From 7d4375234fcecdb1e283d65447fb957bdca0ac8c Mon Sep 17 00:00:00 2001
From: zhangsheng <zhangs1125@sina.com>
Date: Sat, 16 Nov 2024 20:07:07 +0800
Subject: [PATCH] tmp

---
 dbaccess/sql_db.cpp            | 23 ++++++++++++-----------
 uart/uart.cpp                  |  2 +-
 uart/uart_feature_parse.cpp    |  4 ++--
 uart/uart_parameter_config.cpp |  4 +++-
 4 files changed, 18 insertions(+), 15 deletions(-)

diff --git a/dbaccess/sql_db.cpp b/dbaccess/sql_db.cpp
index 2ce05a9..15bb1ee 100644
--- a/dbaccess/sql_db.cpp
+++ b/dbaccess/sql_db.cpp
@@ -810,7 +810,8 @@ int SqliteDB::CalculateBattery() {
     memset(selectSql, 0x00, sizeof(selectSql));
     char updateSql[1024] = {0};
     int res = 0;
-    sprintf(selectSql, " dataNodeNo,StaticTime,WaveTime,featureInterVal,waveInterVal,samplingRate,batteryPower ");
+    //数据关联使用MeasurementID字段
+    sprintf(selectSql, " dataNodeNo,StaticTime,WaveTime,featureInterVal,waveInterVal,samplingRate,batteryPower,MeasurementID ");
     array_t vecRes = GetDataMultiLine(T_SENSOR_INFO(TNAME), selectSql, NULL);
     zlog_info(zct, "Size = %d", vecRes.size());
     if (vecRes.size() > 0) {
@@ -818,13 +819,13 @@ int SqliteDB::CalculateBattery() {
             float capacity = 0.0, startCapacity = 0.0;
             memset(whereCon, 0x00, sizeof(whereCon));
             memset(selectSql, 0x00, sizeof(selectSql));
-            sprintf(whereCon, " dataNodeNo = '%s' and batteryRemain <> '' order by timeStamp desc limit 0,1 ", vecRes[i][0].c_str());
+            sprintf(whereCon, " dataNodeNo = '%s' and batteryRemain <> '' order by timeStamp desc limit 0,1 ", vecRes[i][7].c_str());
             vec_t vecResSig = sqlite_db_ctrl::instance().GetDataSingleLine(T_BATTERY_INFO(TNAME), " * ", whereCon);
             std::vector<std::string> vParam;
             boost::split(vParam, vecRes[i][6], boost::is_any_of(","), boost::token_compress_on);
             if (vParam.size() <= 0 || vecResSig.size() <= 0) { //第一次计算
                 memset(whereCon, 0x00, sizeof(whereCon));
-                sprintf(whereCon, "dataNodeNo = '%s' ", vecRes[i][0].c_str());
+                sprintf(whereCon, "dataNodeNo = '%s' ", vecRes[i][7].c_str());
                 std::string Dip = sqlite_db_ctrl::instance().GetData(T_DATASTATIC_INFO(TNAME), " dip ", whereCon);
                 if (Dip == "") {
                     continue;
@@ -840,7 +841,7 @@ int SqliteDB::CalculateBattery() {
                     break;
                 }
                 memset(whereCon, 0x00, sizeof(whereCon));
-                sprintf(whereCon, " dataNodeNo = '%s' order by timeStamp asc limit 0,1 ", vecRes[i][0].c_str());
+                sprintf(whereCon, " dataNodeNo = '%s' order by timeStamp asc limit 0,1 ", vecRes[i][7].c_str());
                 vecResSig = sqlite_db_ctrl::instance().GetDataSingleLine(T_BATTERY_INFO(TNAME), " * ", whereCon);
                 if (vecResSig.size() <= 0) { //一条数据都没有
                     continue;
@@ -852,7 +853,7 @@ int SqliteDB::CalculateBattery() {
             zlog_info(zct, "dip = %d", atoi(vecResSig[1].c_str()));
 
             zlog_info(zct, "capacity = %f", capacity);
-            sprintf(whereCon, " dataNodeNo = '%s' and timeStamp > '%s'", vecRes[i][0].c_str(), vecResSig[8].c_str());
+            sprintf(whereCon, " dataNodeNo = '%s' and timeStamp > '%s'", vecRes[i][7].c_str(), vecResSig[8].c_str());
             array_t vecResbattery = GetDataMultiLine(T_BATTERY_INFO(TNAME), " * ", whereCon);
             zlog_info(zct, "vecResbattery size = %d", vecResbattery.size());
             if (vecResbattery.size() <= 0) {
@@ -904,14 +905,14 @@ int SqliteDB::CalculateBattery() {
                 remainBattery = 10;
             }
 
-            zlog_info(zct, "dataNodeNo = %s,batteryUsage = %f,batteryRemain = %f", vecRes[i][0].c_str(), atof(vecResSig[6].c_str()), remainBattery);
+            zlog_info(zct, "dataNodeNo = %s,batteryUsage = %f,batteryRemain = %f", vecRes[i][7].c_str(), atof(vecResSig[6].c_str()), remainBattery);
             memset(whereCon, 0x00, sizeof(whereCon));
-            sprintf(whereCon, " dataNodeNo = '%s'  order by timeStamp desc limit 0,1 ", vecRes[i][0].c_str());
+            sprintf(whereCon, " dataNodeNo = '%s'  order by timeStamp desc limit 0,1 ", vecRes[i][7].c_str());
             std::string strtimeStamp = GetData(T_BATTERY_INFO(TNAME), " timeStamp ", whereCon);
 
             sprintf(updateSql, "batteryUsage='%f',batteryRemain='%f'", usageBattery, remainBattery);
             memset(whereCon, 0x00, sizeof(whereCon));
-            sprintf(whereCon, "dataNodeNo ='%s' and timeStamp = '%s'", vecRes[i][0].c_str(), strtimeStamp.c_str());
+            sprintf(whereCon, "dataNodeNo ='%s' and timeStamp = '%s'", vecRes[i][7].c_str(), strtimeStamp.c_str());
             res = UpdateTableData(T_BATTERY_INFO(TNAME), updateSql, whereCon);
             if(res !=0 ){
                 zlog_error(zct, "res = %d", res);
@@ -921,19 +922,19 @@ int SqliteDB::CalculateBattery() {
             memset(updateSql, 0x00, sizeof(updateSql));
 
             char insertSql[1024] = {0x00}, deleteSql[1024] = {0x00};
-            sprintf(insertSql, "insert into t_battery_history select * from t_battery_info where timeStamp < '%s' and dataNodeNo = '%s'", strtimeStamp.c_str(), vecRes[i][0].c_str());
+            sprintf(insertSql, "insert into t_battery_history select * from t_battery_info where timeStamp < '%s' and dataNodeNo = '%s'", strtimeStamp.c_str(), vecRes[i][7].c_str());
             res = ExeSql(insertSql);
             if(res !=0 ){
                 zlog_error(zct, "res = %d", res);
                 break;
             }
-            sprintf(deleteSql, "delete  from t_battery_info where timeStamp < '%s' and dataNodeNo = '%s'", strtimeStamp.c_str(), vecRes[i][0].c_str());
+            sprintf(deleteSql, "delete  from t_battery_info where timeStamp < '%s' and dataNodeNo = '%s'", strtimeStamp.c_str(), vecRes[i][7].c_str());
             res = ExeSql(deleteSql);
             if(res !=0 ){
                 zlog_error(zct, "res = %d", res);
                 break;
             }
-            sprintf(whereCon, "dataNodeNo = '%s' ", vecRes[i][0].c_str());
+            sprintf(whereCon, "dataNodeNo = '%s' ", vecRes[i][7].c_str());
             if (startCapacity > 0) {
                 sprintf(updateSql, "batteryPower = '%f,%f' ", startCapacity, remainBattery);
             } else {
diff --git a/uart/uart.cpp b/uart/uart.cpp
index 45f52ac..8739ba6 100644
--- a/uart/uart.cpp
+++ b/uart/uart.cpp
@@ -226,7 +226,7 @@ int Uart::ZigbeeTest() {
 }
 
 void Uart::WriteToUart(const char *strSend, int pLen) {
-    if (!bUpdate) 
+    if (bUpdate) 
     {
         printf( "Write To Uart Start:\n");
         for (int i = 0; i < pLen; i++) {
diff --git a/uart/uart_feature_parse.cpp b/uart/uart_feature_parse.cpp
index 4dc2089..3dca1cc 100644
--- a/uart/uart_feature_parse.cpp
+++ b/uart/uart_feature_parse.cpp
@@ -228,7 +228,7 @@ void Uart::DealDataNodeFeature(const char *pData, int flag) {
 
         if (0 == sqlite_db_ctrl::instance().GetTableRows(T_DATASTATIC_INFO(TNAME), whereCon)) { // First Connect
             char insertSql[1024] = {0};
-            sprintf(insertSql, "'%s','%s','%f','%f','%d','%d','',%ld,'%s','1',%d", strLongAddr.c_str(), (strMeasurementID + "-S").c_str(), dataStatic.TemTop, dataStatic.TemBot, dataStatic.Dip, dataStatic.Voltage, staticIndex, nowTimetamp.c_str(), nodeResend);
+            sprintf(insertSql, "'%s','%s','%f','%f','%d','%d','',%ld,'%s','1',%d", strMeasurementID.c_str(), (strMeasurementID + "-S").c_str(), dataStatic.TemTop, dataStatic.TemBot, dataStatic.Dip, dataStatic.Voltage, staticIndex, nowTimetamp.c_str(), nodeResend);
             sqlite_db_ctrl::instance().InsertData(T_DATASTATIC_INFO(TNAME), insertSql);
             sqlite_db_ctrl::instance().CalculateBattery();
         } else {
@@ -303,7 +303,7 @@ void Uart::DealDataNodeFeature(const char *pData, int flag) {
     if ((Count * 3 < SAVE_COUNT && lTime < OneWeek) || strTime.size() == 0) { // 1 week
         char insertSql[1024] = {0};
         memset(insertSql, 0x00, sizeof(insertSql));
-        sprintf(insertSql, "'%s','%s','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f',%ld,'%s','1',%d", strLongAddr.c_str(), (strMeasurementID + "-X").c_str(), dataDymX.DiagnosisPk, dataDymX.IntegratPk, dataDymX.IntegratRMS, dataDymX.RmsValues,
+        sprintf(insertSql, "'%s','%s','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f','%f',%ld,'%s','1',%d", strMeasurementID.c_str(), (strMeasurementID + "-X").c_str(), dataDymX.DiagnosisPk, dataDymX.IntegratPk, dataDymX.IntegratRMS, dataDymX.RmsValues,
                 dataDymX.EnvelopEnergy, dataDymX.Amp1, dataDymX.Amp2, dataDymX.Amp3, dataDymX.Amp4, dataDymX.Amp5, dataDymX.Phase1, dataDymX.Phase2, dataDymX.Phase3, dataDymX.Phase4, staticIndex, nowTimetamp.c_str(), nodeResend);
         sqlite_db_ctrl::instance().InsertData(szTableName, insertSql);
 
diff --git a/uart/uart_parameter_config.cpp b/uart/uart_parameter_config.cpp
index 85083a7..1c2a155 100644
--- a/uart/uart_parameter_config.cpp
+++ b/uart/uart_parameter_config.cpp
@@ -168,7 +168,9 @@ void Uart::UpdateWirelessNode(uint16_t shortAdd) {
         }
         Data[99] = tmp;
         sleep(1);
+        zlog_info(zct, "thisSize1 = %d", (int)thisSize);
         WriteToUart((const char*)Data, 100);
+        zlog_info(zct, "thisSize2 = %d", (int)thisSize);
         int iRet = CheckZigbeeACK();
         if (iRet == 0) {
             zlog_info(zct, "Packge ACK send success,shortAddr = %02x%02x", UINT16_HIGH(shortAdd), UINT16_LOW(shortAdd));
@@ -474,7 +476,7 @@ int Uart::UpdateConfig(uint16_t ushortAdd) {
     UpdateData[4] = UINT16_LOW(ushortAdd);
     UpdateData[5] = 0x0A;
     UpdateData[6] = 0x01;
-    UpdateData[7] = 0x02;
+    UpdateData[7] = 0x00;
     char hex[200] = {0x00};
     stringToHex(strName.c_str(), hex);
     bytesSize = strlen(hex) / 2;