// Copyright (c) 2000-2010 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:
// CCommsDbNetDialAccess definitions
//
//
/**
@file nd_dbacc.cpp
*/
#include <nifvar.h>
#include <commsdattypesv1_1.h>
#include <commsdatutils.h>
using namespace CommsDat;
#include "ND_DBACC.H"
#include "ND_STD.H"
/**
@internalComponent
*/
const TUint32 KZeroFieldValue=0uL;
CCommsDbNetDialAccess* CCommsDbNetDialAccess::NewL(CCommsDbAccess* aDbAccess)
/**
2 phased constructor, first phase.
@param aDbAccess a pointer to the database accessor.
@exception Leaves if CCommsDbNetDialAccess() constructor leaves, or not enough memory is available.
@return a new CCommsDbNetDialAccess object.
*/
{
return new(ELeave) CCommsDbNetDialAccess(aDbAccess);
}
CCommsDbNetDialAccess::CCommsDbNetDialAccess(CCommsDbAccess* aDbAccess)
: iDbAccess(aDbAccess)
/**
Private constructor used in the first phase of construction.
@param aDbAccess a pointer to the database accessor.
*/
{}
CCommsDbNetDialAccess::~CCommsDbNetDialAccess()
/**
Destructor.
*/
{}
void CCommsDbNetDialAccess::Close()
/**
Closes database accessor.
*/
{
iDbAccess->Close();
}
void CCommsDbNetDialAccess::GetTsyNameL(TDes& aTsyName)
/**
Gets TSY name from database.
@param aTsyName a reference to the TSY name that is read from database.
@exception Leaves if GetTsyNameL() leaves.
*/
{
iDbAccess->GetTsyNameL(aTsyName);
}
void CCommsDbNetDialAccess::SetCommPortL(const RCall::TCommPort& aCommPort)
/**
Sets COMM-port into database.
@param aCommPort a reference to the COMM-port written into database.
@exception Leaves if SetCommPortL() leaves.
*/
{
iDbAccess->SetCommPortL(aCommPort);
}
void CCommsDbNetDialAccess::GetCommPortForDirectConnectL(RCall::TCommPort& aCommPort)
/**
Get comm port details for direct connection.
@param aCommPort a reference to the COMM-port read from database.
@exception Leaves if ReadTextL() leaves.
*/
{
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
aCommPort.iCsy = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iCsyName;
aCommPort.iPort = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iPortName;
CleanupStack::PopAndDestroy(modemTable);
}
void CCommsDbNetDialAccess::GetBcaStackL(TDes& aBcaStack)
/**
Gets the Bca Stack
@param aBcaStack the BcaStack
@exception Leaves if ReadTextL() leaves.
*/
{
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
aBcaStack = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iBcaStack;
CleanupStack::PopAndDestroy(modemTable);
}
TInt CCommsDbNetDialAccess::GetIapId()
{
_LIT(KIAPId, "IAP\\Id");
TUint32 iap;
TInt err = iDbAccess->ReadInt(KIAPId(), iap);
return (err == KErrNone) ? iap : err;
}
void CCommsDbNetDialAccess::GetCommConfigForDirectConnectL(TCommConfig& aCommConfig)
/**
Get settings from modem config settings for data bits, stop bits and parity
and get appropriate handshaking for direct connection.
@param aCommConfig a reference to the configuration read for connection.
@exception Leaves if PopulateModemCommSettingsL() leaves.
*/
{
TCommConfigV01& cfg=aCommConfig();
PopulateModemCommSettingsL(cfg);
// DSRFail not asserted for battery powered modems that switch on with DTR High
cfg.iHandshake&=(~(KDCDHandshakeMask | KDSRFailHandshakeMask | KCTSHandshakeMask));
// Should be 0 for correct script operation
cfg.iTerminatorCount=0;
}
void CCommsDbNetDialAccess::GetCommPortRoleL(TCommRole& aRole)
/**
Get comm port role (DCE or DTE)
@param aRole a reference to the role read from the database
@exception Leaves if ReadUintL() leaves.
*/
{
TUint32 dummy = KZeroFieldValue;
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
dummy = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iCommRole;
if (dummy & KModemCommRoleDCE)
{
aRole = ECommRoleDCE;
}
else
{
aRole = ECommRoleDTE;
}
CleanupStack::PopAndDestroy(modemTable);
}
void CCommsDbNetDialAccess::GetCallParamsL(RCall::TCallParams& aParams)
/**
Parse info about speaker settings and pause time from modem prefs and location table
into TCallParams struct. Assume we require a location as we are dialling a number.
@param aParams a reference to the Core API call parameters read from database.
@exception Leaves if ReadUintL(), GetIntL() or GetBoolL() leaves.
*/
{
TUint32 value=KZeroFieldValue;
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
value = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iSpeakerPref;
switch (value)
{
case EModemSpeakerSettingNever:
aParams.iSpeakerControl=RCall::EMonitorSpeakerControlAlwaysOff;
break;
case EModemSpeakerSettingUntilCallAnswered:
aParams.iSpeakerControl=RCall::EMonitorSpeakerControlOnUntilCarrier;
break;
case EModemSpeakerSettingAlways:
aParams.iSpeakerControl=RCall::EMonitorSpeakerControlAlwaysOn;
break;
case EModemSpeakerSettingAfterDialUntilAnswer:
aParams.iSpeakerControl=RCall::EMonitorSpeakerControlOnExceptDuringDialling;
break;
default:
aParams.iSpeakerControl=RCall::EMonitorSpeakerControlUnknown;
break;
}
value = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iSpeakerVolPref;
CleanupStack::PopAndDestroy(modemTable);
switch (value)
{
case EModemSpeakerVolumeQuiet:
aParams.iSpeakerVolume=RCall::EMonitorSpeakerVolumeLow;
break;
case EModemSpeakerVolumeMedium:
aParams.iSpeakerVolume=RCall::EMonitorSpeakerVolumeMedium;
break;
case EModemSpeakerVolumeLoud:
aParams.iSpeakerVolume=RCall::EMonitorSpeakerVolumeHigh;
break;
default:
aParams.iSpeakerVolume=RCall::EMonitorSpeakerVolumeUnknown;
break;
}
TPtrC loc(LOCATION);
iDbAccess->GetIntL(loc,TPtrC(LOCATION_PAUSE_AFTER_DIAL_OUT),value);
aParams.iInterval=(TUint)value;
TBool bValue;
iDbAccess->GetBoolL(loc,TPtrC(LOCATION_WAIT_FOR_DIAL_TONE),bValue);
if (bValue)
{
aParams.iWaitForDialTone=RCall::EDialToneWait;
}
else
{
aParams.iWaitForDialTone=RCall::EDialToneNoWait;
}
}
TInt CCommsDbNetDialAccess::GetRedialAttempts(TUint32& aAttempts)
/**
Reads amount of redial attempts from database.
@param aAttempts a reference to redial attempts read from database.
@return an error code trapped if GetGlobalL() leaves.
*/
{
TRAPD(ret,iDbAccess->GetGlobalL(TPtrC(REDIAL_ATTEMPTS),aAttempts));
return ret;
}
void CCommsDbNetDialAccess::GetRemoteParty(TDes& aRemoteParty)
/**
Read ISP name from database and return as remote party.
@param aRemoteParty a reference to ISP name read from database.
@exception Leaves if GetDesL() leaves.
*/
{
TInt ret(KErrNone);
TPtrC name(COMMDB_NAME);
ret = AssertDialOutTable();
if (ret != KErrNone)
{
//if AssertDialOutTable encounters serios errors (OOM)
//it must set aRemoteParty appropriatelly
_LIT(unknownParty,"???");
aRemoteParty=unknownParty;
return;
}
TRAP(ret,iDbAccess->GetDesL(TPtrC(IAP),name,aRemoteParty));
if(ret!=KErrNone)
{
_LIT(unknownParty,"???");
aRemoteParty=unknownParty;
}
}
void CCommsDbNetDialAccess::IsDefaultTelNumL(TBool& aIsTelNum)
/**
Check length of default tel no - if 0 set boolean to false, else true.
Only for dial out
@param aIsTelNum a reference to the default tel num read from database.
@exception Leaves if GetDesL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
TDialString telNum;
iDbAccess->GetDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_DEFAULT_TEL_NUM),telNum);
if (telNum.Length()==0)
aIsTelNum=EFalse;
else
aIsTelNum=ETrue;
}
void CCommsDbNetDialAccess::GetUsePctL(TBool& aUsePct)
/**
Read the DisplayPct boolean from the ISP database
Only for dial out
@param aUsePct a reference to the DisplayPct boolean read from database.
@exception Leaves if GetBoolL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
iDbAccess->GetBoolL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_DISPLAY_PCT),aUsePct);
}
void CCommsDbNetDialAccess::GetScriptDetailsL(TBool& aUseScript, TInt& aLength)
/**
Get the length of the script into aLength.
Dial in or dial out.
@param aUseScript a reference to the script boolean read from database.
@param aLength a reference to the lenght of script read from database.
@exception Leaves if GetBoolL() or GetLengthOfLongDesL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
iDbAccess->GetBoolL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_USE_LOGIN_SCRIPT),aUseScript);
aLength=iDbAccess->GetLengthOfLongDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_LOGIN_SCRIPT));
}
HBufC* CCommsDbNetDialAccess::GetScriptLC()
/**
Return the script.
Dial in or dial out.
@exception Leaves if GetBoolL() or GetLengthOfLongDesL() leaves.
@return as HBufC* the login script read from database.
*/
{
User::LeaveIfError(AssertDialOutTable());
return iDbAccess->GetLongDesLC(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_LOGIN_SCRIPT));
}
void CCommsDbNetDialAccess::GetLoginParamsL(TBool& aPromptForLogin,TDes& aLoginName,TDes& aLoginPass,TDes& aIPAddress)
/**
Get boolean PromptForLogin and login name, login password and IP address
Dial out only.
@param aPromptForLogin a reference to the prompt boolean read from database.
@param aLoginName a reference to the login name read from database.
@param aLoginPass a reference to the login password read from database.
@param aIPAddress a reference to the ISP IP address read from database.
@exception Leaves if GetBoolL() or GetDesL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
iDbAccess->GetBoolL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_PROMPT_FOR_LOGIN),aPromptForLogin);
iDbAccess->GetDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_LOGIN_NAME),aLoginName);
iDbAccess->GetDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_LOGIN_PASS),aLoginPass);
iDbAccess->GetDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_IP_ADDR),aIPAddress);
}
TInt CCommsDbNetDialAccess::GetCallbackTimeout(TUint32& aTimeout)
/**
Get call back timeout.
@param aTimeout a reference to the dial out time read from database.
@return an error code trapped if GetIntL() leaves.
*/
{
TInt ret = AssertDialOutTable();
if (ret != KErrNone)
return ret;
TRAP(ret,iDbAccess->GetIntL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_CALLBACK_TIMEOUT),aTimeout));
return ret;
}
TBool CCommsDbNetDialAccess::HscsdSettingsAvailableL()
/**
Check if HSCSD settings are available in database.
@return ETrue if bearer type in database is EBearerTypeHSCSD. Else return EFalse.
*/
{
User::LeaveIfError(AssertDialOutTable());
TUint32 temp=0uL;
TRAPD(ret,iDbAccess->GetIntL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_BEARER_TYPE),temp));
if (ret==KErrUnknown)
return EFalse;
User::LeaveIfError(ret); // any other error
if ((TCommsDbBearerType)temp==EBearerTypeHSCSD)
return ETrue;
return EFalse;
}
void CCommsDbNetDialAccess::GetMmHscsdParametersL(RMobileCall::TMobileHscsdCallParamsV1& aMmHscsdParams)
/**
Get Multimode HSCSD call parameters..
@param aMmHscsdParams a reference to the multimode HSCSD call parameters read from database.
@exception Leaves if GetIntL or GetBoolL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
TUint32 temp=0uL;
TPtrC serviceTableName(DIAL_OUT_ISP);
iDbAccess->GetIntL(serviceTableName,TPtrC(ISP_AIUR),temp);
aMmHscsdParams.iWantedAiur=(RMobileCall::TMobileCallAiur)temp;
iDbAccess->GetIntL(serviceTableName,TPtrC(ISP_REQUESTED_TIME_SLOTS),temp);
aMmHscsdParams.iWantedRxTimeSlots=(TInt)temp;
iDbAccess->GetIntL(serviceTableName,TPtrC(ISP_MAXIMUM_TIME_SLOTS),temp);
aMmHscsdParams.iMaxTimeSlots=(TInt)temp;
iDbAccess->GetIntL(serviceTableName,TPtrC(ISP_CHANNEL_CODING),temp);
aMmHscsdParams.iCodings=(TUint32)temp;
iDbAccess->GetIntL(serviceTableName,TPtrC(ISP_ASYMMETRY),temp);
aMmHscsdParams.iAsymmetry=(RMobileCall::TMobileCallAsymmetry)temp;
TBool b;
iDbAccess->GetBoolL(serviceTableName,TPtrC(ISP_USER_INIT_UPGRADE),b);
aMmHscsdParams.iUserInitUpgrade=b;
}
TBool CCommsDbNetDialAccess::GetMmCallParams(RMobileCall::TMobileDataCallParamsV1& aMmParams)
/**
Get Multimode data call parameters. If the parameters can be read from database,
return ETrue, else return EFalse.
@param aMmParams a reference to the multimode data call parameters read from database.
@return ETrue if multimode data call parameters are read successfully. Else return EFalse.
*/
{
TInt ret = AssertDialOutTable();
if (ret!=KErrNone)
return EFalse;
TUint32 temp=0uL;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_BEARER_SERVICE),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iService=(RMobileCall::TMobileCallDataService)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_BEARER_SPEED),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iSpeed=(RMobileCall::TMobileCallDataSpeed)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_BEARER_PROTOCOL),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iProtocol=(RMobileCall::TMobileCallDataProtocol)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_BEARER_CE),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iQoS=(RMobileCall::TMobileCallDataQoS)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_RLP_VERSION),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iRLPVersion=(RMobileCall::TMobileCallDataRLPVersion)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_IWF_TO_MS),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iModemToMSWindowSize=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_MS_TO_IWF),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iMSToModemWindowSize=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_ACK_TIMER),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iAckTimer=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_RETRANSMISSION_ATTEMPTS),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iRetransmissionAttempts=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_RESEQUENCE_PERIOD),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iResequencingPeriod=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_V42_COMPRESSION),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iV42bisReq=(RMobileCall::TMobileCallDataV42bis)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_V42_CODEWORDS),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iV42bisCodewordsNum=(TInt)temp;
TRAP(ret,iDbAccess->GetIntL(KGeneralServiceTable,TPtrC(ISP_V42_MAX_LENGTH),temp));
if (ret!=KErrNone)
return EFalse;
aMmParams.iV42bisMaxStringLength=(TInt)temp;
TBool useEdge;
TRAP(ret,iDbAccess->GetBoolL(KGeneralServiceTable,TPtrC(ISP_USE_EDGE),useEdge));
if (ret!=KErrNone)
return EFalse;
aMmParams.iUseEdge=useEdge;
return ETrue;
}
void CCommsDbNetDialAccess::CopyIspInitStringToModemL()
/**
Copy over ISP init string from ISP to modem table.
@exception Leaves if GetDesL(), UpdateRecord() or PutRecordChanges() leaves.
*/
{
TBuf8<KCommsDbSvrMaxFieldLength> initStringIsp;
iDbAccess->GetDesL (KGeneralServiceTable, TPtrC (ISP_INIT_STRING), initStringIsp);
TBuf8<KCommsDbSvrMaxFieldLength> initStringModem;
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
initStringModem = static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iModemInitString;
if (initStringIsp.CompareF (initStringModem) != 0)
{
modemTable->iRecord->RefreshL(*(modemTable->iSession));
static_cast<CCDModemBearerRecord*>(modemTable->iRecord)->iModemInitString = initStringIsp;
modemTable->iRecord->ModifyL(*(modemTable->iSession));
}
CleanupStack::PopAndDestroy(modemTable);
}
void CCommsDbNetDialAccess::DoDiallingResolutionL(TDialString& aTelNum, TParseMode aMode)
/**
Decide which phone number to use by checking alternative locations and do correct dialling
resolution. Write correct dial string back to aTelNum.
Only for dial out.
@param aTelNum a reference to the telephone number resolved in database.
@param aMode a parse mode passed for parsing.
@exception Leaves if GetDesL(), GetBoolL(), SetUnresolvedDialStringL(), GetIntL() or ResolvePhoneNumberL() leaves.
*/
{
User::LeaveIfError(AssertDialOutTable());
TDialString fullNum;
iDbAccess->GetDesL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_DEFAULT_TEL_NUM),fullNum);
TBool doDiallingResolution;
iDbAccess->GetBoolL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_DIAL_RESOLUTION),doDiallingResolution);
if(!doDiallingResolution || fullNum.Length()==0)
{
SetUnresolvedDialStringL(aTelNum,fullNum,aMode);
}
else
{
TUint32 chargecardId=KZeroFieldValue;
TInt ret=KErrNone;
TRAP(ret,iDbAccess->GetIntL(TPtrC(DIAL_OUT_ISP),TPtrC(ISP_CHARGECARD),chargecardId));
if (ret==KErrUnknown) // don't care if there isn't one
{
ret=KErrNone;
}
User::LeaveIfError(ret);
CommsDatUtils::CCommsDatUtils::ResolvePhoneNumberL(fullNum,aTelNum,aMode,iDbAccess->LocationId(),chargecardId);
}
}
// Private functions
TInt CCommsDbNetDialAccess::AssertDialOutTable() const
/**
Reads service type from database.
@exception Panics if GetServiceTypeL() leaves or service type read from database is not DIAL_OUT_ISP.
*/
{
TBuf<KCommsDbSvrMaxFieldLength> serviceType;
TRAPD(ret, iDbAccess->GetServiceTypeL(serviceType));
if (ret == KErrNone && serviceType!=TPtrC(DIAL_OUT_ISP))
{
NetDialPanic(EIllegalDbRequestForService);
}
return ret;
}
void CCommsDbNetDialAccess::SetUnresolvedDialStringL(TDialString& aTelNum,const TDialString& aFullNum, TParseMode aMode)
/**
Resolves which letters 'T' or 'P' should prefix number when NOT doing dial resolution.
Returns number with prefix in aFullNum.
@param aTelNum a reference to the telephone number to be resolved.
@param aFullNum a reference to the full resolved telephone number, filled here.
@param aMode a parse mode passed for parsing.
@exception Leaves if GetBoolL() leaves.
*/
{
aTelNum.Zero(); // restart the dial string
TBool mobile;
TPtrC loc(LOCATION);
iDbAccess->GetBoolL(loc,TPtrC(LOCATION_MOBILE),mobile);
if (!mobile && aMode==EForDialing)
{
TBool pulseDial;
iDbAccess->GetBoolL(loc,TPtrC(LOCATION_USE_PULSE_DIAL),pulseDial);
if (pulseDial)
aTelNum.Append(KCharP);
else
aTelNum.Append(KCharT);
}
aTelNum.Append(aFullNum);
}
void CCommsDbNetDialAccess::PopulateModemCommSettingsL(TCommConfigV01& aCfg)
/**
Read configuration for COMM-port from database and sets it into aCfg
@param aCfg a reference to COMM-port confiquration, read values are passed back in the parameter.
@exception Leaves if ReadUintL() leaves.
*/
{
TUint32 dummy;
CCommsDbAccess::CCommsDbAccessModemTable* modemTable = iDbAccess->ModemTable();
CleanupStack::PushL(modemTable);
if (modemTable == 0)
{
User::Leave(KErrNoMemory); // most likely?
}
CCDModemBearerRecord* table = static_cast<CCDModemBearerRecord*>(modemTable->iRecord);
CleanupStack::PopAndDestroy(modemTable);
dummy = table->iRate;
aCfg.iRate=TBps(dummy);
dummy = table->iDataBits;
aCfg.iDataBits=TDataBits(dummy);
dummy = table->iStopBits;
aCfg.iStopBits=TStopBits(dummy);
dummy = table->iParity;
aCfg.iParity=TParity(dummy);
aCfg.iHandshake=TUint(table->iHandshaking);
aCfg.iParityError=KConfigParityErrorIgnore;
aCfg.iFifo=EFifoEnable;
aCfg.iSpecialRate=TInt(table->iSpecialRate);
aCfg.iTerminatorCount=2;
aCfg.iTerminator[0]=0x0a;
aCfg.iTerminator[1]=0x0d;
aCfg.iXonChar=TText8(table->iXonChar);
aCfg.iXoffChar=TText8(table->iXoffChar);
aCfg.iParityErrorChar=0;
aCfg.iSIREnable=ESIRDisable;
aCfg.iSIRSettings=0;
aCfg.iSIRSettings=TUint(table->iSirSettings);
}