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add web cmd65

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This commit is contained in:
zhangsheng 2025-05-09 23:42:53 +08:00
parent 762b1e4899
commit 011221569e
11 changed files with 232 additions and 11 deletions
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8
common/parameter_defination.hpp
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@ -360,4 +360,12 @@ struct Param_64 {
std::vector<FeatureEntryUploadCfg> cfg; std::vector<FeatureEntryUploadCfg> cfg;
Param_64() : mMode(0),partial(false){}; Param_64() : mMode(0),partial(false){};
}; };
struct Param_65 {
int mMode;
int mPackageFlag;
std::string timeStart;
std::string timeEnd;
Param_65() : mMode(0),mPackageFlag(0),timeStart(""),timeEnd(""){};
};
#endif // PARAMETER_DEFINATION_HPP_ #endif // PARAMETER_DEFINATION_HPP_

22
dbaccess/sql_db.cpp
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@ -421,7 +421,27 @@ vec_t SqliteDB::GetDataSingleLine(const char *tablename, const char *column, con
sqlite3_finalize(stmt); sqlite3_finalize(stmt);
return vecResult; return vecResult;
} }
vec_t SqliteDB::GetDataSingleLine(const char *sql) {
vec_t vecResult;
zlog_info(zct, "[GetDataSingleLine] sql:%s", sql);
sqlite3_stmt *stmt;
if (sqlite3_prepare_v2(mDBAcess, sql, -1, &stmt, 0) != SQLITE_OK) {
zlog_error(zct, "sqlite3_prepare_v2:%s, sql:[%s]", sqlite3_errmsg(mDBAcess), sql);
sqlite3_finalize(stmt);
return vecResult;
}
int retStep = sqlite3_step(stmt);
int column_count = sqlite3_column_count(stmt);
if (retStep == SQLITE_ROW) {
for (int iCol = 0; iCol < column_count; iCol++) {
char *columninfo = (char *)sqlite3_column_text(stmt, iCol);
std::string str = columninfo != NULL ? columninfo : "";
vecResult.push_back(str);
}
}
sqlite3_finalize(stmt);
return vecResult;
}
std::string SqliteDB::GetData(const char *tablename, const char *column, const char *whereCon) { std::string SqliteDB::GetData(const char *tablename, const char *column, const char *whereCon) {
std::string strRes = ""; std::string strRes = "";
std::string strSql = "select "; std::string strSql = "select ";

1
dbaccess/sql_db.hpp
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@ -48,6 +48,7 @@ public:
int GetTableRows(const char *tablename, const char *whereCon); int GetTableRows(const char *tablename, const char *whereCon);
int AlterTable(const char *tablename, const char *column, bool isAdd = true); int AlterTable(const char *tablename, const char *column, bool isAdd = true);
vec_t GetDataSingleLine(const char *tablename, const char *column, const char *whereCon); vec_t GetDataSingleLine(const char *tablename, const char *column, const char *whereCon);
vec_t GetDataSingleLine(const char *sql);
std::string GetData(const char *tablename, const char *column, const char *whereCon); std::string GetData(const char *tablename, const char *column, const char *whereCon);
array_t GetDataMultiLine(const char *sql); array_t GetDataMultiLine(const char *sql);
array_t GetDataMultiLine(const char *tablename, const char *column, const char *whereCon); array_t GetDataMultiLine(const char *tablename, const char *column, const char *whereCon);

1
jsonparse/communication_cmd.hpp
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@ -73,6 +73,7 @@ public:
std::string JsonCmd_Cgi_62(Param_62 &param); std::string JsonCmd_Cgi_62(Param_62 &param);
std::string JsonCmd_Cgi_63(Param_63 &param); std::string JsonCmd_Cgi_63(Param_63 &param);
std::string JsonCmd_Cgi_64(Param_64 &param); std::string JsonCmd_Cgi_64(Param_64 &param);
std::string JsonCmd_Cgi_65(Param_65 &param);
std::string JsonCmd_Cgi_default(); std::string JsonCmd_Cgi_default();
//CMT tcp //CMT tcp

6
jsonparse/web_cmd_parse2.cpp
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@ -239,13 +239,13 @@ std::string JsonData::JsonCmd_Cgi_27(Param_27 &param) {
sqlite_db_ctrl::instance().DeleteTableData(T_BATTERY_INFO(TNAME), whereCon); sqlite_db_ctrl::instance().DeleteTableData(T_BATTERY_INFO(TNAME), whereCon);
sqlite_db_ctrl::instance().DeleteTableData(" t_battery_history ", whereCon); sqlite_db_ctrl::instance().DeleteTableData(" t_battery_history ", whereCon);
memset(whereCon,0,sizeof(whereCon)); memset(whereCon,0,sizeof(whereCon));
sprintf(whereCon, "channelID like'%s'", param.mDataNodeNo.c_str()); sprintf(whereCon, "channelID like '%%%s%%'", param.mMeasurementID.c_str());
sqlite_db_ctrl::instance().DeleteTableData(" t_data_waveSend ", whereCon); sqlite_db_ctrl::instance().DeleteTableData(" t_data_waveSend ", whereCon);
char szTableName[50] = {0x00}; char szTableName[50] = {0x00};
sprintf(szTableName, "DROP TABLE t_data_%s", param.mDataNodeNo.c_str()); sprintf(szTableName, "DROP TABLE t_data_%s", param.mMeasurementID.c_str());
sqlite_db_ctrl::instance().CreateTable(szTableName); sqlite_db_ctrl::instance().CreateTable(szTableName);
memset(szTableName, 0x00, sizeof(szTableName)); memset(szTableName, 0x00, sizeof(szTableName));
sprintf(szTableName, "DROP TABLE t_dataStatic_%s", param.mDataNodeNo.c_str()); sprintf(szTableName, "DROP TABLE t_dataStatic_%s", param.mMeasurementID.c_str());
sqlite_db_ctrl::instance().CreateTable(szTableName); sqlite_db_ctrl::instance().CreateTable(szTableName);
uint16_t short_addr; uint16_t short_addr;
char *end_ptr = NULL; char *end_ptr = NULL;

176
jsonparse/web_cmd_parse3.cpp
View File

@ -1087,3 +1087,179 @@ std::string JsonData::JsonCmd_Cgi_64(Param_64 &param)
jsonVal["cmdBody"] = jsBody; jsonVal["cmdBody"] = jsBody;
return show_value_.write(jsonVal); return show_value_.write(jsonVal);
} }
std::string JsonData::JsonCmd_Cgi_65(Param_65 &param){
Json::Value jsonVal;
jsonVal.clear();
jsonVal[JSON_FIELD_CMD] = "65";
jsonVal["success"] = true;
jsonVal["message"] = " ";
array_t vetRes = sqlite_db_ctrl::instance().GetDataMultiLineTransaction(T_SENSOR_INFO(TNAME), " dataNodeName,MeasurementID ", NULL);
size_t nSize = vetRes.size();
std::string MeasurementID = "";
char szTableName[100] = {0x00}, whereCon[256] = {0x00};
if (nSize > 0) {
int packgeNo = param.mPackageFlag;
int packgeMax = 0;
int packgeNum = 0;
jsonVal["package"] = packgeNo;
int lastSize = nSize % 5;
int index = nSize / 5;
if (lastSize > 0 && index > 0) {
packgeMax = index + 1;
if (packgeNo + 1 == packgeMax) {
packgeNum = nSize;
jsonVal["packageMax"] = index + 1;
} else {
packgeNum = (packgeNo + 1)*5;
jsonVal["packageMax"] = index + 1;
}
} else if (lastSize == 0 && index > 0) {
packgeNum = (packgeNo + 1) * 5;
packgeMax = index;
jsonVal["packageMax"] = index;
} else if (lastSize > 0 && index == 0) {
packgeNum = 0;
packgeMax = index + 1;
jsonVal["packageMax"] = index;
}
int interval = atol(param.timeEnd.c_str()) - atol(param.timeStart.c_str());
int featureInterVal = 0,waveInterVal = 0,featureInterTime = 0,waveInterTime = 0,maxSensorNum = 0;
scheduler::instance().GetScheduleConfig(featureInterVal,waveInterVal,featureInterTime,waveInterTime,maxSensorNum);
Json::Value jsBody;
zlog_info(zct, "packgeNo = %d,packgeMax = %d,packgeNum = %d", packgeNo, packgeMax, packgeNum);
char count_sql[1024] = {0};
for (size_t i = 0; i < nSize; i++)
{
Json::Value iTem;
MeasurementID = vetRes[i][1];
iTem.append(vetRes[i][0]);
memset(szTableName,0,sizeof(szTableName));
memset(whereCon,0,sizeof(whereCon));
sprintf(szTableName,"t_data_%s",vetRes[i][1].c_str());
sprintf(whereCon, " channelID = '%s-X' and timeStamp < '%s' and timeStamp > '%s' ", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
//int recive_feature = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
int recive_feature = 0, send_feature = 0;
memset(count_sql,0,sizeof(count_sql));
snprintf(count_sql,sizeof(count_sql),
"SELECT "
"COUNT(*) FILTER (WHERE channelID = '%s-X') AS recive_feature,"
"COUNT(*) FILTER (WHERE channelID = '%s-X' and sendMsg = 1) AS send_feature "
"FROM ( "
"SELECT * FROM %s "
"WHERE timeStamp BETWEEN '%s' AND '%s');",MeasurementID.c_str(),MeasurementID.c_str(),szTableName,param.timeStart.c_str(),param.timeEnd.c_str());
vec_t vecResult1 = sqlite_db_ctrl::instance().GetDataSingleLine(count_sql);
if (vecResult1.size() > 0)
{
recive_feature = atoi(vecResult1[0].c_str());
send_feature = atoi(vecResult1[1].c_str());
}
iTem.append(MeasurementID);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName,"receive_wave_status");
// sprintf(whereCon, " data_nodeno = '%s-X' and timeStamp < '%s' and timeStamp > '%s' ", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int recive_x = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName,"receive_wave_status");
// sprintf(whereCon, " data_nodeno = '%s-Y' and timeStamp < '%s' and timeStamp > '%s' ", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int recive_y = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName,"receive_wave_status");
// sprintf(whereCon, " data_nodeno = '%s-Z' and timeStamp < '%s' and timeStamp > '%s' ", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int recive_z = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
int recive_x = 0, recive_y = 0, recive_z = 0;
memset(count_sql,0,sizeof(count_sql));
snprintf(count_sql,sizeof(count_sql),
"SELECT "
"COUNT(*) FILTER (WHERE data_nodeno = '%s-X') AS recive_x,"
"COUNT(*) FILTER (WHERE data_nodeno = '%s-Y') AS recive_y,"
"COUNT(*) FILTER (WHERE data_nodeno = '%s-Z') AS recive_z "
"FROM ( "
"SELECT * FROM receive_wave_status "
"WHERE timeStamp BETWEEN '%s' AND '%s');",MeasurementID.c_str(),MeasurementID.c_str(),MeasurementID.c_str(),param.timeStart.c_str(),param.timeEnd.c_str());
vec_t vecResult2 = sqlite_db_ctrl::instance().GetDataSingleLine(count_sql);
if (vecResult2.size() > 0)
{
recive_x = atoi(vecResult2[0].c_str());
recive_y = atoi(vecResult2[1].c_str());
recive_z = atoi(vecResult2[2].c_str());
}
iTem.append((float(recive_feature)/(interval/featureInterVal)));
iTem.append(recive_feature);
iTem.append((float( recive_x)/(interval/waveInterVal)));
iTem.append(recive_x);
iTem.append((float(recive_y)/(interval/waveInterVal)));
iTem.append(recive_y);
iTem.append((float(recive_z)/(interval/waveInterVal)));
iTem.append(recive_z);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName,"t_data_%s",vetRes[i][1].c_str());
// sprintf(whereCon, " channelID = '%s-X' and timeStamp < '%s' and timeStamp > '%s' and sendMsg = 1", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int send_feature = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName," t_data_waveSend ");
// sprintf(whereCon, " channelID = '%s-X' and timeStamp < '%s' and timeStamp > '%s' and sendMsg = 1", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int send_x = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName," t_data_waveSend ");
// sprintf(whereCon, " channelID = '%s-Y' and timeStamp < '%s' and timeStamp > '%s' and sendMsg = 1", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int send_y = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
// memset(szTableName,0,sizeof(szTableName));
// memset(whereCon,0,sizeof(whereCon));
// sprintf(szTableName," t_data_waveSend ");
// sprintf(whereCon, " channelID = '%s-Z' and timeStamp < '%s' and timeStamp > '%s' and sendMsg = 1", MeasurementID.c_str(), param.timeEnd.c_str(), param.timeStart.c_str());
// int send_z = sqlite_db_ctrl::instance().GetTableRows(szTableName, whereCon);
int send_x = 0, send_y = 0, send_z = 0;
memset(count_sql,0,sizeof(count_sql));
snprintf(count_sql,sizeof(count_sql),
"SELECT "
"COUNT(*) FILTER (WHERE channelID = '%s-X') AS send_x,"
"COUNT(*) FILTER (WHERE channelID = '%s-Y') AS send_y,"
"COUNT(*) FILTER (WHERE channelID = '%s-Z') AS send_z "
"FROM ( "
"SELECT * FROM t_data_waveSend "
"WHERE sendMsg = 1 and timeStamp BETWEEN '%s' AND '%s');",MeasurementID.c_str(),MeasurementID.c_str(),MeasurementID.c_str(),param.timeStart.c_str(),param.timeEnd.c_str());
vec_t vecResult3 = sqlite_db_ctrl::instance().GetDataSingleLine(count_sql);
if (vecResult3.size() > 0)
{
send_x = atoi(vecResult3[0].c_str());
send_y = atoi(vecResult3[1].c_str());
send_z = atoi(vecResult3[2].c_str());
}
iTem.append((float(send_feature)/(interval/featureInterVal)));
iTem.append(send_feature);
iTem.append((float(send_x)/(interval/waveInterVal)));
iTem.append(send_x);
iTem.append((float(send_y)/(interval/waveInterVal)));
iTem.append(send_y);
iTem.append((float(send_z)/(interval/waveInterVal)));
iTem.append(send_z);
jsBody.append(iTem);
}
if (jsBody.size() == 0) {
jsonVal["success"] = false;
jsonVal["content"].resize(0);
} else {
jsonVal["content"] = (jsBody);
}
} else {
jsonVal["success"] = false;
jsonVal["content"].resize(0);
}
return show_value_.write(jsonVal);
}

1
localserver/local_server.hpp
View File

@ -54,6 +54,7 @@ enum WebCommand {
kWaveReceive = 62, kWaveReceive = 62,
kWaveSend = 63, kWaveSend = 63,
kFeatureSend = 64, kFeatureSend = 64,
kFeatureWaveCount = 65,
//CMT TCP //CMT TCP
kGateWayVersion = 80, kGateWayVersion = 80,

11
localserver/web_cmd.cpp
View File

@ -512,6 +512,17 @@ std::string LocalServer::HandleCgi_cmd(std::string &pData) {
std::string data = jd.JsonCmd_Cgi_64(param); std::string data = jd.JsonCmd_Cgi_64(param);
return data; return data;
}break; }break;
case kFeatureWaveCount:{
JsonData jd;
Param_65 param;
param.mPackageFlag = recvBody["package"].asInt();
param.timeStart = recvBody["timeStart"].asString();
param.timeEnd = recvBody["timeEnd"].asString();
std::string data = jd.JsonCmd_Cgi_65(param);
printf("return data = %s\n", data.c_str());
return data;
}
break;
default: default:
JsonData jd; JsonData jd;
std::string data = jd.JsonCmd_Cgi_default(); std::string data = jd.JsonCmd_Cgi_default();

1
scheduler/schedule.cpp
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@ -452,6 +452,7 @@ bool SensorScheduler::MissedWave(uint16_t short_addr) {
void SensorScheduler::WaveSuccess(uint16_t short_addr) { void SensorScheduler::WaveSuccess(uint16_t short_addr) {
zlog_warn(zct, "[WaveSuccess][%x]", short_addr); zlog_warn(zct, "[WaveSuccess][%x]", short_addr);
success_set_.insert(short_addr); success_set_.insert(short_addr);
patch_set_.erase(short_addr);
auto iter = failure_map_.find(short_addr); auto iter = failure_map_.find(short_addr);
if (iter != failure_map_.end()) { if (iter != failure_map_.end()) {
zlog_warn(zct, "[WaveSuccess][%x] try %d times success", short_addr, 4 - iter->second); zlog_warn(zct, "[WaveSuccess][%x] try %d times success", short_addr, 4 - iter->second);

5
uart/uart.cpp
View File

@ -572,7 +572,6 @@ int Uart::DealFeatureValue(const char *pData,uint16_t ushortAdd){
DealAskTask(ushortAdd); DealAskTask(ushortAdd);
DealDataNodeFeature(pData, 0); DealDataNodeFeature(pData, 0);
} }
last_short_addr = ushortAdd;
GetTimeNet(localtimestamp, 1); GetTimeNet(localtimestamp, 1);
nowTimetamp = std::string(localtimestamp); nowTimetamp = std::string(localtimestamp);
last_time = atol(nowTimetamp.c_str()); last_time = atol(nowTimetamp.c_str());
@ -587,10 +586,11 @@ void Uart::DealRecvData(const char *pData) {
int taskID = 0; int taskID = 0;
ScheduleTask scheduleTask; ScheduleTask scheduleTask;
zlog_info(zct, "shortAdd = %02x%02x,command = %d ",UINT16_HIGH(ushortAdd),UINT16_LOW(ushortAdd),command); zlog_info(zct, "shortAdd = %02x%02x,command = %d ",UINT16_HIGH(ushortAdd),UINT16_LOW(ushortAdd),command);
if (ushortAdd != last_short_addr){
mssleep(50000); mssleep(50000);
ModifyDistAddr(ushortAdd); ModifyDistAddr(ushortAdd);
mssleep(50000); mssleep(50000);
}
switch (command) { switch (command) {
case DEVICE_INF: case DEVICE_INF:
DealDataNodeInfo(pData); DealDataNodeInfo(pData);
@ -652,6 +652,7 @@ void Uart::DealRecvData(const char *pData) {
break; break;
default: break; default: break;
} }
last_short_addr = ushortAdd;
} }
void Uart::DealDataNodeName(const char *pData) { void Uart::DealDataNodeName(const char *pData) {

5
uart/uart_feature_parse.cpp
View File

@ -1025,11 +1025,12 @@ void Uart::WriteDatFile(int sampleRate, std::string &strMeasurementID, int iChan
Json::FastWriter WaveValue; Json::FastWriter WaveValue;
std::string WaveData = WaveValue.write(valWaveData); std::string WaveData = WaveValue.write(valWaveData);
char selectCon[128] = {0}; char selectCon[128] = {0},whereCon[128] = {0};
sprintf(selectCon, "channelID='%s' ORDER BY timeStamp ASC LIMIT 0,1", strChannelID.c_str()); sprintf(selectCon, "channelID='%s' ORDER BY timeStamp ASC LIMIT 0,1", strChannelID.c_str());
std::string strTime = sqlite_db_ctrl::instance().GetData("t_data_waveSend", "timeStamp", selectCon); std::string strTime = sqlite_db_ctrl::instance().GetData("t_data_waveSend", "timeStamp", selectCon);
long lTime = atol(nowTimetamp.c_str()) - atol(strTime.c_str()); long lTime = atol(nowTimetamp.c_str()) - atol(strTime.c_str());
int Count = sqlite_db_ctrl::instance().GetTableRows("t_data_waveSend", NULL); sprintf(whereCon, "channelID like '%%%s%%'", strMeasurementID.c_str());
int Count = sqlite_db_ctrl::instance().GetTableRows("t_data_waveSend", whereCon);
std::string strFileName_Record = strFileName + "_" + nowTimetamp; std::string strFileName_Record = strFileName + "_" + nowTimetamp;
if ((Count * 3 < SAVE_COUNT && lTime < OneWeek) || strTime.size() == 0) { if ((Count * 3 < SAVE_COUNT && lTime < OneWeek) || strTime.size() == 0) {
char insertSql[128] = {0x00}; char insertSql[128] = {0x00};