void ConfigWindow::on_ucForgetSensPB_clicked()
{
HANDLE comport;
int pdnSlot;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
pdnSlot = ui->ucSensValCB->currentIndex();
if (opiucd_forgettssettings(&comport, pdnSlot))
{
ErrorMsgBox(QString("Could not forget module settings"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Forgot Module Settings in UC").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_mmChipErasePB_clicked()
{
HANDLE comport;
QDateTime stDT, endDT;
if(opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
stDT = QDateTime::currentDateTime();
if(eraseMM(&comport))
{
ErrorMsgBox(QString("MM did not erase properly"));
opi_closeucd_com(&comport);
return;
}
endDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString(">> Erased MM in %1s").arg((endDT.toMSecsSinceEpoch()-stDT.toMSecsSinceEpoch())/1000));
ui->msgPTE->appendPlainText(QString("<< %1 >> Erased MM").arg(endDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_ucReadEventsPB_clicked()
{
HANDLE comport;
int eventCt;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
eventCt = readUCEvents(&comport);
if(eventCt < 0)
{
ErrorMsgBox(QString("Error reading out Events to file"));
opi_closeucd_com(&comport);
return;
}
if(eventCt == 0) ui->msgPTE->appendPlainText(QString("No Events"));
else ui->msgPTE->appendPlainText(QString("%1 events read out").arg(eventCt));
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Read Events").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsTogMMWritePB_clicked()
{
HANDLE comport;
OPIPKT_t opipkt;
int modMMWrite;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if(opiucd_tsstatus(&comport, &opipkt))
{
ErrorMsgBox(QString("Could not get TrueSense status"));
opi_closeucd_com(&comport);
return;
}
modMMWrite = !(opipkt.payload[1+DSNLEN+5+FWVLEN+4]);
if(opiucd_settsmmwrite(&comport, modMMWrite));
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Toggled TrueSense MMWrite").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsSetPDNPB_clicked()
{
HANDLE comport;
int modpdn;
modpdn = ui->tsPDNValLE->text().toInt();
if((modpdn < 0) || (modpdn > 255))
{
ErrorMsgBox(QString("PDN must be in range <0,255>"));
opi_closeucd_com(&comport);
return;
}
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if (opiucd_settspdn(&comport, modpdn))
{
ErrorMsgBox(QString("Could not set TrueSense PDN"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Set TrueSense PDN").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void startwindow::on_pushButton_clicked()
{
if(*comPortUserp==PDCCOMPORTFREE||*comPortUserp==PDCCOMPORTUSER)
{
if(portOn)
opi_closeucd_com(&com);
if(!firstfile)
fclose(file);
firstfile=true;
*comPortUserp = PDCCOMPORTFREE;
hide_check_pdn();
portOn = false;
if(opi_openucd_com(&com)==0)
{
portOn = true;
*comPortUserp = PDCCOMPORTUSER;
get_opipkt_total=opiucd_getPDN();
if(!get_opipkt_total)
{
show_message.setText("there is no pdn devices");
show_message.show();
show_message.exec();
}
else
show_check_pdn();
//after open comport if no pdn is showing then close the comport
if(pdnshowcountp==0)
{
if(portOn)
opi_closeucd_com(&com);
portOn=false;
*comPortUserp = PDCCOMPORTFREE;
if(!firsttimer)
this->killTimer(timeid);
if(!firstfile)
fclose(file);
firsttimer=true;
firstfile=true;
}
}
else
{
portOn = false;
*comPortUserp = PDCCOMPORTFREE;
show_message.setText("Connect the Device again");
show_message.show();
show_message.exec();
}
}//other device doesn't use comport
else //other device uses comport
{
show_message.setText("Comport is busy,try again later");
show_message.show();
show_message.exec();
}
}
void startwindow::showEvent(QShowEvent *)
{
if(*comPortUserp==PDCCOMPORTFREE||*comPortUserp==PDCCOMPORTUSER)
{
if(portOn)
opi_closeucd_com(&com);
hide_check_pdn();
portOn = false;
if(opi_openucd_com(&com)==0)
{
portOn = true;
*comPortUserp = PDCCOMPORTUSER;
get_opipkt_total=opiucd_getPDN();
if(!get_opipkt_total)
{
show_message.setText("there is no pdn devices");
show_message.show();
show_message.exec();
}
else
show_check_pdn();
}
else
{
portOn = false;
*comPortUserp = PDCCOMPORTFREE;
show_message.setText("Connect the Device again");
show_message.show();
show_message.exec();
}
//if all showdatawindow are close then close the comport
if(!sdw[0]->isVisible()&&!sdw[1]->isVisible()&&!sdw[2]->isVisible()&&!sdw[3]->isVisible()&&!sdw[4]->isVisible())
{
if(portOn)
opi_closeucd_com(&com);
if(!firstfile)
fclose(file);
firstfile=true;
portOn = false;
*comPortUserp = PDCCOMPORTFREE;
}
}//comport free for pdc
else
{
show_message.setText("Comport is busy,try again later");
show_message.show();
show_message.exec();
}
}
void ConfigWindow::on_ucModOnOffCB_activated(int index)
{
HANDLE comport;
if(opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
if(index == 0)
{
if(opiucd_turnmodon(&comport))
{
ErrorMsgBox(QString("Could not turn module on"));
opi_closeucd_com(&comport);
return;
}
ui->msgPTE->appendPlainText(QString("<< %1 >> Turned module on").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
}
else
{
if(opiucd_turnmodoff(&comport))
{
ErrorMsgBox(QString("Could not turn module off"));
opi_closeucd_com(&comport);
return;
}
ui->msgPTE->appendPlainText(QString("<< %1 >> Turned module off").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
}
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_mmReadPktsPB_clicked()
{
HANDLE comport;
qint32 pktCt;
QDateTime stDT, endDT;
if(opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
stDT = QDateTime::currentDateTime();
pktCt = readMMPkts(&comport);
if(pktCt == -1)
{
ErrorMsgBox(QString("Error during packet read from memory module"));
opi_closeucd_com(&comport);
return;
}
else if(pktCt == 0)
{
ui->msgPTE->appendPlainText(QString("No packets in memory module"));
}
else
{
endDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString(">> Read %1 MM Packets Successfully in %2s").arg(pktCt).arg((endDT.toMSecsSinceEpoch()-stDT.toMSecsSinceEpoch())/1000));
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Read MM Packets").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsSetRFTOPB_clicked()
{
HANDLE comport;
int rfTXTOVal;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
switch(ui->tsRFTOValCB->currentIndex())
{
case 0:
rfTXTOVal = 0;
break;
case 1:
rfTXTOVal = 1;
break;
case 2:
rfTXTOVal = 2;
break;
}
if (opiucd_settsrftxtimeout(&comport, rfTXTOVal))
{
ErrorMsgBox(QString("Could not set RF Tx Timeout"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Set TrueSense RF TX Timeout").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsSetRFModePB_clicked()
{
HANDLE comport;
int rfMode;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
switch(ui->tsRFModeValCB->currentIndex())
{
case 0: // always off
rfMode = 0;
break;
case 1: // always on
rfMode = 1;
break;
case 2: // double tap & timeout enabled
rfMode = 3;
break;
}
if (opiucd_settsrfmode(&comport, rfMode))
{
ErrorMsgBox(QString("Could not set RF Mode"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Set TrueSense RF Mode").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_ucEraseEventsPB_clicked()
{
HANDLE comport;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if (opiucd_evcaperase(&comport))
{
ErrorMsgBox(QString("Could not erase captured events"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Erased Events").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_ucShutdownPB_clicked()
{
HANDLE comport;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if (opiucd_shutdown(&comport))
{
ErrorMsgBox(QString("Could not get into Shutdown Mode"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Shutdown mode should have been entered").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsSetTimePB_clicked()
{
HANDLE comport;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if(setTSTime(&comport))
{
ErrorMsgBox(QString("Could not set TrueSense time"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Set TrueSense Time").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void startwindowbf::on_pushButton_2_clicked()
{
OPIPKT_t opipkttmp;
quint8 tempui8arr[512];
int i;
//re open the comport
if((*comPortUserp==BFCOMPORTFREE||*comPortUserp==BFCOMPORTUSER)&&(!gamemode))
{
if(portOn)
opi_closeucd_com(&com);
if(!firstfile)
fclose(file);
firstfile=true;
*comPortUserp = BFCOMPORTFREE;
hide_check_pdn();
portOn = false;
if(opi_openucd_com(&com)==0)
{
portOn = true;
*comPortUserp = BFCOMPORTUSER;
get_opipkt_total=opiucd_getPDN();
if(!get_opipkt_total)
{
show_message.setText("there is no pdn devices");
show_message.show();
show_message.exec();
return ;
}
else
show_check_pdn();
}
else
{
portOn = false;
*comPortUserp = BFCOMPORTFREE;
show_message.setText("Connect the Device again");
show_message.show();
show_message.exec();
return ;
}
}//other device doesnt use comport
else if((*comPortUserp==BFCOMPORTFREE||*comPortUserp==TGCOMPORTUSER)&&(gamemode))
{
if(portOn)
opi_closeucd_com(&com);
if(!firstfile)
fclose(file);
firstfile=true;
*comPortUserp = BFCOMPORTFREE;
hide_check_pdn();
portOn = false;
if(opi_openucd_com(&com)==0)
{
portOn = true;
*comPortUserp = TGCOMPORTUSER;
get_opipkt_total=opiucd_getPDN();
if(!get_opipkt_total)
{
show_message.setText("there is no pdn devices");
show_message.show();
show_message.exec();
return ;
}
else
show_check_pdn();
}
else
{
portOn = false;
*comPortUserp = BFCOMPORTFREE;
show_message.setText("Connect the Device again");
show_message.show();
show_message.exec();
return ;
}
}//other device doesnt use comport
else
{
show_message.setText("Comport is busy,try again later");
show_message.show();
show_message.exec();
return ;
}
//re open the comport end
if(!(portOn))
{
*comPortUserp = BFCOMPORTFREE;
show_message.setText("You have to connect a Device");
show_message.show();
show_message.exec();
return ;
}
else if(Show_count==0)
{
show_message.setText("You have to choose Devices");
show_message.show();
show_message.exec();
return ;
}
else
{
if(!gamemode)
*comPortUserp = BFCOMPORTUSER;
else
*comPortUserp = TGCOMPORTUSER;
//if user show the showdatawindow,user can't control whether write file or not
ui->checkWriteFileBox->setDisabled(true);
if(!firstfile)
fclose(file);
//regulatefilename = userfilename;
opiucd_status(&com, &opipkttmp); // should have opened device successfully before
QDateTime stDT = QDateTime::currentDateTime();
regulatefilename = QString("D%1_ALL").arg(stDT.toString("yyyyMMdd_hhmmss"));
if(ui->checkWriteFileBox->isChecked()) //if true then write it
{
firstfile=false;
file = fopen(regulatefilename.append(".opi").toAscii().data(), "wb+");
// write opihdr information
fwrite(opipkttmp.payload, 1, OPIUCDSTLEN-1, file);
for(i = 0; i < (512-(OPIUCDSTLEN-1)); i++) tempui8arr[i] = 0xFF;
fwrite(tempui8arr, 1, (512-(OPIUCDSTLEN-1)), file);
}
else
firstfile=true;
//check which the pdn the user what to show
for(i=1;i<OPIWANT_MAX_BF+1;i++)
{
if(pdnOn[i]) //if the user choose the pdn then we open the showdatawindow
{
qDebug()<<"sdw "<<i<<"= "<<sdw[i];
if(!sdw[i]->already_open) //if already open we will not open and reset again
{
firstpdn[i]=false;
sdw[i]->reset(gamemode);
sdw[i]->setPdnNum(PDN_NUMBER[i]);
if(gamemode)
{
sdw[i]->showgamewindow(PDN_NUMBER[i]);
sdw[i]->secretstart(gamemode);
}
else
sdw[i]->show();
}
}
else //if the user don't choose the pdn then we close the showdatawindow
{
if(sdw[i]->isVisible())
{
sdw[i]->close();
sdw[i]->already_open=false;
}
}
}
//to avoid reopening timer
if(firsttimer)
{
timeid=QObject::startTimer(startwindow_fresh_time_BF);
firsttimer=false;
}
}
}
void ConfigWindow::on_ucStatusPB_clicked()
{
HANDLE comport;
OPIPKT_t opipkt;
qint64 ucdsn, ucCurrTS, ucRefEpochMSecs;
qint32 ucfwv;
qint16 ucMode, pdnList[PDNLISTLEN], uczbChan, ucusdStatus, ucChgStat;
qint32 i, pdnCt;
QString tempstr;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if(opiucd_status(&comport, &opipkt))
{
ErrorMsgBox(QString("Could not get UC status"));
opi_closeucd_com(&comport);
return;
}
ucdsn = ((qint64) opipkt.payload[0] << 32) + ((qint64) opipkt.payload[1] << 24)
+ ((qint64) opipkt.payload[2] << 16) + ((qint64) opipkt.payload[3] << 8)
+ ((qint64) opipkt.payload[4]);
ucCurrTS = ((qint64) opipkt.payload[5] << 40) + ((qint64) opipkt.payload[6] << 32) +
((qint64) opipkt.payload[7] << 24) + ((qint64) opipkt.payload[8] << 16) +
((qint64) opipkt.payload[9] << 8) + ((qint64) opipkt.payload[10]);
ucRefEpochMSecs = ucCurrTS*1000/UCRTCFREQ;
// Conversion to QDateTime, ref date & time for all sensors is 2012/sep/28 08:00:00.000
QDateTime ucDT = QDateTime::fromString("20120928080000000","yyyyMMddhhmmsszzz").addMSecs(ucRefEpochMSecs);
ucfwv = (opipkt.payload[DSNLEN+TSLEN+6] << 8) + opipkt.payload[DSNLEN+TSLEN+6+1];
ucMode = opipkt.payload[DSNLEN+TSLEN+6+FWVLEN];
for (i = 0; i < PDNLISTLEN; i++)
pdnList[i] = opipkt.payload[DSNLEN+TSLEN+6+FWVLEN+1+i];
uczbChan = opipkt.payload[DSNLEN+TSLEN+6+FWVLEN+1+PDNLISTLEN];
ucusdStatus = opipkt.payload[DSNLEN+TSLEN+6+FWVLEN+1+PDNLISTLEN+1];
ucChgStat = opipkt.payload[DSNLEN+TSLEN+6+FWVLEN+1+PDNLISTLEN+2];
if(ucusdStatus & 0x04) ui->ucModOnOffCB->setCurrentIndex(0);
else ui->ucModOnOffCB->setCurrentIndex(1);
ui->msgPTE->appendPlainText(QString(">> UC Status"));
ui->msgPTE->appendPlainText(QString("Device ShortID: %1 Firmware Version: %2 Time: %3 ZigBee Channel: %4").arg(QChar(opipkt.payload[4]%26 + 65)).arg(ucfwv).arg(ucDT.toString("yyyyMMdd hhmmss")).arg(uczbChan));
if(ucusdStatus & 0x04) ui->msgPTE->appendPlainText("uSD sensor on");
else ui->msgPTE->appendPlainText("uSD sensor off");
if((ucusdStatus & 0x03) == 0) ui->msgPTE->appendPlainText("uSD Slot: Nothing");
else if((ucusdStatus & 0x03) == 1) ui->msgPTE->appendPlainText("uSD Slot: TS only");
else if((ucusdStatus & 0x03) == 2) ui->msgPTE->appendPlainText("uSD Slot: MM only");
else if((ucusdStatus & 0x03) == 3) ui->msgPTE->appendPlainText("uSD Slot: TS & MM");
if(ucChgStat & 0x30) ui->msgPTE->appendPlainText("Controller is in On Mode");
else ui->msgPTE->appendPlainText("Controller is in Off Mode");
if(ucusdStatus & 0x10) ui->msgPTE->appendPlainText("USD SPI is on");
else ui->msgPTE->appendPlainText("USD SPI is off");
pdnCt = 0;
for(i = 0; i < PDNLISTLEN; i++)
{
if(pdnList[i] != 0xFF)
{
tempstr.append(QString("Slot %1-#%2, ").arg(i+1).arg(pdnList[i]));
pdnCt++;
}
}
if(!pdnCt) tempstr = QString("No paired devices");
else tempstr.prepend(QString("%1 Associated PDNs: ").arg(pdnCt));
ui->msgPTE->appendPlainText(tempstr);
// update the current ZigBee Channel
ui->ucZBValCB->setCurrentIndex(uczbChan-11);
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Unified Controller Status").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsStatusPB_clicked()
{
HANDLE comport;
OPIPKT_t opipkt;
qint64 moddsn, modrtc, modrtcSet, modRefEpochMSecs;
qint32 modfwv;
qint16 modpdn, modzbChan, modRFMode, modRFTxPwr, modMMWrite, modRFTxTimeout;
QString tempstr;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if(opiucd_tsstatus(&comport, &opipkt))
{
ErrorMsgBox(QString("Could not get TrueSense status"));
opi_closeucd_com(&comport);
return;
}
moddsn = ((qint64) opipkt.payload[1] << 32) + ((qint64)opipkt.payload[2] << 24)
+ (opipkt.payload[3] << 16) + (opipkt.payload[4] << 8) + opipkt.payload[5];
modrtc = ((qint64) opipkt.payload[1+DSNLEN] << 32) + ((qint64) opipkt.payload[1+DSNLEN+1] << 24)
+ (opipkt.payload[1+DSNLEN+2] << 16) + (opipkt.payload[1+DSNLEN+3] << 8) + opipkt.payload[1+DSNLEN+4];
modrtcSet = modrtc >> 39;
if (modrtcSet) modRefEpochMSecs = (modrtc - (((qint64) 1) << 39))*64*1000/32768;
else modRefEpochMSecs = modrtc*64*1000/32768;
// Conversion to QDateTime, ref date & time for all sensors is 2012/sep/28 08:00:00.000
QDateTime modDT = QDateTime::fromString("20120928080000000","yyyyMMddhhmmsszzz").addMSecs(modRefEpochMSecs);
modfwv = (opipkt.payload[1+DSNLEN+5] << 8) + opipkt.payload[1+DSNLEN+5+1];
modpdn = opipkt.payload[1+DSNLEN+5+FWVLEN];
modzbChan = opipkt.payload[1+DSNLEN+5+FWVLEN+1];
modRFMode = opipkt.payload[1+DSNLEN+5+FWVLEN+2];
modRFTxPwr = opipkt.payload[1+DSNLEN+5+FWVLEN+3];
modMMWrite = opipkt.payload[1+DSNLEN+5+FWVLEN+4];
modRFTxTimeout = opipkt.payload[1+DSNLEN+5+FWVLEN+5];
ui->msgPTE->appendPlainText(QString(">> TrueSense Status"));
ui->msgPTE->appendPlainText(QString("Paired Device Number: %1 Firmware Version: %2 Time: %3 ZigBee Channel: %4").arg(modpdn).arg(modfwv).arg(modDT.toString("yyyyMMdd hhmmss")).arg(modzbChan));
ui->tsPDNValLE->setText(QString("%1").arg(modpdn));
ui->tsZBValCB->setCurrentIndex(modzbChan-11);
if(modRFMode == 0)
{
tempstr.append("RF Always Off");
ui->tsRFModeValCB->setCurrentIndex(0);
ui->tsRFTOValCB->setCurrentIndex(modRFTxTimeout);
}
else if(modRFMode == 1)
{
tempstr.append("RF Always On");
ui->tsRFModeValCB->setCurrentIndex(1);
ui->tsRFTOValCB->setCurrentIndex(modRFTxTimeout);
}
else if(modRFMode == 2)
{
if(opiucd_settsrfmode(&comport, 3))
{
ErrorMsgBox(QString("Failed to set RF Mode to On with Double Tap and Timeout enabled"));
opi_closeucd_com(&comport);
return;
}
if(modRFTxTimeout == 0)
tempstr.append("RF On with double tap enabled");
else if(modRFTxTimeout == 1)
tempstr.append("RF On with double tap enabled and timeout of 30 min");
else if(modRFTxTimeout == 2)
tempstr.append("RF On with double tap enabled and timeout of 1 hour");
ui->tsRFModeValCB->setCurrentIndex(2);
ui->tsRFTOValCB->setCurrentIndex(modRFTxTimeout);
}
else if(modRFMode == 3)
{
if(modRFTxTimeout == 0)
tempstr.append("RF On with double tap enabled");
else if(modRFTxTimeout == 1)
tempstr.append("RF On with double tap enabled and timeout of 30 min");
else if(modRFTxTimeout == 2)
tempstr.append("RF On with double tap enabled and timeout of 1 hour");
ui->tsRFModeValCB->setCurrentIndex(2);
ui->tsRFTOValCB->setCurrentIndex(modRFTxTimeout);
}
ui->msgPTE->appendPlainText(tempstr);
if(modMMWrite)
{
ui->msgPTE->appendPlainText("Memory Module Write Enabled");
}
else
{
ui->msgPTE->appendPlainText("Memory Module Write Disabled");
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Got TrueSense Status").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_tsSetZBPB_clicked()
{
HANDLE comport;
int zbChan;
if (opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
switch(ui->tsZBValCB->currentIndex())
{
case 0:
zbChan = 11;
break;
case 1:
zbChan = 12;
break;
case 2:
zbChan = 13;
break;
case 3:
zbChan = 14;
break;
case 4:
zbChan = 15;
break;
case 5:
zbChan = 16;
break;
case 6:
zbChan = 17;
break;
case 7:
zbChan = 18;
break;
case 8:
zbChan = 19;
break;
case 9:
zbChan = 20;
break;
case 10:
zbChan = 21;
break;
case 11:
zbChan = 22;
break;
case 12:
zbChan = 23;
break;
case 13:
zbChan = 24;
break;
case 14:
zbChan = 25;
break;
case 15:
zbChan = 26;
break;
}
if (opiucd_settszbchan(&comport, zbChan))
{
ErrorMsgBox(QString("Could not set TrueSense ZigBee Channel"));
opi_closeucd_com(&comport);
return;
}
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Set TrueSense ZigBee Channel").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
opi_closeucd_com(&comport);
}
void ConfigWindow::on_ucWLMeasurePB_clicked()
{
HANDLE comport;
OPIPKT_t ucOpipkt;
qint32 result[16];
QString resTopLine, resBotLine;
int i, uczbChan;
QProgressDialog progQPD("Measuring ZigBee Channels", QString(), 0, 15);
progQPD.setWindowModality(Qt::WindowModal);
progQPD.setMinimumDuration(100);
if(opi_openucd_com(&comport))
{
ErrorMsgBox(QString("No UC attached (COM1-COM50)"));
opi_closeucd_com(&comport);
return;
}
if(opiucd_status(&comport, &ucOpipkt))
{
ErrorMsgBox(QString("Couldn't get UC status"));
opi_closeucd_com(&comport);
return;
}
// save current channel
uczbChan = ucOpipkt.payload[DSNLEN+TSLEN+6+FWVLEN+1+PDNLISTLEN];
ui->msgPTE->appendPlainText(QString("Original ZigBee Channel: %1").arg(uczbChan));
ui->msgPTE->appendPlainText("Measuring all zigbee channels, please wait");
qApp->processEvents();
// Go through each valid channel and get maximum out of 100 tries
for(i = 0; i < 16; i++)
{
if (opiucd_setzbchan(&comport, i+11))
{
ErrorMsgBox(QString("Could not set UC ZigBee Channel"));
opi_closeucd_com(&comport);
return;
}
result[i] = maxWLMeasure100(&comport);
progQPD.setValue(i);
qApp->processEvents();
}
resTopLine.append("ZigBee Channel: 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26");
resBotLine.append("Maximum ED : ");
for(i = 0; i < 16; i++) resBotLine.append(QString("%1 ").arg(result[i],2,10,QChar('0')));
ui->msgPTE->appendPlainText(resTopLine);
ui->msgPTE->appendPlainText(resBotLine);
// set original zb channel
if (opiucd_setzbchan(&comport, uczbChan))
{
ErrorMsgBox(QString("Could not set original UC ZigBee Channel"));
opi_closeucd_com(&comport);
return;
}
opi_closeucd_com(&comport);
QDateTime currDT = QDateTime::currentDateTime();
ui->msgPTE->appendPlainText(QString("<< %1 >> Wireless Measurements done").arg(currDT.toString("yyyy.MM.dd hh:mm:ss")));
ui->msgPTE->appendPlainText(QString(" "));
ui->msgPTE->ensureCursorVisible();
}
