR_TYPE_HPP272
  81. ZASSERT(huart3.Init.BaudRate == 19200);
  82. ZASSERT(huart3.Init.StopBits == UART_STOPBITS_2);
  83. m_H2o2Sensor_ModbusBlockHost.initialize(&huart3);
  84. m_H2o2Sensor_HPP272.init(&m_H2o2Sensor_ModbusBlockHost);
  86. if (m_H2o2Sensor_HPP272.ping(1)) {
  87. m_h2o2sensor_detectId = 1;
  88. }
  89. if (m_H2o2Sensor_HPP272.ping(240)) {
  90. m_h2o2sensor_detectId = 240;
  91. }
  93. m_H2o2Sensor_HPP272.setid(m_h2o2sensor_detectId);
  94. ZLOGI(TAG, "H2O2 HPP272 Sensor detect id: %d", m_h2o2sensor_detectId);
  96. #endif
  98. osThreadDef(H2O2CaptureThread, c_onH2O2CaptureThread, osPriorityNormal, 0, 1024);
  99. H2O2CaptureThreadId = osThreadCreate(osThread(H2O2CaptureThread), NULL);
  101. osThreadDef(AlarmLightThread, c_onAlarmLightThread, osPriorityNormal, 0, 1024);
  102. AlarmLightThreadId = osThreadCreate(osThread(AlarmLightThread), NULL);
  103. }
  105. /***********************************************************************************************************************
  106. * H2O2 *
  107. ***********************************************************************************************************************/
  109. bool Hardware::h2o2_sensor_is_online() {
  110. #ifdef H2O2_SENSOR_TYPE_HMP110
  111. if (m_h2o2sensor_detectId <= 0) return false;
  112. int32_t ecode = m_H2o2Sensor_HMP110.read_cache_errorcode();
  113. if (ecode == -1) return false;
  114. #endif
  116. #ifdef H2O2_SENSOR_TYPE_HPP272
  117. if (m_h2o2sensor_detectId <= 0) return false;
  118. int32_t ecode = m_H2o2Sensor_HPP272.read_cache_errorcode();
  119. if (ecode == -1) return false;
  120. #endif
  122. return true;
  123. }
  124. int32_t Hardware::h2o2_sensor_read_calibration_date(int32_t* year, int32_t* month, int32_t* day) { //
  125. *year = 1;
  126. *month = 2;
  127. *day = 3;
  128. return 0;
  129. }
  130. int32_t Hardware::h2o2_sensor_read_sub_ic_errorcode() { //
  131. #ifdef H2O2_SENSOR_TYPE_HPP272
  132. return m_H2o2Sensor_HPP272.read_cache_errorcode();
  133. #endif
  135. #ifdef H2O2_SENSOR_TYPE_HMP110
  136. return m_H2o2Sensor_HMP110.read_cache_errorcode();
  137. #endif
  138. }
  139. int32_t Hardware::h2o2_sensor_read_sub_ic_reg(int32_t add, uint16_t* val, size_t len) { //
  140. #ifdef H2O2_SENSOR_TYPE_HPP272
  141. return m_H2o2Sensor_HPP272.read_reg(add, val, len);
  142. #endif
  144. #ifdef H2O2_SENSOR_TYPE_HMP110
  145. return m_H2o2Sensor_HMP110.read_reg(add, val, len);
  146. #endif
  147. }
  148. int32_t Hardware::h2o2_sensor_data(report_h2o2_data_t* readdata) {
  149. #ifdef H2O2_SENSOR_TYPE_HMP110
  150. int32_t ecode = m_H2o2Sensor_HMP110.read_cache_errorcode();
  151. int32_t h2o2adcVal = m_H2o2Sensor_H2O2Adc.getCacheVal();
  152. HMP110::hmp110_sensordata_t sensordata;
  153. m_H2o2Sensor_HMP110.read_cache_sensor_data(&sensordata);
  156. // float mv = adcv / 4095.0 * 3.3 * 1000;
  157. // float ma = mv / 150.0;
  158. // float ppm = (ma - 4) / (20 - 4) * 2000;
  159. int32_t h2o2ma = (h2o2adcVal / 4095.0 * 3.3 * 1000) / 150.0;
  160. int32_t h2o2ppm = (h2o2ma - 4) / (20 - 4) * 2000;
  162. readdata->sensor_error = ecode != 0;
  163. readdata->h2o2 = h2o2ppm;
  164. readdata->humid = sensordata.rh;
  165. readdata->temp = sensordata.temp;
  166. readdata->saturation = 0;
  168. ZLOGI(TAG, "ecode: %d ppm:%d, rh:%d, temp:%d, df_ptemp:%d, ah:%d, mr:%d, wbt:%d, eh:%d", //
  169. ecode, //
  170. h2o2ppm, //
  171. sensordata.rh, //
  172. sensordata.temp, //
  173. sensordata.df_ptemp, //
  174. sensordata.ah, //
  175. sensordata.mr, //
  176. sensordata.wet_bulb_temp, //
  177. sensordata.enthalpy);
  179. return 0;
  180. #endif
  181. #ifdef H2O2_SENSOR_TYPE_HPP272
  183. int32_t ecode = m_H2o2Sensor_HPP272.read_cache_errorcode();
  184. HPP272::hpp272_data_t sensordata;
  185. m_H2o2Sensor_HPP272.read_cache_sensor_data(&sensordata);
  187. readdata->sensor_error = ecode != 0;
  188. readdata->h2o2 = sensordata.hydrogen_peroxide_volume / 10.0;
  189. readdata->humid = sensordata.relative_humidity / 10.0;
  190. readdata->temp = sensordata.temperature1 / 10.0;
  191. readdata->saturation = sensordata.h2o_h2o2_rs / 10.0;
  193. ZLOGI(TAG, "h2o2 %d, humid %d, temp %d, sat %d",
  194. sensordata.hydrogen_peroxide_volume / 10, //
  195. sensordata.relative_humidity / 10, //
  196. sensordata.temperature1 / 10, //
  197. sensordata.h2o_h2o2_rs / 10);
  199. return 0;
  200. #endif
  201. }
  203. void Hardware::onH2O2CaptureThread() {
  204. while (1) {
  205. osDelay(1000);
  207. #ifdef H2O2_SENSOR_TYPE_HMP110
  208. if (m_h2o2sensor_detectId > 0) {
  209. m_H2o2Sensor_H2O2Adc.updateAdcValToCache();
  210. m_H2o2Sensor_HMP110.updateSensorDataAndErrorcode();
  211. }
  212. #endif
  214. #ifdef H2O2_SENSOR_TYPE_HPP272
  215. if (m_h2o2sensor_detectId > 0) {
  216. m_H2o2Sensor_HPP272.updateSensorDataAndErrorcode();
  217. }
  218. #endif
  219. }
  220. }
  222. void Hardware::onAlarmLightThread() {
  223. while (1) {
  224. osDelay(500);
  225. if (m_alarmLightState == kdisconnected) {
  226. static bool state;
  227. setAlarmLight(false, state, false);
  228. state = !state;
  229. } else if (m_alarmLightState == kconnected) {
  230. setAlarmLight(true, true, false);
  231. } else if (m_alarmLightState == kerror) {
  232. setAlarmLight(true, false, false);
  233. }
  234. }
  235. }