/* ********************************************************************************************************* * IAR Development Kits * on the * * Nano130 * * Filename : def_data.c * Version : V1.00 * Programmer(s) : Qian Xianghong ********************************************************************************************************* */ /* ********************************************************************************************************* * INCLUDE FILES ********************************************************************************************************* */ #include "includes.h" // 硬件版本号(TTS-罐箱-槽车-低功耗4G)【该版本号用于升级时确定硬件版本】 const uint8_t HARDWARE_VER_MINOR = 86; // // 客户和选项组合配置【该版本号用于上传到服务器,确定具体配置】 #ifdef _PRAXAIR_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 202; #endif #ifdef _PRAXAIR_DOL_VER_ const uint8_t HARDWARE_VER_MAJOR = 203; #endif #ifdef _YINGDE_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 212; #endif #ifdef _YINGDE_DOL_VER_ const uint8_t HARDWARE_VER_MAJOR = 222; #endif #ifdef _LINDE_HTTPS_CHARGE_VER_ const uint8_t HARDWARE_VER_MAJOR = 213; #endif #ifdef _LINDE_HTTPS_VER_ const uint8_t HARDWARE_VER_MAJOR = 223; #endif #ifdef _MESSER_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 214; #endif #ifdef _FAYEKONG_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 215; #endif #ifdef _BAOGANG_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 216; #endif #ifdef _FUSHIKANG_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 218; #endif #ifdef _ZHONGHAIYOU_BOX_VER_ const uint8_t HARDWARE_VER_MAJOR = 219; #endif #ifdef _BOX_500_2_VER_ const uint8_t HARDWARE_VER_MAJOR = 162; #endif #ifdef _BOX_1000_2_VER_ const uint8_t HARDWARE_VER_MAJOR = 163; #endif #ifdef _BOX_1000_3_VER_ const uint8_t HARDWARE_VER_MAJOR = 164; #endif #ifdef _CAOCHE_VER_ const uint8_t HARDWARE_VER_MAJOR = 149; #endif #ifdef _LANSHI_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 217; #endif #ifdef _CHATE_TTS_VER_ const uint8_t HARDWARE_VER_MAJOR = 225; #endif // 软件版本号 const uint8_t SOFTWARE_VER_MAJOR = 1; const uint8_t SOFTWARE_VER_MINOR = 1; // 软件日期 const uint8_t SOFTWARE_DATE_YEAR = 25; const uint8_t SOFTWARE_DATE_MONTH = 3; const uint8_t SOFTWARE_DATE_DAY = 26; // 存储格式版本号=1.1 const uint8_t CONFIG_FORMAT_VER_MAJOR = 1; const uint8_t CONFIG_FORMAT_VER_MINOR = 1; // 新结构整体式,带双向通信 // 远传协议版本号 const uint8_t REPORT_PROTOCOL_VER_MAJOR = 0; // 0: 压力单位为bar,1:压力单位为KPa, 107: 支持历史数据发送 const uint8_t REPORT_PROTOCOL_VER_MINOR = 107; // DTU参数 const uint32_t DTU_BAUDRATE = 115200ul; const uint8_t DTU_PARITY = PARITY_NONE; // 蓝牙协议版本号 const uint8_t BLUETOOTH_PROTOCOL_VER_MAJOR = 1; const uint8_t BLUETOOTH_PROTOCOL_VER_MINOR = 0; // 蓝牙参数 const uint32_t BLUETOOTH_BAUDRATE = 9600ul; const uint8_t BLUETOOTH_PARITY = PARITY_NONE; // 存放全部配置和采集数据的结构体 data_buff_t dcBuff = {0}; // MQTT/HTTPS/HTTP服务器列表 const char SERVER_URLs[][100] = { // 林德服务器 "/TelemetryWebService.TelemetryWebContract.svc/Postmeasurements", // 中海油阿里云服务器 "iot-as-mqtt.cn-shanghai.aliyuncs.com", }; // 各个数据块的长度 const uint8_t Config_DataLen[] = { sizeof(config_bottle_t), sizeof(config_sensor_t), sizeof(config_data_t), sizeof(config_display_t), sizeof(sysinfo_sample_t), sizeof(sysinfo_power_t), sizeof(sysinfo_display_t), sizeof(sysinfo_bluetooth_t), sizeof(data_dtu_t), sizeof(data_sample_t), sizeof(adc_sample_t), }; // 各个数据区的地址 const void* Config_DataPtr[] = { &dcBuff.configBottle, &dcBuff.configSensor, &dcBuff.configData, &dcBuff.configDisplay, &dcBuff.sampleInfo, &dcBuff.powerInfo, &dcBuff.displayInfo, &dcBuff.bluetoothInfo, &dcBuff.dtuData, &dcBuff.sampleData, &dcBuff.adcData, }; // 液体密度:LNG=0.42g/cm3=420kg/m3 // O2=1.143g/cm3=1143kg/m3 // N2=0.81g/cm3=810kg/m3 // AR=1.402g/cm3=1402kg/m3 // CO2=1.024g/cm3=1024kg/m3 const float LSrc_Density[] = {0.42, 1.143, 0.81, 1.402, 1.024}; // 单位kg/L // 液体密度: H2=0.071g/cm3=71kg/m3 // CNG=0.071g/cm3=71kg/m3 // He=0.125g/cm3=125kg/m3 // C2H4=0.568g/cm3=568kg/m3 // LPG=0.539g/cm3=539kg/m3 // NH3=0.618g/cm3=618kg/m3 // PENT=0.630g/cm3=630kg/m3 // POPO=1.038g/cm3=1038kg/m3 const uint16_t LSrc_DensityExt[] = {71, 71, 125, 568, 539, 618, 630, 1038}; // 单位kg/m3 // 设置和获取介质密度 void Config_SetDensity(uint8_t source, float density) { if(source < sizeof(dcBuff.configBottle.density) / sizeof(float)) dcBuff.configBottle.density[source] = density; else dcBuff.configBottle.densityExt[source - sizeof(dcBuff.configBottle.density) / sizeof(float)] = (uint16_t) (density * 1000); } float Config_GetDensity(uint8_t source) { if(source < sizeof(dcBuff.configBottle.density) / sizeof(float)) return dcBuff.configBottle.density[source]; return dcBuff.configBottle.densityExt[source - sizeof(dcBuff.configBottle.density) / sizeof(float)] * 0.001; } // 多项式为x16+x15+x2+1,LSB顺序 uint16_t do_crc_16(unsigned short crc_reg, uint8_t *message, int16_t len) { int16_t i, j; uint16_t current; for (i = 0; i < len; i++) { current = message[i]; for (j = 0; j < 8; j++) { if ((crc_reg ^ current) & 0x0001) crc_reg = (crc_reg >> 1) ^ 0xA001; else crc_reg >>= 1; current >>= 1; } } return crc_reg; } // 检查固定的字段 uint32_t Config_CheckValid(rd_buff_t *rdBuff, uint8_t DC) { if(rdBuff->header.mark != CONFIG_MARK_LS) return FALSE; if(rdBuff->header.product != CONFIG_PRODUCT_CY) return FALSE; if(rdBuff->header.DC != DC) return FALSE; if(rdBuff->header.ver.major != CONFIG_FORMAT_VER_MAJOR || rdBuff->header.ver.minor != CONFIG_FORMAT_VER_MINOR) return FALSE; if(do_crc_16(0, rdBuff->buff, CONFIG_DATA_LEN(DC)) != 0) return FALSE; return TRUE; } // 写入固定的字段 void Config_ForceValid(rd_buff_t *rdBuff, uint8_t DC) { uint8_t pos = CONFIG_DATA_LEN(DC) - 2; rdBuff->header.mark = CONFIG_MARK_LS; rdBuff->header.product = CONFIG_PRODUCT_CY; rdBuff->header.DC = DC; rdBuff->header.ver.major = CONFIG_FORMAT_VER_MAJOR; rdBuff->header.ver.minor = CONFIG_FORMAT_VER_MINOR; Int2ByteS(rdBuff->buff, pos, do_crc_16(0, rdBuff->buff, pos)); } // 设置储罐参数的默认值 void Config_setBottleDefParam(data_buff_t *dataBuff) { uint8_t i; memset(&dataBuff->configBottle, 0, sizeof(dataBuff->configBottle)); #if defined(_PRAXAIR_SERVER_) dataBuff->configBottle.serverVer = 3; // 服务器参数版本号: 普莱克斯专用版本 #elif defined(_LINDE_SERVER_) dataBuff->configBottle.serverVer = 4; // 服务器参数版本号: 林德专用版本 #elif defined(_BAOGANG_SERVER_) dataBuff->configBottle.serverVer = 5; // 服务器参数版本号: 宝钢专用版本 #else dataBuff->configBottle.serverVer = 0; // 服务器参数版本号: 安捷汇版本 #endif dataBuff->configBottle.updateFlag = 1; // 参数更新标志 dataBuff->configBottle.addr = 1; dataBuff->configBottle.type = BOTTLE_TYPE_LYING; dataBuff->configBottle.source = SOURCE_N2; dataBuff->configBottle.len = 10000; dataBuff->configBottle.diameter = 2650; dataBuff->configBottle.lenExtra = 0; for(i = 0; i < sizeof(dataBuff->configBottle.density) / sizeof(float); i++) dataBuff->configBottle.density[i] = LSrc_Density[i]; for(i = 0; i < sizeof(dataBuff->configBottle.densityExt) / sizeof(uint16_t); i++) dataBuff->configBottle.densityExt[i] = LSrc_DensityExt[i]; dataBuff->configBottle.chargePct = 100; dataBuff->configBottle.measureType = MEASURE_DPRESS; // 以下参数,如为0则表示无效 #ifdef _DISP_MMWC_ONLY_ dataBuff->configBottle.fullPct = 0; // 满液位百分比 #else dataBuff->configBottle.fullPct = 9500; // 满液位百分比 #endif dataBuff->configBottle.priPct = 0; // 关键液位百分比 dataBuff->configBottle.orderPct = 0; // 订货液位百分比 dataBuff->configBottle.emptyPct = 0; // 空液位百分比 dataBuff->configBottle.planMount = 0; // 每日计划用量 dataBuff->configBottle.predictMount = 0; // 每日预测用量 dataBuff->configBottle.warnVolt = 0; // 电压报警低点: 10mV dataBuff->configBottle.warnVoltH = 0; // 电压报警高点: 10mV dataBuff->configBottle.warnPress = 300; // 压力报警低点: KPa dataBuff->configBottle.warnPressH = 0; // 压力报警高点 dataBuff->configBottle.options = 0x0003; // 参数开关 dataBuff->configBottle.ts = 0; // 参数时间戳 dataBuff->configBottle.dispMode = DISP_MODE_ALL; // 显示模式 #ifdef _PRAXAIR_SERVER_ // praxair dataBuff->configBottle.floorLevel = 0; dataBuff->configBottle.span = 0; dataBuff->configBottle.spanPeriod = 3600; #else // others dataBuff->configBottle.warnVacuumH = 0; // 真空度报警高点:0.01Pa dataBuff->configBottle.warnTempr = -300; // 温度报警高点: ℃ dataBuff->configBottle.warnTemprH = -300; // 温度报警低点: ℃ #endif Config_ForceValid((rd_buff_t *) &dataBuff->configBottle, CAN_DC_BOTTLE_CONFIG); } // 设置传感器参数的默认值 void Config_setSensorDefParam(data_buff_t *dataBuff) { uint8_t i; memset(&dataBuff->configSensor, 0, sizeof(dataBuff->configSensor)); dataBuff->configSensor.sensorWeight.lowRange = 0; dataBuff->configSensor.sensorWeight.highRange = 100000ul; // 100000kg dataBuff->configSensor.sensorWeight.zeroValue = 84030ul; // 经验值 dataBuff->configSensor.sensorWeight.fullValue = 1613530ul; // 经验值 #ifndef _USE_CAPACITY_SENSOR_ #if defined(_DOL_VER_) dcBuff.configSensor.sensorDPress.lowRange = 0; // 0KPa dcBuff.configSensor.sensorDPress.highRange = 150; // 150KPa dcBuff.configSensor.sensorDPress.zeroValue = 710; // 理论值:4mA * 130Ω / 3.0v dcBuff.configSensor.sensorDPress.fullValue = 3550; // 理论值:20mA * 130Ω / 3.0v #elif defined(_LINDE_HTTPS_VER_) dcBuff.configSensor.sensorDPress.lowRange = 0; // 0KPa dcBuff.configSensor.sensorDPress.highRange = 50; // 50KPa dcBuff.configSensor.sensorDPress.zeroValue = 683; // 理论值:0.5v / 3.0v dcBuff.configSensor.sensorDPress.fullValue = 3823; // 理论值:2.8v / 3.0v #else dcBuff.configSensor.sensorDPress.lowRange = 0; // 0KPa dcBuff.configSensor.sensorDPress.highRange = 50; // 50KPa dcBuff.configSensor.sensorDPress.zeroValue = 683; // 理论值:0.5v / 3.0v dcBuff.configSensor.sensorDPress.fullValue = 3823; // 理论值:2.8v / 3.0v #endif #else dataBuff->configSensor.sensorCap.c1ADC = 1114; // 电容c1标定ADC值 dataBuff->configSensor.sensorCap.c2ADC = 3417; // 电容c2标定ADC值 dataBuff->configSensor.sensorCap.baseC = 708 * 10; // 底电容(pF) dataBuff->configSensor.sensorCap.refC = 439 * 10; // 增长电容(pF) #endif #ifndef _DOL_VER_ dataBuff->configSensor.sensorPress.lowRange = 0; // 0MPa dataBuff->configSensor.sensorPress.highRange = 4000; // 4MPa dataBuff->configSensor.sensorPress.zeroValue = 683; // 理论值:0.5v / 3.0v dataBuff->configSensor.sensorPress.fullValue = 3823; // 理论值:2.8v / 3.0v #else dataBuff->configSensor.sensorPress.lowRange = 0; // 0MPa dataBuff->configSensor.sensorPress.highRange = 5000; // 5MPa dataBuff->configSensor.sensorPress.zeroValue = 710; // 理论值:4mA * 130Ω / 3.0v dataBuff->configSensor.sensorPress.fullValue = 3550; // 理论值:20mA * 130Ω / 3.0v #endif for(i = 0; i < sizeof(dataBuff->configSensor.sensorEPress) / sizeof(press_param_t); i++) { dataBuff->configSensor.sensorEPress[i].lowRange = 0; // 0MPa dataBuff->configSensor.sensorEPress[i].highRange = 4000; // 4MPa dataBuff->configSensor.sensorEPress[i].zeroValue = 710; // 理论值:4mA * 130Ω / 3.0v dataBuff->configSensor.sensorEPress[i].fullValue = 3550; // 理论值:20mA * 130Ω / 3.0v } #ifndef _USE_PT100_SENSOR_ for(i = 0; i < sizeof(dataBuff->configSensor.sensorMTempr) / sizeof(tempr_param_t); i++) { dataBuff->configSensor.sensorMTempr[i].lowRange = -200; // -200℃ dataBuff->configSensor.sensorMTempr[i].highRange = 80; // 80℃ dataBuff->configSensor.sensorMTempr[i].zeroValue = 710; // 理论值:4mA * 130Ω / 3.0v dataBuff->configSensor.sensorMTempr[i].fullValue = 3550; // 理论值:20mA * 130Ω / 3.0v } #else for(i = 0; i < sizeof(dataBuff->configSensor.sensorPTempr) / sizeof(pt100_param_t); i++) { // 导线在18℃下每米电阻为0Ω,温度每下降1℃导线电阻下降1.3‰,假设导线长度为1.7米。 // (此处默认为忽略导线电阻,实际可根据测量偏差手动调节) // 在0℃下,导线电阻为0*1.7*(1- 18 * 1.3‰) = 0Ω // PT100铂电阻的阻值和温度的关系直接查表,在0℃下为100Ω。 dataBuff->configSensor.sensorPTempr[i].calibrateT = 0 * 10; // 校准温度0℃ dataBuff->configSensor.sensorPTempr[i].calibrateR = (int16_t) ((100 * _PT100_MULTI_ + 0) * 10); // 0℃下PT100电阻+线电阻(1.7米) #if _PT100_MULTI_ == 5 // 在-200℃下,导线电阻为0*1.7*(1- 218 * 1.3‰) = 0Ω,PT500电阻为92.6Ω,在电桥下测得电压为2.917v // (2.5-(0+92.6+4500)/(0+92.6+9500)*5)*15.7+1.25=2.917v dataBuff->configSensor.sensorPTempr[i].zeroValue = 3983; // 理论值:2.917v / 3.0v // 在80℃下,导线电阻为0*1.7*(1+ 62 * 1.3‰) = 0Ω,PT500电阻为654.5Ω,在电桥下测得电压为0.653v // (2.5-(0+654.5+4500)/(0+654.5+9500)*5)*15.7+1.25=0.653v dataBuff->configSensor.sensorPTempr[i].fullValue = 891; // 理论值:0.653v / 3.0v #else // PT1000 // 在-200℃下,导线电阻为0*1.7*(1-218 * 1.3‰) = 0Ω,PT1000电阻为185.2Ω,在电桥下测得电压为2.917v // (2.5-(0+185.2+9000)/(0+185.2+19000)*5)*15.7+1.25=2.917v dataBuff->configSensor.sensorPTempr[i].zeroValue = 3983; // 理论值:2.917v / 3.0v // 在80℃下,导线电阻为0*1.7*(1+62 * 1.3‰) = 0Ω,PT1000电阻为1309Ω,在电桥下测得电压为0.653v // (2.5-(0+1309+9000)/(0+1309+19000)*5)*15.7+1.25=0.653v dataBuff->configSensor.sensorPTempr[i].fullValue = 891; // 理论值:0.653v / 3.0v #endif } #endif Config_ForceValid((rd_buff_t *) &dataBuff->configSensor, CAN_DC_SENSOR_CONFIG); } // 设置数据参数的默认值 void Config_setDataDefParam(data_buff_t *dataBuff) { memset(&dataBuff->configData, 0, sizeof(dataBuff->configData)); #if defined(_PRAXAIR_SERVER_)// || defined(_LINDE_SERVER_) strcpy(dataBuff->configData.server, "tts.praxair.com.cn"); dataBuff->configData.port = 7005; #elif defined(_LANSHI_SERVER_) strcpy(dataBuff->configData.server, "pazx.cd-ls.cn"); dataBuff->configData.port = 8088; strcpy(dataBuff->configData.gpsServer, "track.cd-ls.cn"); dataBuff->configData.gpsPort = 8070; #elif defined(_FUSHIKANG_SERVER_) strcpy(dataBuff->configData.server, "183.56.160.149 "); dataBuff->configData.port = 7888; #elif defined(_ZHONGHAIYOU_SERVER_) // mqtt提交到阿里云 dataBuff->configData.port = 1883; #elif defined(_LINDE_SERVER_) // https提交到林德服务器 strcpy(dataBuff->configData.server, "Telemetry.Linde.com"); dataBuff->configData.port = 443; #else // _ANJIEHUI_SERVER_ strcpy(dataBuff->configData.server, "data.ajhiot.com"); // 2021.03.31修改 dataBuff->configData.port = 8088; strcpy(dataBuff->configData.gpsServer, "track.ajhiot.com"); dataBuff->configData.gpsPort = 8070; #endif #if defined(_PRAXAIR_SERVER_)// || defined(_LINDE_SERVER_) strcpy(dataBuff->configData.upgServer, dataBuff->configData.server); #else strcpy(dataBuff->configData.upgServer, "extra.cd-ls.cn"); #endif dataBuff->configData.upgPort = 7006; #if defined(_PRAXAIR_TTS_VER_) || defined(_PRAXAIR_DOL_VER_) dataBuff->configData.intervalSample = 3600; dataBuff->configData.intervalTrans = 21600; #elif defined(_YINGDE_TTS_VER_) || defined(_YINGDE_DOL_VER_) dataBuff->configData.intervalSample = 900; dataBuff->configData.intervalTrans = 7200; #elif defined(_LINDE_HTTPS_CHARGE_VER_) || defined(_LINDE_HTTPS_VER_) dataBuff->configData.intervalSample = 900; dataBuff->configData.intervalTrans = 21600; #elif defined(_MESSER_TTS_VER_) dataBuff->configData.intervalSample = 1800; dataBuff->configData.intervalTrans = 21600; //1800; // 暂不上传,故临时降低发送频率 #elif defined(_FAYEKONG_TTS_VER_) dataBuff->configData.intervalSample = 1800; dataBuff->configData.intervalTrans = 21600; #elif defined(_BAOGANG_TTS_VER_) dataBuff->configData.intervalSample = 1800; dataBuff->configData.intervalTrans = 3600; #elif defined(_BOX_VER_) dataBuff->configData.intervalSample = 3600; dataBuff->configData.intervalTrans = 3600; #elif defined(_CAOCHE_VER_) dataBuff->configData.intervalSample = 300; dataBuff->configData.intervalTrans = 300; #elif defined(_CHATE_TTS_VER_) dataBuff->configData.intervalSample = 1800; dataBuff->configData.intervalTrans = 21600; #else // _LANSHI_TTS_VER_ dataBuff->configData.intervalSample = 3600; dataBuff->configData.intervalTrans = 21600; #endif dataBuff->configData.intervalGPS = 4; dataBuff->configData.intervalGPSTrans = 60; dataBuff->configData.timeLag = 8; Config_ForceValid((rd_buff_t *) &dataBuff->configData, CAN_DC_DATA_CONFIG); } // 设置显示参数的默认值 void Config_setDisplayDefParam(data_buff_t *dataBuff) { memset(&dataBuff->configDisplay, 0, sizeof(dataBuff->configDisplay)); dataBuff->configDisplay.lightDelay = 0; dataBuff->configDisplay.dispDelay = 30; dataBuff->configDisplay.unit = DISP_UNIT_METRIC; dataBuff->configDisplay.L_Unit = UNIT_PCT; strcpy(dataBuff->configDisplay.pwd1, "2222"); // 储罐参数修改密码 strcpy(dataBuff->configDisplay.pwd2, "3003"); // 传感器标定密码 strcpy(dataBuff->configDisplay.APN, "CMIOT"); dataBuff->configDisplay.bdCommander = 0x03300D; // 北斗指挥机卡号 dataBuff->configDisplay.op_HARDWARE_VER_MAJOR = HARDWARE_VER_MAJOR; // 硬件配置(不同客户和选项的组合) #ifdef _DISP_MMWC_ONLY_ dataBuff->configDisplay.op_DISP_MMWC_ONLY = 1; #endif #ifdef _DOL_VER_ dataBuff->configDisplay.op_DOL_VER = 1; #endif #ifdef _BOX_VER_ dataBuff->configDisplay.op_BOX_VER = 1; #endif #ifdef _CELL_LOCATION_ dataBuff->configDisplay.op_CELL_LOCATION = 1; #endif #ifdef _LEVEL_SENSOR_ONLY_ dataBuff->configDisplay.op_LEVEL_SENSOR_ONLY = 1; #endif #ifdef _USE_PT100_SENSOR_ dataBuff->configDisplay.op_USE_PT100_SENSOR = 1; #endif dataBuff->configDisplay.op_PT100_MULTI = _PT100_MULTI_; #ifdef _PT100_3LINE_ dataBuff->configDisplay.op_PT100_3LINE = 1; #endif #ifdef _DIFF_RESIST_ dataBuff->configDisplay.op_DIFF_RESIST = 1; #endif #ifdef _SEND_GPS_DATA_ dataBuff->configDisplay.op_SEND_GPS_DATA = 1; #endif #ifdef _USE_CAPACITY_SENSOR_ dataBuff->configDisplay.op_USE_CAPACITY_SENSOR = 1; #endif #if defined(_ZHONGHAIYOU_SERVER_) // mqtt提交到阿里云 dataBuff->configDisplay.op_SERVER_PROTOCOL = SERVER_PROTOCOL_MQTT; dataBuff->configDisplay.op_SERVER_INDEX = 1; #elif defined(_LINDE_SERVER_) // https提交到林德服务器 dataBuff->configDisplay.op_SERVER_PROTOCOL = SERVER_PROTOCOL_HTTPS; dataBuff->configDisplay.op_SERVER_INDEX = 0; #else dataBuff->configDisplay.op_SERVER_PROTOCOL = SERVER_PROTOCOL_TCP; #endif #ifdef _FUSHIKANG_SERVER_ dataBuff->configDisplay.op_UNIDIR_COMM = 1; #endif Config_ForceValid((rd_buff_t *) &dataBuff->configDisplay, CAN_DC_DISPLAY_CONFIG); } // 填充采集板系统信息 void Config_fillSampleInfo(data_buff_t *dataBuff) { memset(&dataBuff->sampleInfo, 0, sizeof(dataBuff->sampleInfo)); dataBuff->sampleInfo.boardFlag = CONFIG_BOARD_SELF; dataBuff->sampleInfo.hardVer.major = dcBuff.configDisplay.op_HARDWARE_VER_MAJOR; dataBuff->sampleInfo.hardVer.minor = HARDWARE_VER_MINOR; dataBuff->sampleInfo.softVer.major = SOFTWARE_VER_MAJOR; dataBuff->sampleInfo.softVer.minor = SOFTWARE_VER_MINOR; dataBuff->sampleInfo.softDate.year = SOFTWARE_DATE_YEAR; dataBuff->sampleInfo.softDate.month = SOFTWARE_DATE_MONTH; dataBuff->sampleInfo.softDate.day = SOFTWARE_DATE_DAY; } // 填充电源板系统信息 void Config_fillPowerInfo(data_buff_t *dataBuff) { memset(&dataBuff->powerInfo, 0, sizeof(dataBuff->powerInfo)); dataBuff->powerInfo.boardFlag = CONFIG_BOARD_SELF; dataBuff->powerInfo.hardVer.major = dcBuff.configDisplay.op_HARDWARE_VER_MAJOR; dataBuff->powerInfo.hardVer.minor = HARDWARE_VER_MINOR; dataBuff->powerInfo.softVer.major = SOFTWARE_VER_MAJOR; dataBuff->powerInfo.softVer.minor = SOFTWARE_VER_MINOR; dataBuff->powerInfo.softDate.year = SOFTWARE_DATE_YEAR; dataBuff->powerInfo.softDate.month = SOFTWARE_DATE_MONTH; dataBuff->powerInfo.softDate.day = SOFTWARE_DATE_DAY; dataBuff->powerInfo.protocolVer.major = REPORT_PROTOCOL_VER_MAJOR; dataBuff->powerInfo.protocolVer.minor = REPORT_PROTOCOL_VER_MINOR; dataBuff->powerInfo.baudrate = DTU_BAUDRATE; dataBuff->powerInfo.parity = DTU_PARITY; } // 填充显示板系统信息 void Config_fillDisplayInfo(data_buff_t *dataBuff) { memset(&dataBuff->displayInfo, 0, sizeof(dataBuff->displayInfo)); dataBuff->displayInfo.boardFlag = CONFIG_BOARD_SELF; dataBuff->displayInfo.hardVer.major = dcBuff.configDisplay.op_HARDWARE_VER_MAJOR; dataBuff->displayInfo.hardVer.minor = HARDWARE_VER_MINOR; dataBuff->displayInfo.softVer.major = SOFTWARE_VER_MAJOR; dataBuff->displayInfo.softVer.minor = SOFTWARE_VER_MINOR; dataBuff->displayInfo.softDate.year = SOFTWARE_DATE_YEAR; dataBuff->displayInfo.softDate.month = SOFTWARE_DATE_MONTH; dataBuff->displayInfo.softDate.day = SOFTWARE_DATE_DAY; } // 填充蓝牙板系统信息 void Config_fillBluetoothInfo(data_buff_t *dataBuff) { memset(&dataBuff->bluetoothInfo, 0, sizeof(dataBuff->bluetoothInfo)); dataBuff->bluetoothInfo.boardFlag = CONFIG_BOARD_SELF; dataBuff->bluetoothInfo.hardVer.major = dcBuff.configDisplay.op_HARDWARE_VER_MAJOR; dataBuff->bluetoothInfo.hardVer.minor = HARDWARE_VER_MINOR; dataBuff->bluetoothInfo.softVer.major = SOFTWARE_VER_MAJOR; dataBuff->bluetoothInfo.softVer.minor = SOFTWARE_VER_MINOR; dataBuff->bluetoothInfo.softDate.year = SOFTWARE_DATE_YEAR; dataBuff->bluetoothInfo.softDate.month = SOFTWARE_DATE_MONTH; dataBuff->bluetoothInfo.softDate.day = SOFTWARE_DATE_DAY; dataBuff->bluetoothInfo.protocolVer.major = BLUETOOTH_PROTOCOL_VER_MAJOR; dataBuff->bluetoothInfo.protocolVer.minor = BLUETOOTH_PROTOCOL_VER_MINOR; dataBuff->bluetoothInfo.baudrate = BLUETOOTH_BAUDRATE; dataBuff->bluetoothInfo.parity = BLUETOOTH_PARITY; } // 检查参数修改标志 uint32_t Config_CheckUpdate(data_buff_t *dataBuff) { uint8_t i; if(!dataBuff->configBottle.updateFlag) return FALSE; for(i = 0; i < 6; i++) { if(dataBuff->configBottle.PSN[i] != 0) return TRUE; } return FALSE; }