/*
* Copyright (c) 2002 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include <apgtask.h>
#include <etelmm.h>
#include <AknEcs.h>
#include <aknnotedialog.h>
#include <aknkeylock.h>
#include <AknLayoutDef.h>
#include <AknLayout.lag>
#include <bldvariant.hrh>
#include <aknappui.h>
#include <centralrepository.h>
#include <settingsinternalcrkeys.h>
#include <secuisecurityhandler.h>
#include <secui.h>
#include <featmgr.h>
#include <Autolock.rsg>
#include <mmtsy_names.h>
#include <e32property.h>
#include <PSVariables.h> // Property values
#include <coreapplicationuisdomainpskeys.h>
#include <startupdomainpskeys.h>
#include <ctsydomainpskeys.h>
#include <securityuisprivatepskeys.h>
#include <AknSgcc.h>
#include "AutolockAppUiPS.h"
#include "AutoLockValueObserverPS.h"
#include "AutoLockModelPS.h"
#include "AutolockApp.h"
#include "autolock.hrh"
#include "AutolockView.h"
#include <SCPClient.h>
#include <AknSoftNotifier.h>
// sysap uid and message enums defined in eikon.hrh
// for sending messages to sysap
#include <eikon.hrh>
#include <apgwgnam.h>
#include <aknlayoutscalable_avkon.cdl.h>
// LOCAL CONSTANTS AND MACROS
#define KSysApUid TUid::Uid(0x100058F3)
const TInt KTriesToConnectServer( 2 );
const TInt KTimeBeforeRetryingServerConnection( 50000 );
const TInt PhoneIndex( 0 );
// ================= MEMBER FUNCTIONS =======================
//
// ----------------------------------------------------------
// CAutolockAppUi::ConstructL()
// ?implementation_description
// ----------------------------------------------------------
//
void CAutolockAppUi::ConstructL()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL"));
#endif
BaseConstructL( EAknEnableSkin | EAknEnableMSK );
//Disable priority control so that Autolock process priority isn't set to "background" by
//window server when it is not active.
iEikonEnv->WsSession().ComputeMode( RWsSession::EPriorityControlDisabled );
RThread().SetProcessPriority( EPriorityHigh );
FeatureManager::InitializeLibL();
RTelServer::TPhoneInfo PhoneInfo;
// prevent autolock shutdown
iEikonEnv->SetSystem( ETrue );
iSideKey1 = 0;
iSideKey2 = 0;
iAppKey = 0;
aCallButtonRect = TRect (0,0,0,0);
//connect to ETel
TInt err( KErrGeneral );
TInt thisTry( 0 );
/*All server connections are tried to be made KTiesToConnectServer times because occasional
fails on connections are possible at least on some servers*/
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() connect to etel server"));
#endif
// connect etel server
while ( ( err = iServer.Connect() ) != KErrNone && ( thisTry++ ) <= KTriesToConnectServer )
{
User::After( KTimeBeforeRetryingServerConnection );
}
User::LeaveIfError( err );
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() load tsy"));
#endif
// load tsy
err = iServer.LoadPhoneModule( KMmTsyModuleName );
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() load tsy ERROR: %d"), err);
#endif
if ( err != KErrAlreadyExists )
{
// may return also KErrAlreadyExists if some other
// is already loaded the tsy module. And that is
// not an error.
User::LeaveIfError( err );
}
thisTry = 0;
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() open phone"));
#endif
//open phone
User::LeaveIfError(iServer.SetExtendedErrorGranularity(RTelServer::EErrorExtended));
User::LeaveIfError(iServer.GetPhoneInfo(PhoneIndex, PhoneInfo));
User::LeaveIfError(iPhone.Open(iServer,PhoneInfo.iName));
User::LeaveIfError(iCustomPhone.Open(iPhone));
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() phone opened"));
#endif
TBool systemLocked = EFalse;
TBool phoneLocked = EFalse;
iWait = NULL;
iWait = CWait::NewL();
#ifndef __WINS__
/*****************************************************
* Series 60 Customer / ETEL
* Series 60 ETEL API
*****************************************************/
// set autolock period to 0, if lock is disabled in DOS side
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() set autolock period to 0"));
#endif
RMobilePhone::TMobilePhoneLock lockType = RMobilePhone::ELockPhoneDevice;
RMobilePhone::TMobilePhoneLockInfoV1 lockInfo;
RMobilePhone::TMobilePhoneLockInfoV1Pckg lockInfoPkg(lockInfo);
iWait->SetRequestType(EMobilePhoneGetLockInfo);
iPhone.GetLockInfo(iWait->iStatus, lockType, lockInfoPkg);
TInt res = iWait->WaitForRequestL();
User::LeaveIfError(res);
TInt lockValue = 0;
CRepository* repository = CRepository::NewL(KCRUidSecuritySettings);
TInt cRresult = repository->Get(KSettingsAutolockStatus, lockValue);
TBool hiddenReset = HiddenReset();
#if defined(_DEBUG)
if(hiddenReset)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() Hidden reset"));
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() CR get result: %d"), cRresult);
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() CR lock value: %d"), lockValue);
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() CR lockInfo.iSetting: %d"), lockInfo.iSetting);
#endif
if (lockInfo.iSetting == RMobilePhone::ELockSetDisabled)
{
repository->Set(KSettingsAutoLockTime, 0);
if ( FeatureManager::FeatureSupported( KFeatureIdProtocolCdma ) )
{
repository->Set(KSettingsLockOnPowerUp, 0);
}
}
// In CDMA, the system can stay locked on after the boot-up sequence.
else if ( FeatureManager::FeatureSupported( KFeatureIdProtocolCdma ) || (hiddenReset && (lockValue == 1)))
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() Hidden reset when locked"));
#endif
phoneLocked = systemLocked = ETrue;
}
else if (lockInfo.iSetting == RMobilePhone::ELockSetEnabled && !hiddenReset) {
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() Set phone locked"));
#endif
phoneLocked = ETrue;
}
delete repository;
#endif //__WINS__
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() Enable emergency call support"));
#endif
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() Autolock view"));
#endif
// -------------------------------------------------------------------------------------------------------------
// part of emergency call handling when telephony+devicelock is active
// this solution is meant only for 3.1 and 3.2
iEcsNote = new (ELeave) CEcsNote();
iEcsNote->ConstructSleepingNoteL(R_AVKON_EMERGENCY_CALL_NOTE);
iEcsNote->ButtonGroupContainer().ButtonGroup()->AsControl()->DrawableWindow()->SetOrdinalPosition(0,2);
if (AknLayoutUtils::PenEnabled()) // on touch devices, if Autolock is activated from IdleScreen in landscape, the buttons need to be drawn.
{
iEcsNote->ButtonGroupContainer().SetCommandL( 0, _L("") ); // as keyboard is locked, these buttons do nothing. Better to hide their labels.
iEcsNote->ButtonGroupContainer().SetCommandL( EAknSoftkeyCancel, _L("") );
iEcsNote->ButtonGroupContainer().ButtonGroup()->AsControl()->MakeVisible(ETrue);
}
// Emergency call support
iEcsDetector = CAknEcsDetector::NewL();
iEcsDetector->SetObserver( this );
iEmergencySupportReady = ETrue;
// -------------------------------------------------------------------------------------------------------------
// Autolock view
CAutolockView* lockView = new(ELeave) CAutolockView;
CleanupStack::PushL(lockView);
lockView->ConstructL();
CleanupStack::Pop(); // lockView
AddViewL(lockView); // transfer ownership to CAknViewAppUi
SetDefaultViewL(*lockView);
// start autolock timer
iModel = CAutoLockModel::NewL(this, phoneLocked);
// phone event observer
iPhoneObserver = CValueObserver::NewL(this);
//call bubble
iIncallBubble = CAknIncallBubble::NewL();
//Autokeyguard Period observer
#ifdef RD_AUTO_KEYGUARD
iKeyguardObserver = CAutoKeyguardObserver::NewL();
#else //!RD_AUTO_KEYGUARD
iKeyguardObserver = NULL;
#endif //RD_AUTO_KEYGUARD
// Create the write policy. Also processes with write device data can write the value.
TSecurityPolicy writePolicy( ECapabilityWriteDeviceData );
// Create the read policy. Also processes with read device data can read the value.
TSecurityPolicy readPolicy( ECapabilityReadDeviceData );
TInt tRet = RProperty::Define( KPSUidSecurityUIs, KSecurityUIsSecUIOriginatedQuery, RProperty::EInt, readPolicy, writePolicy );
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
FAILED to define the SECUI query Flag: %d"), tRet);
#endif
}
tRet = RProperty::Define( KPSUidSecurityUIs, KSecurityUIsQueryRequestCancel, RProperty::EInt, readPolicy, writePolicy );
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
FAILED to define the SECUI query request state Flag: %d"), tRet);
#endif
}
if(FeatureManager::FeatureSupported(KFeatureIdSapTerminalControlFw ))
{
// Define the TARM admin flag.
tRet = RProperty::Define( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, RProperty::EInt,
readPolicy, writePolicy );
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
FAILED to define the TARM Admin Flag"));
#endif
}
// The following sequence is used to validate the configuration on SCP server.
// This is needed on the first boot (initial or RFS) or if the C-drive has been formatted
// (3-button format) and Autolock is not active.
RSCPClient scpClient;
if ( scpClient.Connect() == KErrNone )
{
TInt confStatus = scpClient.CheckConfiguration( KSCPInitial );
if ( confStatus == KErrAccessDenied )
{
#ifndef __WINS__
if ( ( lockInfo.iSetting == RMobilePhone::ELockSetDisabled ) )
#else // __WINS__
if ( 1 ) // DOS lock is never active in WINS
#endif // __WINS__
{
// DOS lock is not active. Note that if DOS is locked, checking the code here will
// mess up the query sequence. On initial startup DOS is not locked.
TInt finalConfStatus = scpClient.CheckConfiguration( KSCPComplete );
if ( finalConfStatus == KErrAccessDenied )
{
#ifdef __WINS__
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
DOS validation FAILED in WINS, something wrong!"));
#endif
#else // !__WINS__
// The SCP server is out of sync and Autolock is not active. (c-drive formatted)
// We must ask the security code. ( Note that it is very rare that this is executed )
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
Lock setting disabled, calling setlocksetting"));
#endif
// Wait here until the startup is complete
TInt tarmErr = KErrNone;
while ( tarmErr == KErrNone )
{
TInt sysState=0;
tarmErr = RProperty::Get(KPSUidStartup, KPSGlobalSystemState, sysState);
if ((sysState == ESwStateNormalRfOn) || (sysState == ESwStateNormalRfOff)
|| (sysState == ESwStateNormalBTSap))
{
break;
}
User::After(500000);
}
// Just change the lock setting again to disabled to request the security code.
// Set the TARM flag so SecUi knows it should display the "login" query.
TInt tarmFlag=0;
tRet = RProperty::Get( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, tarmFlag );
if ( tRet == KErrNone )
{
tarmFlag |= KSCPFlagResyncQuery;
tRet = RProperty::Set( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, tarmFlag );
}
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL():\
FAILED to set TARM Admin Flag"));
#endif
}
RMobilePhone::TMobilePhoneLockSetting lockChange;
lockChange = RMobilePhone::ELockSetDisabled;
iWait->SetRequestType(EMobilePhoneSetLockSetting);
iPhone.SetLockSetting(iWait->iStatus, lockType, lockChange);
res = iWait->WaitForRequestL();
#endif // __WINS__
}
}
} // if ( confStatus == KErrAccessDenied )
scpClient.Close();
}
}
// Eventhough we might lock the device on boot-up (systemLocked == ETrue), we
// want to hide the app until the handshake is done. StartUp application will
// active the app when it is finished.
if( !systemLocked )
{// app to background
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() app to background"));
#endif
TApaTask self(iCoeEnv->WsSession());
self.SetWgId(iCoeEnv->RootWin().Identifier());
self.SendToBackground();
// flush
iCoeEnv->WsSession().Flush();
}
else
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() LOCK SYSTEM"));
#endif
TInt lockState = 0;
#ifdef RD_REMOTELOCK
lockState = EManualLocked;
#else //!RD_REMOTELOCK
lockState = EAutolockOn;
#endif//RD_REMOTELOCK
iModel->LockSystemL(lockState);
}
iGripStatusObserver = CAutolockGripStatusObserver::NewL( this, iEikonEnv->WsSession() );
iFpsStatusObserver = CAutolockFpsStatusObserver::NewL( this, iEikonEnv->WsSession() );
iDeviceLockQueryStatus = EFalse;
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::ConstructL() END"));
#endif
}
// ----------------------------------------------------
// CAutolockAppUi::~CAutolockAppUi()
// Destructor
// Frees reserved resources
// ----------------------------------------------------
//
CAutolockAppUi::~CAutolockAppUi()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::~CAutolockAppUi() BEGIN"));
#endif
if(iWait)
{
// Cancel active requests
if(iWait->IsActive())
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::~CAutolockAppUi() CANCEL REQ"));
#endif
iPhone.CancelAsyncRequest(iWait->GetRequestType());
}
}
//close ETel connections
if (iCustomPhone.SubSessionHandle())
iCustomPhone.Close();
if (iPhone.SubSessionHandle())
iPhone.Close();
if (iServer.Handle())
{
iServer.UnloadPhoneModule(KMmTsyModuleName);
iServer.Close();
}
delete iModel;
delete iPhoneObserver;
delete iIncallBubble;
#ifdef RD_AUTO_KEYGUARD
delete iKeyguardObserver;
#endif
delete iEcsDetector;
delete iEcsNote; // Ecs change
delete iWait;
FeatureManager::UnInitializeLib();
delete iGripStatusObserver;
delete iFpsStatusObserver;
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::~CAutolockAppUi() END"));
#endif
}
// ----------------------------------------------------
// CAutolockAppUi::HandleForegroundEventL()
// Handles foreground event.
// ----------------------------------------------------
//
void CAutolockAppUi::HandleForegroundEventL(TBool aForeground)
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleForegroundEventL()"));
#endif
if (aForeground )
{
if (iLocked)
{
// lock voice key
LockSideKeyL();
CAknView* view = View(KAutoLockViewId);
if(view)
{
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x15, aCallRect);
}
}
else
{
// app back to background
TApaTask self(iCoeEnv->WsSession());
self.SetWgId(iCoeEnv->RootWin().Identifier());
self.SendToBackground();
}
}
if (!aForeground && iLocked)
{
TInt callState=0;
TInt simStatus=0;
RProperty::Get(KPSUidCtsyCallInformation, KCTsyCallState, callState );
RProperty::Get(KPSUidStartup, KPSSimStatus, simStatus);
if (callState == EPSCTsyCallStateNone && simStatus != ESimNotPresent)
{
// try put autolock back to foreground
CAknView* view = View(KAutoLockViewId);
if(view)
{
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x19, aCallRect);
}
TApaTask self(iCoeEnv->WsSession());
self.SetWgId(iCoeEnv->RootWin().Identifier());
self.BringToForeground();
}
else
{
// unlock voice key while there is active call
UnLockSideKey();
CAknView* view = View(KAutoLockViewId);
if(view)
{
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x16, aCallRect);
}
}
}
CAknAppUi::HandleForegroundEventL(aForeground);
}
// ----------------------------------------------------
// CAutolockAppUi::HandleMessageL
//
// Handles the TARM command to unlock the phone.
// ----------------------------------------------------
//
MCoeMessageObserver::TMessageResponse CAutolockAppUi::HandleMessageL(
TUint32 aClientHandleOfTargetWindowGroup,
TUid aMessageUid,
const TDesC8& aMessageParameters
)
{
if(!FeatureManager::FeatureSupported(KFeatureIdSapTerminalControlFw ))
{
User::Leave(KErrNotSupported);
}
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleMessageL()"));
#endif
MCoeMessageObserver::TMessageResponse messageResponse( EMessageHandled );
if ( aMessageUid.iUid == SCP_CMDUID_UNLOCK )
{
// For security reasons we must check from the SCP server did this
// command originate from it.
RSCPClient scpClient;
if ( scpClient.Connect() == KErrNone )
{
CleanupClosePushL( scpClient );
if ( scpClient.QueryAdminCmd( ESCPCommandUnlockPhone ) )
{
// Switch autolock to BG
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleMessageL():\
Admin command received, unlocking"));
#endif
if ( !iLocked )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleMessageL():\
Ignoring Unlock message - not locked."));
#endif
}
else
{
iLocked = EFalse;
DisableWGListChangeEventListening();
UnLockKeys();
iModel->SetLockedL(EFalse);
// Disable keyguard after remote unlock
RAknKeyLock iKeyLock;
TInt tempResult = iKeyLock.Connect();
iKeyLock.DisableKeyLock();
// end Disable keyguard after remote unlock
SwitchToPreviousAppL();
}
}
else
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleMessageL():\
Unauthorized attempt to unlock"));
#endif
}
CleanupStack::PopAndDestroy(); // scpClient
}
else
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleMessageL():\
Failed to connect to SCP, ignoring unlock-message."));
#endif
}
}
else // aMessageUid.iUid != SCP_CMDUID_UNLOCK
{
messageResponse = CAknAppUi::HandleMessageL( aClientHandleOfTargetWindowGroup,
aMessageUid,
aMessageParameters
);
}
return messageResponse;
}
// ------------------------------------------------------------------------------
// CAutolockAppUi::::DynInitMenuPaneL(TInt aResourceId,CEikMenuPane* aMenuPane)
// This function is called by the UIKON framework just before it displays
// a menu pane. Its default implementation is empty, and by overriding it,
// the application can set the state of menu items dynamically according
// to the state of application data.
// ------------------------------------------------------------------------------
//
void CAutolockAppUi::DynInitMenuPaneL(
TInt /*aResourceId*/,CEikMenuPane* /*aMenuPane*/)
{
}
void CAutolockAppUi::HandlePointerEventL(const TPointerEvent& aPointerEvent)
{
RDebug::Printf( "%s %s (%u) value=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, 0 );
}
// ----------------------------------------------------
// CAutolockAppUi::HandleKeyEventL(
// const TKeyEvent& aKeyEvent,TEventCode /*aType*/)
// ----------------------------------------------------
//
TKeyResponse CAutolockAppUi::HandleKeyEventL(
const TKeyEvent& aKeyEvent,TEventCode aType)
{
if ( aKeyEvent.iCode == EKeyBell || (aType == EEventKeyUp && aKeyEvent.iScanCode == EStdKeyDeviceF) )
{
if(iLocked)
HandleCommandL(ESecUiCmdUnlock);
return EKeyWasConsumed;
}
TBool featureNoPowerkey = FeatureManager::FeatureSupported( KFeatureIdNoPowerkey );
// If power key pressed, tell SysAp about if
if( (aKeyEvent.iScanCode == EStdKeyDevice2 && aType == EEventKeyDown )
|| (aType == EEventKey && featureNoPowerkey && aKeyEvent.iCode == EKeyNo))
{
SendMessageToSysAp(EEikKeyLockPowerKeyPressed);
if ( featureNoPowerkey )
{
SendMessageToSysAp(EEikKeyLockLightsOnRequest);
}
}
return EKeyWasNotConsumed;
}
void CAutolockAppUi::SendMessageToSysAp(TInt aMessage)
{
RWsSession& ws = iEikonEnv->WsSession();
TInt wgId=0;
CApaWindowGroupName::FindByAppUid(KSysApUid, ws, wgId);
if (wgId)
{
TWsEvent event;
event.SetType(aMessage);
event.SetTimeNow();
ws.SendEventToWindowGroup(wgId, event);
}
}
// ----------------------------------------------------
// HideSoftNotification()
// dismiss all the pending notes just before asking the unlocking code
// ----------------------------------------------------
//
void HideSoftNotification()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)HideSoftNotification"));
#endif
CAknSoftNotifier *softNotifier = NULL;
TRAPD (err, {
softNotifier = CAknSoftNotifier::NewL();
softNotifier->AddNotificationL(ESetIdleState, 0);
};)
delete softNotifier;
}
// CAutolockAppUi::HandleCommandL(TInt aCommand)
// ----------------------------------------------------
//
void CAutolockAppUi::HandleCommandL(TInt aCommand)
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleCommandL()"));
#endif
switch ( aCommand )
{
case EEikCmdExit:
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleCommandL() EEikCmdExit"));
#endif
Exit();
break;
}
case ESecUiCmdUnlock:
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleCommandL() ESecUiCmdUnlock"));
#endif
// stop observing emergency call event
iEmergencySupportReady = EFalse;
iEcsDetector->Reset(); // Ecs queue is cleared; keys up til here are forgotten
// ask secuity code
CSecurityHandler* handler = new (ELeave) CSecurityHandler(iPhone);
CleanupStack::PushL(handler);
TSecUi::InitializeLibL();
// Put the lights on when security query is shown
SendMessageToSysAp( EEikSecurityQueryLights );
HideSoftNotification(); // dismiss all the pending notes just before asking the unlocking code
TRAPD(err,
{
iDeviceLockQueryStatus = ETrue;
TBool iAppKeyBelongedToBigClock=EFalse;
if(!iAppKey)
{
RDebug::Printf( "%s %s (%u) stealing EStdKeyApplication0 from BigClock=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, 0 );
RWindowGroup& groupWin=iCoeEnv->RootWin();
iAppKey = groupWin.CaptureKeyUpAndDowns(EStdKeyApplication0, 0, 0); // Capture app key now, in case that it was given to BigClock
iAppKeyBelongedToBigClock=ETrue;
}
if(handler->AskSecCodeInAutoLockL())
{
iLocked = EFalse;
DisableWGListChangeEventListening();
iDeviceLockQueryStatus = EFalse;
UnLockKeys();
iModel->SetLockedL(EFalse);
SwitchToPreviousAppL();
}
else
{ // make sure that we will be topmost still
if(iAppKey && iAppKeyBelongedToBigClock)
{
RDebug::Printf( "%s %s (%u) giving EStdKeyApplication0 to BigClock=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, 0 );
RWindowGroup& groupWin=iCoeEnv->RootWin();
groupWin.CancelCaptureKeyUpAndDowns(iAppKey); // give S60-Application key back to BigClock
iAppKey = 0;
}
iDeviceLockQueryStatus = EFalse;
TInt callState;
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallState, callState );
if ( callState == EPSCTsyCallStateNone &&
!FeatureManager::FeatureSupported( KFeatureIdProtocolCdma ) )
{
TApaTask self(CCoeEnv::Static()->WsSession());
self.SetWgId(CCoeEnv::Static()->RootWin().Identifier());
self.BringToForeground();
TBool featureNoPowerkey = FeatureManager::FeatureSupported( KFeatureIdNoPowerkey );
if ( featureNoPowerkey )
{//set lights on in case user pressed "red button". If he pressed cancel the lights are on anyway so it doesn't matter.
SendMessageToSysAp(EEikKeyLockLightsOnRequest);
}
// we don't want enable lock if call in progress
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallState, callState );
TInt keyguardDisableState(ECoreAppUIsDisableKeyguardUninitialized);
//If there is alarm on the keyguard status is set to disabled. In that case don't enable keyguard as it will be done by SysAp
//after the alarm has been disabled/snoozed. Otherwise the alarm CBA is left under keyguard CBA.
RProperty::Get( KPSUidCoreApplicationUIs, KCoreAppUIsDisableKeyguard, keyguardDisableState );
if ((callState == EPSCTsyCallStateNone) && (keyguardDisableState != ECoreAppUIsDisableKeyguard))
{
RAknKeyLock keylock;
if ( keylock.Connect() == KErrNone )
{
keylock.EnableAutoLockEmulation();
keylock.Close();
}
}
}
}
};)
// start observing emergency call event
iEmergencySupportReady = ETrue;
CleanupStack::PopAndDestroy(handler); // handler
TSecUi::UnInitializeLib(); // secui
User::LeaveIfError(err);
break;
}
default:
break;
}
}
// ----------------------------------------------------
// CAutolockAppUi::SwitchToPreviousAppL()
// Activates previous app
//----------------------------------------------------
//
void CAutolockAppUi::SwitchToPreviousAppL()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::SwitchToPreviousAppL()"));
#endif
iEcsDetector->Reset(); // Ecs queue is cleared; keys up til here are forgotten
// stop observing phone events
iPhoneObserver->Stop();
CAknView* view = View(KAutoLockViewId);
if(view)
{
STATIC_CAST(CAutolockView*, view)->MakeVisible(EFalse);
}
else
{
#if defined(_DEBUG)
RDebug::Printf( "%s %s (%u) no view ????=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, view );
#endif
}
// app to background
TApaTask self(iCoeEnv->WsSession());
self.SetWgId(iCoeEnv->RootWin().Identifier());
self.SendToBackground();
// flush
iCoeEnv->WsSession().Flush();
}
// ----------------------------------------------------
// CAutolockAppUi::BringAppToForegroundL()
// Activates autolock app
//----------------------------------------------------
//
void CAutolockAppUi::BringAppToForegroundL()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL()"));
#endif
TBool tarmAdminFlag(EFalse);
TBool remotelockState(EFalse);
if(FeatureManager::FeatureSupported(KFeatureIdSapTerminalControlFw ))
{
tarmAdminFlag = TarmState();
}
#ifdef RD_REMOTELOCK
TInt autolockState;
RProperty::Get(KPSUidCoreApplicationUIs, KCoreAppUIsAutolockStatus, autolockState);
remotelockState = (autolockState == ERemoteLocked);
#endif//RD_REMOTELOCK
// If TARM admin flag is set, bring Autolock to foreground regardless of call state.
if(!tarmAdminFlag)
{ //If phone has been remote locked bring Autolock to foreground regardless of call state.
if(!remotelockState)
{ // check if there is active call
TInt callState;
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallState, callState );
if (callState != EPSCTsyCallStateNone )
{
iModel->SetLockedL(EFalse);
iModel->ResetInactivityTimeout();
UnLockKeys();
return;
}
}
}
#ifndef __WINS__
#ifndef __NO_DOS__
/*****************************************************
* Series 60 Customer / ETEL
* Series 60 ETEL API
*****************************************************/
// check that device locked in DOS side too
RMobilePhone::TMobilePhoneLock lockType = RMobilePhone::ELockPhoneDevice;
RMobilePhone::TMobilePhoneLockInfoV1 lockInfo;
RMobilePhone::TMobilePhoneLockInfoV1Pckg lockInfoPkg(lockInfo);
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL() GetLockInfo"));
#endif
iWait->SetRequestType(EMobilePhoneGetLockInfo);
iPhone.GetLockInfo(iWait->iStatus, lockType, lockInfoPkg);
TInt res = iWait->WaitForRequestL();
User::LeaveIfError(res);
if (iWait->iStatus == KErrNone)
{
// if not don't lock ui either
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL() KErrNone"));
#endif
if (lockInfo.iSetting == RMobilePhone::ELockSetDisabled)
{
iModel->SetLockedL(EFalse);
UnLockKeys();
return;
}
}
#endif
#endif
// in case Telephone-app is topmost, then the user is confused because he sees but can't use it.
// therefore it's required to hide it, by sending to background. ETMA-7M8A2Y 20090105
if ( AknLayoutUtils::PenEnabled() )
{
TApaTaskList apaTaskList(CCoeEnv::Static()->WsSession());
#define KPhoneAppUid TUid::Uid(0x100058B3)
TApaTask apaTask = apaTaskList.FindApp(KPhoneAppUid);
if (apaTask.Exists())
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAknKeyLockControl::EnableKeylock() Bring phone to background"));
#endif
// Bring phone to background
apaTask.SendToBackground();
}
}
iPhoneObserver->Start();
iLocked = ETrue;
// app to foreground
TApaTask self(iCoeEnv->WsSession());
self.SetWgId(iCoeEnv->RootWin().Identifier());
self.BringToForeground();
ActivateLocalViewL(KAutoLockViewId);
CAknView* view = View(KAutoLockViewId);
if(view)
{
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x17, aCallRect);
STATIC_CAST(CAutolockView*, view)->MakeVisible(ETrue);
}
else
{
#if defined(_DEBUG)
RDebug::Printf( "%s %s (%u) no view ????=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, view );
#endif
}
}
// ----------------------------------------------------
// CAutolockAppUi::LockKeysL()
// locks keys
//----------------------------------------------------
//
void CAutolockAppUi::LockKeysL()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::LockKeysL()"));
#endif
// capture appkey & volume key
if (!iAppKey)
{
RWindowGroup& groupWin=iCoeEnv->RootWin();
#if defined(_DEBUG)
RDebug::Printf( "%s %s (%u) searching for popupclock.exe =%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, 0x0 );
#endif
TApaTaskList taskList( CCoeEnv::Static()->WsSession() );
const TUid KBigClockUid = { 0x2000FDC3 };
TApaTask task( taskList.FindApp( KBigClockUid ) );
if ( task.Exists() )
{
#if defined(_DEBUG)
RDebug::Printf( "%s %s (%u) popupclock.exe is running. Not capturing EStdKeyApplication0=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, EStdKeyApplication0 );
#endif
}
else
{
#if defined(_DEBUG)
RDebug::Printf( "%s %s (%u) popupclock.exe not running. Not capturing EStdKeyApplication0=%x", __FILE__, __PRETTY_FUNCTION__, __LINE__, EStdKeyApplication0 );
#endif
iAppKey = groupWin.CaptureKeyUpAndDowns(EStdKeyApplication0, 0, 0); // Capture app key
}
}
LockSideKeyL();
}
// ----------------------------------------------------
// CAutolockAppUi::UnLockKeys()
// unlocks keys
//----------------------------------------------------
//
void CAutolockAppUi::UnLockKeys()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::UnLockKeysL()"));
#endif
// uncapture appkey
if (iAppKey)
{
RWindowGroup& groupWin=iCoeEnv->RootWin();
groupWin.CancelCaptureKeyUpAndDowns(iAppKey);
iAppKey = 0;
}
UnLockSideKey();
}
// ----------------------------------------------------
// CAutolockAppUi::LockSideKeyL()
// unlocks side-key
//----------------------------------------------------
//
void CAutolockAppUi::LockSideKeyL()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::LockSideKeyL()"));
#endif
if (!iSideKey1)
{
RWindowGroup& groupWin=iCoeEnv->RootWin();
iSideKey1 = groupWin.CaptureKey(EKeySide,0,0);
iSideKey2 = groupWin.CaptureKeyUpAndDowns(EStdKeyDevice6, 0, 0);
}
}
// -------------------------------------------------------------------------------------------------------------
// part of emergency call handling when telephony+devicelock is active
// this solution is meant only for 3.1 and 3.2
void CAutolockAppUi::HandleEcsEvent( CAknEcsDetector* aEcsDetector, CAknEcsDetector::TState aState )
{
switch ( aState )
{
case CAknEcsDetector::ECompleteMatchThenSendKey:
// Do nothing since note will be removed on ECallAttempted event
break;
case CAknEcsDetector::ECompleteMatch:
iEcsNote->SetEmergencyNumber( aEcsDetector->CurrentMatch() );
// Tell sysAp to switch lights on
SendMessageToSysAp( EEikEcsQueryLights );
iEcsNote->ShowNote();
iEcsNote->iNoteOnScreen =ETrue;
break;
case CAknEcsDetector::EPartialMatch:
iEcsNote->SleepNote();
break;
case CAknEcsDetector::ECallAttempted:
iEcsNote->SleepNote();
break;
case CAknEcsDetector::EEmpty:
iEcsNote->SleepNote();
break;
case CAknEcsDetector::ENoMatch:
iEcsNote->SleepNote();
break;
default:
break;
}
}
CEcsNote::CEcsNote() : iNoteOnScreen( EFalse )
{}
void CEcsNote::ConstructSleepingNoteL(TInt aResourceId)
{
CAknNoteDialog::ConstructSleepingDialogL(aResourceId);
}
TInt CEcsNote::ShowNote()
{
ReportUserActivity();
iTimeoutInMicroseconds = CAknNoteDialog::EUndefinedTimeout;
iTone = CAknNoteDialog::ENoTone;
if (!iNoteOnScreen)
{
return RouseSleepingDialog();
}
// return value not used
else
// return value not used
return NULL;
}
void CEcsNote::SleepNote()
{
if (iNoteOnScreen)
ExitSleepingDialog(); // Causes flicker to other notes if called when note is not on screen
iNoteOnScreen = EFalse;
}
TKeyResponse CEcsNote::OfferKeyEventL(const TKeyEvent& /*aKeyEvent*/, TEventCode /*aType*/)
{
return EKeyWasConsumed;
}
void CEcsNote::SetEmergencyNumber( const TDesC& aMatchedNumber )
{
TRect screen(iAvkonAppUi->ApplicationRect());
TAknLayoutRect mainPane;
mainPane.LayoutRect(screen, AKN_LAYOUT_WINDOW_main_pane(screen, 0, 1, 1));
TAknLayoutRect popupNoteWindow;
AknLayoutUtils::TAknCbaLocation cbaLocation( AknLayoutUtils::CbaLocation() );
TInt variety( 0 );
if ( cbaLocation == AknLayoutUtils::EAknCbaLocationRight )
{
variety = 5;
}
else if ( cbaLocation == AknLayoutUtils::EAknCbaLocationLeft )
{
variety = 8;
}
else
{
variety = 2;
}
popupNoteWindow.LayoutRect(mainPane.Rect(), AknLayoutScalable_Avkon::popup_note_window( variety ));
TAknLayoutText textRect;
textRect.LayoutText(popupNoteWindow.Rect(), AKN_LAYOUT_TEXT_Note_pop_up_window_texts_Line_1(4));
// Size of a temporary buffer that contains new lines, spaces and
// emergency number for a note.
TBuf16<KAknEcsMaxMatchingLength+80> number;
number.Append('\n');
number.Append('\n');
TInt spaceCharWidthInPixels = textRect.Font()->CharWidthInPixels(' ');
if (spaceCharWidthInPixels < 1)
{
// Avoid divide by zero situation even the space char would have zero length.
spaceCharWidthInPixels = 1;
}
TInt length = (textRect.TextRect().Width() - textRect.Font()->TextWidthInPixels(aMatchedNumber))
/ spaceCharWidthInPixels;
const TInt matchedNumberLength = aMatchedNumber.Length();
const TInt numberLength = number.Length();
const TInt numberMaxLength = number.MaxLength();
if ( numberLength + length + matchedNumberLength > numberMaxLength)
{
// To make sure that buffer overflow does not happen.
length = numberMaxLength - numberLength - matchedNumberLength;
}
for (int i = 0; i < length ; i++)
{
number.Append(' ');
}
number.Append(aMatchedNumber);
TRAP_IGNORE(SetTextL(number));
}
// -------------------------------------------------------------------------------------------------------------
// ----------------------------------------------------
// CAutolockAppUi::UnLockSideKey()
// unlocks side-key
//----------------------------------------------------
//
void CAutolockAppUi::UnLockSideKey()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::UnLockSideKeyL()"));
#endif
if (iSideKey1)
{
RWindowGroup& groupWin=iCoeEnv->RootWin();
groupWin.CancelCaptureKeyUpAndDowns(iSideKey2);
groupWin.CancelCaptureKey(iSideKey1);
iSideKey1 = 0;
iSideKey2 = 0;
}
}
//
// ---------------------------------------------------------
// CAutolockAppUi::HandleScreenDeviceChangedL()
// Handles screen layout changes, called by CCoeAppUi
// ---------------------------------------------------------
//
void CAutolockAppUi::HandleScreenDeviceChangedL()
{
CAknAppUiBase::HandleScreenDeviceChangedL();
//get autolock view from CAknViewAppUi
CAknView* view = View(KAutoLockViewId);
if(view)
{
STATIC_CAST(CAutolockView*, view)->ScreenDeviceChanged();
}
}
//
// ----------------------------------------------------------
// CAutolockAppUi::IsPinBlocked()
// Checks whether PIN1/UPIN is blocked
// ----------------------------------------------------------
//
TBool CAutolockAppUi::IsPinBlocked()
{
RMmCustomAPI::TSecurityCodeType secCodeType;
TBool wcdmaSupported(FeatureManager::FeatureSupported( KFeatureIdProtocolWcdma ));
TBool upinSupported(FeatureManager::FeatureSupported( KFeatureIdUpin ));
if(wcdmaSupported || upinSupported)
{
RMobilePhone::TMobilePhoneSecurityCode activePin;
iCustomPhone.GetActivePin(activePin);
if(activePin == RMobilePhone::ESecurityUniversalPin)
secCodeType = RMmCustomAPI::ESecurityUniversalPin;
else
secCodeType = RMmCustomAPI::ESecurityCodePin1;
}
else
secCodeType = RMmCustomAPI::ESecurityCodePin1;
TBool isBlocked = EFalse;
iCustomPhone.IsBlocked(secCodeType,isBlocked);
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::IsPinBlocked result: %d"), isBlocked);
#endif
return isBlocked;
}
//
// ----------------------------------------------------------
// CAutolockAppUi::HandleWsEventL()
//
// ----------------------------------------------------------
//
void CAutolockAppUi::HandleWsEventL( const TWsEvent& aEvent,CCoeControl* aDestination )
{
const TInt type = aEvent.Type();
switch ( type )
{
case KAknFullOrPartialForegroundLost: // partial or full fg lost
if( iIncallBubble )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleWsEventL: DISABLE call bubble"));
#endif
iIncallBubble->SetIncallBubbleAllowedInIdleL( EFalse );
}
break;
case KAknFullOrPartialForegroundGained: // partial or full fg gained
if( iIncallBubble )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HandleWsEventL: ENABLE call bubble"));
#endif
iIncallBubble->SetIncallBubbleAllowedInIdleL( ETrue );
}
break;
case EEventWindowGroupListChanged:
HandleWindowGroupListChange();
break;
case EEventPointer:
case EEventDragDrop:
{
TInt callState = 0;
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallState, callState );
if ( 1==1 || callState == EPSCTsyCallStateNone || callState == EPSCTsyCallStateUninitialized )
{
TPointerEvent *pointer = aEvent.Pointer();
CAknView* view = View(KAutoLockViewId);
if(view)
{
STATIC_CAST(CAutolockView*, view)->ScreenDeviceChanged();
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x1, aCallRect);
if(aCallButtonRect.iBr.iX==0)
aCallButtonRect = TRect (aCallRect);
}
if(pointer->iType==TPointerEvent::EButton1Up)
{
TPoint iPosition = pointer->iPosition;
if(aCallButtonRect.iBr.iX<iPosition.iX && iPosition.iX<aCallButtonRect.iBr.iX+aCallButtonRect.iTl.iX && iPosition.iY>400 )
{
#define KPhoneAppUid1 TUid::Uid(0x100058B3)
TApaTaskList tasklist( iCoeEnv->WsSession() );
TApaTask phonetask = tasklist.FindApp( KPhoneAppUid1 );
if ( phonetask.Exists() )
{
TRawEvent event;
event.Set(TRawEvent::EKeyDown, EStdKeyNo);
iEikonEnv->WsSession().SimulateRawEvent(event);
User::After(1000);
event.Set(TRawEvent::EKeyUp, EStdKeyNo);
iEikonEnv->WsSession().SimulateRawEvent(event);
}
}
}
}
}
break;
case EEventKeyUp: // on touch devices, this happens only for the switch-key, which should turn on the lights.
case EEventKey:
case EEventKeyDown:
if(iLocked)
SendMessageToSysAp( EEikSecurityQueryLights );
break;
default:
break;
}
// All events are sent to base class.
CAknViewAppUi::HandleWsEventL( aEvent, aDestination );
// part of emergency call handling when telephony+devicelock is active
// this solution is meant only for 3.1 and 3.2
// Emergency detector only handles key down events
if ( iEmergencySupportReady )
iEcsDetector->HandleWsEventL( aEvent, aDestination);
}
TBool CAutolockAppUi::DeviceLockQueryStatus()
{
return iDeviceLockQueryStatus;
}
TBool CAutolockAppUi::DeviceLockStatus()
{
return iLocked;
}
TBool CAutolockAppUi::DeviceFpsLock(TInt iStatus)
{
if(iStatus)
HandleCommandL(ESecUiCmdUnlock);
else
iModel->SetLockedL(ETimerLocked);
return ETrue;
}
void CAutolockAppUi::HandleWindowGroupListChange()
{
if ( !iLocked )
{
// System is not locked, make sure app is not on the foreground.
if ( !iCoeEnv->RootWin().OrdinalPosition() )
{
CAknSgcClient::MoveApp(
iCoeEnv->RootWin().Identifier(),
ESgcMoveAppToBackground );
}
}
else
{
CAknView* view = View(KAutoLockViewId);
if(view)
{
TRect aCallRect;
STATIC_CAST(CAutolockView*, view)->HandleCall(0x10, aCallRect);
if(aCallButtonRect.iBr.iX==0)
aCallButtonRect = TRect (aCallRect);
}
// So now system is locked. When call is not ongoing, autolock should
// be on the foreground.
TInt callState = 0;
RProperty::Get( KPSUidCtsyCallInformation, KCTsyCallState, callState );
if ( callState == EPSCTsyCallStateNone ||
callState == EPSCTsyCallStateUninitialized )
{
// No calls ongoing.
if ( iCoeEnv->RootWin().OrdinalPosition() > 0 )
{
// Not on foreground
CAknSgcClient::MoveApp(
iCoeEnv->RootWin().Identifier(),
ESgcMoveAppToForeground );
}
}
}
}
TBool CAutolockAppUi::TarmState()
{
TBool ret(EFalse);
if(FeatureManager::FeatureSupported(KFeatureIdSapTerminalControlFw ))
{
// Get the TARM admin flag value
TInt tarmFlag;
TInt tRet = RProperty::Get( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, tarmFlag );
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL(): Warning: failed to get TARM Admin Flag state"));
#endif
}
else
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL(): TARM flag: %d"),
tarmFlag );
#endif
}
// Unset the admin flag if set
if ( tarmFlag & KSCPFlagAdminLock )
{
ret = ETrue;
TInt tRet = RProperty::Get( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, tarmFlag );
if ( tRet == KErrNone )
{
tarmFlag &= ~KSCPFlagAdminLock;
tRet = RProperty::Set( KSCPSIDAutolock, SCP_TARM_ADMIN_FLAG_UID, tarmFlag );
}
if ( tRet != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::BringAppToForegroundL(): FAILED to unset TARM Admin Flag"));
#endif
}
}
}
return ret;
}
// ---------------------------------------------------------
// CAutolockAppUi::HiddenReset()
// ---------------------------------------------------------
TBool CAutolockAppUi::HiddenReset()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HiddenReset() begin"));
#endif
TBool ret_val ( EFalse );
TInt startupReason(ENormalStartup);
TInt errorCode(KErrNone);
RProperty::Get(KPSUidStartup, KPSStartupReason, startupReason);
if ( errorCode != KErrNone )
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HiddenReset() error getting startup reason"));
#endif
}
ret_val = (startupReason != ENormalStartup);
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::HiddenReset() END: %d"), ret_val);
#endif
return ret_val;
}
void CAutolockAppUi::EnableWGListChangeEventListening()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::EnableWGListChangeEventListening()"));
#endif
RWindowGroup& rootWin = iCoeEnv->RootWin();
rootWin.EnableGroupListChangeEvents();
rootWin.EnableScreenChangeEvents();
}
void CAutolockAppUi::DisableWGListChangeEventListening()
{
#if defined(_DEBUG)
RDebug::Print(_L("(AUTOLOCK)CAutolockAppUi::DisableWGListChangeEventListening()"));
#endif
RWindowGroup& rootWin = iCoeEnv->RootWin();
rootWin.DisableGroupListChangeEvents();
rootWin.DisableScreenChangeEvents();
}
// End of File