diff --git a/applications/main.c b/applications/main.c index d4382c0..5258aa9 100644 --- a/applications/main.c +++ b/applications/main.c @@ -2,8 +2,8 @@ * @Author: mbw * @Date: 2024-10-23 17:14:16 * @LastEditors: mbw && 1600520629@qq.com - * @LastEditTime: 2025-06-01 08:35:48 - * @FilePath: \1\ble_-tyq_-bjq_-ch32-v303\applications\main.c + * @LastEditTime: 2025-06-04 08:54:13 + * @FilePath: \ble_bjq_ch303rct6_ml307\applications\main.c * @Descrt_thread_ * * Copyright (c) 2024 by ${git_name_email}, All Rights Reserved. @@ -27,6 +27,8 @@ #include "bsp_vin_detection.h" #include "user_sys.h" #include "bsp_bt.h" +#include "math.h" + #define LOG_TAG "main" #define LOG_LVL LOG_LVL_DBG @@ -36,21 +38,21 @@ static rt_uint32_t event_flags[kMaxEventcnt] = {0}; struct rt_event alarm_event; -rt_bool_t is_event_initialized = RT_FALSE; // 是否初始化完成 +rt_bool_t is_event_initialized = RT_FALSE; // 是否初始化完成 TsSysControl SysControl; struct rt_timer work_cnt_timer; -struct rt_timer preheat_timer; // 传统模式需要进行预热, +struct rt_timer preheat_timer; // 传统模式需要进行预热, -uint8_t preheat_flag = 0; // 预热时间是否结束标志 +uint8_t preheat_flag = 0; // 预热时间是否结束标志 -uint8_t Calibration_flag = 0; // 查看是否在标定检测状态 -void Send_Laser_Alarm_Event (AlarmEvent event_type); +uint8_t Calibration_flag = 0; // 查看是否在标定检测状态 +void Send_Laser_Alarm_Event(AlarmEvent event_type); TeCalibrationStatus g_Calibration_status = kNotCalibrated; -static void Set_Event (AlarmEvent event_type) +static void Set_Event(AlarmEvent event_type) { if (event_type < kMaxEventcnt) { @@ -58,28 +60,28 @@ static void Set_Event (AlarmEvent event_type) } } -void SYS_EventInit (void) +void SYS_EventInit(void) { if (!is_event_initialized) { - if (rt_event_init (&alarm_event, "alarm_event", RT_IPC_FLAG_PRIO) == RT_EOK) + if (rt_event_init(&alarm_event, "alarm_event", RT_IPC_FLAG_PRIO) == RT_EOK) { for (AlarmEvent event = kPowerOnEvent; event < kMaxEventcnt; event++) { - Set_Event (event); + Set_Event(event); } is_event_initialized = RT_TRUE; } else { is_event_initialized = RT_FALSE; - LOG_E ("Alarm event init failed!"); + LOG_E("Alarm event init failed!"); } } } -rt_uint32_t Get_Sys_Event_Flag (AlarmEvent event_type) +rt_uint32_t Get_Sys_Event_Flag(AlarmEvent event_type) { if (is_event_initialized == RT_TRUE) { @@ -91,81 +93,111 @@ rt_uint32_t Get_Sys_Event_Flag (AlarmEvent event_type) return kMaxEventcnt; } -void Send_Laser_Alarm_Event (AlarmEvent event_type) +void Send_Laser_Alarm_Event(AlarmEvent event_type) { if (is_event_initialized == RT_TRUE) { if (SysControl.status == kPowerDownEvent) { - LOG_D ("掉电模式下不处理其他事件"); + LOG_D("掉电模式下不处理其他事件"); } else { - LOG_I ("Send_Laser_Alarm_Event = %d", event_type); - rt_event_send (&alarm_event, Get_Sys_Event_Flag (event_type)); + LOG_I("Send_Laser_Alarm_Event = %d", event_type); + rt_event_send(&alarm_event, Get_Sys_Event_Flag(event_type)); } } else { is_event_initialized = RT_FALSE; - LOG_E ("Alarm event no init !"); + LOG_E("Alarm event no init !"); } } -int _Self_Check_Mode (void) +int _Self_Check_Mode(void) { - LED_STOP (r); - LED_STOP (g); - LED_STOP (y); - rt_thread_mdelay (500); - LED_CTRL (g, "500,2500", -1); - LED_START (g); - rt_thread_mdelay (1000); - LED_CTRL (y, "500,2500", -1); - LED_START (y); - rt_thread_mdelay (1000); - LED_CTRL (r, "500,2500", -1); - LED_START (r); - rt_thread_mdelay (1000); + LED_STOP(r); + LED_STOP(g); + LED_STOP(y); + rt_thread_mdelay(500); + LED_CTRL(g, "500,2500", -1); + LED_START(g); + rt_thread_mdelay(1000); + LED_CTRL(y, "500,2500", -1); + LED_START(y); + rt_thread_mdelay(1000); + LED_CTRL(r, "500,2500", -1); + LED_START(r); + rt_thread_mdelay(1000); BEEP_SELF_CHECK; return RT_EOK; } -void Work_Cnt_Timer_Callback (void *parameter) +void Work_Cnt_Timer_Callback(void *parameter) { work_duration++; - if (IS_EndOfLife()) // 每小时检测一下是否过期 + if (IS_EndOfLife()) // 每小时检测一下是否过期 { - if (Flash_GetNum_Records (kRecordSensoEndOfLife) == 0) + if (Flash_GetNum_Records(kRecordSensoEndOfLife) == 0) { - Flash_Write_Record (kRecordSensoEndOfLife); + Flash_Write_Record(kRecordSensoEndOfLife); } - Send_Laser_Alarm_Event (kSensorFailureEvent); + Send_Laser_Alarm_Event(kSensorFailureEvent); } } -void Preheat_Timer_Callback (void *parameter) +void Preheat_Timer_Callback(void *parameter) { - LED_STOP (r); - LED_STOP (g); - LED_STOP (y); - LOG_D ("预热完成"); + LED_STOP(r); + LED_STOP(g); + LED_STOP(y); + LOG_D("预热完成"); preheat_flag = 1; if (g_Calibration_status == kSysGasCalibStatus) { - Send_Laser_Alarm_Event (kNormalDetectionEvents); + Send_Laser_Alarm_Event(kNormalDetectionEvents); } else { - Send_Laser_Alarm_Event (kCalibrationEvent); + Send_Laser_Alarm_Event(kCalibrationEvent); } } -int APP_Calibration_Handle (void) +#define STABLE_THRESHOLD 0.01f // 1%波动视为稳定 + +uint16_t Get_Stable_Reading(uint8_t cnt, uint32_t timeout_ms) +{ + uint32_t start = rt_tick_get(); + uint16_t last = Get_Gas_VoltageAdcInt1000x(); + uint16_t current; + uint8_t stable_count = 0; + + while ((rt_tick_get() - start) < timeout_ms) + { + current = Get_Gas_VoltageAdcInt1000x(); + + float diff = fabs((float)(current - last) / last);// 差值 + if (diff < STABLE_THRESHOLD) + { + stable_count++; + if (stable_count >= cnt) return current; // 连续n次稳定 + } + else + { + stable_count = 0; + } + + last = current; + rt_thread_mdelay(200); + } + + return 0; // 超时 +} + +/*标定函数*/ +int APP_Calibration_Handle(void) { - uint8_t i = 0; - uint16_t gas_buf[10] = {0}; uint32_t gas_calibration_voltage = 0; // if (Get_Gas_VoltageAdcInt1000x() > 400 && Get_Gas_VoltageAdcInt1000x() < 900) @@ -178,61 +210,88 @@ int APP_Calibration_Handle (void) // } if (Get_Gas_VoltageAdcInt1000x() > (MQ_VOLTAGE_ALARM_DEFAULT - 1500) && Get_Gas_VoltageAdcInt1000x() < (MQ_VOLTAGE_ALARM_DEFAULT + 1000)) { - LOG_D ("标定开始"); - LED_OFF (g); - LED_OFF (y); - LED_OFF (r); - LED_CTRL (y, "200,200", -1); - LED_START (y); + LOG_D("标定开始"); + LED_OFF(g); + LED_OFF(y); + LED_OFF(r); + LED_CTRL(y, "200,200", -1); + LED_START(y); } else { g_Calibration_status = kNotCalibrated; - LOG_D ("没有气体,请重新上电标定"); - Send_Laser_Alarm_Event (kNotCalibratedEvent); + LOG_D("没有气体,请重新上电标定"); + Send_Laser_Alarm_Event(kNotCalibratedEvent); return 0; } Calibration_flag = 1; - while (1) + uint8_t calibration_buf[2] = {0}; +/* 获取10个数据 */ +#if 0 + uint8_t i = 0; + uint16_t gas_buf[10] = {0}; + for (i = 0; i < 10; i++) { - for (i = 0; i < 10; i++) + gas_buf[i] = Get_Gas_VoltageAdcInt1000x(); + if (gas_buf[i] == 0) { - gas_buf[i] = Get_Gas_VoltageAdcInt1000x(); - if (gas_buf[i] == 0) - { - return 0; - } - gas_calibration_voltage += gas_buf[i]; - rt_thread_mdelay (1000); - } - if (i == 10) - { - gas_calibration_voltage = (uint16_t)gas_calibration_voltage / 10; - uint8_t calibration_buf[2] = {0}; - calibration_buf[0] = gas_calibration_voltage & 0xFF; // 低字节 - calibration_buf[1] = (gas_calibration_voltage >> 8) & 0xFF; // 高字节 - LOG_D ("calibration_buf[0] = %X calibration_buf[1] = %X", calibration_buf[0], calibration_buf[1]); - Flash_Sys_Cfg (kAlarmLValueId, calibration_buf, 2); - LOG_D ("标定完成"); - Calibration_flag = 0; - Flash_Set_Calibration_State (kSysGasCalibStatus); - g_Calibration_status = kSysGasCalibStatus; - Send_Laser_Alarm_Event (kNormalDetectionEvents); - return 0; } - else - { - LOG_E ("标定错误"); - return -1; - } + gas_calibration_voltage += gas_buf[i]; + rt_thread_mdelay(1000); } + if (i == 10) + { + gas_calibration_voltage = (uint16_t)(gas_calibration_voltage / 10); + + calibration_buf[0] = gas_calibration_voltage & 0xFF; // 低字节 + calibration_buf[1] = (gas_calibration_voltage >> 8) & 0xFF; // 高字节 + LOG_D("calibration_buf[0] = %X calibration_buf[1] = %X", calibration_buf[0], calibration_buf[1]); + Flash_Sys_Cfg(kAlarmLValueId, calibration_buf, 2); + LOG_D("标定完成"); + Calibration_flag = 0; + Flash_Set_Calibration_State(kSysGasCalibStatus); + g_Calibration_status = kSysGasCalibStatus; + Send_Laser_Alarm_Event(kNormalDetectionEvents); + + return 0; + } + else + { + LOG_E("标定错误"); + return -1; + } +#else + gas_calibration_voltage = Get_Stable_Reading(5, 10000);//10s内连续5次稳定,则认为其标定浓度稳定,进行标定 + if(gas_calibration_voltage == 0) + { + LOG_D("标定超时,标定错误"); + Send_Laser_Alarm_Event(kNotCalibratedEvent); + return -1; + } + else + { + calibration_buf[0] = gas_calibration_voltage & 0xFF; // 低字节 + calibration_buf[1] = (gas_calibration_voltage >> 8) & 0xFF; // 高字节 + LOG_D("calibration_buf[0] = %X calibration_buf[1] = %X", calibration_buf[0], calibration_buf[1]); + Flash_Sys_Cfg(kAlarmLValueId, calibration_buf, 2); + LOG_D("标定完成"); + Calibration_flag = 0; + Flash_Set_Calibration_State(kSysGasCalibStatus); + g_Calibration_status = kSysGasCalibStatus; + Send_Laser_Alarm_Event(kNormalDetectionEvents); + return 0; + } + +#endif + + } -int main (void) +int main(void) { // 定义超时时间,单位为毫秒 -#define TIMEOUT_MS (3 * 60 * 1000) +#define TIMEOUT_MS (3 * 60 * 1000) #define WORK_TIMER_CNT (1000 * 60 * 60 * 24) if (Get_VIN_VoltageInt1000x() > 10000) @@ -240,328 +299,327 @@ int main (void) SYS_EventInit(); BSP_SYS_Init(); work_duration = Flash_Get_WorkDuration(); - LOG_D ("工作时长:%d", work_duration); + LOG_D("工作时长:%d", work_duration); // 读取历史记录总数 g_Calibration_status = Flash_Get_Calibration_State(); - rt_thread_mdelay (10); + rt_thread_mdelay(10); } else { - LOG_D ("欠压复位\r\n"); + LOG_D("欠压复位\r\n"); RCC_ClearFlag(); - NVIC_SystemReset(); // 直接重启系统 + NVIC_SystemReset(); // 直接重启系统 } BSP_VIN_Detection_Init(); - rt_err_t result = RT_EINVAL; rt_uint32_t received_event; TuFlashProductTimeLimitFrame LimitTime; - if (Flash_GetProductTimeLimit (&LimitTime, kExpirationTimeId) == READY) + if (Flash_GetProductTimeLimit(&LimitTime, kExpirationTimeId) == READY) { // 计算出 到期时间对应的RTC秒数 - Sensor_device.expiration_seconds = DateTime2Seconds (LimitTime.Struct.year, - LimitTime.Struct.month, LimitTime.Struct.day, LimitTime.Struct.hour, - LimitTime.Struct.minute, LimitTime.Struct.second); - LOG_D ("h308_expiration_time:%04d-%02d-%02d,%02d:%02d", - LimitTime.Struct.year, LimitTime.Struct.month, LimitTime.Struct.day, - LimitTime.Struct.hour, LimitTime.Struct.minute, LimitTime.Struct.second); + Sensor_device.expiration_seconds = DateTime2Seconds(LimitTime.Struct.year, + LimitTime.Struct.month, LimitTime.Struct.day, LimitTime.Struct.hour, + LimitTime.Struct.minute, LimitTime.Struct.second); + LOG_D("h308_expiration_time:%04d-%02d-%02d,%02d:%02d", + LimitTime.Struct.year, LimitTime.Struct.month, LimitTime.Struct.day, + LimitTime.Struct.hour, LimitTime.Struct.minute, LimitTime.Struct.second); } - rt_timer_init (&work_cnt_timer, - "work_cnt_timer", - Work_Cnt_Timer_Callback, - RT_NULL, - WORK_TIMER_CNT, - RT_TIMER_FLAG_PERIODIC); - rt_timer_start (&work_cnt_timer); - rt_timer_init (&preheat_timer, - "preheat_timer", - Preheat_Timer_Callback, - RT_NULL, - TIMEOUT_MS, - RT_TIMER_FLAG_SOFT_TIMER | RT_TIMER_FLAG_ONE_SHOT); + rt_timer_init(&work_cnt_timer, + "work_cnt_timer", + Work_Cnt_Timer_Callback, + RT_NULL, + WORK_TIMER_CNT, + RT_TIMER_FLAG_PERIODIC); + rt_timer_start(&work_cnt_timer); + rt_timer_init(&preheat_timer, + "preheat_timer", + Preheat_Timer_Callback, + RT_NULL, + TIMEOUT_MS, + RT_TIMER_FLAG_SOFT_TIMER | RT_TIMER_FLAG_ONE_SHOT); // 检测上电/掉电复位标志 - if (RCC_GetFlagStatus (RCC_FLAG_PORRST) != RESET) // TODO:这块超级电容会造成掉电重启,并且标志是上电复位,只能通过其超级电容造成复位时事件创建失败进行判断,不治本 + if (RCC_GetFlagStatus(RCC_FLAG_PORRST) != RESET) // TODO:这块超级电容会造成掉电重启,并且标志是上电复位,只能通过其超级电容造成复位时事件创建失败进行判断,不治本 { - Send_Laser_Alarm_Event (kPowerOnEvent); + Send_Laser_Alarm_Event(kPowerOnEvent); } else { - Send_Laser_Alarm_Event (kPreheatingEvent); // 这一句的作用是设备不是掉电重启的情况,直接进入预热模式 + Send_Laser_Alarm_Event(kPreheatingEvent); // 这一句的作用是设备不是掉电重启的情况,直接进入预热模式 } RCC_ClearFlag(); while (1) { - result = rt_event_recv (&alarm_event, - Get_Sys_Event_Flag (kPowerOnEvent) | // 上电 - Get_Sys_Event_Flag (kPowerDownEvent) | // 掉电 - Get_Sys_Event_Flag (kPreheatingEvent) | // 预热 - Get_Sys_Event_Flag (kNormalDetectionEvents) | // 正常检测 - Get_Sys_Event_Flag (kSensorFailureEvent) | // 寿命到期 - Get_Sys_Event_Flag (kAlarmEvent) | // 报警 - Get_Sys_Event_Flag (kAlarmRcyEvent) | // 报警恢复 - Get_Sys_Event_Flag (kSelfCheckEvent) | // 自检 - Get_Sys_Event_Flag (kFaultEvent) | // 故障模式 - Get_Sys_Event_Flag (kFaultRcyEvent) | // 故障恢复 - Get_Sys_Event_Flag (KMuteEvent) | // 消音 - Get_Sys_Event_Flag (kCalibrationEvent) | // 标定 - Get_Sys_Event_Flag (kNotCalibratedEvent), // 标定 - RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR, - RT_WAITING_FOREVER, &received_event); + result = rt_event_recv(&alarm_event, + Get_Sys_Event_Flag(kPowerOnEvent) | // 上电 + Get_Sys_Event_Flag(kPowerDownEvent) | // 掉电 + Get_Sys_Event_Flag(kPreheatingEvent) | // 预热 + Get_Sys_Event_Flag(kNormalDetectionEvents) | // 正常检测 + Get_Sys_Event_Flag(kSensorFailureEvent) | // 寿命到期 + Get_Sys_Event_Flag(kAlarmEvent) | // 报警 + Get_Sys_Event_Flag(kAlarmRcyEvent) | // 报警恢复 + Get_Sys_Event_Flag(kSelfCheckEvent) | // 自检 + Get_Sys_Event_Flag(kFaultEvent) | // 故障模式 + Get_Sys_Event_Flag(kFaultRcyEvent) | // 故障恢复 + Get_Sys_Event_Flag(KMuteEvent) | // 消音 + Get_Sys_Event_Flag(kCalibrationEvent) | // 标定 + Get_Sys_Event_Flag(kNotCalibratedEvent), // 标定 + RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR, + RT_WAITING_FOREVER, &received_event); if (result == RT_EOK) { if (is_event_initialized == RT_TRUE) { - if (received_event & Get_Sys_Event_Flag (kPowerOnEvent)) // 上电 + if (received_event & Get_Sys_Event_Flag(kPowerOnEvent)) // 上电 { - LOG_D ("上电模式"); - LOG_D ("is_event_initialized :%d", is_event_initialized); + LOG_D("上电模式"); + LOG_D("is_event_initialized :%d", is_event_initialized); SysControl.status = kPowerOnEvent; - Flash_Write_Record (kRecordPowerOn); - Send_Laser_Alarm_Event (kPreheatingEvent); + Flash_Write_Record(kRecordPowerOn); + Send_Laser_Alarm_Event(kPreheatingEvent); } - else if (received_event & Get_Sys_Event_Flag (kPreheatingEvent)) // 预热 + else if (received_event & Get_Sys_Event_Flag(kPreheatingEvent)) // 预热 { - LOG_D ("预热模式"); + LOG_D("预热模式"); SysControl.last_status = SysControl.status; - SysControl.status = kPreheatingEvent; + SysControl.status = kPreheatingEvent; if (SysControl.last_status != kSelfCheckEvent) { LED_G_PREAT; - rt_timer_start (&preheat_timer); + rt_timer_start(&preheat_timer); } else { - LED_STOP (r); - LED_STOP (g); - LED_STOP (y); - LED_CTRL (g, "100,100", -1); - LED_START (g); + LED_STOP(r); + LED_STOP(g); + LED_STOP(y); + LED_CTRL(g, "100,100", -1); + LED_START(g); } } - else if (received_event & Get_Sys_Event_Flag (kCalibrationEvent)) // 标定状态 + else if (received_event & Get_Sys_Event_Flag(kCalibrationEvent)) // 标定状态 { - LOG_D ("标定检测"); + LOG_D("标定检测"); SysControl.last_status = SysControl.status; - SysControl.status = kCalibrationEvent; + SysControl.status = kCalibrationEvent; APP_Calibration_Handle(); } - else if (received_event & Get_Sys_Event_Flag (kNotCalibratedEvent)) // 未标定状态 + else if (received_event & Get_Sys_Event_Flag(kNotCalibratedEvent)) // 未标定状态 { - LOG_D ("未标定模式"); + LOG_D("未标定模式"); SysControl.last_status = SysControl.status; - SysControl.status = kNotCalibratedEvent; - LED_STOP (r); - LED_STOP (g); - LED_STOP (y); - LED_ON (r); + SysControl.status = kNotCalibratedEvent; + LED_STOP(r); + LED_STOP(g); + LED_STOP(y); + LED_ON(r); } - else if (received_event & Get_Sys_Event_Flag (kNormalDetectionEvents)) // 正常检测 + else if (received_event & Get_Sys_Event_Flag(kNormalDetectionEvents)) // 正常检测 { SysControl.last_status = SysControl.status; - SysControl.status = kNormalDetectionEvents; - rt_uint16_t voltage = Get_Gas_VoltageAdcInt1000x(); + SysControl.status = kNormalDetectionEvents; + rt_uint16_t voltage = Get_Gas_VoltageAdcInt1000x(); if (Sensor_device.detection_flag == kSensorAlarm) { if ((voltage > Sensor_device.alarm_value) && (voltage < MQ_VOLTAGE_HIGH_LIMIT)) { - Send_Laser_Alarm_Event (kAlarmEvent); + Send_Laser_Alarm_Event(kAlarmEvent); } } else if (Sensor_device.detection_flag == kSensorFault) { if ((voltage < MQ_VOLTAGE_LOW_LIMIT) || (voltage > MQ_VOLTAGE_HIGH_LIMIT)) { - Send_Laser_Alarm_Event (kFaultEvent); + Send_Laser_Alarm_Event(kFaultEvent); } } } - else if (received_event & Get_Sys_Event_Flag (kAlarmExceptionEvent)) // 浓度异常 + else if (received_event & Get_Sys_Event_Flag(kAlarmExceptionEvent)) // 浓度异常 { - LOG_D ("浓度异常模式"); + LOG_D("浓度异常模式"); SysControl.last_status = SysControl.status; - SysControl.status = kAlarmExceptionEvent; + SysControl.status = kAlarmExceptionEvent; LED_R_ALARM; - LOG_D ("LED_R_ALARM"); + LOG_D("LED_R_ALARM"); } - else if (received_event & Get_Sys_Event_Flag (kAlarmEvent)) // 报警 + else if (received_event & Get_Sys_Event_Flag(kAlarmEvent)) // 报警 { - LOG_D ("报警模式"); + LOG_D("报警模式"); SysControl.last_status = SysControl.status; - SysControl.status = kAlarmEvent; + SysControl.status = kAlarmEvent; LED_R_ALARM; BEEP_ALARM; - LOG_I ("报警机械手动作"); - EMV_FORWARD_ON (50); - rt_thread_mdelay (10); - EMV_BACKWARD_ON (50); + LOG_I("报警机械手动作"); + EMV_FORWARD_ON(50); + rt_thread_mdelay(10); + EMV_BACKWARD_ON(50); - Flash_Write_Record (kRecordAlarm); // 写入flash报警信息 + Flash_Write_Record(kRecordAlarm); // 写入flash报警信息 if (Flash_Get_Valve_Num()) { rt_uint8_t mac_addr[6]; - Flash_Get_Mac_Addr (mac_addr, 1); - Bt_Valve_Handler (kValveCmdCtr, 1, mac_addr); - if (rt_sem_take (&bt_ctr_sem, 10000) == RT_EOK) + Flash_Get_Mac_Addr(mac_addr, 1); + Bt_Valve_Handler(kValveCmdCtr, 1, mac_addr); + if (rt_sem_take(&bt_ctr_sem, 10000) == RT_EOK) { - LOG_D ("电磁阀动作完成"); + LOG_D("电磁阀动作完成"); } else { - LOG_E ("电磁阀动作失败"); + LOG_E("电磁阀动作失败"); } } #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307AlarmEvent); + Ml307_Send_Event(kMl307AlarmEvent); #endif } - else if (received_event & Get_Sys_Event_Flag (kAlarmRcyEvent)) // 报警恢复 + else if (received_event & Get_Sys_Event_Flag(kAlarmRcyEvent)) // 报警恢复 { - LOG_D ("报警恢复模式"); + LOG_D("报警恢复模式"); SysControl.last_status = SysControl.status; - SysControl.status = kAlarmRcyEvent; - Flash_Write_Record (kRecordAlarmRcy); + SysControl.status = kAlarmRcyEvent; + Flash_Write_Record(kRecordAlarmRcy); BEEP_STOP; #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307AlarmRcyEvent); + Ml307_Send_Event(kMl307AlarmRcyEvent); #endif - Send_Laser_Alarm_Event (kNormalDetectionEvents); + Send_Laser_Alarm_Event(kNormalDetectionEvents); } - else if (received_event & Get_Sys_Event_Flag (kFaultEvent)) // 故障 + else if (received_event & Get_Sys_Event_Flag(kFaultEvent)) // 故障 { - LOG_D ("故障模式"); + LOG_D("故障模式"); SysControl.last_status = SysControl.status; - SysControl.status = kFaultEvent; + SysControl.status = kFaultEvent; - Flash_Write_Record (kRecordFault); + Flash_Write_Record(kRecordFault); LED_Y_FAULT; #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307FaultEvent); + Ml307_Send_Event(kMl307FaultEvent); #endif } - else if (received_event & Get_Sys_Event_Flag (kFaultRcyEvent)) // 故障恢复 + else if (received_event & Get_Sys_Event_Flag(kFaultRcyEvent)) // 故障恢复 { - LOG_D ("故障恢复模式"); + LOG_D("故障恢复模式"); SysControl.last_status = SysControl.status; - SysControl.status = kFaultRcyEvent; + SysControl.status = kFaultRcyEvent; - Flash_Write_Record (kRecordFaultRcy); + Flash_Write_Record(kRecordFaultRcy); BEEP_STOP; - Send_Laser_Alarm_Event (kNormalDetectionEvents); + Send_Laser_Alarm_Event(kNormalDetectionEvents); #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307FaultRcyEvent); + Ml307_Send_Event(kMl307FaultRcyEvent); #endif } - else if (received_event & Get_Sys_Event_Flag (KMuteEvent)) // 消音 + else if (received_event & Get_Sys_Event_Flag(KMuteEvent)) // 消音 { - LOG_D ("消音模式"); + LOG_D("消音模式"); SysControl.last_status = SysControl.status; - SysControl.status = KMuteEvent; + SysControl.status = KMuteEvent; #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307SilenceEvent); + Ml307_Send_Event(kMl307SilenceEvent); #endif BEEP_STOP; } - else if (received_event & Get_Sys_Event_Flag (kPowerDownEvent)) // 掉电 + else if (received_event & Get_Sys_Event_Flag(kPowerDownEvent)) // 掉电 { - LOG_D ("掉电模式"); + LOG_D("掉电模式"); SysControl.last_status = SysControl.status; - SysControl.status = kPowerDownEvent; + SysControl.status = kPowerDownEvent; GAS_POWER_CLOSE; // 写入掉电记录 - Flash_Write_Record (kRecordPowerDown); - Flash_Set_WorkDuration (work_duration); // 写入工作时长 + Flash_Write_Record(kRecordPowerDown); + Flash_Set_WorkDuration(work_duration); // 写入工作时长 if (Flash_Get_Valve_Num()) { rt_uint8_t mac_addr[6]; - Flash_Get_Mac_Addr (mac_addr, 1); - Bt_Valve_Handler (kValveCmdCtr, 1, mac_addr); + Flash_Get_Mac_Addr(mac_addr, 1); + Bt_Valve_Handler(kValveCmdCtr, 1, mac_addr); } #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307PowerDownEvent); + Ml307_Send_Event(kMl307PowerDownEvent); #endif if (Flash_Get_Valve_Num()) { - if (rt_sem_take (&bt_ctr_sem, 5000) == RT_EOK) + if (rt_sem_take(&bt_ctr_sem, 5000) == RT_EOK) { - LOG_D ("电磁阀动作完成"); + LOG_D("电磁阀动作完成"); } else { - LOG_E ("电磁阀动作失败"); + LOG_E("电磁阀动作失败"); } } rt_uint8_t cnt = 0; - while ((ml307_power_down_flag == 0) && (cnt < 30)) // 等待接收到物联网模组关机完成 + while ((ml307_power_down_flag == 0) && (cnt < 30)) // 等待接收到物联网模组关机完成 { - rt_thread_mdelay (1000); - LOG_D ("cnt = %d", cnt); + rt_thread_mdelay(1000); + LOG_D("cnt = %d", cnt); cnt++; } - __disable_irq(); // 关闭中断 - NVIC_SystemReset(); // 直接重启系统 + __disable_irq(); // 关闭中断 + NVIC_SystemReset(); // 直接重启系统 } - else if (received_event & Get_Sys_Event_Flag (kSelfCheckEvent)) // 自检 + else if (received_event & Get_Sys_Event_Flag(kSelfCheckEvent)) // 自检 { - LOG_D ("自检模式"); + LOG_D("自检模式"); SysControl.last_status = SysControl.status; - LOG_D ("Self Check Mode SysControl.last_status:%d", SysControl.last_status); + LOG_D("Self Check Mode SysControl.last_status:%d", SysControl.last_status); SysControl.status = kSelfCheckEvent; _Self_Check_Mode(); - rt_thread_mdelay (5000); + rt_thread_mdelay(5000); // 第5s关闭电磁阀 - LOG_I ("自检机械手动作"); - EMV_FORWARD_ON (50); - rt_thread_mdelay (10); - EMV_BACKWARD_ON (50); + LOG_I("自检机械手动作"); + EMV_FORWARD_ON(50); + rt_thread_mdelay(10); + EMV_BACKWARD_ON(50); if (Flash_Get_Valve_Num()) { rt_uint8_t mac_addr[6] = {0}; - Flash_Get_Mac_Addr (mac_addr, 1); - Bt_Valve_Handler (kValveCmdCtr, 1, mac_addr); - if (rt_sem_take (&bt_ctr_sem, 10000) == RT_EOK) + Flash_Get_Mac_Addr(mac_addr, 1); + Bt_Valve_Handler(kValveCmdCtr, 1, mac_addr); + if (rt_sem_take(&bt_ctr_sem, 10000) == RT_EOK) { - LOG_D ("电磁阀动作完成"); + LOG_D("电磁阀动作完成"); } else { - LOG_E ("电磁阀动作失败"); + LOG_E("电磁阀动作失败"); } } #if (IOT_MODULE_SWITCH == 1) - Ml307_Send_Event (kMl307SelfCheckEvent); + Ml307_Send_Event(kMl307SelfCheckEvent); #endif - LED_STOP (r); - LED_STOP (g); - LED_STOP (y); + LED_STOP(r); + LED_STOP(g); + LED_STOP(y); if (g_Calibration_status == kSysGasCalibStatus) { @@ -569,43 +627,43 @@ int main (void) { if (preheat_flag) { - Send_Laser_Alarm_Event (kNormalDetectionEvents); + Send_Laser_Alarm_Event(kNormalDetectionEvents); } else { - Send_Laser_Alarm_Event (kPreheatingEvent); + Send_Laser_Alarm_Event(kPreheatingEvent); } } else { - Send_Laser_Alarm_Event (kNormalDetectionEvents); + Send_Laser_Alarm_Event(kNormalDetectionEvents); } } else { if (preheat_flag) { - Send_Laser_Alarm_Event (kNotCalibratedEvent); + Send_Laser_Alarm_Event(kNotCalibratedEvent); } else { - Send_Laser_Alarm_Event (kPreheatingEvent); + Send_Laser_Alarm_Event(kPreheatingEvent); } } } - else if (received_event & Get_Sys_Event_Flag (kSensorFailureEvent)) // 失效 + else if (received_event & Get_Sys_Event_Flag(kSensorFailureEvent)) // 失效 { - LOG_D ("传感器失效模式"); + LOG_D("传感器失效模式"); SysControl.last_status = SysControl.status; - SysControl.status = kSensorFailureEvent; + SysControl.status = kSensorFailureEvent; - if (Flash_GetNum_Records (kRecordSensoEndOfLife) == 0) + if (Flash_GetNum_Records(kRecordSensoEndOfLife) == 0) { - Flash_Write_Record (kRecordSensoEndOfLife); + Flash_Write_Record(kRecordSensoEndOfLife); } - Ml307_Send_Event (kMl307DeviceFailureEvent); // 发送一个失效事件 - Send_Laser_Alarm_Event (kNormalDetectionEvents); /// 再返回正常模式继续检测 + Ml307_Send_Event(kMl307DeviceFailureEvent); // 发送一个失效事件 + Send_Laser_Alarm_Event(kNormalDetectionEvents); /// 再返回正常模式继续检测 // LED_Y_END_OF_LIFE; } } @@ -614,63 +672,63 @@ int main (void) } #ifdef TEST_ENABLE -static void SYS_Set_RtcProductTime (int argc, char **argv) +static void SYS_Set_RtcProductTime(int argc, char **argv) { if (argc == 7) { - int year = atoi (argv[1]); - int mon = atoi (argv[2]); - int day = atoi (argv[3]); - int hour = atoi (argv[4]); - int min = atoi (argv[5]); - int second = atoi (argv[6]); - RTC_SetTime (2000 + year, mon, day, hour, min, second); + int year = atoi(argv[1]); + int mon = atoi(argv[2]); + int day = atoi(argv[3]); + int hour = atoi(argv[4]); + int min = atoi(argv[5]); + int second = atoi(argv[6]); + RTC_SetTime(2000 + year, mon, day, hour, min, second); RTC_GetTime(); - LOG_D ("RTC: %4d-%02d-%02d, %02d:%02d:%02d", RtcDateTime.year, RtcDateTime.month, RtcDateTime.day, - RtcDateTime.hour, RtcDateTime.minute, RtcDateTime.second); + LOG_D("RTC: %4d-%02d-%02d, %02d:%02d:%02d", RtcDateTime.year, RtcDateTime.month, RtcDateTime.day, + RtcDateTime.hour, RtcDateTime.minute, RtcDateTime.second); // 设置出厂时间 - Flash_SetProductTimeLimit (2000 + year, mon, day, hour, min, second, kFactoryTimeId); + Flash_SetProductTimeLimit(2000 + year, mon, day, hour, min, second, kFactoryTimeId); // 到期时间自动 + 5年30天 - Set_ExpirationTime (MAX_EXPIRATION_DAYS); + Set_ExpirationTime(MAX_EXPIRATION_DAYS); } else { - LOG_E ("SYS_Set_RtcProductTime --use _cmd_ [2000 + y] [m] [d] [h] [m] [s]"); + LOG_E("SYS_Set_RtcProductTime --use _cmd_ [2000 + y] [m] [d] [h] [m] [s]"); } } -MSH_CMD_EXPORT (SYS_Set_RtcProductTime, "SYS_Set_RtcProductTime"); +MSH_CMD_EXPORT(SYS_Set_RtcProductTime, "SYS_Set_RtcProductTime"); // 测试系统标定值修改 -static void TEST_SYS_Calibartion (int argc, char **argv) +static void TEST_SYS_Calibartion(int argc, char **argv) { if (argc == 2) { - int calibartion_valve = atoi (argv[1]); + int calibartion_valve = atoi(argv[1]); uint8_t calibration_buf[2] = {0}; - calibration_buf[0] = calibartion_valve & 0xFF; // 低字节 - calibration_buf[1] = (calibartion_valve >> 8) & 0xFF; // 高字节 - Flash_Sys_Cfg (kAlarmLValueId, calibration_buf, 2); - Flash_Set_Calibration_State (kSysGasCalibStatus); - LOG_D ("标定值修改为 = %d", Flash_Get_SysCfg (kAlarmLValueId)); + calibration_buf[0] = calibartion_valve & 0xFF; // 低字节 + calibration_buf[1] = (calibartion_valve >> 8) & 0xFF; // 高字节 + Flash_Sys_Cfg(kAlarmLValueId, calibration_buf, 2); + Flash_Set_Calibration_State(kSysGasCalibStatus); + LOG_D("标定值修改为 = %d", Flash_Get_SysCfg(kAlarmLValueId)); g_Calibration_status = kSysGasCalibStatus; - Send_Laser_Alarm_Event (kNormalDetectionEvents); /// 再返回正常模式继续检测 + Send_Laser_Alarm_Event(kNormalDetectionEvents); /// 再返回正常模式继续检测 } else { - LOG_E ("TEST_SYS_Calibartion 0~4095"); + LOG_E("TEST_SYS_Calibartion 0~4095"); } } -MSH_CMD_EXPORT (TEST_SYS_Calibartion, "修改系统标定值"); +MSH_CMD_EXPORT(TEST_SYS_Calibartion, "修改系统标定值"); -static void SYS_SW_Version (void) +static void SYS_SW_Version(void) { COMPILE_TIME; - rt_kprintf ("JT-DT-YD4N02A Software version: V%02X\r\n", (uint8_t)Flash_Get_SysCfg (kSwVerId)); + rt_kprintf("JT-DT-YD4N02A Software version: V%02X\r\n", (uint8_t)Flash_Get_SysCfg(kSwVerId)); } -MSH_CMD_EXPORT (SYS_SW_Version, "软件版本和编译时间"); +MSH_CMD_EXPORT(SYS_SW_Version, "软件版本和编译时间"); #endif diff --git a/bsp/src/bsp_mq.c b/bsp/src/bsp_mq.c index 5c14903..321d811 100644 --- a/bsp/src/bsp_mq.c +++ b/bsp/src/bsp_mq.c @@ -2,7 +2,7 @@ * @Author : stark1898y 1658608470@qq.com * @Date : 2024-06-18 15:48:01 * @LastEditors: mbw && 1600520629@qq.com - * @LastEditTime: 2025-02-21 11:27:34 + * @LastEditTime: 2025-06-04 09:10:59 * @FilePath: \ble_bjq_ch303rct6_ml307\bsp\src\bsp_mq.c * @Description : * @@ -118,7 +118,15 @@ static uint8_t Sensor_CheckData(void) static rt_uint8_t fault_buf[SENSOR_SAMPLING_TIMS] = {0}; rt_uint16_t voltage = Get_Gas_VoltageAdcInt1000x(); - alarm_status_buffer[index] = ((voltage > Sensor_device.alarm_value) && (voltage < MQ_VOLTAGE_HIGH_LIMIT)) ? kSensorAlarm : kSensorNormal; + if(alarm_flag) + { + alarm_status_buffer[index] = ((voltage > Sensor_device.alarm_value - 50) && (voltage < MQ_VOLTAGE_HIGH_LIMIT)) ? kSensorAlarm : kSensorNormal; + } + else + { + alarm_status_buffer[index] = ((voltage > Sensor_device.alarm_value) && (voltage < MQ_VOLTAGE_HIGH_LIMIT)) ? kSensorAlarm : kSensorNormal; + } + fault_buf[index] = ((voltage < MQ_VOLTAGE_LOW_LIMIT) || (voltage > MQ_VOLTAGE_HIGH_LIMIT)) ? kSensorFault : kSensorNormal; index++; if (index >= SENSOR_SAMPLING_TIMS)