DCPlugin/src/ATBAPP/DeviceControllerDiag.cpp

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#include "DeviceControllerDiag.h"
#include <QCoreApplication>
#include <QUuid>
#include <QDebug>
DeviceControllerDiag::DeviceControllerDiag(QObject *parent)
: QObject(parent)
, eventReceiver(nullptr)
, isRequestRunning(false)
, flagInterruptDiag(false)
{
diagRequestTimeoutTimer = new QTimer(this);
diagRequestTimeoutTimer->setInterval(1000*20); // 20s
diagRequestTimeoutTimer->setSingleShot(true);
connect(diagRequestTimeoutTimer, &QTimer::timeout, this, &DeviceControllerDiag::onDiagRequestTimeoutTimerTimeout);
}
void DeviceControllerDiag::init(hwinf *hw, QObject* eventReceiver)
{
this->hw = hw;
this->eventReceiver = eventReceiver;
// make a system check on startup:
QTimer::singleShot(2000, this, &DeviceControllerDiag::diagRequest);
}
void DeviceControllerDiag::diagRequest()
{
qCritical() << "DeviceControllerDiag::diagRequest()";
if (this->isRequestRunning) {
qCritical() << "DeviceControllerDiag::diagRequest() is already running";
return;
}
this->isRequestRunning = true;
this->diagRequestTimeoutTimer->start();
this->private_startDiag();
}
void DeviceControllerDiag::onDiagRequestTimeoutTimerTimeout()
{
qCritical() << "DeviceControllerDiag::onDiagRequestTimeoutTimerTimeout()";
this->flagInterruptDiag = true;
}
void DeviceControllerDiag::private_startDiag()
{
// check for DiagRequestTimeoutTimerTimeout:
if (this->flagInterruptDiag) {
qCritical() << "DeviceControllerDiag::private_startDiag() interrupted!";
this->private_finishedDiag(0xff);
return;
}
bool result;
result = hw->sys_areDCdataValid();
if (result) {
qCritical() << "DeviceControllerDiag::private_startDiag() DCdata is valid";
QTimer::singleShot(200, this, &DeviceControllerDiag::sys_superviseSystem);
}
else {
qCritical() << "DeviceControllerDiag::private_startDiag() DCdata is +++not+++ valid";
// try it again
QTimer::singleShot(200, this, &DeviceControllerDiag::private_startDiag);
}
}
void DeviceControllerDiag::sys_superviseSystem()
{ // this function proofs if vending is possible depending of doors state
struct T_dynamicCondition dynMaCond;
struct T_moduleCondition modCond;
qCritical() << " sys_superviseSystem()";
// check for DiagRequestTimeoutTimerTimeout:
if (this->flagInterruptDiag) {
qCritical() << "DeviceControllerDiag::sys_superviseSystem() interrupted!";
this->private_finishedDiag(0xff);
return;
}
if (!hw->sys_areDCdataValid())
{
// es gibt keinerlei gültige Daten vom DC
qCritical() << "DeviceControllerDiag::sys_superviseSystem() no valid data!";
this->private_finishedDiag(0xfe);
return;
}
// jetzt sind die DC-Daten aktuell, also reinholen:
hw->sys_getDynMachineConditions(&dynMaCond);
hw->sys_getDeviceConditions(&modCond);
qCritical() << "DeviceControllerDiag::sys_superviseSystem() get condition data";
if (!modCond.allModulesChecked)
{
// noch keine Testergebnisse
if (dynMaCond.startupTestIsRunning) {
// TODO?
}
qCritical() << " allModulesChecked is false --> call again";
QTimer::singleShot(200, this, &DeviceControllerDiag::sys_superviseSystem);
return;
}
// all doors: 99: undefined 0:closed 1:open
if (dynMaCond.lowerDoor || dynMaCond.upperDoor) {
// Service or battery door is open, goto INTRUSION MODE
qCritical() << "DeviceControllerDiag::sys_superviseSystem() Service or battery door is open, goto INTRUSION MODE";
this->private_finishedDiag(0xFD);
return;
}
if (dynMaCond.middleDoor) {
// vault door is open, goto INTRUSION MODE
qCritical() << "DeviceControllerDiag::sys_superviseSystem() vault door is open, goto INTRUSION MODE";
this->private_finishedDiag(0xFC);
return;
}
qCritical() << " --> call sub_componentAssessment()";
uint8_t proposedError = sub_componentAssessment();
if (proposedError) {
// All doors are closed but errors found, goto OOO MODE (out-of-order)
qCritical() << "DeviceControllerDiag::sys_superviseSystem() All doors are closed but errors found, goto OOO MODE (out-of-order)";
this->private_finishedDiag(proposedError);
return;
}
// everything fine
qCritical() << "DeviceControllerDiag::sys_superviseSystem() everything fine";
this->private_finishedDiag(0x00);
}
uint8_t DeviceControllerDiag::sub_componentAssessment()
{
// this function decides if vending mode is possible, independant from door
// return >0 in case of error
struct T_moduleCondition modCond;
hw->sys_getDeviceConditions(&modCond);
struct T_dynamicCondition dynMaCond;
hw->sys_getDynMachineConditions(&dynMaCond);
struct T_devices devPara;
hw->sys_restoreDeviceParameter(&devPara);
if (modCond.rtc>=200)
return 1;
if (modCond.printer==200 || modCond.printer==201) // 200: not connected 201: printer-HW-error 202: no paper
return 2;
if (modCond.printer==202)
return 3;
if (modCond.coinBlocker>=200)
return 4;
if (modCond.mdbBus>=200)
return 5;
if (modCond.intEe>=200)
return 6;
if (devPara.kindOfCoinChecker==1 || devPara.kindOfCoinChecker==2) // 0: without 1=EMP820 2=EMP900 3=currenza c² (MW)
{
if (modCond.coinChecker>=200 || modCond.coinEscrow>=200)
{
// Fehler Münzver.
return 7;
}
if (modCond.coinSafe>200) // 200: kasse fehlt 201: voll 100:fast voll 1:ok
{
return 8;
}
} else
if (devPara.kindOfCoinChecker==3)
{
if (modCond.changer>=200)
{
// Fehler Münzver.
return 7;
}
if (modCond.coinSafe>200) // 200: kasse fehlt 201: voll 100:fast voll 1:ok
{
return 8;
}
}
if ( modCond.billReader>=200 && devPara.BillAcceptor>0)
{
// Fehler BNA
return 9;
}
if (dynMaCond.onAlarm>0)
return 10;
if (dynMaCond.modeAbrech>0)
return 11;
if (dynMaCond.nowCardTest>0)
return 12;
if (dynMaCond.startupTestIsRunning>0)
return 13;
if (modCond.voltage>=200)
return 14;
if (modCond.temper>=200)
return 15;
return 0;
}
uint8_t DeviceControllerDiag::sys_getSystemErrors()
{
// 0: everything fine 1..15: errors
/* 1: real time clock error
2: printer error
3: no paper
4: coin blocker
5: mdb error
6: mem error int.ee.
7: error coin validator
8: coin safe missed or full
9: bill acceptor error
10: alarm / intrusion
11: cash box change is ongoing
12: card test running
13: startup-test is running
14: voltage error
15: temperature error
*/
return this->sub_componentAssessment();
}
/**
* @brief DeviceControllerDiag::private_finishedDiag
* @param result - result value from 'sub_componentAssessment()',
* - 0xFF on timer interrupt
* - 0xFE no valid data from DeviceController
* - 0xFD Service or battery door is open
* - 0xFE vault door is open
*/
void DeviceControllerDiag::private_finishedDiag(uint8_t result)
{
this->diagRequestTimeoutTimer->stop();
this->isRequestRunning = false;
this->flagInterruptDiag = false;
if (result == 0) return;
qCritical() << "DeviceControllerDiag::private_finishedDiag() result: " << result;
if (this->eventReceiver == nullptr) {
qCritical() << "DeviceControllerDiag: no eventReceiver";
return;
}
if (result > 15 && result != 0xFE) return;
// Errors are in this range 1...15:
QString eventId = QUuid::createUuid().toString(QUuid::WithoutBraces).mid(0, 8);
QString eventName;
EVENT_CLASS eventClass = EVENT_CLASS::STATE;
QString parameter;
switch (result) {
case 1: // real time clock error
eventName = "E001";
eventClass = EVENT_CLASS::ERROR;
parameter = "real time clock error";
break;
case 2: // printer error
eventName = "E002";
eventClass = EVENT_CLASS::ERROR;
parameter = "printer error";
break;
case 3: // no paper
eventName = "E003";
eventClass = EVENT_CLASS::ERROR;
parameter = "no paper";
break;
case 4: // coin blocker
eventName = "E004";
eventClass = EVENT_CLASS::ERROR;
parameter = "coin blocker";
break;
case 5: // mdb error
eventName = "E005";
eventClass = EVENT_CLASS::ERROR;
parameter = "mdb error";
break;
case 6: // mem error int.ee.
eventName = "E006";
eventClass = EVENT_CLASS::ERROR;
parameter = "mem error int.ee.";
break;
case 7: // error coin validator
eventName = "E007";
eventClass = EVENT_CLASS::ERROR;
parameter = "error coin validator";
break;
case 8: // coin safe missed or full
eventName = "E008";
eventClass = EVENT_CLASS::ERROR;
parameter = "coin safe missed or full";
break;
case 9: // bill acceptor error
eventName = "E009";
eventClass = EVENT_CLASS::ERROR;
parameter = "bill acceptor error";
break;
case 10: // alarm / intrusion
eventName = "E010";
eventClass = EVENT_CLASS::ERROR;
parameter = "alarm / intrusion";
break;
case 11: // cash box change is ongoing
eventName = "E011";
eventClass = EVENT_CLASS::STATE;
parameter = "cash box change is ongoing";
break;
case 12: // card test running
eventName = "E012";
eventClass = EVENT_CLASS::STATE;
parameter = "card test running";
break;
case 13: // startup-test is running
eventName = "E013";
eventClass = EVENT_CLASS::STATE;
parameter = "startup-test is running";
break;
case 14: // voltage error
eventName = "E014";
eventClass = EVENT_CLASS::ERROR;
parameter = "voltage error";
break;
case 15: // temperature error
eventName = "E015";
eventClass = EVENT_CLASS::STATE;
parameter = "temperature error";
break;
case 0xFE: // no valid data from DeviceController
eventName = "E254";
eventClass = EVENT_CLASS::STATE;
parameter = "no valid data from DeviceController";
break;
}
ATBMachineEvent *machineEvent = new ATBMachineEvent(
eventId,
"DC",
eventClass,
eventName,
1,
parameter,
"" // second level info
);
//emit diagResponse(machineEvent);
QCoreApplication::postEvent(eventReceiver, machineEvent);
}