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// Copyright (c) 2001-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// Contains a number of utility classes that are of general use
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// thoughout the TSY.
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//
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//
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/**
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@file
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*/
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#include "utils.h"
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#include "CSimPhone.h"
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RCall::THookStatus ConvertStateToHook(RMobileCall::TMobileCallStatus aStatus)
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/**
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Convert a call state to a hook state.
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*/
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{
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if(aStatus==RMobileCall::EStatusUnknown)
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return RCall::EHookStatusUnknown;
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if((aStatus==RMobileCall::EStatusIdle)||
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(aStatus==RMobileCall::EStatusRinging))
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return RCall::EHookStatusOn;
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return RCall::EHookStatusOff;
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}
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RPhone::TMode ConvertStateToMode(RMobileCall::TMobileCallStatus aStatus)
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/**
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Convert a call state to a RPhone::TMode state.
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Note that the mapping table is not entirely clear here.
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The following mappings have been used here:
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EStatusUnknown => EModeUnknown
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EStatusIdle => EModeIdle
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EStatusDialling => EModeEstablishingLink
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EStatusRinging => EModeEstablishingLink
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EStatusAnswering => EModeEstablishingLink
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EStatusConnecting => EModeEstablishingLink
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EStatusConnected => EModeOnlineData
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EStatusHold => EModeOnlineData
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EStatusHangingUp => EModeOnlineData
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There is currently no mapping for EModeOnlineCommand, so this mode state will
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never be returned.
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*/
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{
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if(aStatus==RMobileCall::EStatusUnknown)
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return RPhone::EModeUnknown;
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if(aStatus==RMobileCall::EStatusIdle)
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return RPhone::EModeIdle;
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if((aStatus==RMobileCall::EStatusDialling) ||
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(aStatus==RMobileCall::EStatusAnswering) ||
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(aStatus==RMobileCall::EStatusRinging) ||
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(aStatus==RMobileCall::EStatusConnecting))
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return RPhone::EModeEstablishingLink;
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if(aStatus==RMobileCall::EStatusConnected)
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return RPhone::EModeOnlineData;
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if(aStatus==RMobileCall::EStatusDisconnecting)
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return RPhone::EModeOnlineData;
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if(aStatus==RMobileCall::EStatusHold)
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return RPhone::EModeOnlineData;
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return RPhone::EModeUnknown; // Dummy final return value.
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}
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TBool IsStateActive(RMobileCall::TMobileCallStatus aStatus)
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{
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if((aStatus==RMobileCall::EStatusUnknown) ||
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(aStatus==RMobileCall::EStatusIdle) ||
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(aStatus==RMobileCall::EStatusRinging))
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return EFalse;
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return ETrue;
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}
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void ConvertAsciiSms(const TDesC8& aAsciiPdu, TDes8& aOctetPdu)
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/**
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* Populate the SMS PDU from an ASCII representation, such as that stored in the configuration file.
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* This simply involves converting the ASCII representation in the configuration file
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* into a hex representation to complete the request.
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*/
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{
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// Check that the ASCII PDU length is even
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__ASSERT_ALWAYS((aAsciiPdu.Length()&0x1)==0x0,SimPanic(EIllegalOddNumberOfCharactersInConfigFilePdu));
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TUint8 digit;
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TInt i;
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for(i=0;i<aAsciiPdu.Length();i+=2)
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{
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TLex8 lex(aAsciiPdu.Mid(i,2));
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TInt ret=lex.Val(digit,EHex);
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__ASSERT_ALWAYS(ret==KErrNone,SimPanic(EIllegalHexCharacterInConfigFilePdu));
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aOctetPdu.Append(&digit,1);
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}
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}
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/**
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Converts a buffer containing string of the hexadecimal characters,
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representing the binary data, into this binary data!
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@param aSrc The buffer containing text representation.
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@param aDst Binary data will be written to this buffer.
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*/
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void ConvertTextToBinary(const TDesC& aSrc, TDes8& aDst)
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{
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// Check that the ASCII PDU length is even
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__ASSERT_ALWAYS((aSrc.Length()&0x1)==0x0, SimPanic(EInvalidParameterFormatInConfigFile));
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aDst.SetLength(aSrc.Length() / 2);
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for (TInt ii = 0; ii < aSrc.Length(); ii += 2)
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{
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TInt val = 0;
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if ((aSrc[ii] >= '0') && (aSrc[ii] <= '9'))
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{
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val = ((aSrc[ii] - '0') << 4);
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}
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else if ((aSrc[ii] >= 'A') && (aSrc[ii] <= 'F'))
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{
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val = ((aSrc[ii] - 'A' + 10) << 4);
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}
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if ((aSrc[ii+1] >= '0') && (aSrc[ii+1] <= '9'))
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{
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val += (aSrc[ii+1] - '0');
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}
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else if ((aSrc[ii+1] >= 'A') && (aSrc[ii+1] <= 'F'))
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{
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val += (aSrc[ii+1] - 'A' + 10);
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}
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aDst[ii/2] = (TUint8) val;
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}
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}
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TInt AsciiToNum(const TPtrC8 aParam, TUint8& aVal)
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/**
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* Converts a hexadecimal or decimal value stored in a TPtrC to its TUint value
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*
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* @param aParam TPtr pointing to the hexadecimal or decimal number to convert.
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* @param aVal TUint reference to the val converted.
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* @return TInt Standard error return.
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*/
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{
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_LIT8(KHexPrefix,"0x");
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TInt ret=KErrNone;
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if(aParam.Left(2).Compare(KHexPrefix)==0)
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{
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TLex8 lex(aParam.Mid(2));
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ret=lex.Val(aVal,EHex);
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}
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else
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{
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TLex8 lex(aParam);
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ret=lex.Val(aVal,EDecimal);
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}
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return ret;
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}
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TInt AsciiToNum(const TPtrC8 aParam, TUint16& aVal)
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/**
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* Converts a hexadecimal or decimal value stored in a TPtrC to its TUint value
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*
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* @param aParam TPtr pointing to the hexadecimal or decimal number to convert.
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* @param aVal TUint reference to the val converted.
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* @return TInt Standard error return.
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*/
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{
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_LIT8(KHexPrefix,"0x");
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TInt ret=KErrNone;
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if(aParam.Left(2).Compare(KHexPrefix)==0)
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{
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TLex8 lex(aParam.Mid(2));
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ret=lex.Val(aVal,EHex);
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}
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else
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{
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TLex8 lex(aParam);
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ret=lex.Val(aVal,EDecimal);
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}
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return ret;
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}
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TInt AsciiToNum(const TPtrC8 aParam, TUint32& aVal)
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/**
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* Converts a hexadecimal or decimal value stored in a TPtrC to its TUint value
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*
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* @param aParam TPtr pointing to the hexadecimal or decimal number to convert
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* @param aVal TUint reference to the val converted.
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* @return TInt Standard error return.
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*/
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{
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_LIT8(KHexPrefix,"0x");
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TInt ret=KErrNone;
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if(aParam.Left(2).Compare(KHexPrefix)==0)
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{
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TLex8 lex(aParam.Mid(2));
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ret=lex.Val(aVal,EHex);
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}
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else
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{
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TLex8 lex(aParam);
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ret=lex.Val(aVal,EDecimal);
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}
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return ret;
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}
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TInt AsciiToNum(const TPtrC8 aParam, TInt32& aVal)
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/**
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* Converts a hexadecimal or decimal value stored in a TPtrC to its TUint value
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*
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* @param aParam TPtr pointing to the hexadecimal or decimal number to convert
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* @param aVal TUint reference to the val converted.
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* @return TInt Standard error return.
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*/
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{
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_LIT8(KHexPrefix,"0x");
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TInt ret=KErrNone;
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if(aParam.Left(2).Compare(KHexPrefix)==0)
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{
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TLex8 lex(aParam.Mid(2));
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ret=lex.Val(aVal,EHex);
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}
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else
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{
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TLex8 lex(aParam);
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ret=lex.Val(aVal,EDecimal);
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}
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return ret;
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}
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TInt ParseMixedBinaryAsciiDataL(TDes8& aTextToConvert)
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/**
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Parses aTextToConvert based on the following rules:
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'\\' (double backslash) is used to denote a single '\'
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(single backslash)
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'\xnn' denote a byte of binary data where nn is in hex-decimal.
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The '\xnn' in aTextToConvert is replaced by the binary byte
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that it represents.
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For example: If aTextToConvert contains "abc\\def\xFF",
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after parsing, it will contain "abc\def?" where ? = 0xFF.
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@param aTextToConvert Modifiable buffer which will be parsed.
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@return KErrNone if aTextToConvert is in valid
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EAdditionalParamDataFormatMixedBinaryAndAscii format.
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KErrArgument if aTextToConvert is in an incorrect format.
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@panic KErrNoMemory if there is not enough memory to do the parsing.
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*/
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{
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// Pointer to unparsed portion of additionalParamDataBuffer
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HBufC8* resultBuffer = HBufC8::NewLC(aTextToConvert.Length());
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__ASSERT_ALWAYS(resultBuffer, PanicClient(KErrNoMemory));
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TPtr8 result(resultBuffer->Des());
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// Position of backslash
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TInt pos = 0;
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while ((pos = aTextToConvert.Locate('\\')) != KErrNotFound)
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{
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// Check that the backslash is followed by at least one more character
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if ((pos+1) >= aTextToConvert.Length())
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{
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return KErrArgument;
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}
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TUint8 modifier = aTextToConvert[pos+1];
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// Parse depending on character after the backslash
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switch (modifier)
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{
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case '\\':
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// Next character after the '\' is another '\'.
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// Replace it with a single '\' and move
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// on.
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result.Append(aTextToConvert.Left(pos+1));
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aTextToConvert.Delete(0, pos+2);
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break;
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case 'x':
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// Next character is an 'x' so check that there are three
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// characters after the backslash (one for the x and two
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// characters of HEX.
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if ((pos+3) >= aTextToConvert.Length())
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{
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return KErrArgument;
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}
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// Convert those to HEX and replace '\xNN' with this.
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result.Append(aTextToConvert.Left(pos));
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TUint8 hexAsInt;
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if (AsciiHexToNum(aTextToConvert.MidTPtr(pos+2,2), hexAsInt) != KErrNone)
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{
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return KErrArgument;
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}
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// Append the raw byte to the result
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result.SetLength(result.Length()+1);
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result[result.Length()-1] = hexAsInt;
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aTextToConvert.Delete(0, pos+4);
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break;
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}
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} // End while
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aTextToConvert.Insert(0, result);
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CleanupStack::PopAndDestroy(resultBuffer);
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return KErrNone;
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}
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/**
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Returns the numerical value that corresponds to the numeric character
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of its parameter (in base 17).
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@param aDigit A char between '0' to '9' or between 'A' to 'G'
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*/
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TInt CharToSeptNumL(const TChar& aChar)
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{
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TInt ret = 0;
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if((aChar >= '0') && (aChar <= '9'))
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{
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ret = TUint(aChar) - '0';
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}
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else if((aChar >= 'A') && (aChar <= 'G'))
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{
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ret = TUint(aChar) - 'A' + 10;
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}
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else
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{
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User::Leave(KErrArgument);
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}
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return ret;
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}
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