void PstnPinManager::enterPuk
( const QString& type, const QString& puk, const QString& newPin )
{
Q_UNUSED(puk);
Q_UNUSED(newPin);
emit pinStatus( type, Valid, QPinOptions() );
}
void PstnPinManager::querySimPinStatus()
{
// We don't have a SIM, and therefore no PIN, so fake "READY".
emit pinStatus( "READY", Valid, QPinOptions() );
if ( !readySent ) {
readySent = true;
service->post( "simready" );
}
}
/*!
\internal
Construct a new CellModemManager with the appropriate \a parent. Only one
instance of CellModemManager may be constructed.
*/
CellModemManager::CellModemManager(QObject *parent)
: QAbstractCallPolicyManager(parent), d(new CellModemManagerPrivate)
{
Q_ASSERT(!cellModemManagerInstance);
cellModemManagerInstance = true;
d->m_status = new QValueSpaceObject("/Telephony/Status", this);
d->m_status->setAttribute("ModemStatus", "Initializing");
QValueSpaceItem *simToolkitAvailable;
simToolkitAvailable = new QValueSpaceItem
("/Telephony/Status/SimToolkit/Available", this);
connect(simToolkitAvailable, SIGNAL(contentsChanged()),
this, SLOT(simToolkitAvailableChange()));
// Check for modem
QServiceChecker checker("modem");
if(!checker.isValid()) {
d->m_aerialOn = false;
d->m_state = NoCellModem;
updateStatus();
return;
}
d->m_netReg = new QNetworkRegistration("modem", this);
d->m_regState = d->m_netReg->registrationState();
d->m_operator = d->m_netReg->currentOperatorName();
QObject::connect(d->m_netReg, SIGNAL(registrationStateChanged()),
this, SLOT(registrationStateChanged()));
QObject::connect(d->m_netReg, SIGNAL(currentOperatorChanged()),
this, SLOT(currentOperatorChanged()));
// Rename signal for QAbstractCallPolicyManager.
QObject::connect(this, SIGNAL(registrationStateChanged(QTelephony::RegistrationState)),
this, SIGNAL(registrationChanged(QTelephony::RegistrationState)));
d->m_pinManager = new QPinManager("modem", this);
QObject::connect(d->m_pinManager,
SIGNAL(pinStatus(QString,QPinManager::Status,QPinOptions)),
this,
SLOT(pinStatus(QString,QPinManager::Status,QPinOptions)) );
d->m_rfFunc = new QPhoneRfFunctionality("modem", this);
QObject::connect(d->m_rfFunc,
SIGNAL(levelChanged()), this, SLOT(rfLevelChanged()));
d->m_callForwarding = new QCallForwarding("modem", this);
QObject::connect(d->m_callForwarding,
SIGNAL(forwardingStatus(QCallForwarding::Reason,QList<QCallForwarding::Status>)),
this,
SLOT(forwardingStatus(QCallForwarding::Reason,QList<QCallForwarding::Status>)));
QSimInfo *simInfo = new QSimInfo( "modem", this );
connect( simInfo, SIGNAL(removed()), this, SLOT(simRemoved()) );
connect( simInfo, SIGNAL(inserted()), this, SLOT(simInserted()) );
if(::profilesControlModem) {
d->m_profiles = new QPhoneProfileManager(this);
d->m_aerialOn = !d->m_profiles->planeMode();
QObject::connect(d->m_profiles, SIGNAL(planeModeChanged(bool)),
this, SLOT(planeModeChanged(bool)));
}
// If plane mode isn't an option, then we have to fully initialize the modem
// each time
if(!planeModeSupported())
d->m_aerialOn = true;
setAerialEnabled(d->m_aerialOn);
updateStatus();
doInitialize();
}
void PstnPinManager::enterPin( const QString& type, const QString& pin )
{
Q_UNUSED(pin);
emit pinStatus( type, Valid, QPinOptions() );
}
void QPinManagerDummy::querySimPinStatus()
{
emit pinStatus( "READY", Valid, QPinOptions() );
}
