// Copyright (c) 2001-2009 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:
// This file contains the implementation for the Simulator Phone class 'CSimPhone'
//
//
/**
@file
*/
#include <testconfigfileparser.h>
#include "CSimPhone.h"
#include "CSimCall.h"
#include "csimsmsmess.h"
#include "CSimPhBkStore.h"
#include "CSimPhBkUsimStore.h"
#include "CSimONStore.h"
#include "CSimSignalStrength.h"
#include "CSimNetworkStatus.h"
#include "CSimDtmf.h"
#include "CSimIndicator.h"
#include "utils.h"
#include "Simlog.h"
#include "CSimPacketService.h"
#include "CSimSat.h"
#include "CSimBatteryCharger.h"
#include "CSimCallBarring.h"
#include "CSimCallForwarding.h"
#include "CSimCallWaiting.h"
#include "CSimPhoneInitialise.h"
#include "CSimPhoneIMSAuth.h"
#include "CSimTsyMode.h"
#include "csimsmartcardauth.h"
#include "csimsmartcardeap.h"
#include "simtsyglobalproperties.h"
#include "et_struct.h"
#define PDD_NAME _L("ECDRV") // < Name of the WINS Serial Physical Device Driver
#define LDD_NAME _L("ECOMM") // < Name of the WINS Serial Logical Device Driver
const TInt KPhBkUSimStoreGranularity=5; // < The granularity of the phonebook store list array.
const TInt KPhonebookStoreGranularity=2; // < The granularity of the phonebook store list array.
GLDEF_C void SimPanic(TSimPanic aPanicNumber, TInt aLineNumber)
{
LOGPHONE3("SMS.TSY Panic %d Line %d", aPanicNumber, aLineNumber);
(void) aLineNumber;
_LIT(panicText,"SIM.TSY");
User::Panic(panicText,aPanicNumber);
}
//
// CSimPhone
//
void CSimPhone::CloseObj(TAny* aObj)
/**
* A utility function for cleaning up the stack.
*
* @param aObj a pointer to the CObject to close
*/
{
((CObject*)aObj)->Close();
}
CSimPhone* CSimPhone::NewL(CPhoneBase*& aPhoneBaseRef)
/**
* Standard two phase constructor.
*
* @return CSimPhone pointer to the phone object created
* @leave Leaves if no memory or object is not created for any reason
*/
{
CSimPhone* phone=new(ELeave) CSimPhone(aPhoneBaseRef);
TCleanupItem newPhoneClose(CloseObj,phone);
CleanupStack::PushL(newPhoneClose);
phone->ConstructL();
CleanupStack::Pop();
aPhoneBaseRef = phone;
return phone;
}
CSimPhone::CSimPhone(CPhoneBase*& aPhoneBaseRef)
: iPhoneBaseRef(aPhoneBaseRef),
iAPNServiceOffset(4),
iUSIMServiceTable(NULL),
iUSIMEnabledServiceTable(NULL),
iSIMServiceTable(NULL),
iModemDetection(RPhone::EDetectedPresent),
iMode(RPhone::EModeIdle),
iNtwkMode(RMobilePhone::ENetworkModeUnknown)
{
iPhoneId.iError = KErrNotSupported;
}
/**
* A utility function for reading the service tables and setting them up
*
* @param aMaxSupported size of table supported by etelmm
* @param aLookup config file reference to the table to be looked up
* @param pTable pointer to the table to be constructed for the config file table
* @return void does not return anything
*/
void CSimPhone::PopulateServiceTableL( TInt aMaxSupported,
const TDesC8& aLookup,
RMobilePhone::TMobilePhoneServiceTableV1** aTable)
{
RMobilePhone::TMobilePhoneServiceTableV1* pTable = NULL;
pTable = new(ELeave) RMobilePhone::TMobilePhoneServiceTableV1();
// USIM Supported entry's
const CTestConfigItem* item=CfgFile()->Item(aLookup);
if (item)
{
TInt count = CTestConfig::CountElements(item->Value(),KStdDelimiter);
for (TInt i= 0; i< count; i++)
{
TInt entry = 0;
TUint8* pTableEntry = &(pTable->iServices1To8);
TInt ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,entry);
if(ret == KErrNone && entry < (aMaxSupported+1)) // This is the maximum supported services by etelmm.h
{
TUint8 basic = 0x01;
pTableEntry += ((entry-1)/8);
*pTableEntry |= (basic << ((entry-1)%8));
}
}
*aTable = pTable;
LOGPHONE2("Successfully populated %s table in simtsy", &aLookup);
}
else
{
delete(pTable);
pTable = NULL;
LOGPHONE2("Failed to populat %s table in simtsy", &aLookup);
}
}
/**
* A utility function for reading the USIM V8 service tables and setting them up
*
* @param aTableV8 pointer to the table to be constructed for the config file table
* @param aLookup config file reference to the table to be looked up
* @return void does not return anything
*/
void CSimPhone::PopulateServiceTableV8L(const TDesC8& aLookup,RMobilePhone::TMobilePhoneServiceTableV8** aTableV8)
{
RMobilePhone::TMobilePhoneServiceTableV8* pTable = NULL;
pTable = new(ELeave) RMobilePhone::TMobilePhoneServiceTableV8();
TInt aMaxSupportedV1 = 56;
TInt aMaxSupportedV8 = 72;
// USIM Supported entry's for V8
const CTestConfigItem* item=CfgFile()->Item(aLookup);
if (item)
{
TInt count = CTestConfig::CountElements(item->Value(),KStdDelimiter);
for (TInt i= 0; i< count; i++)
{
TInt entry = 0;
TUint8* pTableEntry = &(pTable->iServices57To64);
TInt ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,entry);
if(ret == KErrNone && entry > (aMaxSupportedV1) && entry < (aMaxSupportedV8 +1)) // This is the maximum supported services by etelmm.h
{
entry -= aMaxSupportedV1;
TUint8 basic = 0x01;
pTableEntry += ((entry-1)/8);
*pTableEntry |= (basic << ((entry-1)%8));
}
}
*aTableV8 = pTable;
LOGPHONE2("Successfully populated %s table in simtsy", &aLookup);
}
else
{
delete(pTable);
pTable = NULL;
LOGPHONE2("Failed to populate %s table in simtsy", &aLookup);
}
}
void CSimPhone::SetTestNumberAndReadConfigurationFileL()
{
TInt testNumber;
User::LeaveIfError(GetTestNumber(testNumber));
iSectionName.Format(KSectionNameFormat,testNumber);
delete iConfigFile;
iConfigFile = NULL;
TRAPD(err, iConfigFile = CTestConfig::NewLC(iFs, KConfigFileDir, KConfigFilename); CleanupStack::Pop(iConfigFile));
if( err == KErrNone && iConfigFile->Section(iSectionName) != NULL )
{
iConfigSection = iConfigFile->Section(iSectionName);
}
else
{
LOGPHONE2("Section for requested test number (%d) not found in the Config File",testNumber);
delete iConfigFile;
iConfigFile = NULL;
User::Leave(KErrNotFound);
}
User::LeaveIfError(SetTestNumberInUse(testNumber));
}
void CSimPhone::ConstructL()
/**
* 2 Phase Construction (Second phase)
* Loads the WINS Physical and Logical Serial Device Drivers. C32 loads the non-WINS
* serial drivers, so we don't have to worry about these.
* Creates Voice (CSimVoiceLine) and Data lines (CSimDataLine), CConfigReader objects,
* CSimSysAgent objects, CSimSmsMessaging object, CSimPhoneStore object,
* CSimPhoneBook object, and CSimPacketService object.
*/
{
#if defined (__WINS__)
TInt r=User::LoadPhysicalDevice(PDD_NAME);
r=User::LoadLogicalDevice(LDD_NAME);
#endif
LOGPHONE1("Starting to Load and Parse the Config File");
User::LeaveIfError(iFs.Connect());
SetTestNumberAndReadConfigurationFileL();
CSimTsyMode::InitL(this);
iReduceTimers = CSimReduceTimers::NewL();
InitPhoneStatus();
iSimPhoneInitialise = CSimPhoneInitialise::NewL(this);
if (CSimTsyMode::GetMode() != CSimTsyMode::ECdmaV1)
{
iVoiceLine = CSimVoiceLine::NewL(this,KVoiceLineName);
iDataLine = CSimDataLine::NewL(this,KDataLineName);
iSmsMessaging = CSimSmsMessaging::NewL(this);
iPhoneSecurity = CSimPhoneSecurity::NewL(this);
iPhoneUSimApp = CSimPhoneUSimApp::NewL(this);
iPhoneSmartCardApp = CSimPhoneSmartCardApp::NewL(this);
iPhoneScAuth = CSimSmartCardAuth::NewL(this);
iPhBkStores=new(ELeave) CArrayFixFlat<CSimPhBkStore*>(KPhonebookStoreGranularity);
iPhBkUSimStores=new(ELeave) CArrayFixFlat<CSimPhBkUSimStore*>(KPhBkUSimStoreGranularity);
FindAndCreatePhBkStoresL();
CreateONStoreL();
iSignalStrength=CSimSignalStrength::NewL(this);
iNetworkStatus=CSimNetworkStatus::NewL(this);
iDtmf=CSimDtmf::NewL(this);
}
const TInt capacityServiceTable = 56;
PopulateServiceTableL(capacityServiceTable,KUSIMServiceTableSupportedEntrys(), &iUSIMServiceTable);
PopulateServiceTableL(capacityServiceTable,USIMServiceTableEnabledEntrys(), &iUSIMEnabledServiceTable);
PopulateServiceTableL(capacityServiceTable,KSIMServiceTable(), &iSIMServiceTable);
/* Updating the V8 features */
PopulateServiceTableV8L(KUSIMServiceTableSupportedEntrys(),&iUSIMServiceTableV8);
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
TInt entries = 0;
const CTestConfigItem* aPNListItem=CfgFile()->Item(KAccessPointNameList);
if (aPNListItem)
{
TInt ret=CTestConfig::GetElement(aPNListItem->Value(),KStdDelimiter,0,entries);
if(ret == KErrNone && entries > 0)
{
for (TInt i= 0;i< entries;i++)
{
RMobilePhone::TAPNEntryV3 entry;
entry.iApn.Zero();
TPtrC8 startupAPNList;
ret=CTestConfig::GetElement(aPNListItem->Value(),KStdDelimiter,i+1,startupAPNList);
entry.iApn.Copy(startupAPNList);
iAPNList.Append(entry);
}
}
}
}
TPtrC8 IMSI;
iSubscriberId.iError = KErrNone;
const CTestConfigItem* itemSubscriberId=CfgFile()->Item(KSubscriberId);
if( itemSubscriberId != NULL )
{
TInt ret=CTestConfig::GetElement(itemSubscriberId->Value(),KStdDelimiter,0,IMSI);
if( ret != KErrNone )
{
LOGPARSERR("IMSI",ret,0,&KSubscriberId);
}
// coverity[check_return]
CTestConfig::GetElement(itemSubscriberId->Value(),KStdDelimiter,1,iSubscriberId.iError);
iSubscriberId.iIMSI.Copy(IMSI);
}
else
{
iSubscriberId.iIMSI.Copy(KSubscriberIdDefault);
}
iNtwkMode=(RMobilePhone::TMobilePhoneNetworkMode)CfgFile()->ItemValue(KNetworkMode,KNetworkModeDefault);
//get phone id from config file
GetPhoneIdAndCaps();
LOGPHONE1("Loading the version configuration");
iSimTsyVersion = CfgFile()->ItemValue(KTsyVersionNumber,KSimTsyDefaultVersion);
LOGPHONE2("Simulated SIMTSY version: %d", iSimTsyVersion);
iPacketService = CSimPacketService::NewL(this);
iBatteryCharger = CSimBatteryCharger::NewL(this);
iSat = CSimSat::NewL(this);
iIndicator = CSimIndicator::NewL(this);
iPhoneIMSAuth = CSimPhoneIMSAuth::NewL(this);
iCallBarring=CSimCallBarring::NewL(this);
iCallForwarding=CSimCallForwarding::NewL(this);
iCallWaiting=CSimCallWaiting::NewL(this);
iUsimRelease6=CSimUsimR6::NewL(this);
iNetworkModeArray = new (ELeave) CArrayFixFlat<TNetworkModeBundle>(KGranularity);
iPhoneScEapMan = CSimSmartCardEapManager::NewL(this);
iNetworkModeTimer = CSimTimer::NewL(this);
//< Read in all network mode data
TInt count = CfgFile()->ItemCount(KNetworkMode);
const CTestConfigItem* item = NULL;
for (TInt i = 0; i < count; ++i)
{
item = CfgFile()->Item(KNetworkMode,i);
if (!item)
break;
TInt duration(0);
TInt networkMode(0);
TInt ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,0,duration);
if (ret != KErrNone)
break;
ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,1,networkMode);
if (ret != KErrNone)
break;
RMobilePhone::TMobilePhoneNetworkMode mode;
if(networkMode == 1)
{
mode = RMobilePhone::ENetworkModeUnregistered;
}
else if(networkMode == 2)
{
mode = RMobilePhone::ENetworkModeGsm;
}
else if(networkMode == 3)
{
mode = RMobilePhone::ENetworkModeAmps;
}
else if(networkMode == 6)
{
mode = RMobilePhone::ENetworkModeWcdma;
}
else if(networkMode == 7)
{
mode = RMobilePhone::ENetworkModeTdcdma;
}
else
{
mode = RMobilePhone::ENetworkModeUnknown;
}
TNetworkModeBundle networkModeData;
networkModeData.iDuration = duration;
networkModeData.iNetworkMode = mode;
TRAP_IGNORE(iNetworkModeArray->AppendL(networkModeData));
}
if (iNetworkModeArray->Count() != 0)
{
iNetworkModeIndex = 0;
TNetworkModeBundle initialNetworkMode = iNetworkModeArray->At(0);
iNtwkMode = initialNetworkMode.iNetworkMode; // set to new value if NetworkMode present in config.txt file
iTimerCallBackNetworkMode.SetHandle(this);
iNetworkModeTimer->Start(initialNetworkMode.iDuration, &iTimerCallBackNetworkMode);
}
// end of network mode simulation setup
iTestNumberObserver = CSimTestNumberObserver::NewL(*this);
LOGPHONE1("Completed Loading and Parsing the Config File");
}
CSimReduceTimers* CSimPhone::GetReduceTimersSubject()
{
return iReduceTimers;
}
TInt CSimPhone::GetTestNumber(TInt& aTestNumber)
/**
* Retrieve the test number.
*/
{
TInt ret = RProperty::Get(KUidPSSimTsyCategory, KPSSimTsyTestNumber, aTestNumber);
if (ret == KErrNone && aTestNumber >= 0)
{
LOGPHONE2("Got system property KUidPSSimTsyCategory/KPSSimTsyTestNumber. testNumber=%d", aTestNumber);
}
else
{
aTestNumber = KDefaultTestNumber;
LOGPHONE2("Using the default test number. testNumber=%d", aTestNumber);
}
return KErrNone;
}
TInt CSimPhone::SetTestNumberInUse(TInt aTestNumber)
/**
* Set the test number that is actually used by the TSY
*/
{
TInt ret = RProperty::Set(KUidPSSimTsyCategory, KPSSimTsyTestNumberInUse, aTestNumber);
if (ret == KErrNone)
{
LOGPHONE2("Set system property KUidPSSimTsyCategory/KPSSimTsyTestNumberInUse. testNumber=%d", aTestNumber);
}
return ret;
}
CSimPhone::~CSimPhone()
/**
* Standard destructor.
* Any objects created by the ::ConstructL() function should be destroyed here.
* The objects to be destroyed are:
* CSimVoiceLine, CSimDataLine, CConfigReader, CSimSysAgent, CSimSmsMessaging
* CSimPhoneStore, CSimPhoneBook, CSimPacketService
*/
{
iPhoneBaseRef = NULL;
delete iNetworkModeTimer;
delete iDtmf;
delete iNetworkStatus;
delete iSignalStrength;
delete iIndicator;
delete iBatteryCharger;
delete iPhoneIMSAuth;
delete iPhoneScEapMan;
delete iPhoneScAuth;
delete iUsimRelease6;
iFs.Close();
if(iDataLine)
iDataLine->Close();
if(iVoiceLine)
iVoiceLine->Close();
if(iSmsMessaging)
iSmsMessaging->Close();
if(iPhoneSecurity)
iPhoneSecurity->Close();
if(iPhoneUSimApp)
iPhoneUSimApp->Close();
if(iPhoneSmartCardApp)
iPhoneSmartCardApp->Close();
if (iUSIMServiceTable != NULL)
delete(iUSIMServiceTable);
if (iUSIMEnabledServiceTable != NULL)
delete(iUSIMEnabledServiceTable);
if (iSIMServiceTable != NULL)
delete(iSIMServiceTable);
if (iUSIMServiceTableV8 != NULL)
delete(iUSIMServiceTableV8);
if( iPhBkStores != NULL )
{
TInt storeCount=iPhBkStores->Count();
for(TInt i=0;i<storeCount;i++)
{
iPhBkStores->At(i)->Close();
}
delete iPhBkStores;
}
if( iPhBkUSimStores != NULL )
{
TInt storeCount=iPhBkUSimStores->Count();
for(TInt i=0;i<storeCount;i++)
{
iPhBkUSimStores->At(i)->Close();
}
delete iPhBkUSimStores;
}
if(iONStore)
{
iONStore->Close();
iONStore = NULL;
}
if( iNetworkModeArray != NULL )
{
iNetworkModeArray->Delete(0,iNetworkModeArray->Count());
delete iNetworkModeArray;
}
if( iPacketService!= NULL )
{
iPacketService->Close();
}
if( iSat != NULL )
{
iSat->Close();
}
if( iConfigFile == NULL)
{
// In this case if iConfigSection exists then it is not owned
// by iConfigFile - this is cos there was no config file for
// this SIM TSY.
delete iConfigSection;
}
delete iConfigFile;
delete iCallBarring;
delete iCallForwarding;
delete iCallWaiting;
if (iSetCallProcessingSuspendStateTimer)
{
iSetCallProcessingSuspendStateTimer->Cancel();
delete iSetCallProcessingSuspendStateTimer;
}
delete iSimPhoneInitialise;
delete iReduceTimers;
delete iTestNumberObserver;
CSimTsyMode::FreeMode();
LOGPHONE1("CSimPhone Destroyed");
}
void CSimPhone::InitPhoneStatus()
{
const CTestConfigItem* item = NULL;
TInt ret = KErrNone;
LOGPHONE1("Starting to Load and Parse Phone Config parameters");
item = CfgFile()->Item(KPhoneStatus);
if(!item)
return;
TInt modemDetection, mode;
ret = CTestConfig::GetElement(item->Value(), KStdDelimiter, 0, modemDetection);
if (ret == KErrNone)
{
iModemDetection = (RPhone::TModemDetection)modemDetection;
}
ret=CTestConfig::GetElement(item->Value(), KStdDelimiter, 1, mode);
if (ret != KErrNone)
{
iMode = (RPhone::TMode)mode;
}
}
void CSimPhone::FindAndCreatePhBkStoresL()
{
TInt count=CfgFile()->ItemCount(KPhBkStore);
const CTestConfigItem* item=NULL;
TInt ret=KErrNone;
LOGPHONE1("Starting to Load and Parse PhoneBookStore Config parameters");
TInt i;
for(i=0;i<count;i++)
{
item=CfgFile()->Item(KPhBkStore,i);
if(!item)
break;
TPtrC8 phonebookName;
TInt maxNumSlots, telNumMaxLen, alphaTagMaxLen;
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,phonebookName);
if(ret!=KErrNone)
{
LOGPARSERR("phonebookName",ret,0,&KPhBkStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,1,maxNumSlots);
if(ret!=KErrNone)
{
LOGPARSERR("maxNumSlots",ret,1,&KPhBkStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,2,telNumMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("telNumMaxLen",ret,2,&KPhBkStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,3,alphaTagMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("alphaTagMaxLen",ret,3,&KPhBkStore);
continue;
}
CSimPhBkStore* phBkStore=CSimPhBkStore::NewL(this,phonebookName,maxNumSlots,telNumMaxLen,alphaTagMaxLen);
TCleanupItem newObjClose(CloseObj,phBkStore);
CleanupStack::PushL(newObjClose);
iPhBkStores->AppendL(phBkStore);
CleanupStack::Pop();
}
count=CfgFile()->ItemCount(KPhBkUSimStore);
LOGPHONE1("Starting to Load and Parse USim PhoneBookStore Config parameters");
for(i=0;i<count;i++)
{
item=CfgFile()->Item(KPhBkUSimStore,i);
if(!item)
break;
TPtrC8 phonebookName, phonebookStore;
TInt maxNumSlots, telNumMaxLen, alphaTagMaxLen;
TInt additional, maxEmail, maxAdditionalTelNumLen, maxAdditionalTextLen;
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,phonebookStore);
if(ret!=KErrNone)
{
LOGPARSERR("phonebookStore",ret,0,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,1,phonebookName);
if(ret!=KErrNone)
{
LOGPARSERR("phonebookName",ret,1,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,2,maxNumSlots);
if(ret!=KErrNone)
{
LOGPARSERR("maxNumSlots",ret,2,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,3,telNumMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("telNumMaxLen",ret,3,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,4,alphaTagMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("alphaTagMaxLen",ret,4,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,5,additional);
if(ret!=KErrNone)
{
LOGPARSERR("additional",ret,5,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,6,maxEmail);
if(ret!=KErrNone)
{
LOGPARSERR("maxEmail",ret,6,&KPhBkUSimStore);
continue;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,7,maxAdditionalTelNumLen);
if(ret!=KErrNone)
{
LOGPHONE1("WARNING maxAdditionalTelNumLen missing, defaulting to telNumMaxLen");
maxAdditionalTelNumLen = telNumMaxLen;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,8,maxAdditionalTextLen);
if(ret!=KErrNone)
{
LOGPHONE1("WARNING maxAdditionalTextLen missing, defaulting to alphaTagMaxLen");
maxAdditionalTextLen = alphaTagMaxLen;
}
TInt countStores = iPhBkUSimStores->Count();
TBool found=EFalse;
if(phonebookName.Compare(KGsmPhoneBook) == KErrNone)
{
TInt countShort = iPhBkStores->Count();
TBool foundShort=EFalse;
for(TInt j=0; i < countShort; j++)
{
CSimPhBkStore* phBkStore = iPhBkStores->At(j);
if((phBkStore->Name().Compare(phonebookName) == KErrNone))
{
foundShort=ETrue;
break;
}
}
if(foundShort) //warn but not fail!
{
LOGPHONE1("WARNING! PhBkUSimStore and PhBkStore duplicate phonebook configuration");
}
}
for(TInt j=0; j < countStores; j++)
{
CSimPhBkUSimStore* phBkStore = iPhBkUSimStores->At(j);
if((phBkStore->Name().Compare(phonebookName) == KErrNone)&&
(phBkStore->PhBkStore().Compare(phonebookStore) == KErrNone))
{
found=ETrue;
break;
}
}
if(found) //This store already exists!!!
continue;
CSimPhBkUSimStore* phBkStore=CSimPhBkUSimStore::NewL(this,phonebookStore,phonebookName,maxNumSlots,telNumMaxLen,alphaTagMaxLen,additional,maxEmail,maxAdditionalTelNumLen,maxAdditionalTextLen);
TCleanupItem newObjClose(CloseObj,phBkStore);
CleanupStack::PushL(newObjClose);
iPhBkUSimStores->AppendL(phBkStore);
CleanupStack::Pop();
}
// Populate the Phonebook Stores after construction, so as not to disturb the config file's
// search pointer
for(i=0;i<iPhBkStores->Count();i++)
{
iPhBkStores->At(i)->PopulateStoreFromConfigFileL();
}
for(i=0;i<iPhBkUSimStores->Count();i++)
{
iPhBkUSimStores->At(i)->PopulateStoreFromConfigFileL();
}
LOGPHONE1("Finished parsing PhBkStores config parameters");
}
void CSimPhone::CreateONStoreL()
{
const CTestConfigItem* item=NULL;
TInt ret=KErrNone;
LOGPHONE1("Starting to Load and Parse Own Number Config parameters");
TInt i=0;
item=CfgFile()->Item(KONStore,i);
if(!item)
return;
TInt maxNumSlots, telNumMaxLen, alphaTagMaxLen;
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,maxNumSlots);
if(ret!=KErrNone)
{
LOGPARSERR("maxNumSlots",ret,1,&KONStore);
return;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,1,telNumMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("telNumMaxLen",ret,2,&KONStore);
return;
}
ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,2,alphaTagMaxLen);
if(ret!=KErrNone)
{
LOGPARSERR("alphaTagMaxLen",ret,3,&KONStore);
return;
}
iONStore=CSimONStore::NewL(this,maxNumSlots,telNumMaxLen,alphaTagMaxLen);
// Populate the Own Number Store
iONStore->PopulateStoreFromConfigFileL();
LOGPHONE1("Finished parsing Own Number Store config parameters");
}
TInt CSimPhone::ExtFunc(const TTsyReqHandle aReqHandle, const TInt aIpc, const TDataPackage& aPckg)
/**
* ExtFunc is called by the server when it has a "extended", i.e. non-core ETel request
* for the TSY to process.
* A request handle, request type and request data are passed to the TSY.
*/
{
TAny* dataPtr = aPckg.Ptr1();
TAny* dataPtr2 = aPckg.Ptr2();
TInt functionValue;
switch (aIpc)
{
case EMobilePhoneGetMultimodeCaps:
return GetMultimodeCaps(aReqHandle, reinterpret_cast<TUint32*>(dataPtr));
case EMobilePhoneGetIccAccessCaps:
return GetIccAccessCaps(aReqHandle,
REINTERPRET_CAST(TUint32*,dataPtr));
case EMobilePhoneGetPhoneStoreInfo:
switch(aPckg.Type())
{
// Switch between the alternative implementations of GetPhoneStoreInfo
case TDataPackage::EPackage1n2u:
return GetPhoneStoreInfo(aReqHandle,
aPckg.Des1n(),aPckg.Des2u());
case TDataPackage::EPackage1n2n:
return GetPhoneStoreInfo(aReqHandle, aPckg.Des2n(),
REINTERPRET_CAST(RMobilePhone::TPhoneStoreNameAndIccType*, dataPtr));
default:
return NULL;
}
// return GetPhoneStoreInfo(aReqHandle,aPckg.Des1n(),aPckg.Des2u());
// Signal Strength
case EMobilePhoneGetSignalCaps:
return iSignalStrength->GetSignalCaps(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetSignalStrength:
return iSignalStrength->GetSignalStrength(aReqHandle,aPckg.Des1n(),aPckg.Des2n());
case EMobilePhoneNotifySignalStrengthChange:
return iSignalStrength->NotifySignalStrengthChange(aReqHandle,aPckg.Des1n(),aPckg.Des2n());
// Indicators
case EMobilePhoneGetIndicator:
return iIndicator->GetIndicator(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyIndicatorChange:
return iIndicator->NotifyIndicatorChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetIndicatorCaps:
return iIndicator->GetIndicatorCaps(aReqHandle,aPckg.Des1n(), aPckg.Des2n());
// Battery Charger
case EMobilePhoneGetBatteryInfo:
return iBatteryCharger->GetBatteryInfo(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyBatteryInfoChange:
return iBatteryCharger->NotifyBatteryInfoChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetBatteryCaps:
return iBatteryCharger->GetBatteryCaps(aReqHandle,aPckg.Des1n());
// Network Information
case EMobilePhoneGetNetworkCaps:
return iNetworkStatus->GetNetworkCaps(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetCurrentMode:
return GetCurrentMode(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyModeChange:
return NotifyModeChange(aReqHandle,reinterpret_cast<RMobilePhone::TMobilePhoneNetworkMode*>(dataPtr));
case EMobilePhoneGetHomeNetwork:
return iNetworkStatus->GetHomeNetwork(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetCurrentNetwork:
return iNetworkStatus->GetCurrentNetwork(aReqHandle,aPckg.Des1n(),aPckg.Des2n());
case EMobilePhoneGetCurrentNetworkNoLocation:
return iNetworkStatus->GetCurrentNetworkNoLocation(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyCurrentNetworkChange:
return iNetworkStatus->NotifyCurrentNetworkChange(aReqHandle,aPckg.Des1n(),aPckg.Des2n());
case EMobilePhoneNotifyCurrentNetworkNoLocationChange:
return iNetworkStatus->NotifyCurrentNetworkNoLocationChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetNetworkRegistrationStatus:
return iNetworkStatus->GetNetworkRegistrationStatus(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyNetworkRegistrationStatusChange:
return iNetworkStatus->NotifyNetworkRegistrationStatusChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetServiceProviderName:
return iNetworkStatus->GetCurrentServiceProvider(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetNetworkName:
return iNetworkStatus->GetCurrentNetworkName(aReqHandle,aPckg.Des1n(), aPckg.Des2n());
//USIM Release6 Infomration
case EMobilePhoneGetMailboxNumbers:
return iUsimRelease6->GetMailboxNumbers(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyMailboxNumbersChange:
return iUsimRelease6->NotifyMailboxNumbersChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyMessageWaiting:
return iUsimRelease6->NotifyMessageWaiting(aReqHandle,REINTERPRET_CAST(TInt*, dataPtr));
case EMobilePhoneGetIccMessageWaitingIndicators:
return iUsimRelease6->GetIccMessageWaitingIndicators(aReqHandle,aPckg.Des1n());
case EMobilePhoneSetIccMessageWaitingIndicators:
return iUsimRelease6->SetIccMessageWaitingIndicators(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyIccMessageWaitingIndicatorsChange:
return iUsimRelease6->NotifyIccMessageWaitingIndicatorsChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyWlanDataChange:
return iUsimRelease6->NotifyWlanDataChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyPreferredWlanSIDListChange:
return iUsimRelease6->NotifyPreferredWlanSIDListChange(aReqHandle);
case EMobilePhoneGetWlanData:
return iUsimRelease6->GetWlanData(aReqHandle,aPckg.Des1n());
case EMobilePhoneSetWlanData:
return iUsimRelease6->SetWlanData(aReqHandle,aPckg.Des1n());
case EMobilePhoneGetPreferredWlanSIDsPhase1:
return iUsimRelease6->GetPreferredWlanSIDsPhase1(aReqHandle,
REINTERPRET_CAST(RMobilePhone::TClientId*, dataPtr),
REINTERPRET_CAST(TInt*, dataPtr2));
case EMobilePhoneGetPreferredWlanSIDsPhase2:
return iUsimRelease6->GetPreferredWlanSIDsPhase2(aReqHandle,
REINTERPRET_CAST(RMobilePhone::TClientId*, dataPtr), aPckg.Des2n());
case EMobilePhoneStorePreferredWlanSIDList:
return iUsimRelease6->StorePreferredWlanSIDList(aReqHandle, aPckg.Des1n());
case EMobilePhoneNotifyStorePreferredNetworksListChange:
return iUsimRelease6->NotifyStorePreferredNetworksListChange(aReqHandle);
case EMobilePhoneGetPreferredNetworksPhase1:
return iUsimRelease6->GetPreferredNetworksPhase1(aReqHandle,
REINTERPRET_CAST(RMobilePhone::TClientId*, dataPtr),
REINTERPRET_CAST(TInt*, dataPtr2));
case EMobilePhoneGetPreferredNetworksPhase2:
return iUsimRelease6->GetPreferredNetworksPhase2(aReqHandle,
REINTERPRET_CAST(RMobilePhone::TClientId*, dataPtr), aPckg.Des2n());
case EMobilePhoneStorePreferredNetworksList:
return iUsimRelease6->StorePreferredNetworksList(aReqHandle, aPckg.Des1n());
case EMobilePhoneSetGbaBootstrapParams:
return iUsimRelease6->SetGbaBootstrapParams(aReqHandle, aPckg.Des1n(),
reinterpret_cast<RMobilePhone::TAID*>(dataPtr2));
case EMobilePhoneNotifyAuthenticateDataChange:
return iUsimRelease6->NotifyAuthenticateDataChange(aReqHandle, aPckg.Des1n());
case EMobilePhoneGetAuthenticationParams:
return iUsimRelease6->GetAuthenticationParams(aReqHandle, aPckg.Des1n(),
aPckg.Des2n());
case EMobilePhoneAuthenticationListPhase1:
return iUsimRelease6->GetAuthenticationListPhase1(aReqHandle,
REINTERPRET_CAST(CRetrieveMobilePhoneAuthenticationIds::TAuthRequestData*, dataPtr),
REINTERPRET_CAST(TInt*, dataPtr2));
case EMobilePhoneAuthenticationListPhase2:
return iUsimRelease6->GetAuthenticationListPhase2(aReqHandle,
REINTERPRET_CAST(RMobilePhone::TClientId*, dataPtr),
aPckg.Des2n());
// NITZ Network Information
case EMobilePhoneGetNITZInfo:
return iNetworkStatus->GetNITZInfo(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyNITZInfoChange:
return iNetworkStatus->NotifyNITZInfoChange(aReqHandle,aPckg.Des1n());
// Cell Information
case EMobilePhoneGetCellInfo:
return iNetworkStatus->GetCellInfo(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyCellInfoChange:
return iNetworkStatus->NotifyCellInfoChange(aReqHandle,aPckg.Des1n());
// Get Subscriber Info
case EMobilePhoneGetSubscriberId:
return GetSubscriberInfo(aReqHandle,aPckg.Des1n());
// DTMF Tx
case EMobilePhoneGetDTMFCaps:
return iDtmf->GetDtmfCaps(aReqHandle,aPckg.Des1n());
case EMobilePhoneNotifyDTMFCapsChange:
return iDtmf->NotifyDtmfCapsChange(aReqHandle,aPckg.Des1n());
case EMobilePhoneSendDTMFTones:
return iDtmf->SendDTMFTones(aReqHandle,aPckg.Des1u());
case EMobilePhoneStartDTMFTone:
return iDtmf->StartDTMFTone(aReqHandle,aPckg.Des1n());
case EMobilePhoneStopDTMFTone:
return iDtmf->StopDTMFTone(aReqHandle);
case EMobilePhoneNotifyStopInDTMFString:
return iDtmf->NotifyStopInDTMFString(aReqHandle);
case EMobilePhoneContinueDTMFStringSending:
return iDtmf->ContinueDtmfStringSending(aReqHandle,aPckg.Des1n());
// Phone ID
case EMobilePhoneGetIdentityCaps:
return GetIdentityCaps(aReqHandle,*REINTERPRET_CAST(TUint32*, dataPtr));
case EMobilePhoneGetPhoneId:
return GetPhoneId(aReqHandle,REINTERPRET_CAST(RMobilePhone::TMobilePhoneIdentityV1*, dataPtr));
// Security (ICC)
case EMobilePhoneGetSecurityCaps:
case EMobilePhoneNotifySecurityCapsChange:
case EMobilePhoneGetLockInfo:
case EMobilePhoneNotifyLockInfoChange:
case EMobilePhoneSetLockSetting:
case EMobilePhoneChangeSecurityCode:
case EMobilePhoneNotifySecurityEvent:
case EMobilePhoneVerifySecurityCode:
case EMobilePhoneAbortSecurityCode:
case EMobilePhoneGetSecurityCodeInfo:
case EMobilePhoneNotifySecurityCodeInfoChange:
return iPhoneSecurity->ExtFunc(aReqHandle, aIpc, aPckg);
//USim Application Support
case EMobilePhoneEnumerateUSimApplications:
case EMobilePhoneSetUSimApplicationStatus:
case EMobilePhoneGetUSimApplicationsInfo:
case EMobilePhoneNotifyUSimApplicationsInfoChange:
if(iPhoneUSimApp->FoundUSimAppTags())
{
return iPhoneUSimApp->ExtFunc(aReqHandle, aIpc, aPckg);
}
else
{
return iPhoneSmartCardApp->ExtFunc(aReqHandle, aIpc, aPckg);
}
//SmartCard Application Support
case EMobilePhoneEnumerateSmartCardApplications:
case EMobilePhoneGetSmartCardApplicationInfo:
case EMobilePhoneSetSmartCardApplicationStatus:
case EMobilePhoneNotifySmartCardApplicationInfoChange:
case EMobilePhoneGetScFileInfo:
case EMobilePhoneReadScFile:
case EMobilePhoneUpdateScFile:
if(iPhoneSmartCardApp->FoundScAppTags())
{
return iPhoneSmartCardApp->ExtFunc(aReqHandle, aIpc, aPckg);
}
else
{
ReqCompleted(aReqHandle, KErrNotSupported);
return KErrNone;
}
//USim/SmartCard Application Supoprt
case EMobilePhoneGetCurrentActiveUSimApplication:
case EMobilePhoneGetUSimAppsSelectionMode:
case EMobilePhoneSetUSimAppsSelectionMode:
case EMobilePhoneNotifyUSimAppsSelectionModeChange:
if(iPhoneUSimApp->FoundUSimAppTags())
{
return iPhoneUSimApp->ExtFunc(aReqHandle, aIpc, aPckg);
}
else
{
return iPhoneSmartCardApp->ExtFunc(aReqHandle, aIpc, aPckg);
}
// CallBarring
case EMobilePhoneSetCallBarringStatus:
case EMobilePhoneSetCallBarringPassword:
case EMobilePhoneNotifyCallBarringStatusChange:
case EMobilePhoneGetBarringStatusPhase1:
case EMobilePhoneGetBarringStatusPhase2:
return iCallBarring->ExtFunc(aReqHandle, aIpc, aPckg);
// CallForwarding
case EMobilePhoneSetCallForwardingStatus:
case EMobilePhoneNotifyCallForwardingStatusChange:
case EMobilePhoneGetIdentityServiceStatus:
case EMobilePhoneGetCallForwardingStatusPhase1:
case EMobilePhoneGetCallForwardingStatusPhase2:
return iCallForwarding->ExtFunc(aReqHandle, aIpc, aPckg);
// CallWaiting
case EMobilePhoneSetCallWaitingStatus:
case EMobilePhoneNotifyCallWaitingStatusChange:
case EMobilePhoneGetWaitingStatusPhase1:
case EMobilePhoneGetWaitingStatusPhase2:
{
functionValue = 0;
TRAPD(leaveValue, functionValue = iCallWaiting->ExtFuncL(aReqHandle, aIpc, aPckg));
if (leaveValue != KErrNone)
{
return leaveValue;
}
else
{
return functionValue;
}
}
// IMS Auth
case EMobilePhoneAuthorizationInfoPhase1:
return iPhoneIMSAuth->GetAuthorizationInfoPhase1(aReqHandle,
reinterpret_cast<RMobilePhone::TClientId*>(dataPtr),
reinterpret_cast<TInt*>(dataPtr2));
case EMobilePhoneAuthorizationInfoPhase2:
return iPhoneIMSAuth->GetAuthorizationInfoPhase2(aReqHandle,
reinterpret_cast<RMobilePhone::TClientId*>(dataPtr), aPckg.Des2n());
case EMobilePhoneIMSAuthenticate:
return iPhoneIMSAuth->GetAuthenticationData(aReqHandle, aPckg.Des1n());
case EMobilePhoneNotifyImsAuthorizationInfoChanged:
return iPhoneIMSAuth->NotifyImsAuthorizationInfoChanged(aReqHandle);
// Generic Smart Card Authentication
case EMobilePhoneSmartCardAuthenticate:
return iPhoneScAuth->GetScAuthenticationData(aReqHandle, aPckg.Des1n(),
reinterpret_cast<RMobilePhone::TAID*>(dataPtr2));
// Access Point Name (APN)
case EMobilePhoneEnumerateAPNEntries:
{
TUint32* count = static_cast<TUint32*>(dataPtr);
return EnumerateAPNEntries(aReqHandle,count);
}
case EMobilePhoneGetAPNname:
{
TUint32 index = *static_cast<TUint32*>(dataPtr);
RMobilePhone::TAPNEntryV3Pckg* entryToReturnPckg =
static_cast<RMobilePhone::TAPNEntryV3Pckg*> (aPckg.Des2n());
return GetAPNname(aReqHandle, index, *entryToReturnPckg);
}
case EMobilePhoneAppendAPNName:
{
RMobilePhone::TAPNEntryV3 entryToAppend =
*static_cast<RMobilePhone::TAPNEntryV3*>(dataPtr);
RMobilePhone::TAPNEntryV3Pckg entryToAppendPckg(entryToAppend);
return AppendAPNName(aReqHandle,entryToAppendPckg);
}
case EMobilePhoneDeleteAPNName:
{
TUint32 tmp = *static_cast<TUint32*>(dataPtr);
return DeleteAPNName(aReqHandle,tmp);
}
case EMobilePhoneNotifyAPNListChanged:
return NotifyAPNListChanged(aReqHandle);
case EMobilePhoneSetAPNControlListServiceStatus:
return SetAPNControlListServiceStatus(aReqHandle,
*static_cast<RMobilePhone::TAPNControlListServiceStatus*>(dataPtr));
case EMobilePhoneGetAPNControlListServiceStatus:
return GetAPNControlListServiceStatus(aReqHandle,
*static_cast<RMobilePhone::TAPNControlListServiceStatus*>(dataPtr));
case EMobilePhoneNotifyAPNControlListServiceStatusChange:
return NotifyAPNControlListServiceStatusChange(aReqHandle,
*static_cast<RMobilePhone::TAPNControlListServiceStatus*>(dataPtr));
case EMobilePhoneGetServiceTable:
return GetServiceTable(aReqHandle,
*static_cast<RMobilePhone::TMobilePhoneServiceTable*>(dataPtr),
(aPckg.Des2n()));
default:
ReqCompleted(aReqHandle, KErrNotSupported);
return KErrNone; // Real error value returned in completion of clients request
}
}
TInt CSimPhone::CancelService(const TInt aIpc,const TTsyReqHandle aTsyReqHandle)
/**
* Cancel an outstanding request.
* @param aIpc The IPC number of the request that must be cancelled. Note: this is not the
* IPC number of the cancel request itself.
* @param aTsyReqHandle The TSY Request Handle of the request to be cancelled.
*/
{
switch(aIpc)
{
case EMobilePhoneNotifyIndicatorChange:
iIndicator->NotifyIndicatorChangeCancel();
break;
case EMobilePhoneNotifyBatteryInfoChange:
iBatteryCharger->NotifyBatteryInfoCancel();
break;
case EMobilePhoneNotifySignalStrengthChange:
iSignalStrength->NotifySignalStrengthChangeCancel();
break;
case EMobilePhoneNotifyNetworkRegistrationStatusChange:
iNetworkStatus->NotifyNetworkRegistrationStatusChangeCancel();
break;
case EMobilePhoneNotifyCurrentNetworkChange:
iNetworkStatus->NotifyCurrentNetworkChangeCancel(aTsyReqHandle);
break;
case EMobilePhoneNotifyCurrentNetworkNoLocationChange:
iNetworkStatus->NotifyCurrentNetworkNoLocationChangeCancel(aTsyReqHandle);
break;
case EMobilePhoneNotifyNITZInfoChange:
iNetworkStatus->NotifyNITZInfoChangeCancel();
break;
case EMobilePhoneNotifyCellInfoChange:
iNetworkStatus->NotifyCellInfoChangeCancel(aTsyReqHandle);
break;
case EMobilePhoneNotifyModeChange:
NotifyModeChangeCancel(aTsyReqHandle);
break;
// Get Subscriber Info
case EMobilePhoneSendDTMFTones:
iDtmf->SendDTMFTonesCancel();
break;
case EMobilePhoneNotifyStopInDTMFString:
iDtmf->NotifyStopInDTMFStringCancel();
break;
case EMobilePhoneNotifyDTMFCapsChange:
iDtmf->NotifyDtmfCapsChangeCancel(aTsyReqHandle);
break;
case EMobilePhoneNotifySecurityCapsChange:
case EMobilePhoneGetLockInfo:
case EMobilePhoneNotifyLockInfoChange:
case EMobilePhoneSetLockSetting:
case EMobilePhoneChangeSecurityCode:
case EMobilePhoneNotifySecurityEvent:
case EMobilePhoneVerifySecurityCode:
case EMobilePhoneAbortSecurityCode:
case EMobilePhoneGetSecurityCodeInfo:
case EMobilePhoneNotifySecurityCodeInfoChange:
return iPhoneSecurity->CancelService(aIpc,aTsyReqHandle);
//USim Application Support
case EMobilePhoneEnumerateUSimApplications:
case EMobilePhoneSetUSimApplicationStatus:
case EMobilePhoneGetUSimApplicationsInfo:
case EMobilePhoneNotifyUSimApplicationsInfoChange:
if(iPhoneUSimApp->FoundUSimAppTags())
{
return iPhoneUSimApp->CancelService(aIpc,aTsyReqHandle);
}
else
{
return iPhoneSmartCardApp->CancelService(aIpc,aTsyReqHandle);
}
//SmartCard Application Support
case EMobilePhoneEnumerateSmartCardApplications:
case EMobilePhoneGetSmartCardApplicationInfo:
case EMobilePhoneSetSmartCardApplicationStatus:
case EMobilePhoneNotifySmartCardApplicationInfoChange:
case EMobilePhoneGetScFileInfo:
case EMobilePhoneReadScFile:
case EMobilePhoneUpdateScFile:
if(iPhoneSmartCardApp->FoundScAppTags())
{
return iPhoneSmartCardApp->CancelService(aIpc,aTsyReqHandle);
}
else
{
return CPhoneBase::CancelService(aIpc,aTsyReqHandle);;
}
//USim/SmartCard Application Supoprt
case EMobilePhoneGetCurrentActiveUSimApplication:
case EMobilePhoneGetUSimAppsSelectionMode:
case EMobilePhoneSetUSimAppsSelectionMode:
case EMobilePhoneNotifyUSimAppsSelectionModeChange:
if(iPhoneUSimApp->FoundUSimAppTags())
{
return iPhoneUSimApp->CancelService(aIpc,aTsyReqHandle);
}
else
{
return iPhoneSmartCardApp->CancelService(aIpc,aTsyReqHandle);
}
// CallBarring
case EMobilePhoneSetCallBarringStatus:
case EMobilePhoneSetCallBarringPassword:
case EMobilePhoneNotifyCallBarringStatusChange:
case EMobilePhoneGetBarringStatusPhase1:
case EMobilePhoneGetBarringStatusPhase2:
return iCallBarring->CancelService(aIpc, aTsyReqHandle);
// CallForwarding
case EMobilePhoneSetCallForwardingStatus:
case EMobilePhoneNotifyCallForwardingStatusChange:
case EMobilePhoneGetIdentityServiceStatus:
case EMobilePhoneGetCallForwardingStatusPhase1:
case EMobilePhoneGetCallForwardingStatusPhase2:
return iCallForwarding->CancelService(aIpc, aTsyReqHandle);
// CallWaiting
case EMobilePhoneSetCallWaitingStatus:
case EMobilePhoneNotifyCallWaitingStatusChange:
case EMobilePhoneGetWaitingStatusPhase1:
case EMobilePhoneGetWaitingStatusPhase2:
return iCallWaiting->CancelService(aIpc, aTsyReqHandle);
//IMS Auth
case EMobilePhoneNotifyImsAuthorizationInfoChanged:
return iPhoneIMSAuth->NotifyImsAuthorizationInfoChangedCancel(aTsyReqHandle);
case EMobilePhoneAuthorizationInfoPhase1:
case EMobilePhoneAuthorizationInfoPhase2:
return iPhoneIMSAuth->GetAuthorizationInfoCancel(aTsyReqHandle);
case EMobilePhoneIMSAuthenticate:
return iPhoneIMSAuth->GetAuthenticationDataCancel(aTsyReqHandle);
// Generic Smart Card Authenticate cancel
case EMobilePhoneSmartCardAuthenticate:
return iPhoneScAuth->GetScAuthenticationDataCancel(aTsyReqHandle);
// Access Point Name (APN)
case EMobilePhoneEnumerateAPNEntries:
case EMobilePhoneGetAPNname:
case EMobilePhoneAppendAPNName:
case EMobilePhoneDeleteAPNName:
ReqCompleted(aTsyReqHandle, KErrNone);
return KErrNone;
case EMobilePhoneNotifyAPNListChanged:
if (iAPNListNotify.iNotifyPending == TRUE)
{
iAPNListNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNListNotify.iNotifyHandle, KErrCancel);
}
return KErrNone;
case EMobilePhoneSetAPNControlListServiceStatus:
case EMobilePhoneGetAPNControlListServiceStatus:
ReqCompleted(aTsyReqHandle, KErrNone);
return KErrNone;
case EMobilePhoneNotifyAPNControlListServiceStatusChange:
if (iAPNStatusNotify.iNotifyPending == TRUE)
{
iAPNStatusNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNStatusNotify.iNotifyHandle, KErrCancel);
}
return KErrNone;
case EMobilePhoneGetServiceTable:
ReqCompleted(aTsyReqHandle, KErrNone);
return KErrNone;
case EMobilePhoneNotifyMessageWaiting:
return iUsimRelease6->NotifyMessageWaitingCancel(aTsyReqHandle);
case EMobilePhoneNotifyIccMessageWaitingIndicatorsChange:
return iUsimRelease6->NotifyIccMessageWaitingIndicatorsChangeCancel(aTsyReqHandle);
case EMobilePhoneNotifyMailboxNumbersChange:
return iUsimRelease6->NotifyMailboxNumbersChangeCancel(aTsyReqHandle);
case EMobilePhoneNotifyWlanDataChange:
return iUsimRelease6->NotifyWlanDataChangeCancel(aTsyReqHandle);
case EMobilePhoneNotifyPreferredWlanSIDListChange:
return iUsimRelease6->NotifyPreferredWlanSIDListChangeCancel(aTsyReqHandle);
case EMobilePhoneNotifyStorePreferredNetworksListChange:
return iUsimRelease6->NotifyStorePreferredNetworksListChangeCancel(aTsyReqHandle);
case EMobilePhoneGetPreferredNetworksPhase1:
case EMobilePhoneGetPreferredNetworksPhase2:
return iUsimRelease6->GetPreferredNetworksCancel(aTsyReqHandle);
case EMobilePhoneGetPreferredWlanSIDsPhase1:
case EMobilePhoneGetPreferredWlanSIDsPhase2:
return iUsimRelease6->GetPreferredWlanSIDsCancel(aTsyReqHandle);
case EMobilePhoneSetGbaBootstrapParams:
return iUsimRelease6->SetGbaBootstrapParamsCancel(aTsyReqHandle);
case EMobilePhoneNotifyAuthenticateDataChange:
return iUsimRelease6->NotifyAuthenticateDataChangeCancel(aTsyReqHandle);
case EMobilePhoneGetAuthenticationParams:
return iUsimRelease6->GetAuthenticationParamsCancel(aTsyReqHandle);
case EMobilePhoneAuthenticationListPhase1:
case EMobilePhoneAuthenticationListPhase2:
return iUsimRelease6->GetAuthenticationListCancel(aTsyReqHandle);
// Default
default:
return CPhoneBase::CancelService(aIpc,aTsyReqHandle);
}
return KErrNone;
}
CTelObject* CSimPhone::OpenNewObjectByNameL(const TDesC& aName)
/**
* This function will open a new LINE by name.
* In reality the lines should be pre-constructed in the phone's two phase constructor,
* so this will just return a pointer to the relevant line.
*
* @param aName the name of the line object to be opened
* @return CTelObject pointer to the phone object created
* @leave Leaves if incorrect phone name
*/
{
LOGPHONE1(">>CSimPhone::OpenNewObjectByNameL");
// Is it a voice line?
if (aName.CompareF(KVoiceLineName) == 0)
{
__ASSERT_ALWAYS(iVoiceLine!=NULL,SimPanic(ELineNotPreInstantiated));
// Base class open.
(void)iVoiceLine->Open();
return iVoiceLine;
}
// Is it a data line?
else if (aName.CompareF(KDataLineName) == 0)
{
__ASSERT_ALWAYS(iDataLine!=NULL,SimPanic(ESubsessionNotPreInstantiated));
// Base class open.
(void)iDataLine->Open();
return iDataLine;
}
// Is it an SMS messaging class?
else if (aName.CompareF(KETelSmsMessaging) == 0)
{
__ASSERT_ALWAYS(iSmsMessaging!=NULL,SimPanic(ESubsessionNotPreInstantiated));
// Base class open.
(void)iSmsMessaging->Open();
return iSmsMessaging;
}
else if (aName.CompareF(KPacketName) == 0)
{
__ASSERT_ALWAYS(iPacketService!=NULL,SimPanic(ESubsessionNotPreInstantiated));
// Base class open.
(void)iPacketService->Open();
return iPacketService;
}
else if (aName.CompareF(KSatName) == 0)
{
__ASSERT_ALWAYS(iSat!=NULL,SimPanic(ESubsessionNotPreInstantiated));
// Base class open.
(void)iSat->Open();
return iSat;
}
else if (aName.Left(SCEAP_SSN_LENGTH).Compare(KETelSmartCardEapSession) == 0)
{
// "num" is used for both lengths and error codes! saves on stack! :)
// Extracting AID
RMobilePhone::TAID tempAID;
// get number of AID bytes (each byte uses two chars)
TInt num = CharToSeptNumL(aName[SCEAP_SSN_LENGTH]) * 2;
// get the segment containing the AID
TPtrC ptrAid = aName.Mid(SCEAP_SSN_LENGTH + 1, num);
// convert AID to its correct binary value
ConvertTextToBinary(ptrAid, tempAID);
// Extracting EapType
RMobileSmartCardEap::TEapType eapType;
// get position of EAP type's length
TInt posTypeLength = SCEAP_SSN_LENGTH + num + 1;
// get the value of the length of EAP type
num = CharToSeptNumL(aName[posTypeLength]);
// get the segment containing the EAP type
TPtrC ptrEapT = aName.Mid(posTypeLength + 1, num);
eapType.Copy(ptrEapT);
CTelObject* phoneScEap = iPhoneScEapMan->CreateScEapSubSessionL(tempAID, eapType);
if (phoneScEap == NULL)
{
LOGPHONE1("ERROR CSimSmartCardEap object not created, returning KErrGeneral");
User::Leave(KErrGeneral);
}
LOGPHONE2("CSimPhone::OpenNewObjectByNameL CSimSmartCardEap object created [0x%08x]", phoneScEap);
return phoneScEap;
} // End of opening Smart Card EAP sub-session
else if (aName.CompareF(KETelOwnNumberStore) == 0)
{
if(iONStore==NULL)
{
LOGPHONE1("ERROR CSimONStore object not found. Please check config file.");
User::Leave(KErrNotFound);
}
else
{
(void)iONStore->Open();
return iONStore;
}
}
// Is it a phonebook store?
else
{
TInt i = 0;
TBuf8<KMaxName> name;
TInt tLength;
TPtrC remain(aName);
name.Copy(aName); // Do simple 16 bit to 8 bit conversion
if ((tLength=remain.Find(PHBOOK_DELIMITER))==KErrNotFound)
{
for(i=0;i<iPhBkStores->Count();i++)
{
if(name.MatchF(iPhBkStores->At(i)->Name())==0)
{
// Base class open.
(void)iPhBkStores->At(i)->Open();
return iPhBkStores->At(i);
}
}
for(i=0;i<iPhBkUSimStores->Count();i++)
{
if((name.MatchF(iPhBkUSimStores->At(i)->Name())==0) &&
(iPhBkUSimStores->At(i)->PhBkStore().Compare(KGsmPhoneBook)==0))
{
(void)iPhBkUSimStores->At(i)->Open();
return iPhBkUSimStores->At(i);
}
}
}
else
{
TBuf8<KMaxName> PhBkName;
TBuf8<KMaxName> PhBkStore;
PhBkName.Copy(aName.Left(tLength));
PhBkStore.Copy(aName.Right(aName.Length()-tLength-2));
for(TInt i=0;i<iPhBkUSimStores->Count();i++)
{
if((PhBkName.MatchF(iPhBkUSimStores->At(i)->Name())==0) &&
(PhBkStore.MatchF(iPhBkUSimStores->At(i)->PhBkStore())==0))
{
(void)iPhBkUSimStores->At(i)->Open();
return iPhBkUSimStores->At(i);
}
}
}
}
// Not matched...
User::Leave(KErrNotFound);
return NULL;
}
CTelObject* CSimPhone::OpenNewObjectL(TDes& /*aNewName*/)
/**
* This function would open a new unnamed object,
* but this functionality is not supported at the phone level.
* All lines must be opened by name.
*
* @param aNewName a reference to the name of the phone object created
* @return CTelObject a pointer to the phone object created
* @leave Leaves if no memory is available
*/
{
User::Leave(KErrNotSupported);
return NULL;
}
CTelObject::TReqMode CSimPhone::ReqModeL(const TInt aIpc)
/**
* This function returns the Request Mode for the request with the passed IPC value.
* The ETel Server provides a function for returning the standard request modes for
* the Core API requests.
*/
{
TReqMode reqMode=0;
switch(aIpc)
{
case EMobilePhoneGetPhoneStoreInfo:
case EMobilePhoneGetSignalCaps:
case EMobilePhoneGetSignalStrength:
case EMobilePhoneGetNetworkCaps:
case EMobilePhoneGetCurrentMode:
case EMobilePhoneNotifyModeChange:
case EMobilePhoneGetHomeNetwork:
case EMobilePhoneGetCurrentNetwork:
case EMobilePhoneGetCurrentNetworkNoLocation:
case EMobilePhoneGetNetworkRegistrationStatus:
case EMobilePhoneGetNITZInfo:
case EMobilePhoneGetCellInfo:
case EMobilePhoneGetSubscriberId:
case EMobilePhoneGetDTMFCaps:
case EMobilePhoneSendDTMFTones:
case EMobilePhoneStartDTMFTone:
case EMobilePhoneStopDTMFTone:
case EMobilePhoneContinueDTMFStringSending:
case EMobilePhoneGetMultimodeCaps:
case EMobilePhoneGetIndicator:
case EMobilePhoneGetIndicatorCaps:
case EMobilePhoneGetBatteryInfo:
case EMobilePhoneGetBatteryCaps:
case EMobilePhoneGetIccAccessCaps:
case EMobilePhoneGetSecurityCaps:
case EMobilePhoneGetLockInfo:
case EMobilePhoneSetLockSetting:
case EMobilePhoneGetSecurityCodeInfo:
case EMobilePhoneChangeSecurityCode:
case EMobilePhoneVerifySecurityCode:
case EMobilePhoneAbortSecurityCode:
case EMobilePhoneEnumerateUSimApplications:
case EMobilePhoneGetCurrentActiveUSimApplication:
case EMobilePhoneSetUSimApplicationStatus:
case EMobilePhoneGetUSimApplicationsInfo:
case EMobilePhoneGetUSimAppsSelectionMode:
case EMobilePhoneSetUSimAppsSelectionMode:
case EMobilePhoneEnumerateSmartCardApplications:
case EMobilePhoneGetSmartCardApplicationInfo:
case EMobilePhoneSetSmartCardApplicationStatus:
case EMobilePhoneGetScFileInfo:
case EMobilePhoneReadScFile:
case EMobilePhoneUpdateScFile:
case EMobilePhoneSetCallBarringStatus:
case EMobilePhoneSetCallBarringPassword:
case EMobilePhoneGetBarringStatusPhase1:
case EMobilePhoneGetBarringStatusPhase2:
case EMobilePhoneSetCallForwardingStatus:
case EMobilePhoneGetIdentityServiceStatus:
case EMobilePhoneGetCallForwardingStatusPhase1:
case EMobilePhoneGetCallForwardingStatusPhase2:
case EMobilePhoneGetIdentityCaps:
case EMobilePhoneGetPhoneId:
case EMobilePhoneGetServiceProviderName:
case EMobilePhoneGetNetworkName:
case EMobilePhoneSetCallWaitingStatus:
case EMobilePhoneGetWaitingStatusPhase1:
case EMobilePhoneGetWaitingStatusPhase2:
case EMobilePhoneAuthorizationInfoPhase1:
case EMobilePhoneAuthorizationInfoPhase2:
case EMobilePhoneIMSAuthenticate:
case EMobilePhoneSmartCardAuthenticate:
case EMobilePhoneGetMailboxNumbers:
case EMobilePhoneGetIccMessageWaitingIndicators:
case EMobilePhoneSetIccMessageWaitingIndicators:
case EMobilePhoneGetWlanData:
case EMobilePhoneSetWlanData:
case EMobilePhoneGetPreferredWlanSIDsPhase1:
case EMobilePhoneGetPreferredWlanSIDsPhase2:
case EMobilePhoneStorePreferredWlanSIDList:
case EMobilePhoneGetPreferredNetworksPhase1:
case EMobilePhoneGetPreferredNetworksPhase2:
case EMobilePhoneStorePreferredNetworksList:
case EMobilePhoneSetGbaBootstrapParams:
case EMobilePhoneGetAuthenticationParams:
case EMobilePhoneNotifyAuthenticateDataChange:
case EMobilePhoneAuthenticationListPhase1:
case EMobilePhoneAuthenticationListPhase2:
break;
// Service Tables
case EMobilePhoneEnumerateAPNEntries:
case EMobilePhoneGetAPNname:
case EMobilePhoneAppendAPNName:
case EMobilePhoneDeleteAPNName:
case EMobilePhoneNotifyAPNListChanged:
case EMobilePhoneSetAPNControlListServiceStatus:
case EMobilePhoneGetAPNControlListServiceStatus:
case EMobilePhoneNotifyAPNControlListServiceStatusChange:
case EMobilePhoneGetServiceTable:
break;
case EMobilePhoneNotifyIndicatorChange:
case EMobilePhoneNotifyBatteryInfoChange:
case EMobilePhoneNotifySignalStrengthChange:
case EMobilePhoneNotifyNetworkRegistrationStatusChange:
case EMobilePhoneNotifyCurrentNetworkChange:
case EMobilePhoneNotifyCurrentNetworkNoLocationChange:
case EMobilePhoneNotifyNITZInfoChange:
case EMobilePhoneNotifyCellInfoChange:
case EMobilePhoneNotifyDTMFCapsChange:
case EMobilePhoneNotifyStopInDTMFString:
case EMobilePhoneNotifySecurityEvent:
case EMobilePhoneNotifySecurityCapsChange:
case EMobilePhoneNotifyUSimApplicationsInfoChange:
case EMobilePhoneNotifySmartCardApplicationInfoChange:
case EMobilePhoneNotifyUSimAppsSelectionModeChange:
case EMobilePhoneNotifyCallBarringStatusChange:
case EMobilePhoneNotifyCallWaitingStatusChange:
case EMobilePhoneNotifyCallForwardingStatusChange:
case EMobilePhoneNotifyImsAuthorizationInfoChanged:
case EMobilePhoneNotifyMailboxNumbersChange:
case EMobilePhoneNotifyIccMessageWaitingIndicatorsChange:
case EMobilePhoneNotifyMessageWaiting:
case EMobilePhoneNotifyWlanDataChange:
case EMobilePhoneNotifyPreferredWlanSIDListChange:
case EMobilePhoneNotifyStorePreferredNetworksListChange:
reqMode=KReqModeMultipleCompletionEnabled | KReqModeRePostImmediately;
break;
case EMobilePhoneNotifyLockInfoChange:
case EMobilePhoneNotifySecurityCodeInfoChange:
reqMode=KReqModeMultipleCompletionEnabled;
break;
default:
reqMode=CPhoneBase::ReqModeL(aIpc);
break;
}
return reqMode;
}
TInt CSimPhone::RegisterNotification(const TInt /*aIpc*/)
/**
* The ETel Server calls this function when the first client makes a notification request.
* If supported by the underlying protocol controlling the signalling stack,
* this can be used to start requesting updates for the relevant service.
* This function does nothing in this TSY.
*
* @param aIpc The Ipc representing the client notification request
* @return KErrNone
*/
{
return KErrNone;
}
TInt CSimPhone::DeregisterNotification(const TInt /*aIpc*/)
/**
* The ETel Server calls this function when the last client that had previously
* made a notification request closes its ETel Server handle. If supported by
* the underlying protocol controlling the signalling stack, this can be used
* to stop requesting updates for the relevant service.
*
* @param aIpc The Ipc representing the client notification request
* @return KErrNone
*/
{
return KErrNone;
}
TInt CSimPhone::NumberOfSlotsL(const TInt aIpc)
{
switch(aIpc)
{
case EMobilePhoneNotifyIndicatorChange:
case EMobilePhoneNotifyBatteryInfoChange:
case EMobilePhoneNotifySignalStrengthChange:
case EMobilePhoneNotifyCurrentNetworkChange:
case EMobilePhoneNotifyCurrentNetworkNoLocationChange:
case EMobilePhoneNotifyNetworkRegistrationStatusChange:
case EMobilePhoneNotifyNITZInfoChange:
case EMobilePhoneNotifyCellInfoChange:
case EMobilePhoneNotifyStopInDTMFString:
case EMobilePhoneNotifySecurityEvent:
case EMobilePhoneNotifyUSimApplicationsInfoChange:
case EMobilePhoneNotifySmartCardApplicationInfoChange:
case EMobilePhoneNotifyUSimAppsSelectionModeChange:
case EMobilePhoneNotifySecurityCapsChange:
case EMobilePhoneNotifyCallBarringStatusChange:
case EMobilePhoneNotifyCallForwardingStatusChange:
case EMobilePhoneNotifyCallWaitingStatusChange:
case EMobilePhoneNotifyImsAuthorizationInfoChanged:
case EMobilePhoneNotifyMailboxNumbersChange:
case EMobilePhoneNotifyIccMessageWaitingIndicatorsChange:
case EMobilePhoneNotifyMessageWaiting:
case EMobilePhoneNotifyWlanDataChange:
case EMobilePhoneNotifyPreferredWlanSIDListChange:
case EMobilePhoneNotifyStorePreferredNetworksListChange:
return KDefaultNumberOfSlots;
default:
break;
}
return CPhoneBase::NumberOfSlotsL(aIpc);
}
void CSimPhone::Init()
/**
* This function can be used to perform any necessary synchronous initialisation.
*/
{
}
TInt CSimPhone::ControlledInitialisation(const TTsyReqHandle aTsyReqHandle)
/**
* This function can be used to start any necessary asynchronous initialisation.
* In this TSY, there are no asynchronous initialisation procedures, so its empty.
*/
{
iSimPhoneInitialise->Start(aTsyReqHandle);
return KErrNone;
}
TInt CSimPhone::ControlledInitialisationCancel(const TTsyReqHandle /*aTsyReqHandle*/)
/**
* Request to cancel the ::ControlledInitialisation function.
* Since this TSY has no asynchronous initialisation procedures,
* this function should never be called.
*/
{
iSimPhoneInitialise->Cancel();
return KErrNone;
}
TInt CSimPhone::NotifyCapsChange(const TTsyReqHandle aTsyReqHandle, RPhone::TCaps* /*aCaps*/)
/**
* The phone caps will not change dynamically in this TSY as it is hardcoded,
* so there is no chance of completing this request.
*
* @param aTsyReqHandle
* @param aCaps a pointer to the phone capability
* @return KErrNone
*/
{
ReqCompleted(aTsyReqHandle, KErrNotSupported);
return KErrNone;
}
TInt CSimPhone::NotifyCapsChangeCancel(const TTsyReqHandle /*aTsyReqHandle*/)
/**
* Cancel the NotifyCapsChange request.
*
* @param aTsyReqHandle
* @return KErrNone
*/
{
return KErrNone;
}
TInt CSimPhone::NotifyModemDetected(const TTsyReqHandle aTsyReqHandle, RPhone::TModemDetection* /*aDetection*/)
/**
* This request will be completed when the phone's connection status changes.
* This function is not supported in this version of the TSY
*/
{
ReqCompleted(aTsyReqHandle,KErrNotSupported);
return KErrNone;
}
TInt CSimPhone::NotifyModemDetectedCancel(const TTsyReqHandle /*aTsyReqHandle*/)
/**
* Cancel outstanding modem detection notification, by TSY handle
* Returns KErrNone
*/
{
return KErrNone;
}
TInt CSimPhone::GetInfo(const TTsyReqHandle aTsyReqHandle, RPhone::TPhoneInfo* aPhoneInfo)
/**
* Retrieve the Phone Information
* It should always return TModemDetection::EDetectedPresent
*
* @param aTsyReqHandle
* @param aPhoneInfo pointer to the phone information to be returned to client
* @return KErrNone
*/
{
aPhoneInfo->iDetection=iModemDetection;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
void CSimPhone::UpdateNetworkMode(RMobilePhone::TMobilePhoneNetworkMode aNetworkMode)
{
iNtwkMode = aNetworkMode;
}
RMobilePhone::TMobilePhoneNetworkMode CSimPhone::NetworkMode()
{
return iNtwkMode;
}
TInt CSimPhone::GetCurrentMode(TTsyReqHandle aReqHandle,TDes8* aPckg1)
/**
* Retrieve the Current Mode.
* @param aReqHandle The request handle associated with this request.
* @param aPckg1 The first parameter package. This will be populated with the
* mode setting to be returned.
* @return TInt Standard error value.
*/
{
TPckg<RMobilePhone::TMobilePhoneNetworkMode>* modePckg=(TPckg<RMobilePhone::TMobilePhoneNetworkMode>*)aPckg1;
RMobilePhone::TMobilePhoneNetworkMode& mode=(*modePckg)();
mode=iNtwkMode;
ReqCompleted(aReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetCaps(const TTsyReqHandle aTsyReqHandle, RPhone::TCaps* aCaps)
/**
* Retrieve the phone capabilities
*
* @param aTsyReqHandle
* @param aCaps a pointer to the Phone capability
* @return KErrNone
*/
{
aCaps->iFlags= RPhone::KCapsVoice | RPhone::KCapsData;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetStatus(const TTsyReqHandle aTsyReqHandle, RPhone::TStatus* aStatus)
/**
* Retrieve the phone status.
*
* @param aTsyReqHandle
* @param aStatus pointer to the phone status info.
* @return KErrNone
*/
{
aStatus->iModemDetected=iModemDetection;
aStatus->iMode=iMode;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::EnumerateLines(const TTsyReqHandle aTsyReqHandle, TInt* aParams)
/**
* Enumerate the lines
* Returns 2 (for the voice and data lines) in the integer reference passed in
* through its function argument.
*
* @param aTsyReqHandle
* @param aParams pointer to the number of lines supported
* @return KErrNone
*/
{
*aParams = KNumberOfLines;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetLineInfo(const TTsyReqHandle aTsyReqHandle, TLineInfoIndex* aParams)
/**
* Gets the line info on the particular CSimLine object required.
* Returns the current hook status, the current line status, name of last call created on
* that line and the name of the call to which a new incoming call will be directed.
* TLineInfoIndex specifies which lines' info is requested.
*
* @param aTsyReqHandle
* @param aParam pointer to the line info
* @return KErrNone
*/
{
if (aParams->iIndex==KVoiceLineIndex)
{
aParams->iInfo.iStatus = (RCall::TStatus)iVoiceLine->iState;
aParams->iInfo.iName = iVoiceLine->iLineName;
aParams->iInfo.iLineCapsFlags = (RLine::KCapsVoice|RLine::KCapsEventIncomingCall);
ReqCompleted(aTsyReqHandle,KErrNone);
}
else if (aParams->iIndex==KDataLineIndex)
{
aParams->iInfo.iStatus = (RCall::TStatus)iDataLine->iState;
aParams->iInfo.iName = iDataLine->iLineName;
aParams->iInfo.iLineCapsFlags = (RLine::KCapsData|RLine::KCapsEventIncomingCall);
ReqCompleted(aTsyReqHandle,KErrNone);
}
else
{
ReqCompleted(aTsyReqHandle,KErrNotFound);
}
return KErrNone;
}
TInt CSimPhone::GetPhoneStoreInfo(TTsyReqHandle aReqHandle,TDes8* aPckg1,TDes16* aPckg2)
/**
* Retrieve information about a named Phonebook Store.
* @param aReqHandle The TSY request handle associated with this request.
* @param aPckg1 The parameter package containing the index of the SMS Store for which
* information is going to be retrieved.
* @param aPckg2 The parameter package in which the retrieved SMS Store information will
* be passed back to the client.
* @return TInt Standard error value.
*/
{
TPckg<RMobilePhoneStore::TMobilePhoneStoreInfoV1>* infoPckg=(TPckg<RMobilePhoneStore::TMobilePhoneStoreInfoV1>*)aPckg1;
RMobilePhoneStore::TMobilePhoneStoreInfoV1& info=(*infoPckg)();
// Check that the data structure is supported by the simulated TSY version
TInt err = CheckSimTsyVersion(info);
if(err != KErrNone)
{
ReqCompleted(aReqHandle, err);
return KErrNone;
}
TInt i;
for(i=0;i<iPhBkStores->Count();i++)
{
TBuf8<KMaxName> nBuf;
nBuf.Copy(*aPckg2);
if(iPhBkStores->At(i)->Name().MatchF(nBuf)==0)
break;
}
if(i==iPhBkStores->Count())
{
ReqCompleted(aReqHandle,KErrNotFound);
return KErrNone;
}
iPhBkStores->At(i)->PopulatePhBkStoreInfo(&info);
ReqCompleted(aReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetPhoneStoreInfo(TTsyReqHandle aReqHandle,TDes8* aPckg1,
RMobilePhone::TPhoneStoreNameAndIccType* aTable)
/**
* Retrieve information about a named Phonebook Store.
* @param aReqHandle The TSY request handle associated with this request.
* @param aPckg1 The parameter package containing the index of the PhoneBook Store for which
* information is going to be retrieved.
* @param aTable The parameter package in which the retrieved PhoneBook Store name and type information will
* be passed from the client.
* @return TInt Standard error value.
*/
{
TBool found = EFalse;
TPckg<RMobilePhoneStore::TMobilePhoneStoreInfoV1>* infoPckg=(TPckg<RMobilePhoneStore::TMobilePhoneStoreInfoV1>*)aPckg1;
RMobilePhoneStore::TMobilePhoneStoreInfoV1& info=(*infoPckg)();
// Check that the data structure is supported by the simulated TSY version
TInt err = CheckSimTsyVersion(info);
if(err != KErrNone)
{
ReqCompleted(aReqHandle, err);
return KErrNone;
}
TBuf8<KMaxName> n1Buf,n2Buf;
n1Buf.Copy(aTable->iStoreName);
n2Buf.Copy(aTable->iMode);
TInt i;
for(i=0;i<iPhBkUSimStores->Count();i++)
{
if((iPhBkUSimStores->At(i)->Name().MatchF(n1Buf)==0) &&
(iPhBkUSimStores->At(i)->PhBkStore().MatchF(n2Buf)==0))
{
found = ETrue;
break;
}
}
if(!found)
{
for(i=0;i<iPhBkStores->Count();i++)
{
if((iPhBkStores->At(i)->Name().MatchF(n1Buf)==0) &&
n2Buf != KUSimPhoneBook)
{
found = ETrue;
break;
}
}
if(!found)
{
ReqCompleted(aReqHandle,KErrNotFound);
return KErrNone;
}
else
{
iPhBkStores->At(i)->PopulatePhBkStoreInfo(&info);
ReqCompleted(aReqHandle,KErrNone);
}
}
else
{
if(iPhBkUSimStores->At(i)->CheckAndSwitchUSimApps()!=KErrNone)
{
ReqCompleted(aReqHandle, KErrNotFound);
return KErrNone;
}
iPhBkUSimStores->At(i)->PopulatePhBkStoreInfo(&info);
ReqCompleted(aReqHandle,KErrNone);
}
return KErrNone;
}
TInt CSimPhone::GetMultimodeCaps(const TTsyReqHandle aTsyReqHandle,TUint32* aCaps)
/**
* Retrieve the multimode capabilities of this TSY. This is hardcoded to support GSM, GPRS and CDMA.
* @param aTsyReqHandle TSY Request Handle associated with this request.
* @param aCaps The multimode capability structure to be populated with the result.
* @return TInt Standard error value.
*/
{
*aCaps = RMobilePhone::KCapsGsmSupported |
RMobilePhone::KCapsGprsSupported |
RMobilePhone::KCapsEapSupported |
RMobilePhone::KCapsWcdmaSupported;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetIccAccessCaps(const TTsyReqHandle aTsyReqHandle,TUint32* aCaps)
/**
* Retrieve the access capabilities of this ICC using SimTSY. This is hardcoded to support SIM, RUIM and USIM.
* @param aTsyReqHandle TSY Request Handle associated with this request.
* @param aCaps The multimode capability structure to be populated with the result.
* @return TInt Standard error value.
*/
{
*aCaps = RMobilePhone::KCapsSimAccessSupported | RMobilePhone::KCapsRUimAccessSupported | RMobilePhone::KCapsUSimAccessSupported;
ReqCompleted(aTsyReqHandle,KErrNone);
return KErrNone;
}
TInt CSimPhone::GetSubscriberInfo(TTsyReqHandle aReqHandle,TDes8* aPckg1)
/**
* Retrieve the Subscriber Identifier.
* @param aReqHandle The TSY request handle associated with this request.
* @param aPckg1 The first parameter package. This will be populated with the
* subscriber information.
* @return TInt Standard error value.
*/
{
TPckg<RMobilePhone::TMobilePhoneSubscriberId>* subscribePckg=(TPckg<RMobilePhone::TMobilePhoneSubscriberId>*)aPckg1;
RMobilePhone::TMobilePhoneSubscriberId& subscribe=(*subscribePckg)();
TInt ret = KErrNone;
if (iSubscriberId.iError == KErrNone)
{
if(iSubscriberId.iIMSI.Length()>RMobilePhone::KIMSISize)
{
subscribe.Copy(iSubscriberId.iIMSI.Left(RMobilePhone::KIMSISize));
}
else
{
subscribe.Copy(iSubscriberId.iIMSI);
}
}
else
{
ret = iSubscriberId.iError;
}
ReqCompleted(aReqHandle,ret);
return KErrNone;
}
const CTestConfigSection* CSimPhone::CfgFile()
/**
* Return a pointer to the Configuration File Section
*
* @return CTestConfigSection pointer to the configuration file section
*/
{
return iConfigSection;
}
const CTestConfigSection* CSimPhone::DefaultCfgFile()
/**
* Return a pointer to the Default Configuration File Section
*
* @return CTestConfigSection pointer to the default configuration file section
*/
{
if( iConfigFile == NULL )
{
return NULL;
}
return iConfigFile->Section(KScriptDefaults);
}
TInt CSimPhone::ValidateChangeState(CSimLine* aOriginatingLine, RMobileCall::TMobileCallStatus aState)
/**
* This function validates the proposed state change by using the iActiveLine
* pointer member variable. If the proposed change of state would clash with
* an existing call, the change is errored.
* The function also updates the iMode state to reflect the new call state.
*
* @param aOriginatingLine pointer to the line requesting for the change of state
* @param aState the state the aOriginatingLine wants to change to
* @return Error indicates whether the change of state is successful or not
*/
{
__ASSERT_ALWAYS(iMode!=RPhone::EModeUnknown,SimPanic(EPhoneModeUnknownIllegal));
__ASSERT_ALWAYS(iNtwkMode!=RMobilePhone::ENetworkModeUnknown,SimPanic(ENetworkModeUnknownIllegal));
// If there is no active line defined, then any state changes are fine. However,
// we need to watch for a shift to an "active" status.
LOGPHONE1(">>CSimPhone::ValidateChangeState");
if(!iActiveLine)
{
iMode=ConvertStateToMode(aState);
if(IsStateActive(aState))
iActiveLine=aOriginatingLine;
// If a call is in progress, we may need to trigger NotifyIndicatorChange
CheckIndicatorNotification();
return KErrNone;
}
// If this state change request is coming from the active line then any state changes
// are ok, but we must watch for a change that would "deactivate" the line.
if(iActiveLine==aOriginatingLine)
{
iMode=ConvertStateToMode(aState);
if(!IsStateActive(aState))
iActiveLine=NULL;
// If a call is in progress, we may need to trigger NotifyIndicatorChange
CheckIndicatorNotification();
return KErrNone;
}
// If we have got this far, then there is an active line, but this state change
// request has not come from it. If this is the case, then a change to ringing
// or Idle are the only valid state changes.
if((aState==RMobileCall::EStatusRinging) ||
(aState==RMobileCall::EStatusIdle))
return KErrNone;
LOGPHONE1("<<CSimPhone::ValidateChangeState");
return KErrGeneral;
}
TInt CSimPhone::FindActiveVoiceCall(CSimVoiceCall*& aCall)
/**
* Find an active voice call. Return KErrNotFound if no voice calls active.
* @param aCall Pointer to active voice call.
* @return TInt Standard return error.
*/
{
return iVoiceLine->FindActiveVoiceCall(aCall);
}
TInt CSimPhone::ValidateChangeState(RPacketService::TStatus aState)
/**
* This function validates the proposed state change by using the iActiveLine
* pointer member variable. If the proposed change of state would clash with
* an existing call, the change is errored.
* The function also updates the iMode state to reflect the new call state.
*
* @param aOriginatingLine pointer to the line requesting for the change of state
* @param aState the state the aOriginatingLine wants to change to
* @return Error indicates whether the change of state is successful or not
*/
{
LOGPHONE1(">>CSimPhone::ValidateChangeState packet");
__ASSERT_ALWAYS(iMode!=RPhone::EModeUnknown,SimPanic(EPhoneModeUnknownIllegal));
__ASSERT_ALWAYS(iNtwkMode!=RMobilePhone::ENetworkModeUnknown,SimPanic(ENetworkModeUnknownIllegal));
__ASSERT_ALWAYS(iPacketService->MSClass()!=RPacketService::EMSClassUnknown,SimPanic(EPacketMSClassUnKnown));
//we must know the type of class the phone supports in order to determine what action to take.
switch(iPacketService->MSClass())
{
case RPacketService::EMSClassDualMode: //< Active Simultaneous PS & CS calls supported (ClassA)
return KErrNone;
case RPacketService::EMSClassSuspensionRequired: //< Active CS & Suspended PS simultaneous calls supported (ClassB)
if(iMode == RPhone::EModeIdle)
return KErrNone;
else if((aState == RPacketService::EStatusUnattached) || (aState == RPacketService::EStatusSuspended))
return KErrNone;
else return KErrNotSupported; //Should actually force a suspend of the packet context and service
case RPacketService::EMSClassAlternateMode: //< Active CS or Active PS only call supported (ClassC)
if(iMode == RPhone::EModeIdle)
return KErrNone;
else if(aState == RPacketService::EStatusUnattached)
return KErrNone;
else return KErrNotSupported;
case RPacketService::EMSClassCircuitSwitchedOnly: //< Active CS only call supported (ClassC)
return KErrNotSupported; //Should actually force a detach from the network if not in unattached state already
case RPacketService::EMSClassPacketSwitchedOnly: //< Active PS only call supported (ClassC)
return KErrNone; //Should disconnect all active calls if mode is not Idle.
default:
return KErrNotSupported;
}
}
RMobilePhone::TMobilePhoneBatteryStatus CSimPhone::BatteryStatus()
{
return iBatteryCharger->Status();
}
RMobilePhone::TMobilePhoneRegistrationStatus CSimPhone::RegistrationStatus()
{
return iNetworkStatus->RegistrationStatus();
}
void CSimPhone::CheckIndicatorNotification()
{
iIndicator->CheckNotification();
}
/**
* A utility function for checking whether the first pin on the phone
* requires authentication
*
* @return TBool true if required and false if not
*/
TBool CSimPhone::IsICCLocked()
{
return iPhoneSecurity->IsICCLocked();
}
/**
* A utility function for checking whether the second pin on the phone
* requires authentication
*
* @return TBool true if required and false if not
*/
TBool CSimPhone::IsPIN2Locked()
{
return iPhoneSecurity->IsPIN2Locked();
}
TBool CSimPhone::IsHiddenEnabled()
{
return iPhoneSecurity->IsHiddenEnabled();
}
void CSimPhone::SecurityEvent(RMobilePhone::TMobilePhoneSecurityEvent aEvent)
{
iPhoneSecurity->SecurityEvent(aEvent);
}
RMobilePhone::TAID CSimPhone::GetActiveUSim()
{
if(iPhoneUSimApp->FoundUSimAppTags())
{
return iPhoneUSimApp->GetActiveUSim();
}
else
{
return iPhoneSmartCardApp->GetActiveUSim();
}
}
RMobilePhone::TMobilePhoneSubscriberId CSimPhone::GetImsi()
{
return iSubscriberId.iIMSI;
}
void CSimPhone::GetPhoneIdAndCaps()
{
TPtrC8 imei, model, manufacturer, revision;
const CTestConfigItem* item=CfgFile()->Item(KPhoneId);
if (item)
{
TInt ret=CTestConfig::GetElement(item->Value(),KStdDelimiter,0,manufacturer);
if(ret!=KErrNone)
LOGPARSERR("manufacturer",ret,0,&KPhoneId);
ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,1,model);
if(ret!=KErrNone)
LOGPARSERR("model",ret,1,&KPhoneId);
ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,2,revision);
if(ret!=KErrNone)
LOGPARSERR("revision",ret,2,&KPhoneId);
ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,3,imei);
if(ret!=KErrNone)
LOGPARSERR("imei",ret,3,&KPhoneId);
ret = CTestConfig::GetElement(item->Value(),KStdDelimiter,4,iPhoneId.iError);
iPhoneId.iManufacturerId.Copy(manufacturer);
iPhoneId.iModelId.Copy(model);
iPhoneId.iRevisionId.Copy(revision);
iPhoneId.iSerialId.Copy(imei);
}
else
{
//set to default
iPhoneId.iManufacturerId.Copy(KPhoneManufacturerDefault);
iPhoneId.iModelId.Copy(KPhoneModelDefault);
iPhoneId.iRevisionId.Copy(KPhoneRevesionDefault);
iPhoneId.iSerialId.Copy(KPhoneSerialNumberDefault);
iPhoneId.iError = KErrNone;
}
//Set Phone Identity Caps
iPhoneIdCaps = 0;
if(iPhoneId.iManufacturerId.Length() > 0)
iPhoneIdCaps |= RMobilePhone::KCapsGetManufacturer;
if(iPhoneId.iModelId.Length() > 0)
iPhoneIdCaps |= RMobilePhone::KCapsGetModel;
if(iPhoneId.iRevisionId.Length() > 0)
iPhoneIdCaps |= RMobilePhone::KCapsGetRevision;
if(iPhoneId.iSerialId.Length() > 0)
iPhoneIdCaps |= RMobilePhone:: KCapsGetSerialNumber;
if(iSubscriberId.iIMSI.Length() > 0)
iPhoneIdCaps |= RMobilePhone::KCapsGetSubscriberId;
}
TInt CSimPhone::GetIdentityCaps(TTsyReqHandle aReqHandle, TUint32& aCaps)
{
aCaps = iPhoneIdCaps;
ReqCompleted(aReqHandle,KErrNone);
return KErrNone;
}
/**
* A utility function for checking whether a service is active in the service table
*
* @param aTable pointer to the table to be tested for active service
* @param aOffset to pointer in the service table
* @param aModifier which service to be tested for in the table
* @return TBool true if active and false if not enabled
*/
TBool CSimPhone::ServiceEnabled(RMobilePhone::TMobilePhoneServiceTableV1* aTable,
TInt aOffset,
TUint8 aModifier)
{
if (aTable)
{
TUint8* pService = &(aTable->iServices1To8);
TUint8 service = *(pService+aOffset);
if (service & aModifier)
{
return true;
}
}
return false;
}
/**
* An IPC support function for counting the number of entries in the Acces Point Name (APN) List
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aIndex a pointer to some memory for storing the number of entries
* @return TInt always returns KErrNone
*/
TInt CSimPhone::EnumerateAPNEntries(TTsyReqHandle aReqHandle, TUint32* aIndex)
{
if (IsICCLocked())
{
SYMBIAN_REQEXTERR(aReqHandle, KErrGsm0707SimPin1Required, KErrAccessDenied);
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
*aIndex = iAPNList.Count();
ReqCompleted(aReqHandle,KErrNone);
}
else
{
SYMBIAN_REQEXTERR(aReqHandle,KErrMMEtelAPNEnabledServicesTableNotFound,KErrNotFound);
}
}
else
{
SYMBIAN_REQEXTERR(aReqHandle,KErrMMEtelAPNNameACLNotFound,KErrNotSupported);
}
return KErrNone;
}
/**
* An IPC support function for retrieving a name in the Acces Point Name (APN) List
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aIndex a index into the APN List for the name to be retrieved
* @param aRetrieved a TAPNEntryV3Pckg to store the name from the APN List
* @return TInt always returns KErrNone
*/
TInt CSimPhone::GetAPNname( TTsyReqHandle aReqHandle,
TUint32& aIndex,
RMobilePhone::TAPNEntryV3Pckg& aRetrieved)
{
if (IsICCLocked())
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrGsm0707SimPin1Required, KErrAccessDenied));
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (aIndex < iAPNList.Count() )
{
RMobilePhone::TAPNEntryV3& tAPNEntryV3 = aRetrieved();
tAPNEntryV3.iApn.Zero();
tAPNEntryV3.iApn.Insert(0,iAPNList[aIndex].iApn);
ReqCompleted(aReqHandle,KErrNone);
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR(KErrMMEtelAPNNameInvalidIndex,KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNNameACLNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for adding a name to the Acces Point Name (APN) List
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aIndex a index into the APN List for the name to be retrieved
* @param aEntry a TAPNEntryV3Pckg to add to the end of the APN List
* @return TInt always returns KErrNone
*/
TInt CSimPhone::AppendAPNName(TTsyReqHandle aReqHandle, RMobilePhone::TAPNEntryV3Pckg& aEntry)
{
if (IsPIN2Locked())
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrGsm0707SimPin2Required, KErrAccessDenied));
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
RMobilePhone::TAPNEntryV3& entry = (aEntry)();
iAPNList.Append(entry);
ReqCompleted(aReqHandle,KErrNone);
if (iAPNListNotify.iNotifyPending == TRUE)
{
iAPNListNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNListNotify.iNotifyHandle,KErrNone);
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNNameACLNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for removing a name from the Acces Point Name (APN) List
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aIndex a index into the APN List for the name to be deleted
* @return TInt always returns KErrNone
*/
TInt CSimPhone::DeleteAPNName(TTsyReqHandle aReqHandle, TUint32& aIndex)
{
if (IsPIN2Locked())
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrGsm0707SimPin2Required, KErrAccessDenied));
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (aIndex < iAPNList.Count())
{
iAPNList.Remove(aIndex);
iAPNList.Compress();
ReqCompleted(aReqHandle,KErrNone);
if (iAPNListNotify.iNotifyPending == TRUE)
{
iAPNListNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNListNotify.iNotifyHandle,KErrNone);
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR(KErrMMEtelAPNNameInvalidIndex,KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNNameACLNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for registering interest in APN List changes
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @return TInt always returns KErrNone
*/
TInt CSimPhone::NotifyAPNListChanged(TTsyReqHandle aReqHandle)
{
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
iAPNListNotify.iNotifyPending = ETrue;
iAPNListNotify.iNotifyHandle = aReqHandle;
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNNameACLNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for switching the Acces Point Name (APN) List to enabled or disabled
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aAPNControlListServiceStatus service status to be set
* @return TInt always returns KErrNone
*/
TInt CSimPhone::SetAPNControlListServiceStatus(TTsyReqHandle aReqHandle,
RMobilePhone::TAPNControlListServiceStatus& aAPNControlListServiceStatus)
{
if (IsPIN2Locked())
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrGsm0707SimPin2Required, KErrAccessDenied));
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
switch (aAPNControlListServiceStatus)
{
case RMobilePhone::EAPNControlListServiceDisabled:
{
if (iUSIMEnabledServiceTable)
{
iUSIMEnabledServiceTable->iServices33To40 =
(iUSIMEnabledServiceTable->iServices33To40 & RMobilePhone::KUstACL)
^ iUSIMEnabledServiceTable->iServices33To40;
ReqCompleted(aReqHandle,KErrNone);
if (iAPNStatusNotify.iNotifyPending == TRUE)
{
*static_cast<RMobilePhone::TAPNControlListServiceStatus*>(iAPNStatusNotify.iNotifyData) =
RMobilePhone::EAPNControlListServiceDisabled;
iAPNStatusNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNStatusNotify.iNotifyHandle,KErrNone);
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotSupported));
}
}
break;
case RMobilePhone::EAPNControlListServiceEnabled:
{
if (iUSIMEnabledServiceTable)
{
iUSIMEnabledServiceTable->iServices33To40 |= RMobilePhone::KUstACL;
ReqCompleted(aReqHandle,KErrNone);
if (iAPNStatusNotify.iNotifyPending == TRUE)
{
*static_cast<RMobilePhone::TAPNControlListServiceStatus*>(iAPNStatusNotify.iNotifyData) =
RMobilePhone::EAPNControlListServiceEnabled;
iAPNStatusNotify.iNotifyPending = EFalse;
ReqCompleted(iAPNStatusNotify.iNotifyHandle,KErrNone);
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotSupported));
}
}
break;
default:
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelFormatNotSupported,
KErrNotFound));
}
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for retrieving the Acces Point Name (APN) List enabled/ disabled
* status
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aAPNControlListServiceStatus memory for storing the current status for the user
* @return TInt always returns KErrNone
*/
TInt CSimPhone::GetAPNControlListServiceStatus(TTsyReqHandle aReqHandle,
RMobilePhone::TAPNControlListServiceStatus& aAPNControlListServiceStatus)
{
if (IsICCLocked())
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrGsm0707SimPin1Required, KErrAccessDenied));
return KErrNone;
}
if (ServiceEnabled(iUSIMServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
if (ServiceEnabled(iUSIMEnabledServiceTable,iAPNServiceOffset,RMobilePhone::KUstACL))
{
aAPNControlListServiceStatus = RMobilePhone::EAPNControlListServiceEnabled;
}
else
{
aAPNControlListServiceStatus = RMobilePhone::EAPNControlListServiceDisabled;
}
ReqCompleted(aReqHandle,KErrNone);
}
else
{
ReqCompleted(aReqHandle,SYMBIAN_EXTERR( KErrMMEtelAPNEnabledServicesTableNotFound,
KErrNotSupported));
}
return KErrNone;
}
/**
* An IPC support function for registering interest in the Acces Point Name (APN) List
* enabled/ disabled status changing
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aAPNControlListServiceStatus memory for storing the current status for the user
* @return TInt always returns KErrNone
*/
TInt CSimPhone::NotifyAPNControlListServiceStatusChange(TTsyReqHandle aReqHandle,
RMobilePhone::TAPNControlListServiceStatus& aAPNControlListServiceStatus)
{
iAPNStatusNotify.iNotifyPending = ETrue;
iAPNStatusNotify.iNotifyHandle = aReqHandle;
iAPNStatusNotify.iNotifyData = &aAPNControlListServiceStatus;
return KErrNone;
}
/**
* A utility function for checking table availabilty and performing a copy on it
*
* @param aFrom The TMobilePhoneServiceTableV1 table to copied out of
* @param aTo The TMobilePhoneServiceTableV1 table to copied into
* @return TInt returns KErrNone for success and KErrNotSupported if the table aren't
* valid
*/
TInt CSimPhone::CopyServiceTable(RMobilePhone::TMobilePhoneServiceTableV1* aFrom,
RMobilePhone::TMobilePhoneServiceTableV1* aTo)
{
if (aFrom && aTo)
{
*aTo = *aFrom;
return KErrNone;
}
else
{
// This value is returned because this function tests the existance of the table
// not just that the args are OK.
return SYMBIAN_EXTERR(KErrMMEtelAPNEnabledServicesTableNotFound, KErrNotSupported);
}
}
/**
* A utility function for checking table availabilty and performing a copy on it
*
* @param aFrom The TMobilePhoneServiceTableV8 table to copied out of
* @param aTo The TMobilePhoneServiceTableV8 table to copied into
* @return TInt returns KErrNone for success and KErrNotSupported if the table aren't
* valid
*/
TInt CSimPhone::CopyServiceTableV8(RMobilePhone::TMobilePhoneServiceTableV8* aFrom,
RMobilePhone::TMobilePhoneServiceTableV8* aTo)
{
if (aFrom && aTo)
{
*aTo = *aFrom;
return KErrNone;
}
else
{
// This value is returned because this function tests the existance of the table
// not just that the args are OK.
return SYMBIAN_EXTERR(KErrMMEtelAPNEnabledServicesTableNotFound, KErrNotSupported);
}
}
/**
* An IPC support function for retrieving one of the service tables
*
* @param aReqHandle handle to the IPC call used for completing the round trip
* @param aTable the type of table the user has interest in
* @param aPCmd memory to store the retrieved table
* @return TInt always returns KErrNone
*/
TInt CSimPhone::GetServiceTable(TTsyReqHandle aReqHandle,
RMobilePhone::TMobilePhoneServiceTable aTable,
TDes8* aPCmd)
{
TInt ret = KErrNone;
RMobilePhone::TMobilePhoneServiceTableV1Pckg *pTablePckg = (RMobilePhone::TMobilePhoneServiceTableV1Pckg*) aPCmd;
RMobilePhone::TMobilePhoneServiceTableV1 &aSst = (*pTablePckg)();
switch (aTable)
{
/** Retrieve SIM service table from active SIM application on UICC.
Modes: GSM/WCDMA */
case RMobilePhone::ESIMServiceTable:
ret = CopyServiceTable (iSIMServiceTable, &aSst);
break;
/** Retrieve USIM service table from active USIM application on UICC.
Modes: WCDMA */
case RMobilePhone::EUSIMServiceTable:
if ( aSst.ExtensionId ()== KEtelExtMultimodeV8)
{
RMobilePhone::TMobilePhoneServiceTableV8Pckg* pTableV8Pckg = (RMobilePhone::TMobilePhoneServiceTableV8Pckg*) aPCmd;
RMobilePhone::TMobilePhoneServiceTableV8 &pTableV8 = (*pTableV8Pckg) ();
ret = CopyServiceTableV8 (iUSIMServiceTableV8, &pTableV8);
}
else
{
ret = CopyServiceTable (iUSIMServiceTable, &aSst);
}
break;
/** USIM Enabled Services Table to be used in conjunction with the USIM Service Table.
Modes: WCDMA */
case RMobilePhone::EUSIMEnabledServiceTable:
ret = CopyServiceTable (iUSIMEnabledServiceTable, &aSst);
break;
default:
ReqCompleted (aReqHandle, SYMBIAN_EXTERR( KErrMMEtelFormatNotSupported,
KErrArgument));
return KErrNone;
}
// Extended error codes are handled here by the CopyServiceTable() func.
ReqCompleted(aReqHandle,ret);
return KErrNone;
}
TInt CSimPhone::GetPhoneId(TTsyReqHandle aReqHandle,RMobilePhone::TMobilePhoneIdentityV1* aPhoneId)
{
//complete with error if error specified.
if(iPhoneId.iError != KErrNone)
{
ReqCompleted(aReqHandle,iPhoneId.iError);
return KErrNone;
}
//fill out phone identity.
if(iPhoneIdCaps & RMobilePhone:: KCapsGetManufacturer)
{
if(iPhoneId.iManufacturerId.Length() > RMobilePhone::KPhoneManufacturerIdSize)
aPhoneId->iManufacturer.Copy(iPhoneId.iManufacturerId.Left(RMobilePhone::KPhoneManufacturerIdSize));
else
aPhoneId->iManufacturer.Copy(iPhoneId.iManufacturerId);
}
if(iPhoneIdCaps & RMobilePhone::KCapsGetModel)
{
if(iPhoneId.iModelId.Length() > RMobilePhone::KPhoneModelIdSize)
aPhoneId->iModel.Copy(iPhoneId.iModelId.Left(RMobilePhone::KPhoneModelIdSize));
else
aPhoneId->iModel.Copy(iPhoneId.iModelId);
}
if(iPhoneIdCaps & RMobilePhone::KCapsGetRevision)
{
if(iPhoneId.iRevisionId.Length() > RMobilePhone::KPhoneRevisionIdSize)
aPhoneId->iRevision.Copy(iPhoneId.iRevisionId.Left(RMobilePhone::KPhoneRevisionIdSize));
else
aPhoneId->iRevision.Copy(iPhoneId.iRevisionId);
}
if(iPhoneIdCaps & RMobilePhone::KCapsGetSerialNumber)
{
if(iPhoneId.iSerialId.Length() > RMobilePhone::KPhoneSerialNumberSize)
aPhoneId->iSerialNumber.Copy(iPhoneId.iSerialId.Left(RMobilePhone::KPhoneSerialNumberSize));
else
aPhoneId->iSerialNumber.Copy(iPhoneId.iSerialId);
}
ReqCompleted(aReqHandle,KErrNone);
return KErrNone;
}
/**
* Callback function invoked by the observer object when test number property is changed.
* This function is supposed to reset SIMTSY. Currently only SMS messaging part of SIMTSY
* is re-started with the new test number.
*/
void CSimPhone::HandleTestNumberChangedL()
{
SetTestNumberAndReadConfigurationFileL();
iSmsMessaging->ReloadConfigurationSettingsL();
}
TInt CSimPhone::CheckConfigFile()
{
TInt testNumber;
User::LeaveIfError(GetTestNumber(testNumber));
iSectionName.Format(KSectionNameFormat,testNumber);
CTestConfig* configFile = NULL;
TRAPD(err, configFile = CTestConfig::NewLC(iFs, KConfigFileDir, KConfigFilename); CleanupStack::Pop(configFile));
if( err != KErrNone || configFile->Section(iSectionName) != NULL )
{
err = KErrNone;
}
else
{
err = KErrNotFound;
}
delete configFile;
return err;
}
/**
Constructor for suspend call processing timer
*/
CSimPhone::CSetCallProcessingSuspendStateTimerCallBack::CSetCallProcessingSuspendStateTimerCallBack()
{}
/**
Must be called before setting the timer. Simply stores the request to be completed when
timer expires
@param the pointer to the phone that the request will be completed on when the timer expires
@param aReqHandle handle to request that will be completed when the timer expires
*/
void CSimPhone::CSetCallProcessingSuspendStateTimerCallBack::SetHandle(CSimPhone* aPhone, const TTsyReqHandle aHandle)
{
iPhone = aPhone;
iHandle = aHandle;
}
/**
Implementation of MTimerCallback::TimerCallBack
Simply completes the suspend call processing request after the delay
*/
void CSimPhone::CSetCallProcessingSuspendStateTimerCallBack::TimerCallBack(TInt /*aId*/)
{
iPhone->ReqCompleted(iHandle,KErrNone);
}
/**
Constructor for network mode processing timer
*/
CSimPhone::CNetworkModeTimerCallBack::CNetworkModeTimerCallBack()
{
}
void CSimPhone::CNetworkModeTimerCallBack::SetHandle(CSimPhone* aPhone)
{
iPhone = aPhone;
}
/**
Implementation of MTimerCallback::TimerCallBack
Simply completes the suspend call processing request after the delay
*/
void CSimPhone::CNetworkModeTimerCallBack::TimerCallBack(TInt /*aId*/)
{
LOGPACKET1(">>CSimPhone::CNetworkModeTimerCallBack::TimerCallBack");
iPhone->TimerCallBackNetworkMode();
}
TInt CSimPhone::NotifyModeChange(const TTsyReqHandle aTsyReqHandle, RMobilePhone::TMobilePhoneNetworkMode* aCaps)
{
LOGPACKET1("CSimPhone::NotifyModeChange called");
__ASSERT_ALWAYS(!iNotifyNetworkModeChange.iNotifyPending,SimPanic(ENotificationAlreadyPending));
if (iNetworkModeArray->Count() == 0)
{
ReqCompleted(aTsyReqHandle,KErrNotSupported);
return KErrNone;
}
iNotifyNetworkModeChange.iNotifyPending = ETrue;
iNotifyNetworkModeChange.iNotifyHandle = aTsyReqHandle;
iNotifyNetworkModeChange.iNotifyData = aCaps;
return KErrNone;
}
/**
* Cancels a clients interest in the change of dynamic caps.
*
* @param aTsyReqHandle Tsy Request handle for the client cancel request
* @return KErrNone
*/
TInt CSimPhone::NotifyModeChangeCancel(const TTsyReqHandle aTsyReqHandle)
{
LOGPACKET1("CSimPhone::NotifyModeChangeCancel called");
if( (iNotifyNetworkModeChange.iNotifyPending) && (aTsyReqHandle == iNotifyNetworkModeChange.iNotifyHandle))
{
iNotifyNetworkModeChange.iNotifyPending=EFalse;
ReqCompleted(aTsyReqHandle,KErrCancel);
}
return KErrNone;
}
/**
* Timer callback function to simulate a change in the Network Mode of the phone
*/
void CSimPhone::TimerCallBackNetworkMode()
{
if (++iNetworkModeIndex >= iNetworkModeArray->Count())
{
return;
}
iNtwkMode = iNetworkModeArray->At(iNetworkModeIndex).iNetworkMode;
if (iNotifyNetworkModeChange.iNotifyPending)
{
iNotifyNetworkModeChange.iNotifyPending = EFalse;
*(RMobilePhone::TMobilePhoneNetworkMode*)iNotifyNetworkModeChange.iNotifyData = (RMobilePhone::TMobilePhoneNetworkMode)iNtwkMode;
ReqCompleted(iNotifyNetworkModeChange.iNotifyHandle,KErrNone);
}
iNetworkModeTimer->Start(iNetworkModeArray->At(iNetworkModeIndex).iDuration, &iTimerCallBackNetworkMode);
}
TInt CSimPhone::CheckSimTsyVersion(RMobilePhone::TMultimodeType& aDataStruct) // overload this for other types of structures
/**
* Checks the version of a data structure against the (simulated) version of SIMTSY, in order
* to determine if the version of the API used is compatible with the version of the TSY used.
*
* @param aDataStruct A versioned data-holding structure, derived from RMobilePhone::TMultimodeType
*
* @return KErrNone if the version of aDataStruct is supported by the user-defined simulated TSY version. KErrNotSupported otherwise
*/
{
TInt ret = KErrNone;
//retrieval of data version
TInt dataVersion;
switch (aDataStruct.ExtensionId())
{
case KETelExtMultimodeV1:
case RMobilePhoneStore::KETelMobilePhonebookStoreV1:
case RMobileSmsMessaging::KETelMobileSmsSendAttributesV1:
case KETelExt3rdPartyV1:
dataVersion = 1;
break;
case KETelExtMultimodeV2:
//case KETelMobilePhonebookStoreV2: - omitted because it is equal to KETelExtMultimodeV2
dataVersion = 2;
break;
case KETelExtMultimodeV3:
dataVersion = 3;
break;
case KETelExtMultimodeV4:
dataVersion = 4;
break;
case KEtelExtMultimodeV5:
//case KETelMobilePhonebookStoreV5: - omitted because it is equal to KETelExtMultimodeV5
dataVersion = 5;
break;
case KEtelExtMultimodeV6:
dataVersion = 6;
break;
case KEtelExtMultimodeV7:
dataVersion = 7;
break;
case KEtelExtMultimodeV8:
dataVersion = 8;
break;
case KEtelExtMultimodeV9:
dataVersion = 9;
break;
default:
dataVersion = KSimTsyDefaultVersion;
break;
}
if(iSimTsyVersion < dataVersion)
{
ret = KErrNotSupported;
}
return ret;
}
TInt CSimPhone::CheckSimTsyVersion(TPacketBase& aDataStruct)
/**
* Checks the version of a data structure against the (simulated) version of SIMTSY, in order
* to determine if the version of the API used is compatible with the version of the TSY used.
*
* @param aDataStruct A versioned data-holding structure, derived from TPacketBase
*
* @return KErrNone if the version of aDataStruct is supported by the user-defined simulated TSY version. KErrNotSupported otherwise
*/
{
TInt ret = KErrNone;
//retrieval of data version
TInt dataVersion;
switch (aDataStruct.ExtensionId())
{
case KETelExtPcktV1:
dataVersion = 1;
break;
case KETelExtPcktV2:
dataVersion = 2;
break;
case KETelExtPcktV3:
dataVersion = 3;
break;
default:
dataVersion = KSimTsyDefaultVersion;
break;
}
if(iSimTsyVersion < dataVersion)
{
ret = KErrNotSupported;
}
return ret;
}
TInt CSimPhone::CheckSimTsyVersion(RCall::TCallParams& aDataStruct)
/**
* Checks the version of a data structure against the (simulated) version of SIMTSY, in order
* to determine if the version of the API used is compatible with the version of the TSY used.
*
* @param aDataStruct A versioned data-holding structure, derived from TCallParams
*
* @return KErrNone if the version of aDataStruct is supported by the user-defined simulated TSY version. KErrNotSupported otherwise
*/
{
TInt ret = KErrNone;
//retrieval of data version
TInt dataVersion;
switch (aDataStruct.ExtensionId())
{
case RMobileCall::KETelMobileCallParamsV1:
case RMobileCall::KETelMobileDataCallParamsV1:
case RMobileCall::KETelMobileHscsdCallParamsV1:
case RMobileCall::KETel3rdPartyCallParamsV1:
dataVersion = 1;
break;
case RMobileCall::KETelMobileCallParamsV2:
case RMobileCall::KETelMobileDataCallParamsV2:
case RMobileCall::KETelMobileHscsdCallParamsV2:
dataVersion = 2;
break;
default:
dataVersion = KSimTsyDefaultVersion;
break;
}
if(iSimTsyVersion < dataVersion)
{
ret = KErrNotSupported;
}
return ret;
}
TInt CSimPhone::CheckSimTsyVersion(RMobilePhone::CImsAuthorizationInfoV5& /*aDataStruct*/) // overload this for other types of structures
/**
* Checks the version of a data structure against the (simulated) version of SIMTSY, in order
* to determine if the version of the API used is compatible with the version of the TSY used.
*
* @param aDataStruct A versioned data-holding structure, of type RMobilePhone::CImsAuthorizationInfoV5 or a class derived from it.
*
* @return KErrNone if the version of aDataStruct is supported by the user-defined simulated TSY version. KErrNotSupported otherwise
*/
{
TInt ret = KErrNone;
//retrieval of data version
TInt dataVersion = 5; // (does not derive from the TMultimodeType data structure as usual...)
if(iSimTsyVersion < dataVersion)
{
ret = KErrNotSupported;
}
return ret;
}
TInt CSimPhone::CheckSimTsyVersion(RPacketContext::CTFTMediaAuthorizationV3& /*aDataStruct*/) // overload this for other types of structures
/**
* Checks the version of a data structure against the (simulated) version of SIMTSY, in order
* to determine if the version of the API used is compatible with the version of the TSY used.
*
* @param aDataStruct A versioned data-holding structure, of type RPacketContext::CTFTMediaAuthorizationV3 or a class derived from it.
*
* @return KErrNone if the version of aDataStruct is supported by the user-defined simulated TSY version. KErrNotSupported otherwise
*/
{
TInt ret = KErrNone;
//retrieval of data version
TInt dataVersion = 3; // (does not derive from the TMultimodeType data structure as usual...)
if(iSimTsyVersion < dataVersion)
{
ret = KErrNotSupported;
}
return ret;
}
////////////////////
// CSimTestNumberObserver
////////////////////
CSimPhone::CSimTestNumberObserver::CSimTestNumberObserver(CSimPhone& aSimPhone)
: CActive(CActive::EPriorityStandard),
iSimPhone(aSimPhone)
{
CActiveScheduler::Add(this);
}
CSimPhone::CSimTestNumberObserver::~CSimTestNumberObserver()
{
Cancel();
iProperty.Close();
}
CSimPhone::CSimTestNumberObserver* CSimPhone::CSimTestNumberObserver::NewL(CSimPhone& aSimPhone)
{
CSimPhone::CSimTestNumberObserver* self = new(ELeave)CSimPhone::CSimTestNumberObserver(aSimPhone);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
void CSimPhone::CSimTestNumberObserver::ConstructL()
{
LOGPHONE1("CSimPhone::CSimPhoneObserver::ConstructL");
User::LeaveIfError(iProperty.Attach(KUidPSSimTsyCategory, KPSSimTsyTestNumber));
Start();
}
void CSimPhone::CSimTestNumberObserver::Start()
{
LOGPHONE1("CSimPhone::CSimPhoneObserver::Start");
iProperty.Subscribe(iStatus);
SetActive();
}
void CSimPhone::CSimTestNumberObserver::RunL()
{
LOGPHONE2("CSimPhone::CSimPhoneObserver::RunL [iStatus=%d]", iStatus.Int());
TInt err = iSimPhone.CheckConfigFile();
if( err == KErrNone )
{
iSimPhone.HandleTestNumberChangedL();
}
Start();
}
void CSimPhone::CSimTestNumberObserver::DoCancel()
{
LOGPHONE1("CSimPhone::CSimPhoneObserver::DoCancel");
iProperty.Cancel();
}