FCL/sf/mw/btservices: comparison bluetoothengine/bteng/src/btengsrvsettingsmgr.cpp

equal deleted inserted replaced

-:6a29d5ad0713
+:0707dd69d236
+/*
+* Copyright (c) 2009 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: Class to manage Bluetooth hardware and stack settings.
+*
+*/
+#include "btengsrvsettingsmgr.h"
+#include <bthci.h>
+#include <bt_subscribe_partner.h>
+#include <btnotif.h>
+#include <btengdomainpskeys.h>
+#include <centralrepository.h>
+#include <featmgr.h>
+#include <AknSmallIndicator.h>
+#include <avkon.hrh>
+#include "btengserver.h"
+#include "btengsrvpluginmgr.h"
+#include "btengsrvbbconnectionmgr.h"
+#include "btengsrvstate.h"
+#include "debug.h"
+#ifndef SETLOCALNAME
+#include <btengsettings.h>
+#endif
+/** ID of active object helper */
+const TInt KBTEngSettingsActive = 30;
+/** Constant for converting minutes to microseconds */
+//const TInt64 KMinutesInMicroSecs = 60000000;
+const TInt64 KMinutesInMicroSecs = MAKE_TINT64( 0, 60000000 );
+/**  Timeout for disabling Simple Pairing debug mode. The value is 30 minutes. */
+//const TInt KBTEngSspDebugModeTimeout = 1800000000;
+const TInt64 KBTEngSspDebugModeTimeout = MAKE_TINT64( 0, 1800000000 );
+/**  Timeout for turning BT off automatically. The value is 10.5 seconds. */
+const TInt KBTEngBtAutoOffTimeout = 10500000;
+/**  Default values for Major Service Class */
+const TUint16 KCoDDefaultServiceClass = EMajorServiceTelephony | EMajorServiceObjectTransfer | EMajorServiceNetworking;
+/**  Default values for Major Device Class */
+const TUint8 KCoDDefaultMajorDeviceClass = EMajorDevicePhone;
+/**  Default values for Minor Device Class */
+const TUint8 KCoDDefaultMinorDeviceClass = EMinorDevicePhoneSmartPhone;
+// ======== MEMBER FUNCTIONS ========
+// ---------------------------------------------------------------------------
+// C++ default constructor
+// ---------------------------------------------------------------------------
+//
+CBTEngSrvSettingsMgr::CBTEngSrvSettingsMgr( CBTEngServer* aServer )
+:   iServer( aServer )
+{
+}
+// ---------------------------------------------------------------------------
+// Symbian second-phase constructor
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::ConstructL()
+{
+TRACE_FUNC_ENTRY
+iActive = CBTEngActive::NewL( *this, KBTEngSettingsActive );
+LoadBTPowerManagerL();
+iEnterpriseEnablementMode = BluetoothFeatures::EnterpriseEnablementL();
+TRACE_INFO( ( _L( "iEnterpriseEnablementMode = %d" ), iEnterpriseEnablementMode) )
+if ( iEnterpriseEnablementMode == BluetoothFeatures::EDisabled )
+{
+SetVisibilityModeL( EBTVisibilityModeNoScans, 0 );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// NewL
+// ---------------------------------------------------------------------------
+//
+CBTEngSrvSettingsMgr* CBTEngSrvSettingsMgr::NewL( CBTEngServer* aServer )
+{
+CBTEngSrvSettingsMgr* self = new( ELeave ) CBTEngSrvSettingsMgr( aServer );
+CleanupStack::PushL( self );
+self->ConstructL();
+CleanupStack::Pop( self );
+return self;
+}
+// ---------------------------------------------------------------------------
+// Destructor
+// ---------------------------------------------------------------------------
+//
+CBTEngSrvSettingsMgr::~CBTEngSrvSettingsMgr()
+{
+if( iActive && iActive->IsActive() )
+{
+// Cancel the outstanding request.
+iPowerMgr.Cancel();
+}
+delete iActive;
+iPowerMgr.Close();
+}
+// ---------------------------------------------------------------------------
+// Power Bluetooth hardware on or off.
+// ---------------------------------------------------------------------------
+//
+TInt CBTEngSrvSettingsMgr::SetHwPowerState( TBTPowerState aState )
+{
+TRACE_FUNC_ENTRY
+TInt err = KErrNone;
+#ifndef __WINS__
+if( iActive->IsActive() )
+{
+// Cancel the outstanding request.
+iPowerMgr.Cancel();
+iActive->Cancel();
+}
+iPowerMgr.SetPower( aState, NULL, iActive->RequestStatus() );
+iActive->GoActive();
+#else   //__WINS__
+iPowerState = aState;
+#endif  //__WINS__
+if( !err && aState == EBTOn )
+{
+TInt dutMode = EBTDutOff;
+err = RProperty::Get( KPSUidBluetoothTestingMode, KBTDutEnabled, dutMode );
+if( !err && dutMode == EBTDutOn )
+{
+// Set the DUT mode key to OFF since DUT mode is disabled at this point
+err = RProperty::Set( KPSUidBluetoothTestingMode, KBTDutEnabled, EBTDutOff );
+}
+}
+if( err )
+{
+// Power off if an error occurred during power on sequence.
+#ifndef __WINS__
+// This cannot happen in emulator environment.
+iPowerMgr.Cancel();
+iActive->Cancel();
+iPowerMgr.SetPower( EBTOff, NULL, iActive->RequestStatus() );
+User::WaitForRequest( iActive->RequestStatus() );
+// Result will be communicated through the caller of this function (by leaving).
+#else   //__WINS__
+iPowerState = EBTOff;
+#endif  //__WINS__
+}
+TRACE_FUNC_RES( ( _L( "result: %d" ), err ) )
+return err;
+}
+// ---------------------------------------------------------------------------
+// Turn BT on or off.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetPowerStateL( TBTPowerState aState, TBool aTemporary )
+{
+TRACE_FUNC_ARG( ( _L( "%d (temporary=%d" ), aState, aTemporary ) )
+if ( aState == EBTOn && iEnterpriseEnablementMode == BluetoothFeatures::EDisabled )
+{
+TRACE_INFO( ( _L( "no we're not... Bluetooth is enterprise-IT-disabled" ) ) )
+User::Leave(KErrNotSupported);
+}
+TBool idle = ( iServer->StateMachine()->CurrentOperation() == CBTEngSrvState::ESrvOpIdle );
+TBTPowerState currentState = EBTOff;
+CheckTemporaryPowerStateL( currentState, aState, aTemporary );
+if ( ( currentState == aState || ( aTemporary && aState == EBTOff ) ) && idle )
+{
+// The requested power state is already active, ignore silently.
+// We don't return an error here, as there is no error situation.
+TRACE_INFO( ( _L( "SetPowerStateL: nothing to do" ) ) )
+if ( currentState == aState )
+{
+// Make sure that the CenRep key is in sync.
+// During boot-up, the pwoer is set from the CenRep key, so we could
+// end up out-of-sync.
+TRACE_INFO( ( _L( "SetPowerStateL: currentState == aState" ) ) )
+UpdateCenRepPowerKeyL( aState );
+}
+return;
+}
+if ( aState == EBTOn )
+{
+// Hardware power on is the first step.
+User::LeaveIfError( SetHwPowerState( aState ) );
+}
+else
+{
+//Prevent BT visibility in the situation when we turn OFF BT Engine
+//but FM Radio is still alive
+SetVisibilityModeL( EBTVisibilityModeNoScans, 0 );
+// Hardware power off is the last step.
+// First disconnect all plug-ins.
+iServer->PluginManager()->DisconnectAllPlugins();
+}
+// We only signal that BT is on after everything has completed (through
+// the CenRep power state key), so that all services are initialized.
+// We signal that BT is off immediately though, so that our clients will
+// not try to use BT during power down.
+iServer->StateMachine()->StartStateMachineL( aState );
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Turn BT on or off.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetPowerStateL(const RMessage2 aMessage )
+{
+TRACE_FUNC_ENTRY
+__ASSERT_ALWAYS( aMessage.Function() == EBTEngSetPowerState,
+PanicServer( EBTEngPanicExpectSetPowerOpcode ) );
+if ( !iMessage.IsNull() )
+{
+// A power management request from a client is outstanding.
+User::Leave( KErrAlreadyExists );
+}
+TBTPowerStateValue arg = (TBTPowerStateValue) aMessage.Int0();
+// TBTPowerState power state type is inverted from TBTPowerStateValue,
+// which is used by the client to pass the parameter...
+TBTPowerState reqedPowerState( EBTOff );
+if ( arg == EBTPowerOn )
+{
+reqedPowerState = EBTOn;
+}
+TBool tempPowerOn = (TBool) aMessage.Int1();
+SetPowerStateL( reqedPowerState, tempPowerOn );
+if ( iServer->StateMachine()->CurrentOperation() == CBTEngSrvState::ESrvOpIdle )
+{
+// The request is accepted but the state machine is not running. This means the
+// requested power state is already active. Request is done.
+aMessage.Complete( KErrNone );
+}
+else
+{
+iMessage = RMessage2( aMessage );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Initialize Bluetooth stack settings.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::InitBTStackL()
+{
+TRACE_FUNC_ENTRY
+iServer->BasebandConnectionManager()->Subscribe();
+TBTVisibilityMode visibility = EBTVisibilityModeHidden;
+CRepository* cenRep = CRepository::NewL( KCRUidBTEngPrivateSettings );
+TInt err = cenRep->Get( KBTDiscoverable, (TInt&) visibility );
+delete cenRep;
+if (iRestoreVisibility == EFalse)
+{
+if( err || visibility == EBTVisibilityModeTemporary &&
+!( iServer->IsTimerQueued( CBTEngServer::EScanModeTimer ) ) )
+{
+visibility = EBTVisibilityModeHidden;
+}
+SetVisibilityModeL( visibility, 0 );
+}
+TBool sspDebugMode = EFalse;
+(void) RProperty::Get( KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothGetSimplePairingDebugMode, (TInt&) sspDebugMode );
+// Only set debug mode to off if it is on, to prevent a loop notifications.
+if( sspDebugMode )
+{
+sspDebugMode = EFalse;
+// Add LeaveIfError if unsuccessful
+(void) RProperty::Set(KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothSetSimplePairingDebugMode, (TInt) sspDebugMode );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Reset settings and disconnect all links.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::StopBTStackL()
+{
+TRACE_FUNC_ENTRY
+TBTVisibilityMode visibility = EBTVisibilityModeHidden;
+CRepository* cenRep = CRepository::NewL( KCRUidBTEngPrivateSettings );
+// Ignore error here; if we can't read it, likely we can't set it either.
+(void) cenRep->Get( KBTDiscoverable, (TInt&) visibility );
+delete cenRep;
+if( visibility == EBTVisibilityModeTemporary )
+{
+visibility = EBTVisibilityModeHidden;
+SetVisibilityModeL( visibility, 0 );    // Also cancels scan mode timer.
+}
+// Stop listening to events
+iServer->BasebandConnectionManager()->Unsubscribe();
+// Disconnect all links
+TCallBack cb( CBTEngServer::DisconnectAllCallBack, iServer );
+iServer->BasebandConnectionManager()->DisconnectAllLinksL( cb );
+// Results in a callback (which is called directly when there are no links).
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Update the power state CenRep key.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::UpdateCenRepPowerKeyL( TBTPowerState aState )
+{
+TRACE_FUNC_ENTRY
+CRepository* cenrep = CRepository::NewLC( KCRUidBluetoothPowerState );
+// TBTPowerState power state type is inverted from TBTPowerStateValue...
+TBTPowerStateValue power = (TBTPowerStateValue) !aState;
+User::LeaveIfError( cenrep->Set( KBTPowerState, (TInt) power ) );
+CleanupStack::PopAndDestroy( cenrep );
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// ?implementation_description
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetVisibilityModeL( TBTVisibilityMode aMode, TInt aTime )
+{
+TRACE_FUNC_ARG( ( _L( "[aMode: %d" ), aMode ) )
+if ( aMode != EBTVisibilityModeNoScans && iEnterpriseEnablementMode == BluetoothFeatures::EDisabled )
+{
+TRACE_INFO( ( _L( "\tnot changing anything... Bluetooth is enterprise-IT-disabled" ) ) )
+User::Leave( KErrNotSupported );
+}
+TInt err = KErrNone;
+iServer->RemoveTimer( CBTEngServer::EScanModeTimer );
+if( aMode != EBTVisibilityModeNoScans )
+{
+CRepository* cenRep = CRepository::NewL( KCRUidBTEngPrivateSettings );
+err = cenRep->Set( KBTDiscoverable, aMode );
+delete cenRep;
+}
+if( !err && aMode == EBTVisibilityModeTemporary )
+{
+// We need TInt64 here, as the max. time in microseconds for the
+// max. value (1 hour) is larger than KMaxTInt32.
+TInt64 timeMicroSec = MAKE_TINT64( 0, aTime );
+timeMicroSec = timeMicroSec * KMinutesInMicroSecs;
+// Queue callback to set the visibility back to hidden.
+iServer->QueueTimer( CBTEngServer::EScanModeTimer, (TInt64) timeMicroSec );
+aMode = EBTVisibilityModeGeneral;
+}
+else if( !err && iRestoreVisibility )
+{
+// The user overrides, do not restore visibility mode anymore.
+iRestoreVisibility = EFalse;
+}
+if( !err )
+{
+err = RProperty::Set( KUidSystemCategory,
+KPropertyKeyBluetoothSetScanningStatus, aMode );
+}
+TBool hiddenMode = ( aMode == EBTVisibilityModeHidden );
+if( !err && aMode != EBTVisibilityModeNoScans )
+{
+// In hidden mode, we only accept connections from paired devices.
+err = RProperty::Set( KUidSystemCategory,
+KPropertyKeyBluetoothSetAcceptPairedOnlyMode,
+hiddenMode );
+}
+User::LeaveIfError( err );  // To communicate the result to the client.
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Timed visible mode has expired.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::ScanModeTimerCompletedL()
+{
+TRACE_FUNC_ENTRY
+SetVisibilityModeL( EBTVisibilityModeHidden, 0 );
+TBTPowerState power = EBTOff;
+TInt err = GetHwPowerState( power );
+if( !err && power )
+{
+// Show a notification to the user
+TBTGenericInfoNotiferParamsPckg pckg;
+pckg().iMessageType = EBTVisibilityTimeout;
+RNotifier notifier;
+TInt err = notifier.Connect();
+if( !err )
+{
+err = notifier.StartNotifier( KBTGenericInfoNotifierUid, pckg );
+notifier.Close();
+}
+}
+TRACE_FUNC_RES( ( _L( "result: %d" ), err ) )
+}
+// ---------------------------------------------------------------------------
+// Check the secure simple pairing debug mode and turn it off if needed.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::CheckSspDebugModeL( TBool aDebugMode )
+{
+TRACE_FUNC_ARG( ( _L( "SSP debug mode state %d" ), (TInt) aDebugMode ) )
+TBTPowerState pwr = EBTOff;
+TBool currentMode = EFalse;
+TInt err = RProperty::Get( KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothGetSimplePairingDebugMode,
+(TInt&) currentMode );
+#ifndef __WINS__
+err = iPowerMgr.GetPower( pwr, NULL ); // Treat error as power off.
+#else   //__WINS__
+pwr = iPowerState;
+#endif  //__WINS__
+if( err || pwr == EBTOff )
+{
+iServer->RemoveTimer( CBTEngServer::ESspDebugModeTimer );
+// Only set debug mode to off if it is on, to prevent a loop notifications.
+if( currentMode )
+{
+(void) RProperty::Set( KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothSetSimplePairingDebugMode,
+(TInt) aDebugMode );
+}
+// In case of an error in getting the power state, turn BT off.
+// If BT is already off, this call will be ignored.
+SetPowerStateL( EBTOff, EFalse );
+}
+else if( aDebugMode )
+{
+// Ignore if there already is a timer queued.
+if( !( iServer->IsTimerQueued( CBTEngServer::ESspDebugModeTimer ) ) )
+{
+iServer->QueueTimer( CBTEngServer::ESspDebugModeTimer, (TInt64) KBTEngSspDebugModeTimeout );
+err =  RProperty::Set(KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothSetSimplePairingDebugMode,
+(TInt) aDebugMode );
+}
+}
+else
+{
+// Power is on, and debug mode is set to off.
+TInt linkCount = 0;
+err = RProperty::Get( KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothGetPHYCount, linkCount );
+if( err || !linkCount )
+{
+(void) RProperty::Set(KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothSetSimplePairingDebugMode,
+(TInt) aDebugMode );
+SetPowerStateL( EBTOff, EFalse );
+}
+else
+{
+// There are still existing connections, queue the
+// timer again for half the period.
+TInt64 interval = KBTEngSspDebugModeTimeout / 2;
+iServer->QueueTimer( CBTEngServer::ESspDebugModeTimer, interval );
+}
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// A session will be ended, completes the pending request for this session.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SessionClosed( CSession2* aSession )
+{
+TRACE_FUNC_ARG( ( _L( " session %x"), aSession ) )
+if ( !iMessage.IsNull() && iMessage.Session() == aSession )
+{
+iMessage.Complete( KErrCancel );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Check the power state and if BT gets turned off automatically.
+// This method is invoked either when the timer has expired, or
+// if there are no more connections while the timer was running.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::CheckAutoPowerOffL()
+{
+TRACE_FUNC_ENTRY
+if ( iAutoOffClients > 0 )
+{
+TRACE_INFO( ( _L( "[CBTEngServer]\t iAutoOffClients %d"), iAutoOffClients ) )
+return;
+}
+TInt linkCount = 0;
+TInt err = RProperty::Get( KPropertyUidBluetoothCategory,
+KPropertyKeyBluetoothGetPHYCount, linkCount );
+if( !err && !linkCount )
+{
+TRACE_INFO( ( _L( "[CBTEngServer]\t SetPowerStateL( EBTOff, EFalse );")))
+SetPowerStateL( EBTOff, EFalse );
+}
+else
+{
+if( iRestoreVisibility )
+{
+// Set visibility mode back to the value selected by the user.
+SetVisibilityModeL( EBTVisibilityModeGeneral, 0 );
+iRestoreVisibility = EFalse;
+}
+// show note if non-audio connection exists
+if ( !iServer->PluginManager()->CheckAudioConnectionsL() )
+{
+RNotifier notifier;
+TInt err = notifier.Connect();
+if( !err )
+{
+TRequestStatus status;
+TBTGenericInfoNotiferParamsPckg pckg;
+pckg().iMessageType = EBTStayPowerOn;
+TBuf8<sizeof(TInt)> result;
+//notifier.StartNotifier( KBTGenericInfoNotifierUid, pckg, result );
+notifier.StartNotifierAndGetResponse( status,
+KBTGenericInfoNotifierUid,
+pckg, result );   // Reply buffer not used.
+User::WaitForRequest( status );
+notifier.Close();
+}
+}
+iAutoOffClients = 0;
+iAutoSwitchOff = EFalse;
+TCallBack cb;
+iServer->BasebandConnectionManager()->SetAutoSwitchOff( EFalse, cb );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// The method is called when BT stack scanning mode P&S key is changed
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::UpdateVisibilityModeL( TInt aStackScanMode )
+{
+TRACE_FUNC_ARG( ( _L( "[aStackScanMode: %d" ), aStackScanMode ) )
+TBTVisibilityMode currentMode;
+CRepository* cenRep = CRepository::NewLC( KCRUidBTEngPrivateSettings );
+User::LeaveIfError( cenRep->Get( KBTDiscoverable, (TInt&) currentMode ) );
+// In case we are in temp visibility mode, we cannot always know whether the BT stack
+// scan mode key was set by some external party or by us in SetVisibilityModeL above.
+// Therefore we cannot stop the timer in case aMode is EBTVisibilityModeGeneral and
+// currentmode is EBTVisibilityModeTemporary
+if( !( currentMode == EBTVisibilityModeTemporary && aStackScanMode == EBTVisibilityModeGeneral ) )
+{
+// Cancel the timer and queue it again if needed.
+iServer->RemoveTimer( CBTEngServer::EScanModeTimer );
+if( currentMode != aStackScanMode )
+{
+if( aStackScanMode == EPageScanOnly || aStackScanMode == EInquiryAndPageScan )
+{
+User::LeaveIfError( cenRep->Set( KBTDiscoverable, aStackScanMode ) );
+}
+else if( aStackScanMode == EInquiryScanOnly )
+{
+// We don't support ENoScansEnabled nor EInquiryScanOnly mode
+// -> Consider these as same as Hidden
+User::LeaveIfError( cenRep->Set( KBTDiscoverable, EBTVisibilityModeHidden ) );
+}
+else if( aStackScanMode == ENoScansEnabled )
+{
+//We don't change KBTDiscoverable here, because ENoScansEnabled
+//indicates BT/SYSTEM shutdown is happening
+}
+}
+}
+SetUiIndicatorsL();
+CleanupStack::PopAndDestroy( cenRep );
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Set Device Under Test mode.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetDutMode( TInt aDutMode )
+{
+TRACE_FUNC_ARG( ( _L( "DUT mode %d" ), aDutMode ) )
+if (aDutMode == EBTDutOff)
+{
+return;
+}
+TInt powerState = EBTOff;
+CRepository* cenrep = NULL;
+TRAPD(err, cenrep = CRepository::NewL(KCRUidBluetoothPowerState));
+if (!err && cenrep)
+{
+cenrep->Get(KBTPowerState, powerState);
+delete cenrep;
+cenrep = NULL;
+}
+else
+{
+return;
+}
+if (powerState == EBTOn)
+{
+#ifndef __WINS__
+RBluetoothDutMode dutMode;
+TInt err = dutMode.Open();
+TRACE_FUNC_ARG( ( _L( "Open DUT mode handle err %d" ), err) )
+if(!err)
+{
+dutMode.ActivateDutMode();
+dutMode.Close();
+}
+#endif  //__WINS__
+}
+}
+// ---------------------------------------------------------------------------
+// From class MBTEngActiveObserver.
+// Callback to notify that an outstanding request has completed.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::RequestCompletedL( CBTEngActive* aActive, TInt aId, TInt aStatus )
+{
+__ASSERT_ALWAYS( aId == KBTEngSettingsActive, PanicServer( EBTEngPanicCorrupt ) );
+TRACE_FUNC_ENTRY
+(void) aActive;
+if ( aStatus != KErrNone && aStatus != KErrAlreadyExists && aStatus != KErrCancel )
+{
+// Something went wrong, so we turn BT off again.
+SetPowerStateL( EBTOff, EFalse );
+}
+else
+{
+// Write CoD only when the hardware has fully powered up.
+TBTPowerState currState ( EBTOff );
+(void) GetHwPowerState( currState );
+if ( currState == EBTOn )
+{
+SetClassOfDeviceL();
+#ifndef SETLOCALNAME
+// the macro SETLOCALNAME is used as a workaround to tackle the BT name
+// could not be saved to BT chip before chip initialization completed for the first time,
+// which is one of the regression after improving the BT boot up time.
+// To be removed once the final solution is in place.
+CBTEngSettings* settings = CBTEngSettings::NewL();
+TBTDeviceName localName;
+localName.Zero();
+TInt err = settings->GetLocalName(localName);
+if (err == KErrNone)
+{
+settings->SetLocalName(localName);
+}
+delete settings;
+#endif
+}
+}
+if ( !iMessage.IsNull())
+{
+iMessage.Complete( aStatus );
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// From class MBTEngActiveObserver.
+// Callback to notify that an error has occurred in RunL.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::HandleError( CBTEngActive* aActive, TInt aId, TInt aError )
+{
+(void) aActive;
+(void) aId;
+if ( !iMessage.IsNull())
+{
+iMessage.Complete( aError );
+}
+}
+// ---------------------------------------------------------------------------
+// Loads the BT Power Manager; leaves if it cannot be loaded.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::LoadBTPowerManagerL()
+{
+TRACE_FUNC_ENTRY
+TRACE_INFO( ( _L( "[CBTEngSrvSettingsMgr]\t Using HCI API v2 power manager" ) ) )
+User::LeaveIfError( iPowerMgr.Open() );
+#ifndef __WINS__
+iPowerMgr.SetPower( EBTOff, NULL, iActive->RequestStatus() );
+User::WaitForRequest( iActive->RequestStatus() );
+TInt status = ( iActive->RequestStatus().Int() == KErrAlreadyExists ? KErrNone : iActive->RequestStatus().Int() );
+User::LeaveIfError( status );
+#else   //__WINS__
+iPowerState = EBTOff;
+#endif  //__WINS__
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// ?implementation_description
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetUiIndicatorsL()
+{
+TRACE_FUNC_ENTRY
+TBTPowerStateValue powerState = EBTPowerOff;
+TBTVisibilityMode visibilityMode = EBTVisibilityModeHidden;
+CRepository* cenrep = NULL;
+TInt phys = 0;
+TInt connecting = 0;
+cenrep = CRepository::NewLC( KCRUidBluetoothPowerState );
+User::LeaveIfError( cenrep->Get( KBTPowerState, (TInt&) powerState ) );
+CleanupStack::PopAndDestroy( cenrep );
+if( powerState == EBTPowerOff )
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOn, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetooth, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOnVisible, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetoothVisible, EAknIndicatorStateOff );
+}
+else
+{
+// Power is on.
+RProperty::Get( KPropertyUidBluetoothCategory, KPropertyKeyBluetoothPHYCount, phys );
+RProperty::Get( KPropertyUidBluetoothCategory, KPropertyKeyBluetoothConnecting, connecting );
+cenrep = CRepository::NewLC( KCRUidBTEngPrivateSettings );
+User::LeaveIfError( cenrep->Get( KBTDiscoverable, (TInt&) visibilityMode ) );
+CleanupStack::PopAndDestroy( cenrep );
+if( visibilityMode == EBTVisibilityModeHidden )
+{
+if ( connecting ) // BT connecting and hidden
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOn, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetooth, EAknIndicatorStateAnimate );
+}
+else if ( phys > 0 ) // BT connection active and hidden
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOn, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetooth, EAknIndicatorStateOn );
+}
+else  // BT connection not active and hidden
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOn, EAknIndicatorStateOn );
+SetIndicatorStateL( EAknIndicatorBluetooth, EAknIndicatorStateOff );
+}
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOnVisible, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetoothVisible, EAknIndicatorStateOff );
+}
+else if( visibilityMode == EBTVisibilityModeGeneral || visibilityMode == EBTVisibilityModeTemporary )
+{
+if ( connecting ) // BT connecting and visible
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOnVisible, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetoothVisible, EAknIndicatorStateAnimate );
+}
+else if ( phys > 0 ) // BT connection active and visible
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOnVisible, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetoothVisible, EAknIndicatorStateOn );
+}
+else  // BT connection not active and visible
+{
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOnVisible, EAknIndicatorStateOn );
+SetIndicatorStateL( EAknIndicatorBluetoothVisible, EAknIndicatorStateOff );
+}
+SetIndicatorStateL( EAknIndicatorBluetoothModuleOn, EAknIndicatorStateOff );
+SetIndicatorStateL( EAknIndicatorBluetooth, EAknIndicatorStateOff );
+}
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// ?implementation_description
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetIndicatorStateL( const TInt aIndicator, const TInt aState )
+{
+CAknSmallIndicator* indicator = CAknSmallIndicator::NewLC( TUid::Uid( aIndicator ) );
+indicator->SetIndicatorStateL( aState );
+CleanupStack::PopAndDestroy( indicator ); //indicator
+}
+// ---------------------------------------------------------------------------
+// Gets the current HW power state.
+// For now this is a separate method to isolate the different variations.
+// ---------------------------------------------------------------------------
+//
+TInt CBTEngSrvSettingsMgr::GetHwPowerState( TBTPowerState& aState )
+{
+TRACE_FUNC_ENTRY
+TInt err = KErrNone;
+#ifndef __WINS__
+err = iPowerMgr.GetPower( aState, NULL );
+#else   //__WINS__
+aState = iPowerState;
+#endif  //__WINS__
+TRACE_FUNC_ARG( ( _L( "Power state is %d, result %d" ), (TInt) aState, err ) )
+return err;
+}
+// ---------------------------------------------------------------------------
+// Check the power state and if BT gets turned off automatically.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::CheckTemporaryPowerStateL( TBTPowerState& aCurrentState,
+TBTPowerState aNewState, TBool aTemporary )
+{
+TRACE_FUNC_ENTRY
+User::LeaveIfError( GetHwPowerState( aCurrentState ) );
+if( !aTemporary )
+{
+// Force the new power state, so clear all auto switch off flags.
+// If power is off, this will anyway be ignored.
+iAutoOffClients = 0;
+iAutoSwitchOff = EFalse;
+TCallBack cb;
+iServer->BasebandConnectionManager()->SetAutoSwitchOff( EFalse, cb );
+if( iRestoreVisibility && aCurrentState == EBTOn )
+{
+// Set visibility mode back to the value selected by the user.
+SetVisibilityModeL( EBTVisibilityModeGeneral, 0 );
+iRestoreVisibility = EFalse;
+}
+}
+else
+{
+if( aCurrentState == aNewState )
+{
+if( iAutoSwitchOff && aNewState == EBTOn )
+{
+iAutoOffClients++;
+iServer->RemoveTimer( CBTEngServer::EAutoPowerOffTimer );
+}
+}
+else if( iAutoSwitchOff || aNewState == EBTOn )
+{
+aNewState == EBTOff ? iAutoOffClients-- : iAutoOffClients++;
+iAutoSwitchOff = ETrue;
+if( aNewState == EBTOff && iAutoOffClients <= 0 )
+{
+TCallBack powerOffCb( CBTEngServer::AutoPowerOffCallBack, iServer );
+iServer->BasebandConnectionManager()->SetAutoSwitchOff( ETrue, powerOffCb );
+TInt64 interval = KBTEngBtAutoOffTimeout;
+iServer->QueueTimer( CBTEngServer::EAutoPowerOffTimer, interval );
+}
+else if( aNewState == EBTOn )
+{
+CRepository* cenRep = CRepository::NewLC( KCRUidBTEngPrivateSettings );
+TBTVisibilityMode visibility = EBTVisibilityModeGeneral;
+TInt err = cenRep->Get( KBTDiscoverable, (TInt&) visibility );
+CleanupStack::PopAndDestroy( cenRep );
+if( !err && visibility == EBTVisibilityModeGeneral )
+{
+SetVisibilityModeL( EBTVisibilityModeHidden, 0 );
+iRestoreVisibility = ETrue;
+}
+iServer->RemoveTimer( CBTEngServer::EAutoPowerOffTimer );
+}
+}
+}
+if( iAutoOffClients < 0 )
+{
+iAutoOffClients = 0;
+}
+TRACE_FUNC_EXIT
+}
+// ---------------------------------------------------------------------------
+// Set the Class of Device.
+// ---------------------------------------------------------------------------
+//
+void CBTEngSrvSettingsMgr::SetClassOfDeviceL()
+{
+TRACE_FUNC_ENTRY
+TUint16 serviceClass = KCoDDefaultServiceClass;
+// Check from feature manager if stereo audio is enabled.
+FeatureManager::InitializeLibL();
+TBool supported = FeatureManager::FeatureSupported( KFeatureIdBtStereoAudio );
+FeatureManager::UnInitializeLib();
+if( supported )
+{
+// A2DP spec says we should set this bit as we are a SRC
+serviceClass |= EMajorServiceCapturing;
+}
+// These values may nayway be overridden by HCI
+TBTDeviceClass cod( serviceClass, KCoDDefaultMajorDeviceClass,
+KCoDDefaultMinorDeviceClass );
+// Ignore error, it is non-critical
+(void) RProperty::Set( KPropertyUidBluetoothControlCategory,
+KPropertyKeyBluetoothSetDeviceClass, cod.DeviceClass() );
+TRACE_FUNC_EXIT
+}

branch	RCL_3
changeset 10	0707dd69d236
child 11	a42ed326b458